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• June 2026 Cerebrovascular Disease Issue With Dr. Cheryl Bushnell 03.06.2026 21min

  In this episode, Lyell K. Jones Jr, MD, FAAN, speaks with Cheryl Bushnell, MD, MHS, who served as the guest editor of the June 2026 Cerebrovascular Disease issue. They provide a preview of the issue, which publishes on June 3, 2026. Dr. Jones is the editor-in-chief of Continuum: Lifelong Learning in Neurology® and is a professor of neurology at Mayo Clinic in Rochester, Minnesota. Dr. Bushnell is a Professor of Neurology and Director of the Center for Transformative Stroke Care at Wake Forest University School of Medicine in Winston-Salem, North Carolina. Additional Resources Read the issue: continuum.aan.com Subscribe to Continuum®: shop.lww.com/Continuum Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @LyellJ Guest: @CBushnellMD  Full episode transcript available here Dr Jones: One of the core tenets of our field is that we learn neurology one stroke at a time. But what do we have to learn about preventing them altogether? The science of stroke prevention, acute treatment, and recovery are evolving rapidly, and it's hard to keep up. Today, we're speaking with Dr. Cheryl Bushnell, guest editor of our latest Continuum issue on Cerebrovascular Disease, to discuss these topics and much more.  Dr Jones: This is Dr. Lyell Jones, editor-in-chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about subscribing to the journal, listening to verbatim recordings of the articles, and exclusive access to interviews not featured on the podcast.  Dr Jones: This is Dr. Lyell Jones, editor-in-chief of Continuum: Lifelong Learning in Neurology. Today, I'm interviewing Dr. Cheryl Bushnell, who is Continuum's guest editor for our latest issue on Cerebrovascular Disease. Dr. Bushnell is a professor of neurology and the director of the Center for Transformative Stroke Care at the Wake Forest University School of Medicine in Winston-Salem, North Carolina, where she specializes in the care of stroke patients and their social and functional determinants of recovery and health, and is an internationally recognized expert on those topics. Dr. Bushnell, welcome. Thank you for joining us today. Why don't you introduce yourself to our listeners?  Dr Bushnell: Absolutely. Thank you for the invitation. It's really an honor to be here. So, as you mentioned, I am the director of the Center for Transformative Stroke Care at Wake Forest. It's a really fun transition for me to be involved with different care models for stroke, and I think a lot of the Continuum topics are directly relevant to some of the things that I'm doing now as an administrator and sort of a facilitator of new research. So, thanks again for having me.  Dr Jones: Yeah, and, and you have a wonderful perspective, and we're gonna pull that out today in our interview questions, and I'm looking forward to sharing that with our listeners. But before we get to the questions, we're gonna start off today's podcast with another Continuum Audio trivia question for our listeners. Anticoagulation has played a critical role in secondary ischemic stroke prevention for a long time now. While direct oral anticoagulants have taken on a greater role in the treatment of prevention of stroke, there are still some use cases for vitamin K antagonists like warfarin. The trivia question for our listeners is this: How was warfarin discovered, and how did it get its name? Stick around and we'll share the answer to that question toward the end of our interview today. So, Dr. Bushnell, let's get right to it. You alluded to your various roles, and your leadership in the field has been exemplary. The interventions for acute ischemic stroke have really exploded over the last decade or so, and they get a lot of attention and discussion, but prevention and recovery are just as important in the care of these patients. Tell us a little more about how you approached this issue, about the article topics you chose, etc.  Dr Bushnell: Well, once I was chosen to lead the guest editorship, I wanted to come up with a group of topics that were maybe a little bit different from previous issues. So, I kind of looked at the previous issues and saw, as you said, an emphasis on acute stroke, and that's really important because it has been evolving. But my thought was, how about what happens to patients after they get the intervention and they're discharged home? And because a lot of trainees may not get to see these patients ever again, or it's months before they might see them, or if they're readmitted, which is what we don't want to see, but that certainly is a lot of the exposure is in the inpatient setting. So, I thought I would kind of transport the education into the outpatient and transitional setting, as well as prevention, not only secondary, but primary prevention, with an emphasis on brain health. Some of the populations that may not get as much attention. So, sex differences, stroke in women, pregnancy, the transitions of care, and also the emphasis on holistic view of patients and their challenges, which includes the non-medical factors that drive health, otherwise known as social determinants of health.  Dr Jones: I appreciate that perspective, and obviously th-this is an area of your deep expertise, and it's great to have an issue that really digs into some of those topics a little more deeply. As an educator, I'm really glad you mentioned that about the trainee's perspective. You know, especially junior neurology trainees that are in the hospital all the time. They're seeing patients in the middle of a cerebrovascular catastrophe. But there's a long tail of recovery, right? And they'll get to see that in continuity clinic, but it's a good message to share from an evidence and, um, experiential perspective in the issue. So, appreciate that perspective. You've just read all these articles and edited them. Was there anything that you ran across that was a surprise to you?  Dr Bushnell: Well, I personally chose a lot of the authors based on my knowledge of their work. So, I wouldn't say that it was completely surprising, but I do think that I was just genuinely impressed with the quality of the writing and the synthesis of information. I just was incredibly proud of the work that these co-authors have put together. I'd say that that was-- it wasn't surprising so much as just a sense of pride that I had with the product that's coming out. But of course, there have been some new trials that had to be incorporated at the last minute, some of which were presented at the International Stroke Conference just a few weeks ago.  Dr Jones: Yeah. We try to be as up-to-date as we can, and I will completely agree with you. We have some really good writers in our field, and it's really just a pleasure when you read an article that's by an expert, and it's a joy to read. I can tell you it's one of the best parts of this job, and you get to learn a lot. I think one of the more challenging scenarios that I hear about from colleagues in recent years has been optimal management of patients with asymptomatic extracranial atherosclerosis. The pivotal trials that inform how we manage those patients were from a long time ago, decades ago, predating a lot of the more intensive medical management tools that we have today. In that scenario, Dr. Bushnell, what's the latest on that, and what should our listeners know?  Dr Bushnell: Well, obviously, the CREST 2 trial has been long awaited. It's been going on for over ten years, I believe. Of course, it's, uh, two different trials all in one, the carotid stenting and angioplasty versus intensive medical management. And of course, each of the carotid vascularization arms of the trial also had intensive medical management. And then the other trial is the carotid endarterectomy as the form of revascularization. And it interestingly did not show any benefit of carotid endarterectomy compared to intensive medical management. But of course, the somewhat surprising result was that carotid angioplasty and stenting truly was superior, although it was a small number of events in the trial overall. But that stenting plus intensive medical management was somewhat better than intensive medical management alone. And I think stenting has come a long way in terms of safety, and so I think that's been part of the evolution of the field. I do wanna say that I'm a huge fan of the intensive medical management, and I think that what the protocol does in terms of blood pressure management, cholesterol management is very much above and beyond what's done in private practice even. And the health coaching for all the other things related to diabetes and weight loss and smoking cessation and physical activity, that is what we need to be doing to actually decrease the risk of stroke, and I think that it's very effective. I can't say enough about the design of the study for that reason, that everyone gets the intensive medical management, and then you just layer on the type of revascularization on top of it. So, I wouldn't have been surprised if this was a completely negative trial overall. They just happened to have some better outcomes in the stenting arm.  Dr Jones: I recall a few years ago when the series of endovascular therapy trials for acute stroke came out, and I think there was a, a period of time where the field had to adapt to that. I wonder what you think about with the CREST 2 findings on stenting. I mean, is that gonna be a big change? Because obviously atherosclerosis is highly prevalent. Is that gonna be a big change? Is the field ready for that? How much adjustment do we have in store?  Dr Bushnell: I'm not sure it's gonna be a really big change. If you read the editorial that accompanied the trial in the New England Journal, just a few patients in either direction would have changed the outcome. I kind of look at it as an absolute difference that's relatively small. So, I'm not sure that it will have a huge impact on the field. I do think that the specialists who insert the stents may have some differences of opinion of who should be stented and who shouldn't. Because I think, you know, all of the specialists who do procedures were involved with the trial. But I would say there's a larger percentage of vascular surgeons who were involved, and so I'd say they may have a change of their practice. And neurologists may not even get involved at all.  Dr Jones: Right.  Dr Bushnell: That was one of the challenges for getting patients in the trial is that, you know, not all of us see the asymptomatic carotid stenosis, that they tend to get referred to vascular surgery. So, I think maybe in a corner of the practices of vascular surgeons is where you might see the differences.  Dr Jones: Your point about the way the trial was designed or the trials were designed, that intensive medical management is really important, and we have huge gaps in that. In our specialty, it's, you know, we have probably an opportunity in primary care even to address that. And that leads me to my next question. You know, given your perspective and your expertise, what do you think is the biggest practice gap in the care of patients with stroke or with cerebrovascular disease of any kind?  Dr Bushnell: I think by far the biggest gap is transitions of care and access to follow-up in a specialty clinic after discharge and continuous secondary prevention. We only call it secondary prevention because it happened to come after a stroke, but I really feel like we should just focus on prevention and call it that. There are a lot of people who are trying to kind of, get us away from primary versus secondary prevention. And, and Mitch Elkind is phenomenal and had a beautiful chapter weaving in prevention and brain health. So, I highly recommend that people, if they don't read any other chapters of the Continuum to read his, because I think that it's getting to your point about where the gaps are, and I think prevention is the biggest one. I think we could do so much more in models of care to ensure that there is a pathway once patients are discharged. We have no quality metrics. We have no measurement of how well people are doing after they're discharged. We have all of these fancy things and sophisticated acute treatments, but all of those are for naught if somebody goes home and they fall and they have a severe head injury or hip fracture because they weren't properly supervised or they didn't have the help that they needed at home. So, you got me on my soapbox here for a second, but that is definitely what I see as the gap.  Dr Jones: That's an important soapbox, an important gap, and obviously, if it was a simple problem, we could solve it. But it's obviously something that education is a valuable tool for that, and that's part of why we are including so much content in this issue of Continuum. So, if we put that aside as a gap that we would love to close, when you look into the near future or distant future, Dr. Bushnell, and what's the next big thing on the horizon? New interventions, new prevention tools, or something else entirely? What do you think?  Dr Bushnell: There are two things that I would mention. One is sort of the new category of anticoagulants, antithrombotics, the factor XIa inhibitors. We had an amazing presentation of the oceanic stroke trial at the International Stroke Conference, and this is probably going to be a game changer for the arsenal of antithrombotic therapies that we can offer to patients that do not have a reason for anticoagulation. So, they, they don't have atrial fibrillation, for example, or something else that requires anticoagulation. And so, the factor XI, asundexian, is the drug that they used in that trial. The safety profile is pretty amazing. There was very little bleeding complications and a great benefit in those patients with some degree of atherosclerosis, but, you know, of course, not enough to require carotid revascularization, but then also, um, small vessel disease and cryptogenic stroke. I think those are the three categories of patients, and that's a lot of the strokes that we see all benefited from this new drug. So, I think that's gonna be exciting. There, of course, it has to go through the FDA approval process, and so it might take a little bit of time before that's on the market, and we don't know how much it's gonna cost, but I think it is a, a major breakthrough. And of course, there are other similar medications in that category that are coming. And then I think the other thing is the emphasis on brain health and lifestyle factors and the things that we can do to prevent stroke and dementia because they are the same, essentially. Those are really important. And when we have someone in the hospital with a stroke or a TIA in particular, it's a great teaching opportunity for those patients to say, "Hey, here's what you can do to protect your brain." These are things that we always tell people to prevent a stroke, but just think about it as protecting your brain and keeping your brain as healthy as possible.  Dr Jones: That's a great message, and one that you get to share with patients directly. You're joining us today for this interview. You're on stroke service, so you're actively involved in caring for patients with stroke. What in your practice is the most rewarding aspect of caring for these patients? What is it that you find most rewarding?  Dr Bushnell: I've been involved in a clinical trial that has focused on managing blood pressure and also coaching and other aspects of stroke recovery. I think that has probably been the most rewarding aspect of my career. Until I was involved with this trial, I didn't necessarily do intensive blood pressure monitoring, but I'm seeing the benefits of having data from home, what those blood pressures are over a span of time. I see the immediate or intermediate effects of the blood pressure medication changes that I've made, and I see how the patients respond. So, I have to say that this is not part of usual practice, but I think it should be. And I think it's been incredible from the perspective of a neurologist who is really intensively trying to make the patients' lives better. And it's not just what I do, it's what the health coaches do as part of this intervention. And again, very similar to intensive medical management. So, I, I feel like I've been living it in a slightly different setting than in the CREST 2 trials. But there are other trials that have used the intensive medical management as approach as well. But I would say that's the most rewarding. I've seen people who've lost weight, who are physically fit, who are able to get off of blood pressure medications practically by the end of six months, and that's amazing. And then they continue doing it because they see the benefits.  Dr Jones: You've had a front row seat to a lot of that. That's really got to feel rewarding.  Dr Bushnell: It is, absolutely.  Dr Jones: You know, when you put it that way, it makes me want to go home and check my blood pressure, which I haven't done in a while. But I think that's a message to all of our listeners that we do have plenty of opportunity for risk factor optimization and following the evidence that has been generated and is being generated. Huge opportunity, not only at the population level, but I think the, um, individual patient level too. Okay, so now we're back to our Continuum Audio trivia question, and I'll repeat it for our listeners. How was warfarin discovered, and how did it get its name? Dr. Bushnell and I were talking about this earlier, so I'll just go ahead and share the answer. So, in the early 20th century in the U.S. Midwest, there were epidemics of a hemorrhagic disease in cattle, of all places, and this was eventually traced to moldy cattle feed that was made from sweet clover. And in 1940, researchers at the University of Wisconsin discovered that the anticoagulant in the sweet clover was a compound that was later synthesized for therapeutic use in 1954 as warfarin. And the name came from, uh, the support for the research. The research support came from the Wisconsin Alumni Research Foundation, or WARF, and the end of the word came from the underlying compound, which was coumarin. So that was a little bit of trivia that I had never heard. It's not in the issue, everyone, so you're getting something extra here on the podcast. But been using the drug forever. It still has its uses, even though it's become less advantageous than some of the newer agents. But-- And of course, Dr. Bushnell already knew that when I brought it up, but I just thought that was an interesting bit of history. Well, Dr. Bushnell, thank you for joining us. Thank you for such a great conversation about the latest in cerebrovascular disease. I learned a lot today. I learned a lot in reading these wonderful articles. I hope our listeners learned a lot today as well. I'm really grateful for your hard work on the issue, which I think will come in handy for junior readers and subscribers, as well as our more experienced neurologists as well. Sometimes it's hard to keep up with a rapidly changing subspecialty of our field. So, thank you for joining us today.  Dr Bushnell: Thank you for having me. It's been my pleasure.  Dr Jones: Again, today we've been speaking with Dr. Cheryl Bushnell, guest editor of Continuum's most recent issue on cerebrovascular disease. Please check it out, and thank you to our listeners for joining today.  Dr Monteith: This is Dr. Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. Thank you for listening to Continuum Audio.
• Family Planning in Neuroinflammatory Disease With Drs. Ruth Dobson and Kerstin Hellwig 27.05.2026 24min

  Balancing disease control with pregnancy and neonatal considerations in people with neuroinflammatory disease throughout the family planning, pregnancy, and postpartum periods is crucial. Modern treatment paradigms enable women to safely become pregnant and breastfeed alongside effective disease management. Shared decision making is an important part of this process. In this episode, Kait Nevel, MD, speaks with Ruth Dobson, MD and Kerstin Hellwig, MD, authors of the article "Family Planning in Neuroinflammatory Disease" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Nevel is a Continuum® Audio interviewer and a neurologist and neuro-oncologist at Indiana University School of Medicine in Indianapolis, Indiana. Dr. Dobson is a professor in the Centre for Preventive Neurology at the Wolfson Institute of Population Health, Queen Mary University of London, and a consultant neurologist in the Department of Neurology at the Royal London Hospital, Barts Health NHS Trust, in London, United Kingdom. Dr. Hellwig is a professor in the Department of Neurology at Katholisches Klinikum, Ruhr‑Universität Bochum, in Bochum, Germany. Additional Resources Read the article: Family Planning in Neuroinflammatory Disease Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @IUneurodocmom Guest: @drruthdobson Full episode transcript available here
• Palliative Care in Multiple Sclerosis With Drs. Penelope Smyth and Janis M. Miyasaki 20.05.2026 28min

  Palliative care in multiple sclerosis spans the disease course, from early screening and support after diagnosis to symptom management and quality‑of‑life optimization in midstage disease, and end‑of‑life care in advanced MS. This episode outlines a staged approach to palliative care, highlights the roles of neurology and primary care teams, and discusses tools such as patient‑reported outcomes and symptom scales to support ongoing assessment of patients and care partners. In this episode, Katie Grouse, MD, FAAN, speaks with Penelope Smyth, MD, FRCPC and Janis M. Miyasaki, MD, MEd, FRCPC, coauthors of the article "Palliative Care in Multiple Sclerosis" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Grouse is a Continuum® Audio interviewer and a clinical assistant professor at the University of California, San Francisco in San Francisco, California. Dr. Smyth is the director of the Division of Neurology in the Department of Medicine at the University of Alberta in Edmonton, Alberta, Canada. Dr. Miyasaki is a professor in the Division of Neurology in the Department of Medicine at the University of Alberta and the zone clinical department head for Clinical Neurosciences at Alberta Health Services in Edmonton, Alberta, Canada. Additional Resources Read the article: Palliative Care in Multiple Sclerosis Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Full episode transcript available here Dr Grouse: With the new treatments for MS, people might be saying palliative care is not relevant at all. It's about giving up hope and hopelessness. But this article covers why palliative care is important for your patients and families throughout their illness trajectory. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast.  Dr Grouse: This is Dr. Katie Grouse. Today, I'm interviewing Drs Penelope Smyth and Janis Miyasaki about their article on palliative care in multiple sclerosis, which appears in the April 2026 Continuum issue on multiple sclerosis. Welcome to the podcast, and please introduce yourselves to our audience.  Dr Smyth: Thank you, Katie. I'm Penny Smyth. I am a neurologist at the University of Alberta, a professor in neurology, and a clinical multiple sclerosis specialist.  Dr Miyasaki: Hi, Katie. Thanks for having us. I'm Janis Miyasaki. I am a movement disorder neurologist primarily who also provides neuropalliative care at the University of Alberta in Edmonton, Canada.  Dr Grouse: It's so great having you today to talk with us about your article. I thought this article was really a wonderful take on the topic. I learned a lot, and I'm really hoping all of our listeners will take advantage of this article and take advantage of all the learning they can get from reading about this topic. So, I wanted to start with a more general question, which is, what is the key message from this article that you're hoping your readers will take away?  Dr Smyth: In terms of key takeaways, I think it's our hope that neurologists will come away from reading this article with, really, an expanded understanding of what palliative care is and how that might be applicable to them in their care for their patients with MS along a continuum of treating people with MS, that there can be components of palliative care and strategies that can be integrated early after diagnosis in, really, anywhere along the continuum of caring for people with MS. We've called that kind of mid-stage. And then there are particular needs for people with MS and their care partners in late-stage or severe MS and end of life that might require different palliative care strategies. I think we kind of have maybe a bit of a bias sometimes in thinking of palliative care as more directed towards those that are near end-of-life. But in fact, it's a much expanded concept.  Dr Miyasaki: And I'll just add that we also discuss a palliative approach, that palliative care skills and philosophies can be used by generalists---in this case, neurologists who are providing care to people with MS---and that adopting certain skills and communication techniques can help us better address our patients' and their families' symptoms. And also to keep in mind that for most people with neurologic illness, the unit of care is not only the patient, but it's the patient and the family, however that family looks.  Dr Grouse: Now, Penny, I'm curious, how are early-stage and mid-stage multiple sclerosis palliative care strategies different from, say, a typical evaluation and counseling that a neurologist would give, say, an MS specialist or even a general neurologist?  Dr Smyth: Thank you, Katie. That's a great question, and something that actually I learned in writing this piece with Janice and from her as a neuropalliative care expert. I think in terms of early strategies around palliative care that can be helpful to the general neurologist in their office, palliative care is about holistic support for patients and their care providers spiritually, emotionally, physically. There are components of palliative care and symptom management and making sure that the patient is at the center of the care, as well as support for their care partners with their holistic approach of relief of suffering as well as offering hope. When I started this piece, I was thinking that many of us neurologists, I think, often informally utilize many of these components already when we're dealing with patients early on after diagnosis in terms of communication, counseling, and education; going through their fear of an uncertain future; spiritual well-being; and then connecting them with supports for adaptive coping strategies. And then as well in mid-stage, which is really around what we can do in symptom management and improving quality of life, with screening tools and patient-reported outcome measures. However, I have to say that there are many unmet needs for people with MS and their care partners that they identify that are clearly not being met by us neurologists in this day and age. So even though we may be incorporating some of these strategies, I don't think we're meeting the mark all the time and hitting the target, especially in our busy office practices, in various ways. Dr Grouse: Given that, at a high level, what are some important early-stage MS palliative care concepts that we should be keeping in mind when we are counseling patients in these stages of the disease? Dr Miyasaki: An important concept to keep in mind for neurologists dealing with early-stage MS patients is that for us, we feel successful that we have made a diagnosis. And yet for the patient, it is taking away that hope. Maybe it's not MS. Maybe I just have a numb hand and it's gonna go away. And for us to appreciate that while we make this diagnosis multiple times a week---or, for MS specialists multiple times a day---for this person, it is the first time, the first experience, and it shakes their entire foundation of who they are as a person, how they will perform all the tasks and roles that they have in society, in their professional lives, in their family structures, and in their close, intimate relationships. As physicians, we may be overwhelmed by acknowledging that. I feel that it's important for us to understand the needs that our patients have and to allow them to have their feelings. You know, feelings can feel messy and time-consuming, and yet when we fully see our patients, I feel that this is the best of medicine. And it certainly is, in terms of palliative care, the principle that we seek. We accept all of the patient, the joy and the sorrow, the anger and the frustration. We accept it all, and we try to determine what will serve this person who is suffering in front of us now.  Dr Smyth: There's another piece to this, which came up as Janice and I were writing together. We were talking about offering a prognosis to a patient as to how they would do, and this was something that I thought deeply about, because I said, we always communicate how uncertain the prognosis is and how we can't predict the future. And then she said to me, well, what about offering a roadmap to a person with MS soon after diagnosis as to how you're gonna determine how they do over the next couple of years? Which are really important years in terms of determining how patients are doing on their disease-modifying therapies, whether they're having progression or not, and things. It's a pivotal time. So, if you can offer a roadmap to a person with MS and say, look, this is when we will be following you up. This is how we will be following you with MRI and biomarkers if you have that available, and this is how we will determine how responsive you are and then how we move forward from there. Dr Grouse: Really important concepts. And the roadmap certainly makes a lot of sense to me and something that, apart from just being useful to the patient for so many reasons to help set expectations, you know, is useful for us to better partner with the patient so they understand this is sort of how we do things and everyone's sort of expectations are met. So, I think those sound like really great goals and things to keep in mind. Now, we talked about early-stage MS palliative care concepts. How does that change as you get into the mid-stage of the disease?  Dr Smyth: Yeah. So, this is reflecting the fact that the course of MS is so different and the experience of MS is so different person to person. And so, what do we do as neurologists when we follow these people long-term over years and decades of living with their MS as their needs evolve, as their symptoms evolve, and as their disability evolves? Well, really, this is about the time of getting into, what are the symptoms that they're struggling with, what are the causes of their suffering at various points? And then how do we identify that, maybe with use of patient-reported outcome measures, screening scales, things like that. And then how do we direct symptomatic management to the specific symptoms that are causing distress to the patient? As well as trying to improve their quality of life in various ways, treating their comorbidities, making sure to check on exercise, healthy living, and that kind of thing.  Dr Grouse: Now getting into, I think, topics that we're more used to thinking about when we think about palliative care: a lot of us, I think, are really unsure of the right time to discuss advanced care directives in the course of multiple sclerosis, and I think that's not helped by the fact that many of us are just, in general, not terribly comfortable talking about those types of things in general. What is your advice to questions like this?  Dr Smyth: And this is something that, again, Janice and I had to come together on, because there is no universal accepted time for when is the right time in multiple sclerosis to discuss advanced care directives and goals of care. And in fact, when they have looked at it in the literature, different things have come out. It has come out that neurologists can be uncomfortable discussing this. There's unique challenges to people with MS in that they have a diagnosis at a young age with an uncertain trajectory of how their course of disease is going to go. And many of these things lead care providers to be somewhat hesitant as to when is the right time, as well as, there were identified barriers within patients themselves as to when the right time might be to discuss. In that, you know, some of the coping strategies might be, as identified by some of the qualitative studies that have been done on this, around the fact that they would prefer to focus on the present rather than the future. In some studies expressed an ambivalence as to when they thought the right time might be, as well as some negative experiences that they might have had from providers trying to discuss these things in their previous experience. So, I went back to looking at the European guidelines for palliative care in MS, who suggested when a person might have severe MS---which they define as walking with bilateral aids for at least twenty meters or an EDSS of six or higher---or trigger-based, when there has been a change in the patient's status, when there's been a decline in some way or progression. Now, this is a little different, actually, than what we offer other people with neurologic diseases, and I don't know if that's the right answer. And this is where I'm going to turn it over to Janice, because I think we could learn something, as neurologists who treat people with MS, from our palliative care specialists.  Dr Miyasaki: I think of advanced care planning in a very different way. I think what a lot of the patients were expressing in the studies was that being asked about advanced care planning signaled to them in some way that they have reached this point in their illness where things aren't going so great and I anticipate that you may run into complications. Whereas in our movement disorder clinic, one of our fellows did a study looking at capacity for decision-making. And even in people who scored normally on the Montreal Cognitive Assessment, they had impairments in some of the domains of decision-making. And so, our philosophy in movement disorders at least---and some of our patients are quite young who have multiple system atrophy, they could be in their forties---we take the philosophy that everyone over the age of decision-making capacity, which is generally eighteen, should have some goals of care established. And how I introduce it in my clinic is, you know, for the young resident, you want the full-meal deal, because the likelihood of the resident surviving the ICU admission is very high. And then when we look at me, who… I am older, the likelihood of surviving an ICU admission is considerably lower. And so, the appropriate goals of care might be that I am willing to go to the ICU, and if things go well, then they can continue. But if things are not going well, they can have a discussion with my personal directive or power of attorney to talk about what the goals of care should be. And then the other aspect is sometimes having the conversation with family is really important because most of our families in hospital express an uncertainty. Am I doing the right thing? And they want to do the right thing for their loved ones. And most people actually say, if you ask them, I don't want to burden my family with making decisions that are going to tear at their hearts. So, then we can't actually make good informed decisions for our loved ones unless we have clear conversations. I think it does speak to our superstitious beliefs that if we talk about death, it's going to happen. But I hope the listeners will take my word for it, it really doesn't. And someone had a really good saying about the advanced directive. They're kind of like evening clothes. You should take them out every once in a while and make sure they still fit. And so, when you normalize it in this way, it helps people to just say, oh, yeah, it's once a year. Dr. Miyasaki is gonna ask me about how do I feel about those goals of care. And then it doesn't have this portent of, oh, I'm not doing well. Instead, it's just, this is what we should all be doing for our sake and for our family's sake.  Dr Smyth: Now, one thing that I have to add on to this is that it is important to try to establish advanced care directives before patients experience cognitive decline, because then that can make it a much more challenging conversation and brings nuances of challenge into the interactions, which, you know, are hard.  Dr Grouse: And Penny, I'm glad you brought that up, because I was really struck by that point too when reading this article, how easy it is to miss the subtle signs that cognitive changes are happening. I think it's just- it's a good kind of segue into that topic in general, but it is such an important link to, you know, making sure that you get those advanced directives at a time when the patient's really able to express and understand what they're talking to you about. Now, on the topic of the cognitive screenings, what's a good way to do this type of screening, and why is this type of screening so particularly important in the case of multiple sclerosis?  Dr Smyth: Yeah. Thank you, Katie. I think that it's important for our listeners to think about and recognize when we see our patients with MS because it is one of the invisible symptoms that people with MS can live with and may not be apparent on regular conversation in the office. So, it's important to deliberately ask about subjective challenges in cognition. Ask the partner about how they're doing in terms of their cognition in various ways. As well as asking them and exploring then, how are they doing in their professional roles if they're working or in their surroundings? How are they coping on a daily basis on a cognitive level in addition to a physical level? We know that cognitive issues are actually the biggest contributor for not working and are a huge driver of disability in MS in terms of functioning, even more than physical decline in many ways. So, it is important for us neurologists to keep top of mind and to think about and deliberately attend to. There are screening tests that we can do in the office. The easiest for us, which measures the verbal processing speed, is the SDMT test, which is a ninety-second test matching symbols and numbers. It's easy to do. You can train a MOA to do it before you see the patient and things like that, and it just gives you an idea as to where the patient is at. And usually they're having difficulties if they're greater than two standard deviations below the norm for their age, or if there's a significant drop of four or eight points, and that might signal to you that there might be more going on. You can explore it, and then if you do have this available, the ability to refer for neuropsychological testing if there's questions. But often we can't get it with the MoCA score, unfortunately.  Dr Grouse: Talking about all these concepts, I think they all sound great. I think a lot of us hearing this will naturally say, "Yes, these are absolutely things we should be incorporating in the care of these patients." What I wondered about was, certainly we're all very busy, it is really hard to find time for a lot of these things. We don't always have access to specialists who can help us with some of these conversations. How can we find time, and how can we work this into the care of our patients effectively and still make time for all the other things we have to talk about, and make sure that we're seeing all of our other patients and staying on time and all of those things?  Dr Miyasaki: Yes. I think that's the challenges of dealing with people who actually, over time, their care needs increase, is huge in neurology. I can't think of a single subspecialty where care actually gets easier. It's constantly getting harder. You know, having come from private practice, I completely understand my colleagues' challenges in the community. Some of the ways that other groups have managed this when they don't have government or university support in their center is actually to look at not-for-profits. There are a lot of not-for-profits that can help in terms of wayfinding for social services, explaining to the patients and the family what is available to them. And in fact, some of them can also provide some cognitive supports, as well as point them in the way of day programs. And many of them have very established caregiver support groups, as well as patient support groups for various stages of their illness. So, I think it requires for the individual or small or even a large group practice to be inventive, to look in your community and see what resources are available and free for your patients in order to establish that loose team without boundaries to help your patients. Of course, for those in academic centers, I know that times are tight for all of us, and if you haven't established a team, it is a challenge; and then learning how to write a business plan or a briefing note for your institution and to learn how to speak the love language of administrators, is really key to putting forward the needs of our patients. Which, compared to heart attack patients or hips and knees, they are very rare, and yet our patients can result in significant cost to the healthcare system. So, we do have an opportunity to make the case that putting a little bit of investment in the ambulatory setting can result in significant cost savings to the system when it comes to acute care hospitalization.  Dr Smyth: So, I was thinking, Janis, as you were talking about that, when you were talking about not-for-profit groups, it's really the MS societies in various countries that are very active in this and have a lot of resources available, especially for care partners.  Dr Grouse: Those are really great tips. Thank you for bringing those up as potential other resources we can take advantage of. I wanted to ask specifically about physician-assisted death and assisted suicide, which certainly does come up, especially in later-stage parts of the disease. How can palliative care specialists be helpful when patients do express interest in these types of interventions?  Dr Miyasaki: As you know, Katie, in Canada, we've had a legislative right to access to what we call medical assistance in dying. When the legislation passed, one of my other colleagues and I felt that these were the only conversations we were having with our patients. In all this experience, I have sort of developed in my mind a framework of people who are what we call MAID-curious. They want to know what their rights are and how it would look, when they feel the time is close, for them to exercise that right. And then there are those who are fearful of future suffering. And some of them may have a very unrealistic view of what the future will look like. And this may be in particular for multiple sclerosis because many of the public's view is based on what treatment was like thirty years ago. It may not be informed by more recent treatment where patients actually do quite well, and the majority never get to progressive MS. And so, to explore and be open to that request is the first thing that is important. And then if the person has unresolved symptoms that, traditionally, we can't care for, the palliative care specialist can be very helpful because they just have inventive ways of looking at things. They look at it outside the box, and they have a different toolkit available to them. I would not want all neurologists to just send all these patients requesting physician-assisted death to their palliative care colleagues. But I think for those who are having unaddressed symptoms, it can be very helpful. Certainly, if there is an acute event in the hospital, then this is a time of crisis. And often hospitals will have an in-hospital palliative care team who can come and speak to the patient about what is going on and address some of their needs. And I would also like to emphasize the importance of spiritual care, because for many of our patients, they are not just having the physical suffering, they are also having the spiritual suffering of hopelessness or of feeling that they are a burden or that they just are not seen because a lot of the symptoms in MS are invisible. To have that understanding by a spiritual care counselor is really helpful for the people to feel understood and to reduce some of that suffering.  Dr Grouse: That's a really great point, I think, to end on, and I think it really ties in a lot of the themes that we've been talking about today. Thank you so much for coming to talk with us today. It's been such a pleasure having you both here. Dr Smyth: Thank you. Dr Miyasaki: Thank you, Katie. Dr Grouse: Again, today I've been interviewing Drs Penelope Smyth and Janis Miyasaki about their article on palliative care in multiple sclerosis, which appears in the April 2026 Continuum issue on multiple sclerosis. Be sure to check out Continuum Audio episodes from this and other issues, and thank you to our listeners for joining today.  Dr Monteith: This is Dr. Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Infection Risk and Vaccine Considerations in Multiple Sclerosis and Related Disorders With Dr. Avindra Nath 13.05.2026 27min

  Advances in immunotherapies for multiple sclerosis and related disorders have increased the risk of infections and raised important questions about vaccination efficacy. This episode reviews infection risks across treatment classes, emphasizes the importance of monitoring and patient education, and discusses optimal vaccine timing to preserve protective immune responses. In this episode, Aaron L. Berkowitz, MD, PhD, FAAN, speaks with Avindra Nath, MBBS, FAAN, coauthor of the article "Infection Risk and Vaccine Considerations in Multiple Sclerosis and Related Disorders" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Berkowitz is a Continuum® Audio interviewer and a professor of neurology in the Department of Neurology at the University of California, San Francisco, in San Francisco, California. Dr. Nath is the chief of the Section of Infections of the Nervous System at the National Institute of Neurological Disorders and Stroke, National Institutes of Health, in Bethesda, Maryland Additional Resources Read the article: Infection Risk and Vaccine Considerations in Multiple Sclerosis and Related Disorders Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @AaronLBerkowitz Full episode transcript available here Dr Berkowitz: Over the last decades, there has been a revolution in the treatment of multiple sclerosis, neuromyelitis optica spectrum disorder, and other immune-mediated neurologic conditions with countless new, highly effective medications. However, with every new treatment comes new risks; and in the case of immunomodulatory therapy, many of those risks relate to infection. Today, I have the privilege of talking with an expert on this topic, Dr Avindra Nath, about the infectious risks of treatments for multiple sclerosis and other immune-mediated neurologic disorders.  Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast.  Dr Berkowitz: This is Dr Aaron Berkowitz, and today I'm interviewing Dr Avi Nath about his article on vaccine considerations and infection risk in multiple sclerosis and related disorders, which he coauthored with Dr Amit Bar-Or. This article appears in the April 2026 Continuum issue on multiple sclerosis. Welcome to the podcast, Dr Nath, and could you please introduce yourself to our audience?  Dr Nath: Thanks very much for inviting me to this podcast. I'm absolutely delighted to have the opportunity to discuss our areas of interest and expertise related to infections and vaccinations for MS patients. My area has been studying the infections of the nervous system since the beginning of the AIDS pandemic, and over the years and decades, we've developed expertise related to various types of CNS infections. That includes ones that are developing in individuals who have immune compromise due to a variety of different reasons. Dr Berkowitz: Fantastic. Well, glad to have the opportunity to speak with you today. When I was in medical school---and you were my attending, actually, we were just reminiscing, which we probably think was not that long ago, but is now over twenty years ago---there were just two medications for MS, right? Beta interferon and glatiramer acetate. And now we have over a dozen, and it's amazing to think of all the progress in these last two decades, as well as for related diseases like NMO. I don't think we even had the aquaporin-four biomarker, right, when I was working with you as a med student in the early 2000s. Dr Nath: And that certainly dates me a lot.  Dr Berkowitz: Both of us.  Dr Nath: Yeah.  Dr Berkowitz: Of course, with all these new treatments, these have been amazing advances for our patients, right? But these come with new treatment-related risks to monitor for with the immunomodulatory medications for MS and related disorders. And one of those most important risks is that of infection. So, your article reviews the potential infectious complications of medications used to treat MS, NMO, etc, and also covers considerations related to thinking about vaccines in this patient population. So, as the MS treatment landscape grows, I can say as a general neurologist, keeping up with all these medications and what to screen for and what to worry about and when to vaccinate just becomes more challenging every year. And your article has so many helpful tables, some organized by medicine, some organized by- sorry, medication, some organized by infection, some by vaccines. So, this is gonna be a great resource for our providers to print out and tape up in their clinic rooms. We won't be able to get into all the depth and detail that you have in this article today, but I do want to focus on some of the key points here related to the common medications we use for MS and which infections to think about and which vaccine considerations we might need to keep in mind for these medications. But before we delve into the drugs, I just wanna ask you more broadly, you talk in the article about the challenge of patients with immune-mediated diseases who are on immunomodulatory therapy being at risk for both flares of their disease and for infections; and these infections can present somewhat atypically, right, in immunomodulated hosts, to maybe coin a term you can correct me on, because they can't mount the full inflammatory response. So how do you approach new symptoms in patients on these immunomodulatory medicines as far as distinguishing disease flare from a treatment-related infection?  Dr Nath: So, I have to say that although a lot of new treatments have come along for MS, and they've really, you know, improved the outcome tremendously and there are so many different options, it has also kept people like me relevant because they cause a lot of various types of infections, and so keeps me in business all the same. But just as you mentioned, there's so many of them, even I have difficulty keeping track of what does what. So, you do need to be able to refer back to published literature, and the tables, I hope, will be quite useful in that regard. You're absolutely right, and you can get new infections, you can get reactivation of existing infections, and you can get atypical presentations of various types of infections that you may not normally think of. So that presents multiple challenges to the treating physician. The other interesting thing about MS is, just as you mentioned, that you already have CNS lesions to begin with. Now, on top of it, you have an infection, so now how to sort out what is the existing disease and what is the infection, it can again become challenging. But one thing is for sure: all these infections are caused by an organism. So, what you really need to do is, the underlying diagnostic is to demonstrate the presence of the organism. Whether you demonstrate it depending on the infection in the spinal fluid or in the brain or, you know, some peripheral organ system, that is going to be key to making the diagnosis. So, all your clinical acumen is good, but that alone may not be sufficient. Dr Berkowitz: Very good. So, when you see a, a patient now who has a new neurologic symptom in the context of an immune-mediated disease who's on immunomodulatory therapy, what goes through your mind? Are you thinking this disease and this drug, and sort of what are the infections, and does the syndrome match? Or are you thinking, you know, you can't always rely on the imaging to distinguish between, say, a flare of an MS and PML because white matter lesions could look similar? How do you sort of approach this scenario when it comes up?  Dr Nath: So, you're right. You have to keep an open mind so that even though you know some infections are more likely to occur with certain types of medications, that doesn't mean that others cannot occur. So, I think when you first see the patient, you should not jump to conclusions, but rather have an open mind. But yes, for example, your patient is on natalizumab, the chances of PML are going to be high. It's a very interesting drug. It does not cause immune compromise in the periphery, but what it's doing is preventing these cells from getting into the brain. So, because then it's acting at the blood-brain barrier. So that means that organisms that are already present in the brain have an opportunity to get reactivated. Turns out you don't have a lot of organisms in the brain, except JC virus seems to be one of them that does somehow, in some individuals, manage to reside out there. And so that can get reactivated. It can get reactivated in the periphery and then enter the brain, too. So, where the very specific mutations have to occur in that virus in order to take residence in the brain. That would be a suspicion that you might have, and MRI can be useful in, again, helping you think about that possibility. If you have typical lesions involving the U fibers, they're demyelinating, usually you do not have much edema around them because patient is immune compromised, but certainly within the brain in these individuals. And so, then you need to demonstrate the organism. The demonstration of the organism should be in the spinal fluid and not in the blood because in the virus, it can-- is reservoir in the kidneys and in the lymph nodes, and periodically it'll shed into the blood. Detection of the organism in the blood can be a false positive, but in the spinal fluid, it shouldn't be there unless you have an infection. Or if you cause a traumatic tap, I guess, if a patient is viremic, that's a possibility, but those are extremely rare. So at least for PML, that's the way that you would diagnose it. Now, you can develop, for example, if an individual is on fingolimod, you can get a wide variety of infections. Here it's a totally different type of mechanism of action. Here the cells are trapped within the lymph nodes, so that means now your entire periphery is immune compromised, right?  So here you can get viral infections, bacterial infections, fungal infections. So here, if a patient presents with new neurological symptoms, you have to have a really open mind for all these possibilities. Now, let's say a patient was on dimethyl fumarate, and dimethyl fumarate causes neutropenia early on. So here you have to worry about an individual developing bacterial infections, so latent tuberculosis or bacterial meningitis can occur in these individuals. That's something to keep in mind. It's not that other infections cannot occur with dimethyl fumarate, you can see PML and other things too, but the chances of bacterial infections are greater. So, you got to make sure that you draw all the cultures for that purpose. Similarly, if you're on a complement inhibitor, like a C5 inhibitor or the thing that I could use in NMO, there are the chances of meningococcal meningitis. So, these patients, you need to prevaccinate them before you start these kinds of treatments and look for that possibility. When you suspect bacterial infections, particularly acute bacterial meningitis, there time is of essence. Also, in some of the acute viral infections, for example---herpes encephalitis is another one---you have to be so careful, and if you suspect any of them, even if they're with possibly atypical manifestations, you treat first and then diagnose later, and draw all your cultures, whatever you need to, and just treat them. And these infections can also cause cerebral edema, so one has to be careful about doing spinal taps in these individuals. You want some kind of neuroimaging before you do them. In the days when we didn't have neuroimaging, we used to say, "Okay, if your patient has focal neurological signs or is comatose, you don't do it." But these days, you can get imaging very quickly and very easily. All the-- Because of our stroke management, we've learned how to do them so quickly. So, I think there's little excuse not to do imaging and prevent herniation from occurring.  Dr Berkowitz: That's very helpful. So, using the information we know about the drug, and we're going to rapid-fire review some of that in a bit to know what infections the patient is susceptible to, but acknowledging that any patient can get any infection, right? Whether they're on particular medications or not. And then if you're not sure, based on the neuroimaging, which as you said, is helpful, but not always helpful in distinguishing between infections and flares or, as you said, in the case of meningitis, encephalitis, early on at least, especially in immunocompromised or immunomodulated, quote unquote, patient might not see the typical imaging. So really, when safe, getting CSF or cultures, PCRs, and other infectious studies too is really gonna be the definitive diagnostic maneuver here. Is that fair summary across the board?  Dr Nath: I think you said that absolutely right. And you summarized that correctly. And, you know, thing about infection, a lot of neurological diseases are, you know, diagnosed by clinical acumen, like your Parkinson's and Alzheimer's and others. Think about infections is caused by an organism, demonstrate the organism, right? That should be your goal. It doesn't mean that clinical acumen is not important, but here you have an opportunity to demonstrate the organism, so you should depend upon that.  Dr Berkowitz: Okay. Well, you gave us a nice segue by talking about some of the infections to worry about with some of the medications. So what I'd like to do now for the sort of second half of our interview here is to go through some of the more common medications used for MS, and if we have time, for NMO, and just sort of go kind of rapid fire here, and for each medication, if you can tell us the kind of top infectious concerns and whether when to consider them or what screening needs to take place before or during administration of the medication, and then any vaccine considerations we should be aware of. Some of these will obviously be quite short depending on the medicine. So, going back to the two medications I alluded to earlier that were the only ones in play when you and I last saw each other on the wards when I was a medical student, beta interferon, glatiramer acetate, any infections or vaccine considerations with these medications?  Dr Nath: No, I think they're probably your safest medications now as far as immunomodulatory therapies are concerned. These two, and IVIG, if you ever use them, are probably the safest, do not require any vaccine considerations, per se. Dr Berkowitz: Perfect. Okay. So, moving on to fingolimod and others in the sphingosine-one phosphate receptor modulator family, what are the infectious considerations? Any prescreening or vaccination considerations?  Dr Nath: I think all your patients should be prescreened for antibodies to JC virus, because there is a risk for PML, and those who are positive should be closely monitored. So, it's not an absolute contraindication for using these medications, but they just require closer monitoring. With this class of drugs, PML is of consideration. Also, these varicella-zoster virus infection, yeah, with that you can develop zoster encephalitis or myelitis. It can present with motor symptoms as well, which can be atypical. You don't usually see them otherwise in immune-competent individuals. So, varicella-zoster, sometimes you can develop encephalitis, also vasculitis with varicella-zoster, so one has to be careful. So, getting the shingles vaccine can be actually very helpful to prevent these things. And then some patients can even develop herpes simplex encephalitis also, and that can be extremely atypical. So, they don't- they can involve the basal ganglia, can involve the brain stem and cerebellum. So again, your index of suspicion should be very high. Interestingly, although HSV encephalitis has been associated with NMDA receptor encephalitis, those reports of NMDA receptor encephalitis have not been published yet with NMS patients. Not sure why, maybe they just have been missed. But that doesn't seem to be a major concern. And then there are a whole host of other infections that can occur with this class of drugs, and that can include toxo; fungal infections, particularly crypto. There's a case report of histoplasmosis; hepatitis virus, particularly hepatitis C; and then the poxvirus is a good example. You can get molluscum contagiosum; warts with papillomavirus; you can get atypical mycobacteria; and even Kaposi sarcoma, which is HHV8. So, there's a huge variety of infections with the sphingosine one phosphate receptor modulators.  Dr Berkowitz: And any- aside from screening for JC virus before initiating these, any- and then continuing to monitor for JC antibody index, any other considerations as far as labs to send, monitoring before or on the drug or vaccine considerations for patients on fingolimod and the others in this category, siponimod, etcetera?  Dr Nath: Yeah, there are a lot of things to consider. All the details are really available in the chapter if you look at them. But briefly, all the things that one could potentially vaccinate patients for, all these infections I mentioned, one should do so. The timing is critical so that if you can do it before treatment, I think, before starting treatment, that is absolutely important. And you got to give them at least, you know, two to three weeks for these vaccines to take effect before starting your medication. If your patient already arrives on a medication, then you got to play this game of you know, before the next dose, give them again two to three weeks before the next dose and start vaccinating them and get all the vaccines in. Broadly, about the things to worry about the vaccines are you have live vaccines, and you've got the inactivated vaccines or the subunit vaccines. You have to be careful with live vaccines, because if your patient is immunocompromised, that virus can sometimes itself cause harm. For example, you know, yellow fever is one, and there you can develop encephalitis from it. Measles, mumps, rubella, these are all live vaccines. Now, the good thing is that a lot of us have been immunized very early in childhood, but that may not be the case any longer. And so, these things, one has to be very careful with when you're giving live vaccines, that we want to avoid them as much as possible, and individuals are gonna be immune-compromised. But all the others, meningococcus, for example, you should- the HPV vaccines, the varicella zoster vaccines, all these things, you've got to pre-vaccinate and make sure that they have an antibody response to them before starting immunocompromising therapy. Dr Berkowitz: Perfect. Okay, moving on to some of the other orals. What infectious and/or vaccine considerations do we have with teriflunomide?  Dr Nath: Okay, yeah. Teriflunomide is a very interesting drug. It's relatively safe. There is concern about the possibility of varicella zoster infection, people have reported that, and also tuberculosis. But PML is extremely rare, if not at all, and we haven't seen herpes encephalitis quite yet.  Dr Berkowitz: Got it. How about dimethyl fumarate? Dr Nath: Yeah. So dimethyl fumarate is... as I mentioned earlier, it's interesting because it causes this neutropenia. It's transient, but it occurs early on, and these patients can be at risk of PML, although small. They can develop varicella zoster virus infection, herpes encephalitis, and also fungal infections. For example, cryptococcal infection has been reported with dimethyl fumarate. Dr Berkowitz: Okay. We've spoken a bit about natalizumab and PML, and you have extensive information on this in your article, and I'll defer the reader to that. But for natalizumab, what are the key points every neurologist should know about natalizumab and PML as far as from the practical perspective, screening, frequency of screening, when to worry, when to not use natalizumab at all in the first place based on what you find in your screening for JC virus? What are the key points every neurologist should know?  Dr Nath: Uh, yes. You bring up an important point, and that is all patients should be monitored for JC virus. If they're JC virus-negative, so that's your most ideal patient to go on natalizumab, but that doesn't mean they cannot get infected with the virus. In fact, there's an interesting study claiming that, you know, patients, when they get these infusions, they're all sitting in the same room getting infused. Some have JC virus, some don't have JC virus, and so there's the potential that we may be aiding the transmission here in some way or another. The virus is an interesting one. It comes out in urine, and then it's spread through oral contamination, gets into the tonsils, and then spreads from there to your marrow and resides in the kidney and the marrow, as well as the lymph nodes, forever. So, you, you have to monitor these patients to see that during the course, even if they're negative, they could turn out positive. So, every six months or a year, an antibody test should be done on all patients irrespective. If a patient already has antibodies, that's not an absolute contraindication. It just means you've got to monitor them closely for development of new symptoms, and if, whenever there are new symptoms, don't just assume this is due to MS, but just make sure the MRI is done with and without contrast. The- and if there's still a suspicion, that you do a CSF evaluation for JC virus. Just detecting, looking for JC virus in the blood, a rising titer is another thing that can help you. And so, the titer is also important. And the reason you have rising titers is it means that there's an infection that's already occurred in the brain, and the immune system is reacting to that infection by increasing titers. But that alone is not sufficient to make the diagnosis. You still- that gives you an index of suspicion. You've got to then do the MRI and the spinal tap to, you know, be absolutely certain. So, each patient is a little bit different, so the way you monitor them is going to depend on where they are. You know, if they've had prior immunomodulatory therapy before starting natalizumab, or if they're on natalizumab for more than two years, then the chances of PML are much greater, so you may want to monitor them more closely. Uh, they never had any prior immunomodulatory therapy, you're just starting natalizumab, maybe once a year is sufficient. So, I think you've got to tailor it depending on what your risks are for each patient. Dr Berkowitz: Perfect. That's very helpful. And again, you write extensively about PML and natalizumab and PML considerations in your article. So, for a more detailed and in-depth discussion of what we just discussed, definitely hope readers will take a look at your article. Okay. Last but not least---certainly not least, 'cause we're using these probably, it seems, the most commonly in many places I've worked---rituximab, ocrelizumab are B-cell therapies for MS. What are some of the infectious and vaccine considerations related to these infusion medications?  Dr Nath: So, there's concern for PML with anti-B-cell therapies also, maybe not to the same degree as natalizumab, but the same principles should be applied. A lot of people think that these are relatively safe. I don't think so. I think we see enough number of patients on B-cell therapies with PML. So, I would use the same caution because these infections are... you know, can be fatal. So, one should be very careful, even with anti-B-cell therapies. And just with natalizumab, you also have the risk of VZV infection causing shingles. HSV1 has been reported, but there's another interesting complication that has been reported with anti-B-cell therapies, and that is severe West Nile encephalitis. And as mosquitoes-borne diseases are getting more and more prevalent, and we're seeing West Nile cases erupting every summer, I think one's got to be, you know, very cognizant of the fact that this can occur. These patients should take precautions to prevent mosquito bites from occurring and not expose themselves to areas where they could be at risk for it. Unfortunately, there is no vaccine for it and no specific treatment for West Nile. So, all one can do is use prevention strategies for mosquito bites.  Dr Berkowitz: Yeah, I'm glad you mentioned that. I think the only really truly severe neuroinvasive cases I've seen of West Nile virus have indeed been in patients who were being treated with B-cell therapy. Not, if I'm remembering correctly, for immune-mediated disease, but for a lymphoma, so probably other confounding factors there. But yeah, it's a disease we learn about and think about, but I've only seen the most severe cases in patients who had abnormal immune systems, so I'm glad you flagged that. This has been a very helpful discussion, and I've learned a lot from you. I learned a lot from your article, just as I did when you were my attending some 20-something years ago on the wards when I was a medical student. So, it's good to continue learning from you through your writing and research, and today from getting to talk to you again. I encourage our readers to read your article and to bookmark those tables for when these considerations come up for your patients on these immunomodulatory therapies and you're wondering which infections to worry about and how to manage vaccines in this patient population. So again, today I've been interviewing Dr. Avi Nath about his article on vaccine considerations and infection risk in multiple sclerosis and related disorders, which he wrote with Dr. Amit Bar-Or. This article appears in the April 2026 Continuum issue on multiple sclerosis. Be sure to check out Continuum Audio episodes from this and other issues, and thank you again to our listeners for joining today.  Dr Nath: Thank you so much, Aaron, for that wonderful interview, and I'm extremely proud of all your accomplishments over the last 20 years. You've done an amazing job, and it was such a pleasure to see you and to be able to do this interview with you. Thank you again.  Dr Berkowitz: Thanks. That means a lot. I never would have imagined- we won't say 20, how many, but 20-something years ago as the medical student looking up to you and all your expertise on these infections and all of your research that led to so much of our understanding on these, that I would find myself interviewing you two decades later. So, for all the students listening, you never know where you'll end up, but I appreciate your very kind words.  Dr Nath: That's what we hope for all our students. Thank you so much.  Dr Berkowitz: Thanks again.  Dr Monteith: This is Dr. Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Treatment of Multiple Sclerosis With Drs. Ellen M. Mowry and Daniel Ontaneda 06.05.2026 26min

  There are many treatment options for people with relapsing MS. Patients should be carefully monitored to assess treatment response, and a change in treatment approach should be considered if safety concerns emerge. In this episode, Teshamae Monteith, MD, FAAN, speaks with Ellen M. Mowry, MD, MCR, and Daniel Ontaneda, MD, PhD, coauthors of the article "Treatment of Multiple Sclerosis" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Monteith is the associate editor of Continuum® Audio and an associate professor of clinical neurology at the University of Miami Miller School of Medicine in Miami, Florida. Dr. Mowry is the director of the Multiple Sclerosis Experimental Therapeutics Program and a professor of neurology at The Johns Hopkins University School of Medicine in Baltimore, Maryland. Dr. Ontaneda is the director of research at the Mellen Center for Multiple Sclerosis and a professor of neurology at the Cleveland Clinic Lerner College of Medicine of Case Western Reserve University in Cleveland, Ohio. Additional Resources Read the article: Treatment of Multiple Sclerosis Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @headacheMD Guest: @EllenMowryMD Full episode transcript available here Dr. Monteith: There are so many new treatment strategies for multiple sclerosis, which is a blessing, but it does come with the complexity of really just trying to nail down the approach. I just got finished talking to Drs Ellen Mowry and Daniel Ontaneda about their article on treatment of multiple sclerosis. We discussed relapses, weighing escalation versus early high-effective treatment and progressive disease. This is a must-listen-to podcast. I hope you enjoy it as much as I enjoyed talking to them.  Dr. Jones: This is Dr. Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr. Monteith: This is Dr. Teshamae Monteith. Today, I'm interviewing Ds Ellen Mowry and Daniel Ontaneda about their article on treatment of multiple sclerosis, which they wrote with Dr. Darin Okuda. This article appears in the April 2026 Continuum issue on multiple sclerosis. Welcome, both of you. How are you?  Dr. Mowry: Great. And thank you so much for having us.  Dr. Monteith: Absolutely. So, why don't you both introduce yourself?  Dr. Ontaneda: All right. My name is Daniel Ontaneda. I'm a neurologist at the Cleveland Clinic. I spend the majority of my time doing research, but I still dedicate about a day a week to seeing people with MS in clinic.  Dr. Mowry: I'm Ellen Mowry. I'm also a neurologist, but practice at the Johns Hopkins University. And similar to Dan, I mostly work on research, but also have an active clinical care component, taking care of people with MS.  Dr. Monteith: Well, thank both of you for writing this article and being on our podcast. I assume you guys have probably known each other for quite a while now.  Dr. Mowry: Yes. Dr. Ontaneda: Yes. Dr. Monteith: What inspired you to get into multiple sclerosis research and then clinical care?  Dr. Ontaneda: I always loved neurology, and I think a lot of us who go into neurology are attracted to the complexity of the human brain and how the nervous system works. But what really hit home to me was a family member of mine who had multiple sclerosis, and he was being treated in a time where we really didn't have super effective disease-modifying medications. And so, as I went through my medical career, I always kind of kept an eye on what was happening with multiple sclerosis, and I started my training at a time where it was really flourishing in terms of the medications available, so that's what inspired me to go into MS. It's a disease that we can definitely treat, and you can change outcomes for people. So, that was it.  Dr. Monteith: Yeah, that personal experience can be very impactful.  Dr. Mowry: My journey started, actually, because I was thinking about whether I wanted to be a physician at all, and I happened to land, just after high school, a position with a neurologist who happened to mostly focus on multiple sclerosis and taking care of folks with multiple sclerosis. And by the end of the summer, I knew I wanted to go to med school and I wanted to be a neurologist and I wanted to work with people with MS. I thought I would be a clinician exclusively, but I think as time went on and I started to hear the consistent questions that people I served were asking in the clinic and realizing that those questions could be turned into research projects that could address their concerns, I moved more and more towards research. Dr. Monteith: Great. There are a lot of really detailed information in the article, so I think that research mind is very useful, and I see that in the writing. Why don't we talk about the goal of the article? Dr. Ontaneda: So, I think the goal of the article was to set out kind of what the large view of what treatment for multiple sclerosis looks like. And, you know, many times we divide the treatment of multiple sclerosis into these large pillars, and I think that's what we did in the article. The first was, you know, what do you do with a person who has an MS attack or relapse? The second is, what medications do we use to treat the relapsing forms of multiple sclerosis where there is a lot of acute inflammation, focal inflammatory lesions that are occurring? And then the final one is, what do you do with individuals who have a more progressive form of the disease where they're accruing disability slowly and gradually? Dr. Monteith: And what were some of the main points? Dr. Mowry: Dr. Okuda provided a really nice section on the treatment of acute relapses in multiple sclerosis, and it's important to understand what we talk about when we are saying "relapse". For people with MS, many symptoms can fluctuate and occur and then get better over time, and sometimes people with MS use the same term of "relapse" to describe those symptom fluctuations. As neurologists, when we're thinking about relapse, we're really trying to think about symptoms that can be attributed to new focal inflammatory events somewhere in the central nervous system. Typically, these are accompanied---if you were to get an MRI at the same time---by a new lesion or MS spot, as I like to call them, on MRI scan. And so, it's important to distinguish when somebody is talking about symptoms, whether they are true new symptoms that could be mapped to a place in the central nervous system. Because alternatively, a lot of people who've had attacks or relapses in the past can have what we call pseudo-relapses, and these are essentially recrudescence of old symptoms, typically in a similar pattern as what had occurred in the past. And these can be brought out by things like fever or infection, sometimes stress. And pseudo-relapses are not thought to be due to new development of immune system-induced injury and therefore would be less likely to respond to treatment; and in fact, treatment may be contraindicated for those events. We also talked a little bit in that article about how relapses are treated, talking about the use of high-dose steroids for true new relapses, but also kind of cautioning that those are not necessarily free of concerns, especially if you have a pseudo-relapse or there could be an infection going on. And that ultimately, the decision as to whether to treat a relapse really is a shared decision-making because it's thought that although the steroids can speed up recovery from a relapse, they may not have a major impact on ultimate recovery. And so, a lot of the shared decision-making comes in here because for a mild relapse, you might choose to forego a course of high-dose steroids.  Dr. Monteith: Daniel, any other main points?  Dr. Ontaneda: Yeah. On the side of treating relapses, I think one of the other things that probably has changed a lot, at least during the course of my training, is that in the past, whenever we had identified a relapse, as Dr. Mowry has clearly defined, we would typically treat with intravenous high-dose corticosteroids, typically with methylprednisolone. And that was kind of our go-to. We would either do it in an infusion center or we would set it up with home care. And I think one of the things that our field learned over, I would say, the last five or ten years is there's an abundance of studies that show that you can give that same dose of methylprednisolone. Rather than giving it IV, you can give it orally. No pun intended, as I tell my patients, a lot of pills to swallow because we use fifty-milligram prednisone pills, and they have to take 1,250 a day. The pharmacy always pushes back on that many pills, but really the advantage of being able to take steroids orally that way for three to five days is really, I think, one, better for people with MS because they can do it in the comfort of their own home, and two, I think also when you look at the costs associated with that treatment, it is the most cost-effective option. Dr. Monteith: And what are some of the latest developments that you're really excited about that weren't in the article?  Dr. Mowry: A lot of the article focused on the approach to treatment of people with what we've traditionally called relapsing/remitting multiple sclerosis. So, this is the kind of MS that traditionally presents with a relapse or an attack initially, although some of that nomenclature is changing, actually. And the article focused a lot on the strategies surrounding treatment of somebody with newly diagnosed relapsing MS, and thinking about this vast number of disease-modifying therapies that are available to people with MS and their clinicians, and how to think about the strategy with respect to largely centered around the efficacy class of the medication, whether people should take an approach of using a higher-efficacy therapy---meaning a medicine that in clinical trials was more likely on average to suppress relapses as well as new lesions---or whether there's still a good argument for the case of using an escalation approach, using some of the more modest efficacy medications that also probably in general have lower risks, monitoring for response to treatment and changing if the medication isn't working. And so, there's still a lot of debate in the field, I would say, even though many people have moved towards a one-size-fits-all kind of approach. I think there's still a lot of debate in the field about the evidence underlying that. And, you know, full disclosure, Dr. Ontaneda and I are each running parallel and very complementary clinical trial programs to address this very question, the results of which should be available within the next year, year and a half.  Dr. Monteith: Well, we can't wait that long. Give me some clinical pearls to how we initiate these modifying therapies. Like, what are the pearls that we need to have in our mind?  Dr. Ontaneda: Yeah. I think when we think about starting the disease-modifying therapy in an individual who has an active form of multiple sclerosis, I think, you know, one of the cornerstones I would say of making that decision is shared decision-making. I think we tend to sit down with the patient and analyze the data that we have at hand, what we know about their multiple sclerosis, and we use several factors to inform how likely we think their disease is gonna be active or potentially might not respond to the initial treatment you give. And we look heavily at the MRI. The MRI is really a useful marker because it shows us, one, how many lesions a person might have---both, you know, where those lesions are and also kind of the amount of lesions. Lesions, certainly, that are in the spinal cord, a very large burden of diseases. A lot of active lesions, which we determine by the presence of contrast-enhancing lesions, really helps us inform on disease severity. I would say that was our number one tool that we use to decide and help us decide how we think that person's MS is gonna do over time. And then the second thing that we put into the equation also is, you know, how well do we think this person is going to tolerate our medications? All our disease-modifying medications act through suppression of the immune system, and we know that that carries some risks associated with it. Some of those risks are stuff like infections. Some of those can be simple infections that really don't have major consequences, but some of them can be quite serious, including the need for hospitalizations or prolonged antibiotic treatment courses. And so, we also look at what, you know, the underlying risk of a person has for infection. This kind of is determined by, one, A, how many infections they've had up to date, and also how much disability they had. I would say in our average patient who when we see them, they're probably typically pretty young, in their twenties, thirties, forties, they typically don't have a lot of infectious risks. And therefore, I think there's kind of a move to saying, "Well, actually their risk of infections is quite low." And we put that together with, you know, also what the preference of the patient might want. So, do they prefer to take a pill, for example? Do they prefer a medication where they receive that via infusion every six months and they don't really have to think about it? There are some people that don't like going into a hospital, and they might prefer an injection type of those medications. And so, after a complex discussion of all those factors, we take into consideration how much risk the patient wants to take as well, and we come up with a rational choice of a couple of medication options. So, I think it's challenging sometimes because we have over two dozen medications. There's the risk of you saying, "There are these twenty-four medications, you can pick one." And I think our job as neurologists is to kind of pare those down, talk about, in a person like yourself, these are the two or three medications that I would recommend using. Why don't you review them? And then we bring them back, and we kind of make a final decision with, one of the key factors that I think is important to remind people is that you're gonna start this medication, and we are gonna monitor to make sure it's working. We're gonna monitor to make sure you're tolerating it well. And although it's an important, the first decision you make, I think one key theme that we tell people is, we can revise our strategy whenever we like. We just have to think about it and do it in a way that we think is gonna make sure that their MS is under the best control. And then we think about the ultimate goal of treatment, which, in multiple sclerosis, is the absence of any attacks and also the absence of any new lesions on MRI. And that's where whether you are offering more of the high-effective medications or more moderate- or low-efficacy medications, that's where there's a little bit of controversy still in our field, and that's what our trials are trying to answer.  Dr. Monteith: Excellent. So now we've selected a particular option- and I love those points with shared decision-making, using the MRI to guide and then kind of risk tolerance related to infection. But now a patient's still having relapses, and I know the goal is zero, but, you know, there's some margin. What are the pearls to advance to more high-efficacy therapies?  Dr. Mowry: Yeah, that's a great question. Dr. Ontaneda in the article actually talked about the literature surrounding monitoring for breakthrough disease and when to say this much is too much, and there's actually not a definite right answer. It's clear that more active disease early in the course is probably more of concern than, say, developing, you know, a new spot in your fifties or something to that effect. So, different people have different thresholds. I know at our center, we tend to be pretty on top of making changes for breakthrough disease. So, what we typically do is reimage people about six months after they start a medication to establish a new baseline. And sometimes, because of delays in starting or because the medications take a while to kick in, there might be a new spot or two. So, if that's the case, I really only get concerned if the spots are also taking up the dye or enhancing to indicate they're really quite recent, and I think, "Ugh, that's not something I'd like to see six months after starting a medication." And so that otherwise is sort of the reference scan, moving forward, to evaluate the medication, and I have a very low threshold for changing, particularly if somebody is on a moderate-efficacy therapy. To me, I think, well, our goal of trying the moderate efficacy therapy is essentially to see if we could get away with a medicine that is probably, on average, safer and that will still work for your MS. But if the answer is no, I personally don't like to stick around too much on them. One caveat I would say is that if somebody develops what appears to be a new lesion or spot on higher-efficacy therapy, before presuming that that new area of activity is a definite new MS event, I always like to rethink carefully, did I get the diagnosis correct? Or could this be an early infection such as, you know, progressive multifocal leukoencephalopathy in people on natalizumab in particular? Because I see breakthrough activity so rarely in people on higher-efficacy therapies that I just like to rethink my diagnosis and the differential prior to making switches to, typically, another higher-efficacy therapy in that case. But that, again, is a little bit of shared decision-making. It's sometimes contextual. If a person is using a self-administered medication and they have a little breakthrough, sometimes you can solicit some history, saying, "Oh, I actually kind of stopped taking it for a few weeks because something was going on, and I really want to retry." And that's very reasonable as well. Dan, do you have any other thoughts?  Dr. Ontaneda: No, I think I agree. That's really close to how I practice myself as well, and the majority of people at my center. I think that we are learning that when you start a treatment, many times---depending on how deeply you look---you can find evidence of ongoing disease, and that's something that we struggle with. It's almost like we have tools to treat inflammation in terms of new MS lesions and new relapses. And so, when those are present, it's pretty clear that you probably have to switch medication. I think a slightly trickier issue is when, for example, you have a person who might be stable. They don't have an attack. But you notice that they're worsening, and they tell you they're worsening. I think our ability and tools for that is a little bit harder, and we recognize that that can actually happen fairly early in the disease. And that's why we're trying to rethink this mantra that we've had for many years, where we kind of divide MS up into relapsing and progressive, and we see people develop progressive MS 10 to 15 years after they've had a relapsing form of the disease. So, I think that's just a reality of clinical practice. And we don't have as many tools to treat that gradual worsening, which is kind of what the rest of our article spent some time talking about. Dr. Monteith: You've also written about the clinical trial long-term extension studies. And what are the few points that you take away from the emergence of these types of publications over the past few years? Dr. Mowry: Yeah, well, long-term extension studies can be really helpful to understand whether the findings that are evidenced during the randomized portion of trials themselves continue into a longer term. And for people with MS, understanding these data can be really helpful because, particularly when we're looking for impact of a given treatment or a strategy on disability worsening, often it takes longer than the short-term portion of the trial to truly understand if the medication or strategy has an impact on insidious worsening that Dan is speaking about. Many trials have demonstrated a short-term benefit, but we think a lot of times that benefit is probably because of the reduction in relapses, which sometimes leave a permanent mark on neurologic function. But the extension studies are trying to understand a little bit more about whether the effect on disability worsening is sustained, and also to look a little bit more deeply at long-term safety, especially when it comes to medications that do increase the risk of infection. The caveats, though, in interpreting those types of studies are that people drop out, and so probably the people who drop out of those studies are really different. They may be either less disabled and they think, "Oh, you know, I'm done. I feel good." Or potentially more disabled and they think, "Ugh, I have more things to do I've got to take care of. What's going on?" And so that kind of dropout can produce some bias in interpreting the results. Dan, any other thoughts?  Dr. Ontaneda: No, I think that's spot on. I mean, I think that when we're trying to decide on what general philosophy to use, right? Like, you're seeing a patient for the first time. They've recently been diagnosed with MS, and you have... you know, I kind of bin them into three options. You can start a low-efficacy, a moderate, or a high-efficacy medication. And the first piece of information you could use is clinical trials, and Dr Mowry very clearly identified why some of that data might be a little bit biased and isn't, you know, completely applicable to the patient who's in front of you. The second thing that we might look at is observational data, and there's a wealth of observational data that shows that, in general, people on higher-efficacy medications tend to do better over time. But one of the challenges we have is that there's always biases related to those observational study designs. And so, I think you have to interpret them with a little bit of caution because there are reasons people start specific medications in people. And when you look at them in a purely observational study, even if you do some fancy way of addressing those biases, such as propensity, there always is the possibility of some residual bias. You know, that's part of the reason why we're doing the trials that Dr Mowry described, because we really need kind of long-term evidence to show that these medications actually can affect disability ten, twelve years after started. And I think pragmatic clinical trials, like the ones we're running, are really gonna be the key to answer those questions. We all have our favorite approaches right now, but I think that the data to actually demonstrate what's best for people with MS is really needed.  Dr. Monteith: Great, and there's so much in this article. I mean, we didn't even touch on radiological isolated syndrome, monitoring MS therapeutically, and treatment of progressive MS. Any final take-home points?  Dr. Ontaneda: Yeah. Maybe I will touch a little bit on the side of progressive MS, because it has been, you know, the MS that we historically have not been able to treat as much. So, we described there's over two dozen therapies approved for relapsing forms of MS. For purely progressive forms of MS that don't have any evidence of activity, we really only have one approved therapy, and it appears that that therapy actually does work through active inflammation anyway. And in the article, we highlighted examples of studies that have been negative, but also some recent examples of studies that have been positive, specifically with a new class of medication called BTKI, or Bruton tyrosine kinase inhibitors. We just recently heard of a second molecule that also had positive results in this realm. So, we're excited that, you know, in the next four to five years-  Dr. Monteith: I'm sorry. Can you just go ahead and say what that molecule...You're leaving people hanging.  Dr. Ontaneda: One molecule is tolebrutinib, which already has a positive study in secondary progressive MS in individuals without activity. And then the second compound that has been studied with positive trial results, we only have summary results from that, is a medication called fenobrutinib. And we think these two compounds that are part of a single class, the hope is that maybe they can address some of that gradual worsening that occurs in MS. And then the question comes whether we should use those from the get-go or if we should just use them later. So, a whole sort of variety of different questions. But I think important to call out for clinicians that this area where we had no available treatments for so many years might be changing.  Dr. Monteith: Well, thank you both. I really loved this conversation. I learned a lot listening to both of you, and I look forward to your clinical trial results.  Dr. Mowry: Thank you so much for having us. Dr. Ontaneda: Thanks so much. It was our pleasure. Dr. Monteith: Again, today I've been interviewing Doctors Ellen Mowry and Daniel Ontaneda about their article on treatment of multiple sclerosis, which they wrote with Dr. Darin Okuda. This article appears in the April 2026 Continuum issue on multiple sclerosis. Be sure to check out Continuum Audio episodes from this and other issues. And thank you to our listeners for joining today. Dr. Monteith: This is Dr. Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neuromyelitis Optica Spectrum Disorder With Dr. Sara Mariotto 29.04.2026 27min

  Although rare, recognizing NMOSD is crucial for improving patient outcomes through correct diagnostic and treatment approaches. Reports of atypical forms and increasing knowledge of clinical, imaging, and laboratory-specific features are fundamental for the accurate recognition of this condition. Research on targeted therapies and biomarkers measuring and predicting disease activity will improve NMOSD management. In this episode, Gordon Smith, MD, FAAN, speaks with Sara Mariotto, MD, PhD, coauthor of the article "Neuromyelitis Optica Spectrum Disorder" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Smith is a Continuum® Audio interviewer and a professor and chair of neurology at Kenneth and Dianne Wright Distinguished Chair in Clinical and Translational Research at Virginia Commonwealth University in Richmond, Virginia. Dr. Mariotto is a neurologist in the Neurology Unit in the Department of Neurosciences, Biomedicine, and Movement Sciences at the University of Verona in Verona, Italy. Additional Resources Read the article: Neuromyelitis Optica Spectrum Disorder Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @GordonSmithMD Full episode transcript available here Dr Smith: Neurology is an increasingly therapeutic specialty, and across many of our subspecialty areas, lots of new drugs are being approved. Are you interested in learning more about a historically disabling disorder for which we now have a spectrum of new therapies that, if used appropriately and promptly in the right clinical situation, promise to dramatically improve patient outcomes? If so, keep listening. My name's Dr Gordon Smith. Today I'll be talking with Dr Sara Mariotto about her article on neuromyelitis optica spectrum disorder or NMOSD, which she wrote with Dr Romain Marignier. This article appears in the April 2026 Continuum issue on multiple sclerosis.  Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast.  Dr Smith: This is Dr Gordon Smith. Today, I'm interviewing Dr Sara Mariotto about her article on neuromyelitis optica spectrum disorder or NMOSD, which she wrote with Dr Romain Marignier. This article appears in the April 2026 Continuum issue on multiple sclerosis. Sara, welcome to the podcast, and maybe you can start by introducing yourself to our audience.  Dr Mariotto: Yes. Thanks, Gordon. I'm Sara Mariotto. I'm a neurologist, and I work at the Neurology Unit, University of Verona, where I do both clinical diagnosis and research into neuroimmunology---so, in particular, autoimmune encephalitis, NMOSD, and MOGAD.  Dr Smith: Well, this is a super exciting area. Whenever I hear about NMOSD, I think of one specific patient I had, and I always think of her when I come across something like your article, which is really fantastic. So, before we dive into the details, I wonder if maybe you can just explain to our listeners who aren't up to speed on what NMOSD is, what the disorder is, and maybe why it's so important that all of our listeners learn how to recognize it quickly and get people started on therapy.  Dr Mariotto: Yes, sure. So, neuromyelitis optica is an inflammatory autoimmune CNS disorder usually associated with aquaporin-4 antibodies, although there are a few cases, around 10%, who can be antibody-negative. And I think it's very much important to have in mind this disease and recognize it because it can be severe, as you pointed out; can present with very severe optic neuritis, myelitis, the brain stem, or area postrema syndrome. So, it can be really severe, affect quite young people around 40 years of age---although it can affect also the pediatric population and elderly people---and, importantly, it can be treated. It's very much important to treat this patient in the acute stage very quickly with steroids or plasma exchange in addition, and then to start a chronic treatment. So, we have treatment for this condition. So, it's very much important to, to recognize it quickly and treat the patient properly.  Dr Smith: So, I wonder if we can talk a little bit about the diagnostic criteria and boundaries of NMOSD, right? So, someone who comes in with bilateral op- severe long segment optic neuritis or long segment myelitis, we think about it. But what are the boundaries? Should we be looking for this, for instance, in someone who comes in with a unilateral optic neuritis or looks like typical multiple sclerosis? Is it important to get aquaporin-4 antibodies in those patients? What do the diagnostic criteria say about this?  Dr Mariotto: So, I wouldn't test aquaporin-4 antibodies in all patients with demyelinating conditions because although aquaporin-4 antibody assay is very specific, as for all assay and all antibody testing---also for MOG antibodies, for example---some false positive results can come out. So, I would suggest to test aquaporin-4 antibodies not in typical MS cases but in those who could be suggestive for not being MS, so in all those cases with atypical optic neuritis and myelitis or other syndromes. For those cases, it's important to test aquaporin-4 antibodies, but I wouldn't test them in all typical, classical MS cases. As I said, it's quite specific, the assay, so it's uncommon to have false positive results, but it can be.  Dr Smith: Serum, CSF, both?  Dr Mariotto: So, for aquaporin-4 antibodies, they're usually present in serum. They can be positive also in the CSF. And there are a few reports of isolated CSF positivity. But if we analyze larger samples volume, then it becomes clear that isolated CSF positivity is so, so rare that it's not recommended to test them in the CSF when serum is negative. So, for aquaporin-4 antibodies, the recommended matrix of testing is serum, which is different for MOG, which is not the topic of our article but is important to mention because MOG antibodies should be tested in serum and CSF. But aquaporin-4, I would recommend to test serum.  Dr Smith: What are the boundaries between MOGAD and NMOSD? And you talked about the differential testing of antibodies, which I was going to ask about. But when should we think of NMOSD relative to MOG? Dr Mariotto: Yeah. There are aspects which are the one mentioned in the criteria, highly suggestive for NMOSD. But the clinical spectrum can be similar to that of MOGAD. Usually, although there are some clinical aspect---like, for example cortical encephalitis or ADEM, which is more typical for MOGAD, or others like area postrema syndrome, which are more typical of NMOSD. The spectrum can be similar among the two conditions, so that's why in our clinical experience, usually they ask both aquaporin-4 and MOG antibodies in patients. It's- for experts, it can be easy to differentiate the two conditions, but for nonexperts can not be so easy.  Dr Smith: Can you define area postrema syndrome? I think not all of our listeners see that every day.  Dr Mariotto: Yeah, sure. This is a syndrome which is highly suggestive of NMOSD. That's why I mention it. And it's characterized by nausea, vomiting, hiccups are known as the syndrome. And it is very, very suggestive because of the expression of aquaporin-4 in that area of NMOSD. That's why I strongly recommend for all patients who comes out to have this syndrome to test for aquaporin-4 antibodies. MOGAD is hardly ever positive for that, so I think that whenever you see a patient with that syndrome, you should think about NMOSD.  Dr Smith: I'm just curious, aquaporin-4 is a water channel, which is kind of an interesting concept. Our conversation, I really want to make sure we give clinically important information to folks, but it's so curious to me at least, how does this actually result in a inflammatory demyelinating syndrome? For a simple neuromuscular guy, what's the immunopathogenesis of this?  Dr Mariotto: Yeah, the immunopathogenesis is quite complicated, as in all CNS disorders. And of course, aquaporin-4 antibodies are the main focus, but they are not the only one. As you said, aquaporin-4 antibodies have a target, this water channel, which is at the basis of the disease, and they are produced by the interplay between T cells, B cells, and plasma cells. But then also eosinophils, macrophages, cytokines, and chemokines are involved, enter the CNS, and then another important component is complement, which is highly activated in this disease. At the end, we have astrocyte damage because astrocytes are the main target of the disease, but also axon and myelin are involved. So, it's a quite complex pathogenesis based on the antibodies, but not only on that.  Dr Smith: And this will become important when we start talking about treatment. There seems to be a recurring theme of long segment demyelination, right? Optic neuritis is typically a large percentage of the length of the optic nerve, and obviously the myelitis se- more than three segments. Do you see other long segment areas of CNS demyelination, corpus callosum or things like that? Any ideas why that is, if that's true?  Dr Mariotto: Of note, this is quite interesting because usually when we have NMOSD, we have a longitudinal involvement, especially of the optic nerve and spinal cord, while brain lesions are quite different. Like, we usually do not have the typical Dawsen fingers-like lesions that we have in MS, for example, or the classical periventricular or subcortical extensive lesions that we can see and we have in mind when we think about MS. In some cases with NMOSD, the brain is completely negative, so we do not see anything. And Dawsen lesion's quite suggestive of NMOSD. So, you're right. I mean, this is related partially to the expression of aquaporin-4, and that's why we have this typical involvement also for area postrema, for example, and maybe also our other examples of clinical aspect that we can see in these conditions. But it's basically linked with the expression of aquaporin-4, which is the main target of the disease. And that's why usually the brain doesn't show so much involvement as we can see in MS, for example.  Dr Smith: I was actually really interested in some of the unusual manifestations or phenotypes, and I don't want to get into arcadia, really, but which of these should our listeners be familiar with that would really suggest that they should be thinking about NMOSD beyond the area postrema and other features that we've already talked about that are part of the core criteria?  Dr Mariotto: Yeah. I mean, I think that the encephalic syndromes or also ADEM, which is most typical of MOGAD but can be observed also in NMOSD or PRES, for example, are syndromes that can be considered in patients with NMOSD. There are the typical ones, which are the ones showed in the criteria, but whenever we have a brainstem involvement or, like, these encephalic syndromes or also PRES, we should think about NMOSD also.  Dr Smith: Another area I was interested in are red flags. In your article, you talk about red flags that might suggest an alternative diagnosis, right? And then this presumably is particularly important in seronegative patients, which 10% is not a reasonably high number, I suppose. What are red flags we should be thinking about for some other diagnosis?  Dr Mariotto: Yeah. I would here mention two very important red flags. The first one is a very hyperacute onset. Usually these conditions, these inflammatory conditions have a subacute onset, so whenever you have a very, very acute onset, you should think about something else. This can occur sometimes also in NMOSD, but hardly ever occur. Like, a very acute myelitis, the first thing we should think about is a vascular origin, for example, with a lot of pain and not about NMOSD, although sometimes the differential diagnosis is not so easy. The second thing is a progression independently of relapses, which hardly ever occur in NMOSD. Usually in NMOSD, we have the onset, and then we have a relapsing disease course. That's why we have to treat patients always and not to stop treatment. But we do not have progression in the meanwhile, while we can have, for example, this in MS. Same thing is for MOGAD. So, these are two things that I think is very much important to keep in mind.  Dr Smith: I want to pivot to talk about treatment because that's been super exciting. But rumor has it there are new diagnostic criteria coming for NMOSD in the next year. I bet you know a bit about those. Can you give our listeners any indication about kind of where the puck is going on this? Not so much what the criteria are specifically, but what sort of diagnostic challenges are the new criteria going to help us with once they come out?  Dr Mariotto: Yeah. So basically, we are working on that, so you will read them in the next future. This is the good point of the conversation on the new criteria. And we work a lot on the definition, on the new definition and nomenclature of NMOSD; on the definition of seronegative NMOSD, which is also quite tricky; and then on the assay we should use to test aquaporin-4 antibodies, and also on potentially new syndromes which should be included into the main feature of the disease. But hopefully you will read about this very soon.  Dr Smith: Looking forward to it. And Continuum Audio listeners, you heard it here first, so thank you. Let's pivot to treatment. This has been super exciting, and I wonder if the way to approach this is to start with acute management and then sort of chronic management. Would that make sense?  Dr Mariotto: Sure.  Dr Smith: Let's say I go on service on Friday, and I have a patient who comes in with positive aquaporin-4 and bilateral optic neuritis. What's the acute approach to managing that patient?  Dr Mariotto: So, the first approach is to administer intravenous steroids, but I would not wait to escalate to plasma exchange. There is quite good evidence that we should treat the patient with additional plasma exchange very quickly, and every day of delay of plasma exchange can cause increased disability. So, we should treat patients with steroids first, and then if we are not satisfied by the recovery, soon start with a plasma exchange. There is also some evidence, although less, for IVIG, but it's important to try to treat them very quickly, even if it's Friday, you know, there is the weekend and so on. But I think it's very much important to start with steroids after excluding other infectious causes or so on, and then to start quickly with plasma exchange. The main problem could be that we do not have the results of the antibody yet.  Dr Smith: Right. So, let me ask that question. You know, let's say my patient comes in on Friday, and clinical syndrome that really looks like NMOSD, and we're waiting for the aquaporin-4. There are many places where it's hard to get plasma exchange over weekends. And so, in that setting, are you better off doing the steroids over the weekend then PLEX on Monday, or should we just give IVIG because maybe it's as good as PLEX? What's your advice there? I'm trying to get ready for Friday because I know one's coming in.  Dr Mariotto: That's true, that's true. Usually they come on Friday or Saturday. I think it's acceptable to have three days of steroids and see how the patient improves, and then after three days to start with plasma exchange. Actually, we have a very good improvement if we start between three and five days after onset. So, I think waiting for three days is acceptable just because we can see if the steroids work properly or not, and then we can quickly start to plasma exchange. But I would not wait, like, 10 days, you know, before starting with a plasma exchange, and I would not wait for antibody results.  Dr Smith: Got it. Super helpful. And I'm actually not joking around, I learned recently that I have a reputation among our residents for having lots of optic neuritis when I'm on service, which I think is sort of karmic justice for being a peripheral nerve expert. But let me ask another question. So, let's say we do that, and the patient gets three or five days of pulse methylprednisolone and five courses of PLEX, and they're not doing well. Do you then just move right along into another agent B cell depletion therapy? I mean, what's your next step in escalation in the acute setting?  Dr Mariotto: I would for sure start to, as you said, with steroids, plasma exchange, and in case IVIG, and then quickly move to chronic treatment. And for patients who are not recovering well, I would think of something which has a quick effect so we can really start treating patients very quickly. There are different options. And all over the world, there are different rules for using immunosuppression in NMOSD. Like in Italy, for example, it's different from US or other countries, Germany, for example. There are different approved treatments and different rules of using them before or after rituximab, for example. We all know that there are treatments approved for NMOSD all over the world. But in some countries, like for example in Italy, we should use rituximab first, and then if it doesn't work, escalate to the approved treatment. I know in the US it's different. But anyway, for a patient who does not improve quickly, I would start with something which has a quick effect on the disease.  Dr Smith: And then rituximab versus inebilizumab, you know, CD20, CD19, what's your advice there? Is one preferable to the other, you know, if we have options to do either?  Dr Mariotto: Yeah. So, between rituximab and inebilizumab, we know that the target, well, is different, but is anyway B cells, so CD19 and CD20. With CD19, we can affect both plasma blast, plasma cells, and B cells. That's why the target is broader. And of note, this is an approved drug, while rituximab is, in most countries, used as off-label treatment.  Dr Smith: So inebilizumab would probably be preferable if we're able to do that.  Dr Mariotto: Unfortunately, there are not so many studies comparing rituximab with the approved drug, which is, of course, a pity, but that's the case. While we have clinical trials for all the approved drugs, and although the trials were designed differently, as we mentioned in the Continuum paper, we can argue something of the comparison between the approved drugs. But it is not so clear the comparison between rituximab and the new drugs, which is also something that we should work on.  Dr Smith: And then for chronic suppressive management, what other options are there?  Dr Mariotto: So, in addition to B cells, target can be interleukin-6, as we know with tocilizumab or satralizumab, and then complement with eculizumab. These drugs are both based on the pathogenesis of the disease. That's why we also discuss it in the paper, which shows a clear involvement of complement, and among cytokines of interleukin-6. So, targeting these made clear that could improve the disease quite well, and that's why they designed some clinical trials on these drugs, which are now approved, as we said, for NMOSD.  Dr Smith: Wow, so many options, and a lot of questions, but limited time. Let me just ask a couple of more. I see a lot of myasthenia patients, and there's a lot of variability, as you know, in patients with myasthenia, the extent to which complement is an important mechanism versus other, you know, important mechanisms. To what extent is response to a complement inhibitor kind of uniform across NMOSD? Or there's some patients who just don't respond to a complement inhibitor and others that respond really well. And then just, I'll just give my second question out is, you know, what about combination therapies for patients who have particularly challenging NMOSD?  Dr Mariotto: So usually these patients have a terrific response to complement inhibitors, and this is also shown by the clinical trials where we saw how eculizumab have a very impressive effect on the disease. And also, maybe this is also your experience, a very quick effect. So that's why there are also thoughts on using it in a very acute stage of the disease. That was what I was thinking about before. But then it has a very huge effect on complement, which is a major factor involved in the pathogenesis of NMOSD also in the chronic disease stage, and that's what also we see from clinical trials. Usually, we prefer to switch treatment from one to another and not to combine them. Of course, in very difficult cases, this can be considered, but the recommendation is to switch from one of these approved drugs to the other, or from rituximab to one of the approved drugs, and try to find out the best for our patient before combining them. Dr Smith: The complement inhibitor trials are breathtaking, at least for me. If I'm trying to convince students to go into neurology, I'll say, "Take a look at that paper," because anyone who claims that we're "diagnose and adios" is so wrong. It's so exciting. So, at a high level, this must have fundamentally changed outcomes for patients. I mean, it's still a difficult disease, but what is the kind of prognosis for that patient I described who comes in, gets the therapy you talked about? What does their long-term outcome look like in this modern therapeutic environment? Dr Mariotto: So, NMOSD is almost always a relapsing disease. That's why, as we mentioned, we have to treat patients always. But the prognosis changes a lot since we were also able to use all these drugs for the disease. So, the prognosis changes if we recognize it properly and early, and if we treat NMOSD properly with immunosuppressives. So, whatever we choose it's important to start it quickly, and this is the only way that we have to improve the prognosis of this disease. We have very active cases, but we have also cases who responds quite well to this immunosuppressive treatment, since now we have, as mentioned, these ones which are very impressive and show incredible results. So, the prognosis of the disease change in the last year, thanks also to the improvement of the diagnosis and of the treatment choices for the disease.  Dr Smith: I'm just... I- maybe my last question, you know, just at a personal level, not only for you as an expert who's caring for these patients, but in the patient community, this must have been a pretty exciting period of time, right? I mean, these, these drugs are coming fast and furious, and what a change. What's the kind of zeitgeist in the community, both your professional community and amongst the patient community about where we are? Dr Mariotto: Yeah, you're right. The last years were defined the years of NMOSD and also MOGAD because we had finally approved drugs which is relevant for all the disease that we treat and changed the landscape of the disease for clinicians, but also for patients. And we have more than one, as we said, so we have more options that we can also discuss with patients to try to choose the best one in terms of activity, but also route of administration or time. Some years ago, we just had rituximab, which is not approved in most of the countries, and now we have different approved drugs. And we improved the diagnosis of the disease thanks to the availability of live cell-based assay. And then we are working a lot also on biomarkers like GFAP, for example, which has been shown to be a very attractive biomarker able to mark disease activity and maybe also prognosis on this disease. So, you're right. I mean, in the last years, the landscape of NMOSD changed a lot.  Dr Smith: Sara, thank you so much for talking with me. I could keep going for another half an hour, but I would be in trouble with my editor, so I think we probably need to wrap it up. But thank you so much. This has been very informative.  Dr Mariotto: My pleasure. Dr Smith: Mine too. Thank you. Again, today I've been interviewing Dr Sara Mariotto about her article on NMOSD, which she wrote with Dr Romain Marignier. This article appears in the April 2026 issue of Continuum on multiple sclerosis. Be sure to check out Continuum Audio episodes from this and other issues, and thanks to you, our listeners, for joining us today. Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Myelin Oligodendrocyte Glycoprotein Antibody–Associated Disease With Dr. Eoin P. Flanagan 22.04.2026 24min

  Familiarity with the clinical, MRI, CSF, and serologic features of MOGAD can help neurologists recognize this condition in clinical practice. Awareness of the utility and pitfalls of the MOG antibody test is critical. The current therapeutic approach is guided by retrospective studies and the application of immunotherapies used in other autoimmune neurologic disorders. In this episode, Gordon Smith, MD, FAAN, speaks with Eoin P. Flanagan, MBBCh, coauthor of the article "Myelin Oligodendrocyte Glycoprotein Antibody–Associated Disease" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Smith is a Continuum® Audio interviewer and a professor and chair of neurology at Kenneth and Dianne Wright Distinguished Chair in Clinical and Translational Research at Virginia Commonwealth University in Richmond, Virginia. Dr. Flanagan is a professor of neurology and the division chair of the Division of Multiple Sclerosis and Autoimmune Neurology in the Department of Neurology at Mayo Clinic in Rochester, Minnesota. Additional Resources Read the article: Myelin Oligodendrocyte Glycoprotein Antibody–Associated Disease Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @GordonSmithMD Full episode transcript available here Dr Smith: So, what neurological disorder can cause bilateral optic neuritis, transverse myelitis, ADEM, or can mimic acute flaccid myelitis, intracranial hypertension, viral encephalitis, or cause seizures? Sounds like the great imitator, perhaps. If you want to know and learn more about this syndrome and how you can treat it---and it is very treatable---keep listening. My name is Gordon Smith, and today I have the great opportunity to talk with Dr Eoin Flanagan from the Mayo Clinic on his article on myelin oligodendrocyte glycoprotein antibody associated disease, or MOGAD, which is in the April 2026 issue of Continuum on Multiple Sclerosis and Related Disorders.  Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Smith: This is Dr Gordon Smith. Today I'm interviewing Dr Eoin Flanagan about his article on myelin oligodendrocyte glycoprotein associated disease, or MOGAD, which appears in the April 2026 Continuum issue on multiple sclerosis and related disorders. Eoin, welcome to the podcast, and please introduce yourself to our audience.  Dr Flanagan: Yeah, thanks so much. I'm Eoin Flanagan. I'm a neurologist at the Mayo Clinic. I'm originally from Ireland. I work in the neuroimmunology lab at the Mayo Clinic, and work and see patients with MS, MOG, and autoimmune disorders here in Rochester, Minnesota.  Dr Smith: Your article is super interesting, I think, and this has been a really rapidly evolving area over the last, you know, many years. We have many more antibodies, and MOG is something that's been around for a while, but we've certainly learned a lot more about it. This is a topic that I think will be familiar to most of our listeners, but I wonder if maybe you can just begin by laying the foundation. Like, what is MOG? What's its typical presentation?   Dr Flanagan: So, MOG is a protein on the surface of the oligodendrocyte or its CNS myelin, and it was always of interest as a potential antibody target, and initially it was investigated in multiple sclerosis. But subsequently, we recognized that the antibodies to MOG have a specific syndrome, of which about a quarter of patients are pediatric and then the remainder are adults. And they can present with a variety of syndromes, probably most commonly optic neuritis, but also acute disseminated encephalomyelitis, or ADEM. Transverse myelitis can also occur, and then some other unusual brain and brainstem cerebellar syndromes can also occur.   Dr Smith: I was really impressed in the very broad phenotypic spectrum of MOG. We'll talk more about that, of course. But I wonder if maybe you can tell us when we should be ordering MOG antibody? Given this broad variability, does anyone who has a CNS demyelinating disease need a MOG assay, only specific phenotypes? What guidance do you have for our listeners?   Dr Flanagan: Yeah. It's a great question. So, I think you have to be a little bit careful because the MOG antibody test is a little bit sticky. So sometimes we can see some low-positive false positives. So, we don't wanna order it in every single patient with classical MS. So, I suppose we'll start with who not to order it in. I think it's also a very optic nerve- and optic neuritis-central disease, so I think you really need to be considering this in a patient with optic neuritis who does not have lesions in the brain suggestive of multiple sclerosis. And then we think about some of the features: if the lesion, the enhancement along the optic nerve is long, if it's bilateral, if there's a lot of optic disc edema accompanying that, we tend to think about MOG antibodies. And then children with demyelinating disease, MOG is over-represented in that cohort, so it accounts for about a third of those. So, if you have a child with CNS demyelinating disease, particularly if they're under twelve, with ADEM presentations or other presentations, you probably want to be ordering the MOG antibody test. And then a longitudinally extensive transverse myelitis in adults, certain types of cerebral phenotypes that we can get into, you would want to consider ordering MOG antibodies too.   Dr Smith: Now, you point out in the article that it's really important that laboratories use the cell-based assay for MOG as opposed to an ELISA, for instance. Is this something folks need to be very attentive to, or are all of the commercial laboratories now using a cell-based assay?   Dr Flanagan: Yeah. I think all of the commercial labs are using cell-based assays, so we don't really get into much of an issue. There are some differences between serum and CSF, so really, serum is the optimal sample to order. There is also some differences between the live cell-based assay and the fixed cell-based assay, where the live cell-based assay may have some advantages in terms of sensitivity. And then CSF is kind of still under evaluation about its role in the condition. So in general, it's a serum test. And then we have to remember that the antibody tends to be highest at the onset, and then it goes down over time. So, if you delay your testing or you're testing a patient long after the condition, it can go negative, for example. So it tends to be highest both around the relapses and particularly at the onset of the condition.   Dr Smith: You mentioned earlier that the test is sticky, which I take to mean that there is some risk for low-titer false positives. How do you navigate that situation? When should we be suspicious about a false positive?   Dr Flanagan: Yeah. I think there's some very useful features that can help you. You know, the main differential diagnosis is going to be multiple sclerosis, particularly in the US, in regions of the northern US where MS is particularly common. So, you really wanna be making sure that if you get a positive result, low positive, that it's not multiple sclerosis. And some of the best discriminating features are CSF oligoclonal bands. They're about 85% in MS and about 15% in MOG, so an easy number to remember, 85 and 15. And then the lesions in MOG, the brain lesions, tend to disappear over time. So, if you have the advantage of that follow-up MRI a year down the line, about 70% of lesions in MOGAD will resolve, while in MS, as we know, the term means multiple scars, so the MS lesions tend to persist over time. So, they are two quite useful features that can help discriminate.   Dr Smith: And how about specific phenotypes or areas of involvement or imaging abnormalities that suggest MOG? One of the things I found really interesting in your article is there are a host of different syndromes that I think had largely been previously described, many of them, that became clear later that these were really tied to MOG antibodies. Presumably, that's helpful in interpreting the antibody assay in that patients who have, perhaps, a borderline low titer, for instance, but have a very typical phenotype are more likely to have MOG than those who have a more clearly MS-type phenotype.   Dr Flanagan: Yeah, absolutely right. Yes. So, there's certain phenotypes that we don't tend to see with MS. The acute disseminated encephalomyelitis, or ADEM, is one that's particularly common in children. And about half of people that have ADEM will be positive for the MOG antibody. So that's a syndrome you need to look out for, which would be often in children, encephalopathy, and they would have multifocal white matter lesions, sometimes involving the gray matter. A second syndrome that was an interesting discovery from a Japanese group was this unilateral cerebral cortical encephalitis, where patients can have this swelling and T2 hyperintensity, often just on one side of the brain. And it's in the cortex, and some of those patients won't have any white matter lesions. And in that situation, it's important to order the MOG antibody, and that seems to be a specific phenotype of MOGAD. But sometimes people don't think about it because the white matter is not involved. So, if you see these patients, they often present with seizures, sometimes they even have fever accompanied by it. And if you see those patients and see this radiological feature, then you really want to consider ordering the MOG antibody too.   Dr Smith: Yeah, I found that really interesting. And I- actually, my next question is perhaps a good follow-up on that, is, what are the diagnostic pitfalls? You give a lot of examples of situations and I think some cases where it's easy to get tripped up and misdiagnose someone who has MOG with another fairly common neurological problem.   Dr Flanagan: Yeah, I think some of the things that can help you when you're determining if the MOG is a true positive or false positive is the level of the antibodies. The super high titers, if it's a clear positive or very strong positive, the likelihood is that that is much more likely to be MOGAD than those low positives just above the cutoff. So that can be useful to help you discriminate from false positives. Those lesions, again, if all the lesions persist over time, that's going to be more suggestive of multiple sclerosis. Other diagnostic pitfalls, I suppose, if it's a syndrome that's not really associated with MOG, like peripheral neuropathy or other syndromes where we'll see some case reports, but usually I would be very cautious about those kind of presentations. So usually, having the antibody at a high level, and then also if they've had other symptoms suggestive of MOGAD, like if a patient has had recurrent optic neuritis and then they have an unusual brain syndrome, or they start out with an unusual brain syndrome and then have recurrent optic neuritis. You know, there are situations that make it more likely if they're having other typical phenotypes of the MOGAD where we can kind of expand the spectrum, but we have to be careful.   Dr Smith: I was really curious about the dynamic imaging findings. And you point this out both in terms of the resolution of imaging findings, but also in that patients who have an acute MOG syndrome often have very rapid evolution of the imaging abnormalities. I'm just curious, you know, why is that, and what do you make of it? Does it have a mechanistic implication, do you think?   Dr Flanagan: I don't think we know for sure. I think there's probably a lot more happening than we see on MRIs sometimes. What sometimes can happen in about 10% of patients is the initial MRI can be normal. We don't tend to see that with multiple sclerosis or NMOSD. Then what we see is it evolving over time. So, at that time, if you do a CSF, you'll often see inflammation, but we don't see the lesions. Now, that might be because the MRI is not very good at picking up cortical involvement. That can be difficult to see in MRI. Or there could be other factors. It could be a functional effect on the MOG but without frank demyelination yet, for example. Or there could be edema that you- myelin edema that you can't see as a lesion yet on MRI. But we do see that if you repeat the MRI, sometimes it'll change a lot. So, you may go from one or two lesions on the first MRI to twenty lesions on the second MRI a week later. So, it does tend to change a lot. And then over time, those lesions also resolve. So, what I say is if it's a very suspicious situation---like a child comes in with new-onset encephalitis, has inflammatory CSF---you might wanna consider repeating that MRI down the line and seeing if it's changing. And then over time, you know, a repeat MRI a year after the onset when there's brain or spinal cord lesions can be very helpful just to make sure you're on the right track, because lots of those lesions will then disappear, and that's a very clear discriminator from multiple sclerosis.   Dr Smith: Yeah, thanks. I mean, I was wondering the same thing about whether that particular feature might imply, you know, a functional abnormality as opposed to more of a structural abnormality. So probably a lot more to learn as we move forward. There are now consensus diagnostic criteria that were published a couple of years ago. I think you've already touched on kind of the general approach, but do you want to speak to those? I found your summary pretty helpful.   Dr Flanagan: Yeah, I think that those criteria are quite useful. They have three main parts to them. The first part is having a characteristic clinical syndrome. So, we talked about ADEM, we talked about cerebral cortical encephalitis, transverse myelitis that's often longitudinally extensive, and optic neuritis being the main syndromes, but sometimes other brainstem or cerebellar involvement can be seen. And then the second part is having a positive MOG antibody. And then there's some caveats there. So, if you have a high positive, then you don't really need any additional supportive criteria. On the other hand, if you're low positive, to get at those sticky antibodies that make sure it's not a false positive, you need some additional supportive clinical or MRI criteria. Or if you're only positive in CSF, you need that additional criteria. You also need to be negative for the aquaporin-4 antibody, because they can overlap clinically. And some of those supportive criteria are things that we talked about a little bit earlier, longer lesions within the optic nerve, bilateral involvement, involvement of the nerve sheath or optic disc edema. This is a situation, MOG antibody disease, where your fundoscope is useful and looking in the back of the eye and seeing swelling, because we don't tend to see that quite as often. It's less common in multiple sclerosis, but we often see prominent edema in MOGAD. And then in the spinal cord, the lesions tend to be central in the cord. Sometimes they form this H sign where it's restricted to the gray matter, and they tend to be longer, sometimes involving the conus. Patients will often have neurogenic bowel or bladder. And then in the brain, deep gray involvement, those large lesions along the cortex with swelling are some of the typical features. And then the final step is exclusion of another diagnosis. Just like with any test that we do in neurology, our final step is going to be to put that into context. So that's just a normal thing that we will always do when we get a group of test results back that we don't know what it means. We have to put it into context. So, make sure it's not multiple sclerosis, everything else does not look like multiple sclerosis, and then you can be on your way to make a diagnosis.   Dr Smith: Definitely encourage listeners to read your article. I guess I say that with every time I- or with everyone I talk to for Continuum Audio, but the images are really fantastic and the cases are fantastic. So, everything you've described is well-illustrated, including really nice schematic sort of diagrams that help differentiate NMO from MOG and MS. So, if you like MRI scans and good imaging frameworks, then this is the article for you.   Dr Flanagan: I think that's true, and the other thing is that the imaging is quite helpful because it takes a while for that antibody to come back. We're lucky at Mayo Clinic, if you work here, it, it comes back faster for you. But for many places, that time of sending it in, so a lot of times you don't know right away. So, looking at scrutinizing that MRI can be very helpful to guide you on your way and to know what you're dealing with and how to approach both the acute treatment and plans to have potentially a steroid taper after the acute treatment and those kind of things that can help guide you in that regard.   Dr Smith: Yeah. So, let's talk about treatment. You know, what's your approach to treating a patient who has an acute demyelinating syndrome related to MOG?   Dr Flanagan: So similar to other things, MOG is very steroid responsive. So, we use high-dose IV methylprednisolone in adults. That would be one gram IV for five days. And then we also will sometimes use oral steroids, twelve hundred and fifty milligrams. That's a bit of a hassle because it's twenty-five fifty-milligram tablets, it doesn't come in a larger tablet version. But it's very helpful to patients because they can get started on it right away. You don't have to set up an infusion center. So, we have used those oral steroids often in people who don't have access to an infusion center, are not in the hospital. And particularly as it's often optic neuritis, some of those patients are seen in the outpatient setting, so we can get in with treatment quickly. In patients where it's more severe, it doesn't recover quickly with steroids, then we would consider escalating to plasma exchange as our second-line treatment, and there's some retrospective data that suggests that plasma exchange can be useful. That's gonna be particularly for those people who don't have that quick response to steroids, or maybe more severe phenotypes like that brain involvement with ADEM or cerebral cortical encephalitis, where those patients might be in the hospital and quite unwell. I will say, we might get on to this, that sometimes MOG can be very, very severe and even fulminant, where there can be increased intracranial pressure, and these patients can be in the ICU, and it can be life-threatening. And so, it's really important to treat those patients aggressively, and some patients have even required hemicraniectomy or additional treatment. Sometimes IL-6 blocking medications have been used in that situation. So, monitoring and treating increased intracranial pressure in those rare patients, probably 2 or 3% that have the very severe attack, is important.   Dr Smith: I think one of the things I found interesting, and then I'd love to get your feedback on this, is that most patients with MOG seem to have a very readily treatable disorder that's monophasic, right? You treat them with steroids, and they do well. On the other extreme, there are these patients that have a much more malignant presentation, and there are some that sound like they benefit from prophylactic or some chronic therapy. What's your approach, right? In MS, we do serial scans to monitor, and obviously, our patients are on, you know, chronic disease-modifying therapy. How do you decide when you're going to provide some sort of prophylactic therapy? How do you monitor it? How long do you continue it?   Dr Flanagan: That's a great point. We don't know for sure yet, but I think for the most part, our approach has been if the patient has a single episode, they recover well from that episode. So, if that's optic neuritis, they're back to twenty/twenty vision. They have recovered well. We don't tend to use chronic maintenance immunotherapy. Sometimes after the first attack, we'll do a little bit of a slow taper, maybe over four, six weeks. We have done longer than that. And then we won't place them on any long-term treatment, because it's about 50% of patients that may have a monophasic disease, so we don't want to treat all those people who are destined never to have another relapse. On the other hand, if a patient had a very severe episode, they're in the ICU, they're intubated, some of those patients then afterwards we will start them at least temporarily on an attack prevention medication for at least a few years to get them through. Some patients will be very fearful of future relapses in that situation. Or if they don't recover well, if they're blind in one eye after an episode and then their other eye is vulnerable, or they're left with some residual deficits neurologically from a myelitis, then we would often sometimes put those patients after the first attack. But most of the time, we're gonna wait and see if they get that second attack, and then once they have the second attack, that is when we would consider a steroid-sparing medication. But I will say that there's no proven medications. We don't have any clinical trial data available yet. So some of those patients with relapsing disease, we'll either try to enroll them in a clinical trial, or we'll use an off-label treatment to try and manage their disease based on what we've learned from neuromyelitis optica or from multiple sclerosis. A few different options seem to be better, and we can maybe get into that too.   Dr Smith: Yeah, let's go there. So, what options are there? You mentioned in more fulminant disease IL-6 inhibitors, and by that I assume you mean tocilizumab, but what are the options when you want to use prophylactic therapy?   Dr Flanagan: So, that tocilizumab can be beneficial in the very acute situation, in that malignant situation. But also as an attack prevention treatment, the IL-6 blockers seem to- some of the retrospective data seems to look like it works reasonably well, so we work and see if we can get that approved. Another medication that can work well is IVIG or subcutaneous immunoglobulin as a maintenance treatment, so we would sometimes give that, like, at least one gram per kilogram once a month. The benefit of that is it doesn't lower your immune system, so there's some advantages there, particularly in people who may be more prone to infections, older people. So, we'll sometimes use that. But we do get into a lot of challenges with insurance coverage, and it can be difficult to get these approved by insurance because we only have retrospective data out there. So then for some patients, if they're in a region where there's a clinical trial available, we might try to enroll them in a clinical trial. And there are some clinical trials underway now, so hopefully in the future we'll be able to have some FDA-approved medications that can have some Class 1 data that we can follow. Because it's hard when you're just following retrospective data or anecdotal reports, it's a little bit difficult to know exactly how well you're doing with your treatments.   Dr Smith: Well, Eoin, I wonder if we could finish up by just looking into the future, right? I mean, it sounds like a fun patient population to take care of because you've got lots of great therapies and can have a durable impact. But sure would be nice to have more evidence-based therapies and an FDA approval. What trials are going on? What's the future look like?   Dr Flanagan: Yep. So, there's some trials going on in the- a couple of worldwide trials. One is on an FCRN blocker called rozanolixizumab, which is kind of like a plasma exchange-type treatment which removes your antibodies, and it's a weekly subcutaneous treatment where adults are enrolled. And the second one is called satralizumab, which is another IL-6 blocking medication. And again, that one's given once monthly under the skin. And the trial for that also includes children down to age eighteen, so for adolescents, too, that can be an option. There are trials, I believe, in Asia for tocilizumab too, and there's one starting in Australia for rituximab. So, the good news is that we're going to have some really good data down the line for lots of different agents, and we'll be able to figure out which treatments work. And this will be really of great benefit to our patients when we get that Class 1 data to kind of guide us on what we should be using and really build on the success of some of the other conditions like neuromyelitis optica spectrum disorder, where we now have four or five approved, medications that work very well.   Dr Smith: Well, Eoin, thank you. This is a great conversation. I will say that it... the topic that I was a little intimidated about. I'm a simple peripheral nerve guy, as you know. But I think moreso than any other Continuum article I've read recently, I'm, like, loaded for bear. I can't wait to go back on the inpatient service and look for some MOG patients, because your article really left me feeling kind of prepared to think through this in a clinical setting. So, thank you for the conversation, and congratulations on a really wonderful piece for Continuum.   Dr Flanagan: Yeah, thanks so much. Always a great honor to be involved in the Continuum, and thanks to all the readers out there.   Dr Monteith: This is Dr. Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Adult-Onset Leukodystrophies Mimicking Multiple Sclerosis With Dr. Roberta La Piana 15.04.2026 22min

  Adult‑onset leukodystrophies, though rare, can closely mimic MS on both clinical presentation and neuroimaging, posing a significant diagnostic challenge. This episode highlights key clinical and radiologic red flags that can help distinguish these disorders from MS, preventing misdiagnosis and avoiding inappropriate treatment while enabling timely genetic counseling and targeted therapies. In this episode, Teshamae Monteith, MD, FAAN, speaks with Roberta La Piana, MD, PhD, coauthor of the article "Adult-Onset Leukodystrophies Mimicking Multiple Sclerosis" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Monteith is the associate editor of Continuum® Audio and an associate professor of clinical neurology at the University of Miami Miller School of Medicine in Miami, Florida. Dr. La Piana is an associate professor in the Department of Neurology and Neurosurgery at the Montreal Neurological Institute, McGill University, and an associate member of the Department of Diagnostic Radiology at McGill University in Montreal, Quebec, Canada. Additional Resources Read the article: Adult-Onset Leukodystrophies Mimicking Multiple Sclerosis Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @headacheMD Full episode transcript available here Dr Monteith: You just saw a patient in clinic. And you're clear, the diagnosis is multiple sclerosis. Not everything fits, but it kind of looks like multiple sclerosis. You see the patient back years later. There're some treatment issues, the patient's not responding to treatment, and things look different. Have you thought about a genetic inherited problem like leukodystrophy or a genetic white matter disorder? Listen to this podcast. We're going to help you figure it out. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Monteith: This is Dr Teshamae Monteith. Today I'm interviewing Dr Roberta La Piana about her article on adult-onset leukodystrophies mimicking multiple sclerosis, which she wrote with Dr Gabrielle Macaron. This article appears in the April 2026 Continuum issue on multiple sclerosis. Welcome to our podcast.  Dr La Piana: Thank you. Thank you for having me.  Dr Monteith: Absolutely. Why don't we start off with you introducing yourself? Dr La Piana: So, my name is Roberta La Piana. I'm a pediatric neurologist. I trained in Italy, I did my medical school, I did my residency in pediatric neurology there. And then I moved here to Montreal, to the Montreal Neurological Institute, to do a PhD in neuroscience. And that's where I specialized in adult-onset genetic white matter diseases. And after my PhD, I was recruited as an assistant professor here. So, that's where I got into this field.  Dr Monteith: This big field, highly specialized; lots of disorders, but highly specialized. And what got you into this? Neuroscience is huge. So, was it a mentor, or…?  Dr La Piana: No, actually, it was because of my background, because I trained as a pediatric neurologist and I loved the genetic white matter disorders in the pediatric population. So, when I came to the Montreal Neurological Institute, initially it was mainly to have a better expertise in imaging. And being at an adult neurology institute, I started seeing patients with adult genetic white matter diseases, and I was immediately fascinated by how different they were from their pediatric counterparts. Because in pediatric genetic white matter diseases, pediatric leukodystrophies look very diffuse, look very confluentous, so it's difficult to mistake them. But in adults, in the adult forms, I was initially driven by how often they can be misdiagnosed as multiple sclerosis or as other acquired white matter disorders. So that's why I got really interested in in this field.  Dr Monteith: You're, like, literally the perfect person for this discussion.  Dr La Piana: I'm not sure- *laughs* Dr Monteith: Why don't we start off with what your objectives were when writing this article? Dr La Piana: With writing this article, the goal is what I have been, actually, doing for the past ten years or so. So, really try to get more attention into the field because of the high rate of potential misdiagnosis of patients. So, that's exactly the reason why I really would like to raise the interest of neurologists for these disorders, because they are not considered enough in the differential diagnosis of patients, of adult patients presenting with white matter disorders. They are considered rare---which are, they are rare, definitely. But collectively, while each single form is rare, collectively they are not as rare. So- and thus, the risk of misdiagnosis and the potential impact of misdiagnosis on them with, you know, you can imagine giving patients inappropriate treatment or missing the possibility of a prenatal genetic diagnosis is so high that I really would like people to keep these disorders in the differential.  Dr Monteith: And it sounds like more than ever, this is really important because some of the newer developments in the field. Dr La Piana: Yes. Specifically, we have now tools that will allow to diagnose these patients quite quickly. All the genetic techniques that are available nowadays can really, with one single shot, we can now sequence hundreds of genes so we can have a quicker diagnosis. And this thing was impossible up until ten years ago. So that's definitely the first huge improvement that makes these disorders now easily diagnosed. Dr Monteith: Yeah. So why don't we talk a little bit about how common is this misdiagnosis for these rare subtypes? Dr La Piana: Yeah, the misdiagnosis, it depends on the cohorts. Generally speaking, I would say that the rate of that misdiagnosis for these forms is up to 25% or even more in some other cohorts. And it really depends on the forms. Like, there are clearly some forms, especially those that present with multifocal white matter diseases, that present with nonspecific clinical presentations like migraines, image---and especially for female patients, and for which migraine is so common, having multifocal with other abnormalities is so common, the rate of diagnosis increases even further. So, these are all things that we need to keep in mind. I know these are rare, but still, we need to always have them on the back of our minds.  Dr Monteith: Are there any particular disorders that are more often misdiagnosed? And you spoke about progressive forms of multiple sclerosis being a common kind of misdiagnosis.  Dr La Piana: Yeah. So, there are definitely forms that are more commonly misdiagnosed. And these are those that, as I probably repeated already too many times, is the word multifocal, which is key. So, all those genetic white matter disorders that present with multifocal white matter abnormalities are not initially considered as genetic. So, I'm thinking about all of the leukovasculopathies, so, the small vessel diseases which are genetic in origin. For example, CADASIL; for example, the disorders related to collagen-4; so, the COL4 A1 or A2-related disorders. Those are clearly more commonly misdiagnosed initially. Another big group, unfortunately, is the CSF1R-related disorders. I know I'm saying a lot of gene names, but due to the fact that they start with multifocal abnormalities and they start with quite nonspecific, slowly progressive symptoms, the rate of misdiagnosis is definitely higher. Dr Monteith: And can you discuss some of the clinical challenges when seeing patients that might lead to this misdiagnosis?  Dr La Piana: There are multiple clinical challenges. One is definitely the presence of nonspecific or initially mild clinical symptoms that sometimes don't raise initially the red flag of something, degenerative or progressive or genetic. One category that I would mention are psychiatric disturbances, especially in the form of depression, anxiety, or apathy. This is quite common in patients with some forms of genetic white matter disorders, and they are initially misdirected to psychiatrists and taken care in that domain. But it's only when some even mild neurological symptoms like a gait disturbance or hyperreflexia, or we had patients with, like, a urinary incontinence. It's only at that time, but maybe years have passed meanwhile, that these patients are finally referred to the neurologist Dr Monteith: You spoke about some of these clinical symptoms. Can you give us some other clinical red flags?  Dr La Piana: Well, some other clinical red flags can be, for example, the extraneurological involvement. So, we have patients where- and there's a reason immediately to some specific disorders. For example, infertility. The presence of infertility in a female patient with white matter disorders should immediately form the consideration of the specific genetic white matter diseases that are associated with these forms. And this is not something that neurologists tend to ask about in the collection of the clinical history. And this is something that can make the difference and can accelerate the diagnosis.  Dr Monteith: What are some other things? I mean, I know we can think about treatment, lack of a common treatment response, maybe, to steroids. You gave a great example of optic neuritis, for example. Give us some other things that we should say, hey, this doesn't fit the picture. Red flag.  Dr La Piana: In this case, I think we want to talk more about the specific misdiagnosis of MS. Because these patients are often misdiagnosed with MS, but they might sometimes be misdiagnosed with other forms of acquired white matter diseases. When we consider MS, definitely the presence of being treatment resistant: so, patients that are not responsive to the common MS-targeting treatment should be always a red flag. The evolution as well. So, for example, the presence of a more slowly progressive course is another red flag. The presence of optic neuritis. Sometimes it's tricky because it's not common in the genetic white matter disorders, it's used as a criterion to orient correctly towards a multiple sclerosis. But we need to keep in mind that there are forms, genetic forms, especially the mitochondrial forms, that can present with optic neuritis and are really at the overlap with the multiple sclerosis spectrum. Then, if we want to move forward beyond the clinical side and go into the laboratory, of course a negative lumbar puncture with no oligoclonal bands should be a major red flag. Dr Monteith: What about some of the radiographic features?  Dr La Piana: So, the radiographic features is something we are really working on in the field, especially with the new criteria used in MS. So, for example the paramagnetic rim lesions or the central vein sign, they are considered the specific forms. But it's true- and don't have an answer for that. I want to be clear, but it's true that they haven't been assessed yet extensively in patients with genetic white matter disorders. Anecdotally, I can say, because I have already reported this at conferences, that we have seen patients with genetic white matter conditions reaching a threshold for a central vein sign that can be considered diagnostic for MS. And we have seen that in some patients. Again, no study has been carried out extensively to date, but I think we should consider that with a grain of salt. But yeah, the paramagnetic rim in lesions is probably more accurate to distinguish between genetic and acquired white matter disorders.  Dr Monteith: And what about some of the genetic white matter disorders that mimic MS? You spoke about things like CADASIL; what are other things that we should keep in the back of our mind? And you have great charts, to our listeners, and they're going to have to review those charts, because they're excellent. I think maybe they need to find a way to make that a little bookmark you walk around with on the ward. But what are some other conditions that kind of commonly mischaracterized?  Dr La Piana: Two of the main groups are the one that you mentioned. So, leukovasculopathy is- so, CADASIL, is definitely one of the most common misdiagnoses of MS. And the presence, as we said, of some clinical features like migraine, especially when it's complicated migraine with visual aura, we all know that. But especially in the context of a positive family history for either a psychiatry condition or migraine as well, or strokes, these are all factors that should prompt the consideration of these disorders in the differential of a patient with white matter disorders. Another category are definitely mitochondrial disorders, which I think are more neglected than others because we don't think about mitochondrial disorders when we see white matter disease; we tend to consider that mitochondrial disorders are a problem of the gray matter, but they are not. There are white matter diseases that have definitely mitochondrial. And the third category are probably microgliocytes, which are represented by the CSF1R-related disorder. And this is also something that is clearly quite prevalent, relatively prevalent, in the field of genetic white matter disorders misdiagnosed as MS.  Dr Monteith: Yeah. Why don't we go through some of the, kind of, key history, you know, some of the key questions you would ask in the history to try and differentiate? You mentioned kind of subtle symptoms, longstanding progressive symptoms. I know things that we look at like relapsing/remitting and some trigger factors can actually be associated with some of these genetic disorders. So how do you approach a patient? What are some of the key questions? You talked about family history and you talked about medical history, but why don't you kind of give us a nice way to kind of hone in on to the patient? Dr La Piana: There are a couple of questions that we usually ask. I should make a disclaimer, though, that I work very closely with the MS clinics, so we are ready to receive patients that are prescreened. So, these are already patients that people working on acquired white matter disorders feel like they are atypical, so they want our opinion. But usually, there are two groups of questions that we always ask. One is about the family history. And by saying family history, I really dig into the family history. I don't just want to know whether there are family members with neurological disorders. I ask specifically about migraine. I ask specifically about infertility issues. I ask specifically about psychiatric issues. These three things are always on the top of my mind when asking about family history. The other thing is a family history for neurodevelopmental disorder, because you know that some people might not remember that some genetic white matter diseases can present at different ages. So, in the same family, there might be cases with a pediatric-onset leukodystrophy, and that can manifest at a later age in other family members. So, this is something that we always explore. In terms of the clinical history, one question that I recommend always to ask is really about more subtle symptoms. So, for example, many of our patients present with progressive balance problems or progressive mobility issues that have been going on for a while. So, we always ask how they were when they were in their teenage years, for instance. And it's frequent that they say, actually, I was a bit clumsy. Actually, I was not the first being picked in school at phys-ed sports. And these are all interesting aspects. Maybe they are totally incidental, and sometimes they suggest that there was probably something going on for a long time. The other thing is the presence, for example, of learning difficulties. Again, these are things that are subtle but testify that there was probably a process that was more longstanding. Dr Monteith:  You talked about things like rim lesions. Are there other types of sequences that might be useful to better characterize demyelinating diseases that are genetic in origin? I assume higher levels of MRI might be better at differentiating.  Dr La Piana: Yeah. So, in the clinical setting, there are a couple of sequences that are very useful. One is the diffusion, because as opposed to multiple sclerosis, the presence of persistently restricted areas of diffusion can point immediately towards some genetic white matter diseases. One is CSF1R-related disorders. But there are also some other, more rare tremor and ataxia syndrome that present with persistent areas of restricted diffusion as well as others. The presence of calcification. So, adding an SWI, susceptibility weighted imaging, to check not just for calcifications that can immediately orient towards some disorders, but can also identify areas of microhemorrhages that, if we are going back to the leukovasculopathies, to the genetic leukovasculopathies, can tell us that we are on the right track for excluding those type of diseases. Basically, these are the two that are available in every scanner without even going into fancy, more advanced techniques. Dr Monteith: I was going to ask you that question, how often should we think about this next-generation sequencing when you're kind of on the fence, allowing for some negative results to come back in the abundance of caution?  Dr La Piana: The problem with the panel, of course, is that you run a panel and you don't know what's coming back. So, then having to deal with variants of unknown significance in genes, then you have to deal with them, and then you have to deal with results that maybe are not as black or white as you would expect initially. So, I'll answer to your question when to do that, our recommendation would be to do that every time you are presented with a patient that presents those atypical features that we summarized in the paper, and that basically raise multiple red flags for an atypical white matter disease that is not multiple sclerosis. And then what to do when you have results? I still believe that having access, of course, to genetic counselors, to neurogeneticists, is critical, but also having access and being in contact with the network of people working on this. Because we are a network; we put the website address on the paper of the white matter rounds because this is an international network that we built over the years, and we connect monthly, on a monthly basis, with meetings to discuss exactly this type of patient. So, we are all learning together, and it's very frequent that people ask us to present cases at the white matter rounds because they have a presented with unusual or atypical genetic findings and they want the opinion of experts.  Dr Monteith: Great. Well, I'm really glad that resource is available. And I'm also really glad that you wrote that article with your colleague. Thank you so much. Dr La Piana: Thank you so much, Tesha.   Dr Monteith: Today I have been interviewing Dr Roberta La Piana about her article on adult-onset leukodystrophies mimicking multiple sclerosis, which she wrote with Dr Gabrielle Macaron. This article appears in the April 2026 Continuum issue on multiple sclerosis. Be sure to check out Continuum Audio episodes from this and other issues, and thank you to our listeners for joining today.  Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Diagnostic Neuroimaging Biomarkers for Multiple Sclerosis With Dr. Jiwon Oh 08.04.2026 23min

  Novel MRI biomarkers, including cortical lesions, the central vein sign, and paramagnetic rim lesions, are highly specific for MS and can aid diagnosis in select clinical scenarios, particularly early in the disease course or in atypical presentations. When used with appropriate MRI sequences, these markers can improve diagnostic sensitivity while helping prevent misdiagnosis. In this episode, Casey Albin, MD, speaks with Jiwon Oh, MD, PhD, FRCPC, FAAN, author of the article "Diagnostic Neuroimaging Biomarkers for Multiple Sclerosis" in the Continuum® April 2026 Multiple Sclerosis and Related Disorders issue. Dr. Albin is a Continuum® Audio interviewer, associate editor of media engagement, and an assistant professor of neurology and neurosurgery at Emory University School of Medicine in Atlanta, Georgia. Dr. Oh is the medical director of the Barlo Multiple Sclerosis Program at St. Michael's Hospital and an associate professor at the University of Toronto in Toronto, Ontario, Canada. Additional Resources Read the article: Diagnostic Neuroimaging Biomarkers for Multiple Sclerosis Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @caseyalbin Full episode transcript available here Dr Albin: Spend any time in a neurology conference, and you are certain to hear about the new central vein sign, which, as I learn, is not actually all that new. But have you heard about cortical lesions or these paramagnetic rim lesions? Because today I have the privilege of talking to Dr Jiwon Oh about her article, and we're going to unpack all these new biomarkers in MS. Dr Jones: This is Dr Lyell Jones, editor in chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Albin: Hello, this is Dr Casey Albin. Today I'm interviewing Dr Jiwon Oh about her article on diagnostic neuroimaging biomarkers for Multiple Sclerosis, which appears in the April 2026 Continuum issue on multiple sclerosis. Welcome to the podcast. Thank you so much for being here. I'd love to start by having you introduce yourself to our listeners.  Dr Oh: Thanks, Casey. Hi, everybody. My name is Jiwon Oh and I'm a neurologist, mainly an MS specialist at Saint Michael's Hospital at the University of Toronto, and I'm the medical director of our MS program. Dr Albin: And you have written a really fantastic article that dives deep into some of the nitty gritty about these new diagnostic biomarkers that we find on the MRI that we're getting for our patients with multiple sclerosis. And I think we are going to get into a lot of that nitty gritty. How do we look for them? How do they improve our diagnostic specificity? This is really come a long way in shaping the advances for multiple sclerosis. And I'd kind of like to just start with the big picture. Like why do we need these more specific biomarkers?  Dr Oh: This set of diagnostic criteria in MS, it's actually a huge change in the field, and particularly for people like me who are really interested in developing new MRI measures, we're really, really excited because it's actually the first time since MRI was officially incorporated into the MS Diagnostic criteria, which was way back in 2001. It's the first time that we've actually been able to get newer, more advanced imaging measures beyond just simply detecting, new T2 lesions in the MS diagnostic criteria. So, it's a big moment in the field, and many of us are really excited about it in terms of why we need some of these newer, more specific imaging measures. Well, you know, diagnostic criteria always evolve over time for any disease state, and MS is one that we've recognized over the years. By the time someone actually presents with typical clinical symptoms and has diagnosed, whatever has been happening from a patho-biological standpoint has been happening probably for almost 5 to 10 years before that individual actually presents. And so, because of this recognition in the field and the fact that we're recognizing how important it is to first diagnose MS and then treat MS earlier and earlier, because we know that early treatment helps prevent more clinical outcomes. Diagnostic criteria over time have become much more permissive, meaning that we're doing everything that we can to try to facilitate a diagnosis of MS when we know that someone biologically has MS. But the problem with making diagnostic criteria more permissive, and it's obviously a good thing because you want to capture as many people with MS as early on as possible. The problem with making it permissive is there is this terrible risk of misdiagnosis. As clinicians, we all think we never make mistakes. But it turns out when you actually do studies, you do. And even at MS specialty centers, when studies have been done, 10% to 20% of people with MS are misdiagnosed. So, this is exactly why we need in diagnostic criteria that really help to facilitate a diagnosis. We need things that help us prevent misdiagnosis as well. And these are these specific imaging measures that have now been incorporated into the diagnostic criteria in many settings that will help to facilitate a diagnosis. But the really big perk is if you use them, you can help to prevent misdiagnosis as well.  Dr Albin: Yeah, that really shone through in your article that this was such a big step in towards being more specific about who were diagnosing. Also capturing more people, right? Trying to get those people that we, we don't want to miss because of all the things you say, you know, that allows them to accumulate more disability, have worse outcomes. Early diagnosis is so important. But I really did take away from your article just how critical these are and sharping our diagnostic acumen. And so just to jump right in, and you describe these three new biomarkers, these cortical lesions the central vein sign and paramagnetic rim lesions. And so just to kick things off let's start with cortical lesions I sort of conceptualize multiple sclerosis a disease of white matter. So, what's going on here?  Dr Oh: Yes. MS classically has always been described as a white matter disease. But it turns out when you look at brain and spinal cord tissue, as well as when you use kind of better sequences to actually look for lesions in the gray matter, it actually turns out there's a ton of lesions in the gray matter as well. And in fact, what's interesting is that regardless of whether it's the cortex or the deep gray matter, it's lesions within these areas that seem to have the highest relevance for clinical disability in MS. So, all this to say, of course, MS is a lesion that does affect white matter, but it also affects gray matter a lot. And maybe pathology within the gray matter is even more relevant to clinical disability. So, this is why we're really interested in being able to develop methods using MRI to more accurately visualize the gray matter, particularly the cortex, as well as deep gray matter structures like the thalamus. I should add the caveat that cortical lesions were actually included in the 2017 diagnostic criteria revisions, but they were included together with juxtacortical lesions, which are a typical area that MS lesions form. And so, this imaging measure, despite the fact that it is relatively novel and we consider it advanced, it hasn't been used that much only because it's not that easy to detect lesions within the cortex. And reasons for this include that you usually need higher field magnet platforms. And so, the typical clinical MRI scanners that are available kind of widely, regardless of whether you're at an academic center or a community center, are 1.5 Tesla magnets. And cortical lesions are actually really difficult to detect on those typical scanners. But when you get to like, say, three Tesla or seven Tesla, they're a lot easier to detect. But obviously that's a big hindrance to widespread use. And then you actually need very specialized sequences to adequately visualize cortical lesions. And these are not sequences that are usually collected for clinical purposes. So, it kind of requires convincing your radiologists that you need this additional sequence. And then it actually takes a lot of time and training to be able to adequately, accurately detect cortical lesions. So, despite the fact that it's actually very useful when you do have the appropriate MRI sequences and scanners to detect cortical lesions, even though they were incorporated into the 2017 criteria outside of specialty centers, they're not actually widely used. But when you do have the appropriate sequences, cortical lesions are actually pretty specific for MS. So, very helpful for a diagnosis in certain settings. But there's all these practical limitations that have really limited its widespread use. Dr Albin: That is a beautiful summary. So, it sounds like once we kind of get up to speed in terms of like the protocols for this, having the magnet strength for this, this will be really a game changer in terms of increasing the specificity and also maybe finding things that impact patient's clinical presentation and therefore quite meaningful. But it sounds like for most of us, this is probably not something that they're going to be adopting right away. Is that a fair assessment?  Dr Oh: Yes. And you know, they were included in the last diagnostic criteria revisions. And it really hasn't changed things very much, only because of these difficulties with, you know, requiring higher field magnet strengths and these specialized sequences and then needing training to kind of figure out how you can adequately detect cortical lesions. Dr Albin: Totally. So, the other thing we've heard a lot about, and I have to say, I was in the AAN fall conference not too long ago, and this came up quite a bit, was the central vein sign and the fascination with that, because it tells us a lot about the MS pathophysiology and again, increasing that specificity. And it seems like maybe this is one that we can more easily adopt in clinical practice. So, tell our listeners about what that is, how they detect it. How many do you need to find?  Dr Oh: Sure. And so, this is one of the imaging measures I'm really excited about. So, the central vein sign heard about it recently. And probably in the last ten years particularly in the MS field we're talking about it all the time. But just wanted to emphasize that the central vein sign is not something that is new. Even back in the 1800s, when Charcot described MS lesions in these ancient textbooks, he actually very clearly described that MS lesions form around the central vein. And that makes sense, because we know that these waves of peripherally mediated inflammation somehow get through the blood-brain barrier and cause this cascade of events leading to inflammation in the brain and spinal cord, which is what MS is. But we know that B cells in T cells require veins to get into the central nervous system. And so, it's no surprise, really, that MS lesions form around veins. And so, this is something that's been known pathologically. But the reason we're so excited about it now is because we actually have good enough iron-sensitive MRI sequences that allow us to see a central vein when it is present within a white matter lesion. As a neurologist, we know that there's probably hundreds and hundreds of different things that can cause white matter lesions in the brain. But when you use an appropriate iron-sensitive sequence and you see that many of them, if not most of them, actually have visible central veins, that tells you that this person very likely has MS. And so that's why we're so excited about it, because there have been many studies done in the last ten years. In fact, so much evidence generated in the last ten years that there have been I think it's now four systematic reviews and meta analyzes. Looking at the diagnostic properties of the central vein sign. And, you know, it turns out that when you look at people with MS, most of them have a pretty high proportion of white matter lesions that have visible central veins. And there's a lot of questions about, you know, how to best use the central vein sign. But when 40% or more of the white matter lesions that you see have visible central veins, then the likelihood of a diagnosis of MS is very high. So, this is why we're so excited about it in the MS field because it's a really useful diagnostic tool. You know, again when you have appropriate ion sensitive sequences, if you see someone with white matter lesions and you see that 40% or more of them have visible central veins, this tells you that this person very likely has MS.  Dr Albin: So, Dr Oh, I hear you say, you know, 40% of the lesions. Does that mean the neuro radiologist needs to look at every single lesion and then count how many have the central veins, or is there an easier way to do this? Dr Oh: Great question. Casey, there is definitely an easier way because our neuro radiologists would not be our friends anymore if we made them look at every white matter lesion and make sure that 40% of them had the central vein sign. So, because it's so time-consuming to use that 40% threshold, there's an easier criterion that has actually made it into the diagnostic criteria. And it's called Select Six. And what this means is when you have more than ten lesions, as long as you show that six of them have a visible central vein, you just have to count six with the central vein. Then you're done. So that means you're Select Six positive or central veins nine positive. However, if you have ten or fewer lesions, as long as you show that more than 50% of them show a visible central vein, then you are select six positive, and then you're done. So, as you can see, it's a much simpler criterion to apply, and it seems to perform almost as well as that 40% threshold, which is why that is the criterion that's made it into the new diagnostic criteria.  Dr Albin: Perfect. I love that we definitely do not want to make enemies with our neuro radiology colleagues, but yet they do so much for us. So perfect. I'm glad that we can, make their jobs a little easier without losing any specificity there, or just losing a touch of specificity there. All right. If I am working with a, you know, in a center that maybe doesn't do this all the time, am I just getting a run of the mill SWI sequence? Do I need to ask my radiologist for a special sequence? Or is this just, you know, you can get it from the typical array of what our patients are getting.  Dr Oh: You know, SWI is a widely available commercial sequence that's iron-sensitive, the ones that are typically commercially available, they can detect central veins, but there actually are little tweaks that you can do to make it a little more optimal. With the recent diagnostic criteria publication, which was, led by Xavier Montalban and recently published in Lancet Neurology. There's actually a companion MRI paper that was led by Frederick Barkov and Danny Wright. And the reason I'm specifically citing those papers is in that companion MRI paper, there's a table that has kind of optimal sequence parameters that you can use even with a conventional SWI sequence, to try to best detect the central vein sign. And then there's a wide range of different iron-sensitive sequences, and SWI is one of them, but the one that seems to have emerged as most sensitive to detect the central vein sign is something called the 3D T2*-EPI sequence. But the bottom line is there's a whole bunch of different iron-sensitive sequences that you can use, little tweaks that you can do to make them optimal, to be able to visualize central veins when they're present within white matter lesions. Dr Albin: Incredible. So like partner with your neuro radiologist, there is a great sounds like a field guide almost to this. So, it makes it easy to pick up in your standard of care so that you can make sure that you are detecting them at the optimal level to see that more specific diagnostic biomarker.  Dr Oh: Yes. And you know, in contrast to what we were talking about with cortical lesions, you can actually detect central veins when you use these iron-sensitive sequences at any field magnet. So even at 1.5 Tesla, particularly when you use contrast, which is often given with the diagnostic scan anyway, you can very easily detect a central vein. So that's a huge benefit because it allows for widespread use. As long as you work with your radiologist to get the right iron-sensitive sequences in.  Dr Albin: Yeah, that's incredible. I mean, I think that it really will be practice-changing. And then the last one that I think was honestly new to me, I feel like I had heard a lot about the central vein sign, but the whole new to me term was this paramagnetic rim lesion. So, what does that tell us about the underlying biology of MS? And are there any other things that might also have this finding that we should sort of be aware of? And how specific is it?  Dr Oh: You know, the central vein sign is kind of the main, really new imaging measure that's made it into every part of the MS diagnostic criteria. And then together with that paramagnetic rim lesions or we call them PRL or pearls for short, they've made it as well, but in a much more limited way only because there's not as much evidence that has accumulated over time to support the diagnostic utility of pearls. But first of all, what are pearls? So, people in the MS field are really excited about pearls, because we know that they capture a subset of what we call chronic active lesions. So, MS lesions will form acutely and over time, some of them will become inactive. And then some of them are chronic active lesions, meaning that they have this rim of activated microglia around them. Over time, they continue to slowly expand. And it's almost like this slow burn. And the reason why we focus a lot on chronic active lesions is because we know that they're a driver of progressive disease biology and MS, meaning that in people who have progressive MS or who have pretty severe disability, global disability or cognitive disability, we know that they have a high burden of pearls. And so that's why there's so much excitement in MS about being able to image chronic active lesions. It's because we're always looking for an imaging measure that allows us to accurately predict progression or to, measure progression over time. So that's why there's so much excitement in MS about pearls. But as kind of an added bonus, it turns out pearls are also really specific for MS. And so, when you use the same iron-sensitive sequences, by the way, that's used to detect the central vein sign when you use appropriate iron‑sensitive sequence. And if you see that someone has a pearl, the likelihood of a diagnosis of MS is very high. The one exception to that is Susac syndrome, where pearls have been observed. But other than that, with many other white matter diseases like neuro rheumatology disease, NMOSD, MOGAD, you really don't see pearls. And so, this is why it's made it into the new diagnostic criteria. In contrast to the central vein sign, though, not everybody with MS has a pearl, so the sensitivity isn't as high. However, it's really, really specific in the range of, you know, 90 to 95%. So, this is why it's been added as, an imaging measure in certain settings. It can help facilitate a diagnosis. But the real utility, again, is when you use it, it helps you to prevent misdiagnosis.  Dr Albin: It's fantastic. And hearing you talk about that, this one stands out to me as a biomarker that not only helps increase our diagnostic specificity, but also may really inform if the patient has having progression despite the treatment they're on, that this could play a role in helping you say, look, there probably is something that we need to switch because we can still see this ongoing progression. Dr Oh: Yes. And especially in this new era of treatment in MS. I think, you know, MS as a field, we've been so fortunate to have so many treatments emerge over the years that mainly target relapsing disease. But we hopefully, in the next little while, in short order, I hope we'll have treatments that target these progressive disease biologies. And so, not only is it helpful as a diagnostic marker, but there's a lot of evidence accumulating, showing that it may have a lot of prognostic value and will also help guide treatment decisions, exactly as you said.  Dr Albin: It truly does sound like it's a great time to be an MS doctor there. So, so many new advances in the field. There is so much more that we can do for these patients in our limited time left. I'd love to ask you, what is it that you're most excited about now with the change in the biomarkers, the change in the treatment, what makes you really excited to be a doctor specializing in MS right now? Dr Oh: I feel like we're on the brink of a new era of treatment. I think, you know, in the last two decades, MS care has changed so dramatically. I remember, you know, way back when, as a medical student, when I did my first neurology elective, this was when the first treatments for MS were emerging. And the prognosis that we were talking to patients about at that time is like night and day compared to what we talk to them about now. But we're going to do even better in the next couple of years. And so, there's a number of new treatments that hopefully will be approved soon that, for the first time, have shown an effect in clinical trials where it seems to be decreasing progression that is independent of relapsing activity. And that's really the greatest unmet treatment need that we have. And it seems like we might have some therapies on the horizon that can actually target that aspect of progression. It's really exciting, and even more that we're going to be able to do for our patients to completely change the way, we look at and the way we treat MS in the years to come.  Dr Albin: Dr Oh, this has just been fantastic. To all of our listeners, I really want to point you to the article because obviously, as an imaging biomarker article, there are so many beautiful images. There are great examples. There are some fantastic cases that show how applying these new biomarkers can help get you to the right diagnosis. This is truly a tour de force of how imaging has really shifted the care that we provide patients with MS, and so please go and check it out. It is one that you do not want to miss. And again, today I've been interviewing Dr Jiwon Oh about her article on diagnostic neuroimaging biomarkers for multiple sclerosis, which appears in the April 2026 Continuum issue on multiple sclerosis. Thank you again, Dr Oh, this has just been such a delight.  Dr Oh: Thank you for having me on the show, Casey, and look forward to people reading the article. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• April 2026 Multiple Sclerosis and Related Disorders Issue With Dr. Andrew J. Solomon 01.04.2026

  In this episode, Lyell K. Jones Jr, MD, FAAN, speaks with Andrew J. Solomon, MD, FAAN, who served as the guest editor of the April 2026 Multiple Sclerosis and Related Disorders issue. They provide a preview of the issue, which publishes on April 2, 2026. Dr. Jones is the editor-in-chief of Continuum: Lifelong Learning in Neurology® and is a professor of neurology at Mayo Clinic in Rochester, Minnesota. Dr. Solomon is the Division Chief of Multiple Sclerosis and a Professor in the Larner College of Medicine at the University of Vermont in Burlington, Vermont. Additional Resources Read the issue: continuum.aan.com Subscribe to Continuum®: shop.lww.com/Continuum Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @LyellJ Full episode transcript available here Dr Jones: It's been more than 150 years since Jean-Martin Charcot first described the disease that we now know as multiple sclerosis. Since then, the tools we have to diagnose and treat this disorder have expanded enormously. So why are the diagnostic criteria for MS. still evolving? Today we're speaking with Dr Andrew Solomon, guest editor of our latest issue of Continuum on MS and related disorders. To learn more about this question and much more. Dr Jones: This is Dr Lyell Jones, editor in chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about subscribing to the journal, listening to verbatim recordings of the articles, and exclusive access to interviews not featured on the podcast. Dr Jones: This is Dr Lyell Jones, editor in chief of Continuum, Lifelong Learning in Neurology. Today I'm interviewing Dr Andrew Solomon, who is Continuums guest editor for our latest issue of Continuum on multiple sclerosis and related disorders. Dr Solomon is a professor of neurological sciences at the University of Vermont, where he also serves as the division chief of multiple sclerosis. Dr Solomon is an internationally recognized authority on MS, particularly on the diagnostic approach to this complex disorder. Dr Solomon, welcome. Thank you for joining us today. Why don't you introduce yourself to our listeners?  Dr Solomon: Hi, everyone. This is Andy Solomon. It's a pleasure to be here with you. And I feel honored to have helped this collaborative effort that created this important tool for trainees and clinicians in practice, the Continuum issue on multiple sclerosis and related disorders.  Dr Jones: Obviously, we're grateful that you've taken us on. A lot has happened in the world of MS and other neuroinflammatory disorders in the last few years, so lots to update. But as we've done over the last few podcasts, I'm going to start off the interview today, Dr Solomon, with a trivia question. And then we'll come back at the end of the podcast and give the answer. So, the trivia question is this. There are now more than 20 drugs approved by the FDA for the treatment of MS. What was the first disease-modifying therapy approved for MS? And when was it approved? So, don't answer because I know you know the answer. But we'll come back to it at the end of the interview. And our listeners can think about that question. So, let's get right to it. As many of our listeners know, the diagnostic criteria for MS. were recently revised. And you were involved with that revision. So, you're the perfect person to ask what were the major changes in the 2024 McDonald criteria, and why did we need to update them in the first place? Dr Solomon: I'm very excited about the 2024 McDonald criteria, and it was an honor to be part of that process that resulted in that manuscript. When we revise the diagnostic criteria for MS usually it's driven by accumulating data that suggests some changes or revisions might help us diagnose patients either earlier or with more accuracy. And that's certainly the case with this criteria. There was accumulating data that suggested some particular changes were important. You know, there's a lot of expert opinion involved as well. You know, there's many experts who are involved in the collaborative decisions that go into these revisions. And some of the changes in our field also pushed some of the revisions to where maybe there's not as much evidence, but where we felt it would improve care for patients with MS. This criteria, I would argue, is probably one of the most substantial revisions in over 20 years. There's multiple changes that are potentially impactful for the diagnosis of MS. Some very important changes involve the incorporation of new paraclinical tools that we can use to assess the visual pathway, as well as, imaging tools that provide high specificity for MS that we can use to substitute or dissemination in time, for instance, as well as other tools that may allow us to diagnose patients earlier than we would have in prior criteria.  There's also some opportunities with the new criteria to potentially provide access in regions where some tools are more available than others. For instance, the incorporation of Kappa Free Light Chains as a substitute for oligoclonal bands may open up opportunities in regions where expertise for oligoclonal band testing are not available. That's a very qualitative test, whereas Kappa Free Light Chain index is more quantitative, less expensive and may allow CSF testing to be performed to aid the diagnosis of MS in some regions where it wasn't available previously. This criteria provides multiple pathways to the diagnosis of MS, many more than we've had in prior criteria. So, it's important to emphasize that while there's all these new tools and changes that have been incorporated, not every pathway needs to be available where you practice. What it incorporates as flexibility. It is a bit more complex looking at all of these different possibilities, but the point is this flexibility allows clinicians or providers to diagnose MS early with high accuracy based on the tools they have available. Dr Jones: I think it will be a learning curve, right? I think any time we make a change in how clinicians get accustomed to approaching a diagnosis of a disorder, it will take some time for folks to incorporate it. And I see what you mean about the complexity, but I think that's a really great point, that emphasizing the different pathways to the diagnosis is really a strength of the revision, right? Dr Solomon: I agree, I think, you know, in other disorders, particularly if you think about rheumatologic disorders, systemic rheumatologic disorders or inflammatory disorders, where over time we've not had very highly specific and sensitive biomarkers. And we've incorporated a variety of clinical and prior clinical findings, testing, laboratory testing and biopsy and other things to confirm a diagnosis. These approaches to these disorders are sort of a checklist. And I think that clinicians became familiar with that approach and were able to make diagnoses accurately this way. And I think of the new criteria in a similar way. It's not quite amenable to a checklist, but the pathways are sort of simplified with multiple options. Hopefully, using the figures, clinicians can look at the paper and see what tools they have available to help them confirm a diagnosis of MS. I think it's really important to emphasize that the diagnostic criteria for MS still does not discriminate MS from other disorders. Everyone who's listening here, you do, the clinicians do. So, to enter the diagnostic criteria and these pathways, we first have to feel confident that the patient has a clinical presentation and an MRI presentation or MRI findings that are highly suggestive of MS. That aspect of the criteria hasn't changed since, the Schumacher criteria in the 1960s. This concept of no better explanation. So, we still need to know what's typical for MS. And we need to know what signs or symptoms or findings are that might suggest another disorder, because the criteria are really only validated and tested in patients who have these presentations to start with that are typical for MS. A major change in this particular criteria is that we can now diagnose patients who are asymptomatic. Previously just called radiological isolated syndrome. Not every patient with an MRI finding concerning for MS and now being diagnosed with MS. There's other features that, must be present, but even more than before, knowing what the typical appearance of MRI lesions suggestive of MS, it is even more critical now than it was before, because in those patients who have either no symptoms or a nonspecific presentation, if we have an MRI that's highly convincing for MS and some other prior clinical findings, we can make the diagnosis. But we first need to know with some confidence what that MRI should look like.  Dr Jones: So, there is a little circularity when we do these diagnostic criteria. I think our listeners who see patients will be reassured that the clinician is still in the loop. We haven't been automated out of the process yet.  Dr Solomon: We need a highly sensitive and specific biomarker or a set of biomarkers for MS.  We're getting closer with some of these advanced imaging findings like central vein sign and paramagnetic rim lesions. But not every patient can be diagnosed with those. And they're not required for the diagnostic criteria. In lieu of a highly sensitive and specific test. Our clinical acumen, for what we find a neurologic exam. And what we see on imaging in particular, is quite critical for ensuring that the criteria perform as well as we hope they will. Dr Jones: So, you've had the opportunity, the vantage point, to review all of these articles covering a wide variety of topics, MS, other neuroinflammatory disorders like aquaporin‑4–positive neuromyelitis optica spectrum disorder (NMOSD), myelin oligodendrocyte glycoprotein antibody-associated disease, MOGAD. Anything that surprised you in these articles as you were reading through them?  Dr Solomon: I think maybe for listeners, what may be surprising to some of them is that despite guidelines surrounding the use of some of our disease modifying therapies in pregnancy and breastfeeding that are published by regulatory authorities in the United States or Europe or other places, we are making other decisions for patients based on the data we have, the best data we have. Thinking about family planning is really important for us with patients who are newly diagnosed with MS, as well as through the course of their disease. This is a conversation we should be having shortly after diagnosis, because there are strategies we can take to minimize the risk of exposure of DMT around conception and to make plans for how we're going to think about DMT surrounding breastfeeding, to ensure the health of mom and the baby, and reduce risks as much as we can with the knowledge we have. I think in medicine it's quite common for us to use medications off label, right? I mean, so medications are often FDA approved for one indication. And in neurology, for instance, we find a lot of medications after their approval were quite effective for migraine prophylaxis for instance. Right? And so, it's not unusual for us to prescribe medications beyond the label. And I'm not suggesting that we necessarily ignore the advice of our regulatory authorities. But sometimes the data is accumulating really fast around some of these therapies after they're approved. Sometimes we can look towards experts and how we can navigate pregnancy and breastfeeding in MS. Dr Jones: I think that's a great point about the importance of family planning and having to use judgment. I do want to highlight to our listeners and our subscribers a fantastic article in the issue on family planning and MS and other neuroinflammatory disorders. This was written by Dr Ruth Dobson and Dr Kersten Hellwig, and I think it covers a lot of that gray area where we have to use our clinical judgment to manage these diseases in the absence of a regulatory approval. And I think, again, that's an important gap that the issue fills. And really, that's just a wonderfully written article that I think is a must-read. So, we cover lots of topics in this issue. And one of them is again a relatively newly characterized disorder, MOGAD. What's the latest in the world of MOGAD, what should our listeners be aware of? Dr Solomon: I agree, I think we're in an exciting time in CNS inflammatory disease. And this is a recently described disorder. You know, and the diagnostic criteria now is only a few years old. So, I think importantly, readers should be aware of the diagnostic criteria. This is something that, really will help us distinguish this disorder from NO spectrum disorder and MS. There's a key overlap between the MS diagnostic criteria and MOGAD. Two decades ago we saw a pediatric MS included somewhat atypical presentations like bilateral optic neuritis or acute disseminated encephalomyelitis. And we had caveats in our approaches to pediatric presentations of presumed MS, suggesting that there could be something very different than adult MS. Subsequently, we've realized that pediatric MS presents quite similarly to adult MS in terms of its clinical syndromes and MRI appearance, and many of those pediatric patients who had initially been diagnosed with MS and MOGAD. MOGAD is actually probably more common demyelinating syndrome in patients who are under 12 years old. So, the MS diagnostic criteria requires testing for MOG-IgG with a good assay, a cell-based assay, any patient being evaluated under the age of 12 or with a demyelinating syndrome to avoid misdiagnosis.  Dr Jones: Thanks for that. Obviously, MOGAD is one of several disorders that have been more recently characterized and, something that our readers need to be familiar with, and there's plenty of updates within the issue on that and other topics. Okay. So now back to our Continuum audio trivia question. And just to remind our listeners, there are now more than 20 drugs approved by the FDA for the treatment of MS. What was the first disease-modifying therapy approved for MS? And when was it approved? Dr Solomon, do you want to take the honors and answer the question?  Dr Solomon: Sure. It was way back in 1993. You had to get on a wait list, I believe, initially to get on it. There was some sort of lottery, and it was Betaseron.  Dr Jones: Betaseron in 1993, was the first disease-modifying therapy approved by the FDA for the treatment of MS. It just shows how much water under the bridge we've had since then. 1993 was also the first year of the Jurassic Park series of movies. It was the biggest movie of the year, the song of the year in 1993 was "I Will Always Love You" by Whitney Houston. It was also the year you can tell that I look back into 1993 to see what else happened. It was also the first year the World Wide Web became publicly available, which is it kind of puts brackets on the era or the epoch of MS disease modifying therapy. And finally, the Super Bowl champs that year were the Dallas Cowboys, who unfortunately, have not had much luck in Super Bowls since the 1990s. Maybe they will have more opportunities like we've seen with MS therapeutics. So, Dr Solomon, I want to thank you for joining us today. I want to thank you for such a wonderful discussion of the latest in MS. I think the updated diagnostic criteria are really going to be critical for our listeners to understand and incorporate into their practice. Really grateful for your leadership of the issue, putting together a really stellar group of experts for all of our articles and grateful for your time today. Thank you for joining us.  Dr Solomon: Thanks so much for having me. Thank all the other listeners out there for joining us as well. I'm really excited about this issue of Continuum.  Dr Jones: Again, we've been speaking with Dr Andrew Solomon, guest editor of Continuums most recent issue on multiple sclerosis and related disorders. Please check it out. And thank you to our listeners for joining today. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the Journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. Thank you for listening to Continuum Audio.
• Neurologic Complications of Drug and Alcohol Use With Dr. Adeline L. Goss 25.03.2026 25min

  Neurologic complications of substance use may be the first symptoms that lead patients with substance use disorders to seek care. Neurologists have a key role in identifying patients with substance use disorders and connecting them to treatment. In this episode, Lyell K. Jones Jr, MD, FAAN, speaks with Adeline L. Goss, MD, author of the article "Neurologic Complications of Drug and Alcohol Use" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Jones is the editor-in-chief of Continuum: Lifelong Learning in Neurology® and is a professor of neurology at Mayo Clinic in Rochester, Minnesota. Dr. Goss is a neurohospitalist and associate chief of neurology for Highland Hospital in Oakland, California. Additional Resources Read the article: Neurologic Complications of Drug and Alcohol Use Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @LyellJ Full episode transcript available here Dr Jones: A big part of neurology is solving mysteries. Patients can show up with all kinds of mysterious symptoms. Sometimes the diagnosis comes from within, some internal disruption of neurophysiology. But sometimes the problem is a complication of drug or alcohol use. Today we have the pleasure of speaking with Dr Adeline Goss, who recently authored an article for Continuum on this exact problem, a topic all neurologists need to be familiar with. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum: Lifelong Learning in Neurology. Today I'm interviewing Dr Adeline Goss, who recently authored an article on the neurologic complications of drug and alcohol use for our latest issue of Continuum on the neurology of systemic disease. Dr Goss is a neurohospitalist and the associate chief of neurology at Highland Hospital in Oakland, California. She's also an accomplished writer, broadcaster and podcaster. Dr Goss, welcome, and thank you for joining us today. Why don't you introduce yourself to our listeners? Dr Goss: Great to speak with you, Dr Jones. Yes, I'm Adeline. I also go by Addie Goss. Dr Jones: So, before we get into the discussion, we're going to start off today with something fairly new to the podcast, the Continuum Audio trivia question. So, we all know that alcohol and other substances have many potential complications in that use of these substances fluctuates over time. But this one stood out to me from your article, Dr Goss, just for the sheer size of the change. So, for our listeners, here's the question. Accidental exposures to what substance increased a whopping 1,375% between 2017 and 2021? I'll read that again. Accidental exposures to what substance increased 1,375% between 2017 and 2021? So, stick around to the end of our interview for the answer. And let's get right to it, Dr Goss. If you had a single most important message to our listeners from your article, what would it be? Dr Goss: Well, I mean, many of us went into neurology because of the way that neurologic illnesses can be life-changing for patients. And I work as a neurohospitalist at a public hospital in Oakland, California. Many of my patients are admitted for neurologic conditions related to substance use. And when I see my patients later in the discharge clinic, many tell me that the last day that they used meth or the last day they used cocaine, the last day they smoked, was the day they had their stroke or whatever they came into the hospital for. I think the most important message is that hospitalization for a neurologic condition related to substance use can interrupt use patterns, can motivate change. And therefore, as neurologists, we really have an opportunity to connect to our patients and connect our patients to substance use treatment and make a dramatic difference in people's lives in this regard. Dr Jones: I think that's a fantastic point. I enjoyed a point you made in your article---and I can't remember exactly how you phrased it, I won't say it as well---that you think of the syndromes through which alcohol and drug exposures can present. Those syndromes almost always could end up of other primary neurologic disorders. So, put a different way, when a patient presents with a neurologic problem, most of the time an exposure could be on the differential.  And so, we really do have a responsibility as neurologists to be familiar with these. Dr Goss: To be familiar with these and to know how to connect patients to resources to try to get treatment. Dr Jones: Totally agree. And you touched on the public health aspect of this. It's really hard to talk about drug or alcohol use without acknowledging the public health impact particularly of opioids, which has been a crisis for most of this century. Right? And I think most of our listeners will be familiar with the rapid rise in opioid-related deaths. But there might be a glimmer of optimism there. Is what I've seen true, that opioid-related deaths may have plateaued? Dr Goss: So, yes, it's true that opioid-related deaths, overdose deaths in general, have begun to decline, actually, since 2023. And that's in part because overdose deaths really surged early on in the Covid-19 pandemic, in the setting of all of the social disruption, reduced access to services, and social isolation that occurred with the pandemic. But there were really multiple factors there. So, as you mentioned, there was this really rapid rise in illicitly manufactured fentanyl. Fentanyl became a major driver in overdose deaths starting in the mid-2010s. And by the late 2010s, it overtook heroin and prescription opioids as drivers of overdose deaths. And then this just collided with the pandemic in 2020, causing skyrocketing deaths. So, as we know as neurologists, fentanyl is more potent, it's shorter-acting, and it's also cheaper than heroin. It can cost as little as 50 cents or a dollar a pill. Thankfully, as services have rebooted and also as naloxone has become more widely distributed, there has begun to be a decline in opioid overdose-related deaths. So, we're relying on provisional data from the CDC for the most recent years, but that shows about a 24% decline in annual overdose deaths, comparing late 2023 to late 2024. And that's real. That comes out to 70 lives saved per day. Unfortunately, deaths still remain above prepandemic levels, and we're still talking about 87,000 drug overdoses per year. So, I would agree, a glimmer of hope. But we're still seeing overdose as the leading cause of death among young Americans aged 18 to 44. And there's a very long way to go. Dr Jones: 23% is a big number, and that is certainly exciting to think about, but we're still above that long-term secular trend. So, hopefully whatever is happening to bring that down, hopefully it continues. And we talk a lot about- appropriately, we talk a lot about opioid exposures and some of the neurologic presentations of opioid use and toxicity, but alcohol use disorder is the most common substance use disorder, correct? I learned that from your article. And it has been for some time, and it has well-known acute and chronic toxicities. But I think many of us have been taught something of a myth in the acute treatment of patients who may have thiamin deficiency or Wernicke's encephalopathy. Can you tell us a little more about that? Dr Goss: Yeah, sure. So, boy, what is my favorite vitamin? As a neurologist, I think thiamin is my favorite vitamin. Thiamin is a cofactor in- for several enzymes that are involved in glucose catabolism. And it's necessary to synthesize myelin and several neurotransmitters. And as we know, alcohol use disorder leads to reduced nutritional intake and impaired digestion and absorption of nutrients. And this can lead to deficiencies in water-soluble B vitamins, including thiamin, as well as trace elements. The thing about thiamin is that thiamin deficiency often appears first, because the body's stores of thiamin deplete in about 4 to 6 weeks. You know, we're traditionally taught if a patient presents with symptoms concerning for Wernicke's encephalopathy, that if they're also hypoglycemic or just in general, we have to get glucose into them first, because we don't want to tax these thiamin-dependent glucose catabolism pathways. But really, there's no reported case of a single glucose bolus precipitating some dramatic symptomatic thiamin deficiency. It's thought that harm would come potentially from prolonged carbohydrate administration without thiamin. And so, if a patient in front of you is both thiamin deficient and hypoglycemic, you just treat both. You treat both emergently. But it doesn't really matter in what order you do so. Dr Jones: That's good to know that doing the right thing for the patient can involve using either of those in whatever order. And I agree with you, I don't think I've ever hurt anybody by giving them thiamin. It's an easy one to miss and an important one to remember in the right context. And speaking of, and I think a lot about in your article, Dr Goss, I can see a neurologist seeing a patient in the emergency department or in the hospital or even in the clinic thinking about the wonderful points in your article. But we know that when alcohol or substance use enters our mind on the differential, the next impulse is to test for it. And we also know there are pitfalls of drug screening, doing urine drug screens, etc. How do you approach testing when you think about a potential drug-related complication in their differential? Dr Goss: So, like most people, I would start with a urine drug screen for any patient who's presenting with a possible toxidrome or some substance-related neurological presentation. These urine drug screens, they're rapid, they're inexpensive, they're immunoassays for traditional drugs and their metabolites. So, usually amphetamines, cocaine, opiates, plus/minus cannabis. But I think the first thing to note is that they miss entire categories of drugs, and not just drugs that are not in that list. They miss synthetic opioids, including fentanyl. One group is keeping track of this number. So, I have an update for mid-2025. And that's that 30% of U.S. ED overdose encounters as of mid-2025 included fentanyl testing. Only 30% for patients who are presenting with an overdose syndrome. Dr Jones: And that's for one of the most widely used synthetic opioids. So that's really a striking number. Dr Goss: Yeah, one of the most widely used and one with the greatest rate of complications. So, states can make a difference here. In 2022, California passed a law requiring fentanyl testing on hospital urine drug screens and several states have followed. And so that number is rising, the rate of testing for fentanyl. But that's just a really key thing to know, that that one is often missed. Other just important pitfalls, the timing of the urine drug screen matters because for most substances, it only picks up the drug within 24 to 72 hours after the last use. With amphetamines and cocaine going out a couple more days after that, especially in patients who use repeatedly. And then also, notably, there's a risk of false positives. This is especially true with amphetamine use, and beta blockers are one of the drugs that can lead to false positives on an amphetamine test, on a urine drug screen. So, I'll share that I've had several patients who have presented with intracerebral hemorrhage and who tested positive on the emergency department's urine drug screen and who adamantly stated that they do not use amphetamines, they've never used amphetamines, and they didn't ingest anything that could have contained amphetamines. And when we did serum confirmatory testing, in fact, their amphetamine testing was negative, and all those patients had received esmelol or the labetalol in the ED to treat their blood pressure related to their ICH. So false positives can occur with, you know, other medications like decongestants and certain antidepressants. But beta blockers are a key one to know. And then finally, there are just a number of things outside of that short list of substances that I mentioned, including a huge range of novel psychoactive substances that would not be tested for on a standard urine drug screen. And for those, you'd require serum testing, or at some large academic centers or specialty toxicology labs, you can actually do liquid chromatography high-resolution mass spectrometry, with- which is basically unbiased testing for any substance that's present in the patient sample. So, I guess, you know, you asked about my approach. Start with the urine drug screen, but there's no substitute for good history-taking and close examination of your patient's general examination, not just their neurologic presentation. And if patients are presenting with a toxidrome that I would expect would show up on a urine drug screen but it's negative, there are other confirmatory tests that can be sent, although they're often send-out labs and come back in a very delayed fashion. Dr Jones: So, in other words, it's complicated, which usually means it's humbling. And if I'm understanding it correctly, there's the risk of the false positive on the urine drug screen. And then there's the risk of the false negative if we think we're screening for something that might not even be on that initial screen. So, that's a wonderful reminder that these are clinical diagnoses and we have to keep our clinician hats on while we're thinking about how to establish these diagnoses or exclude them. So, back to opioids, Dr Gross. There are some really peculiar neurologic syndromes associated with opioid overdose. Tell us a little about those. Dr Goss: Well, I mean, some of these were described first with heroin. So, we can start with the one that almost anybody has heard of, heroin-associated spongiform leukoencephalopathy, which we know is associated with a practice known as "chasing the dragon," which is inhaling vapors of heroin heated on foil. But we know now that this syndrome can occur with other opioids, including fentanyl. The clinical features are, you know, apathy, cerebellar signs, quadriparesis, parkinsonism, myoclonus, and some patients progress to coma or even death. But on MRI you're seeing, you know, these confluence symmetric white matter diffusion restriction and T2 hyperintensities in the cerebellar white matter and the posterior limb of the internal capsule that spare the subcortical U-fibers. So, you know, I think this is kind of the classic example of something that's symmetric, that has a very obvious and interesting MRI pattern. But as time is passing, we're seeing more and more similar types of syndromes of leukoencephalopathies, but with different clinical presentations and MRI characteristics. So, another of these is CHANTER syndrome. This is an opioid overdose-related presentation where people have stupor and coma. And on the MRI there, you see bilateral symmetric diffusion restriction in the cerebellar cortex, in the hippocampi, in the basal ganglia. And it spares the cerebral cortex. And notably in these cases, patients can progress to cerebellar edema, to obstructive hydrocephalus. And some require suboccipital craniotomy. I had a week recently at Highland Hospital, where I work, where we had two of these cases in the same week, in just a community hospital. And there's a similar syndrome in children known as POUNCE syndrome with profound cerebellar edema, and many patients require posterior decompression. So that's another different distribution of findings with a different outcome. Fortunately, there's a milder sort of phenotype of opioid-associated amnestic syndrome, is what it's been described, where there's primarily DWI changes in the hippocampi and the globus pallidus. So, patients primarily present with an amnestic syndrome, mostly anterograde amnesia. Seeing these in practice, I'm not sure that patients always fall into one bucket or another. But in general, you'll see some degree of symmetric diffusion restriction or symmetric white matter changes that clearly point to a toxic presentation, a toxic syndrome, as opposed to pure anoxia, for example. And it's important to know that because from a prognostic standpoint, anoxic brain injury, which can occur after cardiac arrest and after opioid overdose, can look different than some of these syndromes. Finally, heroin has been associated with myelopathy, but also that's been reported on with fentanyl. So, I think some of these conditions got their reputation from heroin. But as fentanyl has proliferated---and prior to that as prescription opioid, you know, misuse had proliferated---we're seeing similar syndromes with all of the opiates. Dr Jones: And I think it's a good case in point that you can have multifocal disease and it be a manifestation of an intoxication, and I think that's a really good reminder that we have to have many of these syndromes in our differential, we have to be aware of them, otherwise we might miss them or attribute them to another mechanism. Dr Goss, our last issue of Continuum that was dedicated to the neurology of systemic disease came out in 2023, and here we are in 2026 publishing our latest issue, including your article and this podcast. Since 2023, have there been any emerging patterns or novel agents of abuse or misuse out there? Dr Goss: The short answer is yes, and I would say the reason is just the supply is moving at more and more rapid speed. The relationship between the internet and drug supply has really informed what's out there at any given moment. So, the turnover in the market can change in weeks, not in years. And there's all of this distribution through social media and encrypted apps. And then manufacturers are kind of continuously tweaking chemical structures to evade law enforcement. In the process of researching this article, I came across some, I mean, really wild examples. To be clear, these are not- not all these are common substances, but I think the general phenomenon should be known that people can walk into a vape shop or walk into a gas station or meander around online and buy some really weird stuff. So, in 2024, there was this nationwide recall of a product called Diamond Shrooms that was sold online and in smoke and vape shops, and this was billed as, like, a hemp and mushroom mixture. But it led to multiple- I mean, over 100 cases of seizures and agitation and depressed consciousness and a few possible deaths. And when the contents were analyzed, they included psilocybin analogs and pregabalin. I mean, some weird stuff. And so, those have been pulled. But people are constantly inventing and marketing these different substances. I think another example… we all know about nitrous oxide and its association with B12 myopathy. But the use of nitrous oxide has really changed. Companies are selling large canisters online and in vape shops, and they're flavored, like, in blue raspberry flavor. And unfortunately, there's been a rise of nitrous among youth. So, we're seeing not just increased cases of myelopathy, but also a 2025 study in JAMA found a spike in deaths attributed to actual nitrous oxide overdose. And so nitrous, I think, had not been that commonly used a few years ago, but has become more common in the last couple of years. A final one I'll just mention is ketamine. So, ketamine has certainly appeared in reviews of neurological syndromes related to substance use for a long time, and it's also been studied and used off-label for mood disorders in outpatient infusion clinics for some time. But in the pandemic, there was an expansion in telemedicine, as we know, and an associated proliferation of teleclinics that were prescribing very frequent, even daily oral and lozenge and nasal formulations of ketamine, which has led to increased rates of misuse. So, you know, acutely, the syndrome associated with ketamine intoxication is very brief. And often by the time people come to the emergency department, their symptoms have already worn off. But long-term, frequent use of ketamine is really still being studied. There seems to be an association with persistent neuropsychiatric effects like cognitive impairment, psychosis, persistent depressive symptoms. And so, you know, I think it's just important to realize that while the list of substances may look pretty similar to 2023, the use patterns, the distribution patterns are continuing to change. It's hard to keep up. And while alcohol and opioids and stimulants are by far the most common substances that a neurologist is going to encounter in daily practice, there's this ever-expanding range of possible substances that can trigger neurologic syndromes, both acute and chronic. Dr Jones: And I think that might be the best possible plug to read your article, because it is evolving and we have to stay on top of it. And we really can't be complacent with it. So, thank you for that update. Okay, back to our trivia question. Accidental exposures to what substance increased a whopping 1,375% between 2017 and 2021? Dr Goss, what do you think? Dr Goss: That was THC-infused edibles. Specifically, these would be THC-infused substances that are often marketed as looking like candy or snacks or cereal. Exactly what a kid might want to get their hands on. And unfortunately, accidental cannabis exposures in children under age five went up by 1,375% between 2017 and 2021, and 600 of those patients required critical care admission. Dr Jones: Yeah. So, just a mind-blowing number, and obviously something for us to be on the lookout for, especially if you see children in your practice and someone comes in with CNS depression or stupor, it's one to not miss. So that was something I learned in reading your article, among many other things. And Dr Goss, I want to thank you for joining us. I want to thank you for such a great discussion. I learned a lot from reading your article, I learned a lot just from our conversation today, and I suspect our readers and our listeners will too. Dr Goss: What a pleasure. Thank you so much, Dr Jones. Dr Jones: Again, we've been speaking with Dr Adeline Gross, author of a fantastic article on neurologic complications of drug and alcohol use in our latest issue of Continuum on the neurology of systemic disease. Please check it out, and thank you to our listeners for joining us today. Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neurologic Complications of Pregnancy and Menopause With Dr. Sara C. LaHue 18.03.2026 18min

  Neurologic care during pregnancy and menopause requires careful attention to the dynamic interplay between hormonal transitions, evolving evidence on diagnostic and treatment safety, and the lifelong risks associated with neurologic complications of pregnancy. In this episode, Katie Grouse, MD, FAAN, speaks with Sara C. LaHue, MD, author of the article "Neurologic Complications of Pregnancy and Menopause" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Grouse is a Continuum® Audio interviewer and a clinical assistant professor at the University of California, San Francisco in San Francisco, California. Dr. LaHue is an assistant professor of neurology for the Weill Institute for Neurosciences in the Department of Neurology at the University of California, San Francisco School of Medicine in San Francisco, California Additional Resources Read the article: Neurologic Complications of Pregnancy and Menopause Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Full episode transcript available here Dr Grouse: Despite the high prevalence of neurologic conditions in women, critical gaps remain in training, research, and clinical guidelines on sex and gender specific considerations across the lifespan. Today, I have the opportunity to speak with an expert on neurologic complications of pregnancy and menopause and coauthor of the and women's neurology curriculum core competencies, Dr Sara LaHue about the latest issue of Continuum on neurology of systemic disease. Dr Jones: This is Dr Jones, editor in chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Grouse: This is Dr Katie Grouse. Today I'm interviewing Dr Sara LaHue about her article, Neurologic Complications of Pregnancy and Menopause, which appears in the February 2026 Continuum issue on Neurology of Systemic Disease. Welcome to the podcast and please tell us more about yourself. Dr LaHue: Well, thanks so much for having me. I'm really excited to talk about this topic. So, I'm Sara LaHue. I'm a neurologist at UCSF, assistant professor of neurology, and a neurohospitalist. So much of my role is taking care of people who are coming into the hospital with urgent and emergent neurologic conditions. And so that's very much a framing that I come to this chapter with. Dr Grouse: I just want to start by congratulating you on your article, which is such a phenomenal compendium of important neurologic issues related to pregnancy and menopause, which I think I really needed and a lot of us really need and was missing, I think, in all of the literature out there. This article will be such an important clinical resource. I know for me, and I'm sure for many of our listeners, this may be a difficult question to answer because of how comprehensive the article is. But what do you hope will be the main takeaway for those who read your article? Dr LaHue: So, I really hope that listeners walk away with understanding that pregnancy and menopause are not contraindications to providing excellent neurologic care. I think too often we default to withholding treatment, pseudo-assumed risk, rather than actual evidence of harm. And so, I think that the key message here is that protecting maternal health is protecting fetal health, and that under-treating neurologic conditions during pregnancy can harm both mother and baby. Dr Grouse: You did say specifically in your article that I thought it was so important that presumption of harm from medications during pregnancy, due to lack of evidence rather than evidence of harm, was something that we really had to be aware of, of that bias. And how do you recommend neurologists listening to this podcast approach situations where diagnostic or management strategies become less certain due to safety considerations in pregnancy? Dr LaHue: Yeah, that's such an important question. I really frame it as a risk-benefit calculation with a patient, and I'm very transparent about what we know and what we don't know. And I emphasize that untreated disease may also impact fetal health. I use resources like LactMed and pregnancy registries that can help provide some of the more latest data. And then when evidence is limited, I document our discussion thoroughly, and I'll often involve maternal-fetal medicine colleagues for their multidisciplinary input. So, the goal is really to have an informed, shared decision-making process rather than a reflexive avoidance of all treatments. Dr Grouse: I think that's really important to reiterate, and I think something that we're all I think working on as we try to manage these difficult situations and conditions. Now, I want to switch gears a little bit and ask. Your article was so comprehensive and so helpful, but what isn't in the article that you wanted to put in? Dr LaHue: There was a fair amount that I ended up having to take out. So, this is a question that's near and dear to my heart. So, I would have liked to include more on the neurodevelopmental outcomes for children who are exposed to various neurologic medications in utero. And I also wanted to discuss more about transgender and non-binary individuals who are experiencing pregnancy and menopause, as they're often underrepresented in research. They've faced unique challenges accessing care. Dr Grouse: Now, I was really struck by one statistic in your article, specifically that intimate partner violence is a leading cause of head injury during pregnancy, and that actually homicide is a leading cause of death during pregnancy in the postpartum period in the US, which was absolutely a surprising statistic to me. What does this mean for our listeners caring for pregnant patients with concussions and head injuries? What should we be doing differently? Dr LaHue: This is also something that really struck me when I first encountered it. I think that the statistics should really fundamentally change how we approach head injuries in pregnant patients. I think we need to screen everyone routinely and privately for violence in the home and in the relationships, and to document injuries very carefully. But we also need to be prepared if someone does screen positive. And so, it's important to be familiar with what's available in terms of resources within your community, where you work, and also to remember that that strangulation in particular is something that can cause dissection and stroke. And so, to maintain a high index of suspicion for any kind of vascular injury in these cases. So not just thinking about head injury itself, but also thinking about complications of strangulation as well. Dr Grouse: Really a great reminder of the role that we can play in our own careers and our own clinical settings when we see cases like this. So, I really appreciate that this point was made, and I hope this will change people's practice. Now switching gears to stroke in pregnancy. Could you walk us through your evaluation and management of a patient who comes in with acute stroke in the peripartum period? Dr LaHue: This is such an important topic, and I think the first thing I'd like to emphasize is that time is brain. Whether or not you're pregnant. It's important to get whatever imaging modality is going to be fastest. Get the CT or get the MRI as soon as you can. Don't delay for fetal concerns. The radiation risk is minimal compared to missing a treatable, disabling stroke. In terms of treatment, thrombolysis and mechanical thrombectomy should be considered just as in a non-pregnant person, when the benefits outweigh the risks. And so, I think the key is involving obstetrics early for shared decision making, and being very transparent with what treatment options are available for the individual, and to not let pregnancy alone stop you from offering standard stroke therapies. Dr Grouse: Definitely a helpful resource, and I think the resources that you put in specifically around the considerations and differentials in these various populations. Postpartum, while still pregnant during the period of period, I think is all just so helpful and a great review. So, I encourage our listeners to check that out. Now switching over to the topic of menopause. I have to say, I really appreciated your coverage of neurologic issues related to the perimenopause period. What do you think is the biggest debate or controversy in this area? Dr LaHue: I think this has to be our understanding of the use of menopausal hormone therapy. The pendulum, when using menopausal hormone therapy, has really swung dramatically. So, we went from routine use to predominantly avoidance. After the Women's Health Initiative was published in 2002, and now we're finding that we're starting to come more to a middle ground. I think there's still great debate when it comes around timing of initiation, formulation of the different therapies, a route of administration and also the dosing, as well as just including how to individualize therapy for individuals with neurologic conditions. Dr Grouse: Well, going into that a little further, I know I get a lot of questions about the use of hormone therapy as it relates to stroke risk and particularly in higher risk patients such as patients who've had prior strokes, dissections, a history of migraine with aura. And I find it hard to get the answers in the literature that's out there. How are you counseling these patients? Dr LaHue: So, I think this is where discussions around the route of administration and dosing become especially important. And this is where there's emerging literature that I think is helping to guide some of these discussions. So, for higher risk patients, I discuss how low dose transdermal formulations which can bypass hepatic metabolism and reduce clotting risk. These are medications that can appear safer in those higher risk individuals. I think the key is really individualizing the risk-benefit discussion with the patient. For a woman with severe vasomotor symptoms that are affecting sleep and cognition, who had a remote stroke. I think this is a person for whom low dose transdermal patch might be a reasonable option. All of these factors end up being considerations for that shared decision-making. Dr Grouse: Now your article covers another topic that I often get questions about, and that's specifically regarding safety of vaginal delivery for patients with neurologic conditions that are sensitive to increased intracranial pressure. Could you summarize your advice for these types of questions when they come up? Dr LaHue: So broadly speaking, most neurologic conditions don't require C-section delivery. And this is a procedure that, just globally speaking, as has been increasing dramatically. And so, I think that's the key message that really, most neurologic conditions don't require a C-section as a main indication. And really, the indication should be based on obstetric considerations. For most conditions, like controlled idiopathic intracranial hypertension, a vaginal delivery is fine. But for patients with mass effect or obstruction at the foramen magnum, a C-section with general anesthesia, it's probably going to be safer. The transient increase in intracerebral pressure that can come with pushing. It hasn't really been shown to harm patients who have stable, treated neurologic conditions. Dr Grouse: I really appreciated the advice that you given in the article, which was that if generally you feel like this would be a patient who would be safe to get a lumbar puncture, you have a little less concern about vaginal delivery versus those that you feel would not be safe to get a lumbar puncture, that you'd be more leaning towards a C-section. Dr LaHue: Yeah, that's exactly right. Dr Grouse: Now, why do you think we have so many gaps in our understanding of how pregnancy and menopause affect neurologic conditions? Dr LaHue: So, I think it really comes down to a perfect storm of factors. So, in 1977, the USFDA came down with the recommendation, stating that it was best to exclude all women of reproductive potential from both phase one and phase two studies. And this recommendation wasn't reversed until 1993. And there are also concerns around liability and also the fact that pregnancy is a temporary state is something that may falsely minimize the potential for delays. The potential for harms that come with delays in treatment. And I think that the fact of menopause is also historically been dismissed, despite this is something that is affecting half of the population. I think we need systemic change. We need to mandate inclusion in research. We need funding for dedicated studies. We also need to recognize women's health as a core competency and not just a special interest. Dr Grouse: That all sounds like a great roadmap for improving our knowledge. And I really hope we get there. But hearing you talk about it really does give me hope that we can improve how we are understanding and treating these conditions. Now, your article included a really helpful overview of headaches in pregnancy, and that's certainly something I think many of our listeners are very familiar with. We do have a lot of questions around that, and I think there's a lot of areas where we don't really always know what the best thing to do is. I think that your article really gave a lot of great information and a really great framework to think about. It would be wonderful to hear you walk through your approach to evaluation of a patient who was pregnant with a new onset headache. Dr LaHue: You'll see in this chapter that I introduce a mnemonic that's spelled out pericardium as a framework for thinking about headache and pregnancy. And here are the you specifically points to an unusual headache, referring to a new or atypical presentation of headache for the patient. I think this is an important place to start, because one of the initial considerations should be this is a new headache, or is this an old headache? If this is a patient who already has a preexisting diagnosis of migraine or some other primary headache disorder, then it's certainly possible that the headache that they're experiencing during pregnancy is also a continuation of their primary headache disorder. But certainly, our role is to make sure that we're not missing a scary complication, a secondary headache that could be dangerous to the patient. And so, then this is where I also think about, well, where are they in the course of their pregnancy. Is this person currently pregnant or are we in the postpartum period? When someone is after 20 weeks gestation, one of the first things to consider is going to be preeclampsia. And so, it's important in those individuals to check blood pressure, check urine to rule out preeclampsia, as this is always going to be top of mind after 20 weeks. I think it's also important to emphasize that preeclampsia is not just a condition that can occur when someone is pregnant. This is also something that can occur postpartum. One needs to be vigilant for looking out for this complication during both time periods. And then I think for new headaches, I really want to focus on what the timing is and any other red flags. For example, if it's a thunderclap headache and onset, then I might be worried about something like RCBS or cerebral venous sinus thrombosis. If the headache itself is orthostatic and patient may have had an epidural, then I might think about a post-dural puncture headache, which is a, unfortunately very common complication and reason for headache in the postpartum period. I think the key is that most dangerous headaches often will occur late in the third trimester or early postpartum. And I think it's also important to remember that if you need imaging to make the diagnosis, and you should get it. The risks of missing something serious far outweigh concerns that one might have around imaging. And when possible, it's certainly preferred to get an MRI if that's available. Dr Grouse: I really did appreciate articles, overview of the various imaging modalities out there and the overview of risk versus benefits and times where they may or may not be needed. So, yet another very useful piece of information that I think that our listeners will appreciate in your article. Now, I'm curious how did you get interested in this area of neurology? Dr LaHue: So, it really was my interest in both reproductive health and neurology that led me to go to medical school in the first place. I knew early on at the beginning of medical school that I was interested in neurology, but I also was very drawn to obstetrics, and I recognized in medical school and then further on as, as a resident, just how vast the knowledge gaps were. When I was counseling my own patients and I found this to be just a very frequent source of frustration as both a clinician and a researcher, I very much feel an obligation to try to help fill these gaps. And I've also just been very encouraged by an outstanding community of other neurologists that I've been able to meet in this space. It's been a just a wonderful collaborative network that we've been able to grow, both within United States and even more globally, when it comes to other neurologists who are interested in this topic. And I'm just very excited to see the direction that this field is going in. Dr Grouse: Well, we can't wait to learn more as this field develops and more is understood about the right way to approach these types of diagnostics and treatments. So, thank you for all your work in this space. And it's been absolutely fascinating reading your article and talking with you today. Dr LaHue: Well, thank you so much for having me, and I'm just so thrilled that these important topics are going to be part of this issue of Continuum. Dr Grouse: Again, today, I've been interviewing Dr Sara LaHue about her article and Neurologic Complications of Pregnancy and Menopause, which appears in the February 2026 Continuum issue on Neurology of systemic disease. Be sure to check out Continuum Audio episodes from this and other issues. And thank you to our listeners for joining today. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the Journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe AA and members. You can get to me for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neurologic Complications of Cancer and Its Treatment With Dr. Amy A. Pruitt 11.03.2026 21min

  Prompt recognition of direct and indirect neurologic complications of systemic cancers and their evolving treatments is essential. Neurologists should be familiar with common and rare neurologic toxicities of conventional chemotherapy, immune checkpoint inhibitors, and CAR T-cell therapy. In this episode, Teshamae Monteith, MD, FAAN, speaks with Amy A. Pruitt, MD, FAAN, author of the article "Neurologic Complications of Cancer and Its Treatment" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Monteith is the associate editor of Continuum® Audio and an associate professor of clinical neurology at the University of Miami Miller School of Medicine in Miami, Florida. Dr. Pruitt is the William N. Kelley Professor of Neurology, Vice Chair for Education, and Division Chief in the Department of General Neurology for the Perelman School of Medicine at the University of Pennsylvania in Philadelphia, Pennsylvania. Additional Resources Read the article: Neurologic Complications of Cancer and Its Treatment Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @headacheMD Full episode transcript available here Dr Monteith: As neurologists, we have a critical role in diagnosing neurologic complications of cancer from metastatic disease, seizures to neuropathies. Increasingly, the rapid development of novel treatments themselves, like immunotherapies, Car-T cells, and targeted drugs are causing new neurologic side effects, which we need to recognize, manage and anticipate as therapeutic developments evolve. Dr Jones: This is Dr Jones, editor in chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Monteith: Hi, this is Dr Teshamae Monteith. Today I'm interviewing Dr Amy Pruitt about her article on neurologic complications of cancer and its treatment, which appears in the February 2026 issue on neurology of systemic disease. Welcome to our podcast. How are you? Dr Pruitt: Thanks for having me. Dr Monteith: Absolutely. Why don't you introduce yourself? Dr Pruitt: As you said, my name is Dr Amy Pruitt. I'm a professor of neurology at the University of Pennsylvania, where I am also the clerkship director and have been for a long time. I'm the division chief of general neurology and the vice chair for education in my department. Dr Monteith: You have a lot of hats. Dr Pruitt: I do. Dr Monteith: Okay. So, before we dive into all this great work that you did in the article, why don't you just let us know just a little bit about what led you to this career path? Dr Pruitt: Sure. So, I've always been interested in the intersection between internal medicine and neurology; in fact had I've not been a neurologist. I probably would have been either an oncologist or infectious disease specialist. And that leads to doing neuro oncology and seeing a fair amount of CNS infections. I see both inpatients and outpatients and really enjoy my neuro hospitalist time because, honestly, as all of you who do consults on inpatient services know, there is an incredibly changing landscape of consequences of cancer therapies. And if you haven't been on service for a while, you probably don't even know the name, is much less the adverse effects of these medicines. Dr Monteith: Okay, so you were just like me to write this article. Dr Pruitt: Well, I think where it is directed, I think, as I said, that people who are seeing a lot of inpatients and who may not know it's a new consequences of cytotoxic or immunotherapies or T cell therapies and the different appearances and really prognoses, which have changed dramatically in the last few years in the field of systemic cancer. Dr Monteith: Any other essential points of your article? Dr Pruitt: So, I think there are certain areas where neurologists are going to intersect with oncologic patients even before oncologists do so, what tumors might present synchronously in the brain and the rest of the body. And those would include things like small cell and non-small cell lung cancer and melanoma, to a lesser extent, women who are surviving much longer now with good therapies for various versions of breast cancers, have one of the solid tumors most likely to present at first relapse in the brain, either in the brain metastases category or in the leptomeninges. So, these are the areas where I think it most likely that our neurologists are going to intersect with oncology. And then there is the burgeoning, thankfully, realm of long-term survivors who have had cancer therapies in young adult lives, sometimes in childhood. And we need to be abreast of the ever-changing spectrum of complications that will plague these people all their lives. And we can do a great deal to improve the quality of survival in these patients. Dr Monteith: And of course, there has been a lot of great development in cancer research, which has led to novel therapeutics. So, can you tell us about a few of these therapeutics and their complications that neurologists need to know about? Dr Pruitt: Sure. Well, as I said, some of the cancers you're most likely to encounter are lung cancer and melanoma. And here the prognosis has changed dramatically. A few years ago, someone with metastatic melanoma might have had a couple months prognosis. And now we're talking honestly about long term survivors, complete responses in lung cancer and melanoma, and really good responses in the breast cancer realm as well. So, these are dramatic changes. And these are ways neurologists need to know what the actual nuanced and much more variable prognosis is among patients with brain metastases. In order to give the patients good advice and also to give the radiation oncologist and the oncologist, the medical oncologist, good advice. So, for example, just in the realm of brain metastases, a stage change has been that people with asymptomatic metastases for, let's say, non-small cell lung cancer or melanoma might have systemic therapy rather than local therapy, local therapy being gamma knife radiation or less likely, whole brain radiation therapy, but really systemic therapy with responses and the brands that are nearly as good as those in the rest of the body. And sustained, durable responses. The article goes into great detail about what's available in the way of therapies for these cancers, like breast, HER2-positive breast cancer, like EGFR‑positive lung cancer and melanoma of various types. It's really quite amazing actually, to have anybody quote a seven-year survival of little over 40% in people who presented with non-symptomatic melanoma metastases. Unheard of, really. So, I think if you're still practicing, quote unquote old school neuro-oncology, you need to get up to date because you're giving patients and their caregivers good advice that will lead them to the very important therapies. You mentioned some of the immunotherapies. If we have time, I'm happy to go into those because those are really important for neurologic consultants in the hospital. Dr Monteith: Yeah. Let's talk about immune checkpoint inhibitors. What do we need to know about them and their complications? Dr Pruitt: So, they have a novel set of central nervous system and peripheral nervous system complications. These include both acute and subacute presentations. They can arise after the very first dose and usually do so within the first several doses. Importantly, even though the patient may be quite sick, about three quarters will recover entirely. However, the most common ones are actually the peripheral nervous system, and they have the highest morbidity and mortality rate. So, a very unfortunate combination of myasthenia, myocarditis and skeletal myositis has a high mortality rate and is very hard to treat in a group of people who have received these immune checkpoint inhibitors in the central nervous system, there can be cerebellitis, encephalitis. These again can be acute or subacute presentations. And the big discussion with the attending oncologist is, can we continue these therapies after we've withdrawn them, and for instance, treated them with steroids? Because you can imagine that if you knock down the immune system with steroids, you might make the patient temporarily better. But in so doing, you're negating the important consequences of the mechanisms of immune checkpoint inhibitors. So, I would say probably in a given week on the inpatient service, I'll see five or so. So nearly a daily event when I see some major complication of immune checkpoint inhibitors. And again, I've already mentioned the histology in which those have been useful, but they're not indicated for a variety of other malignancies as well. And the Car-T cell therapies are a whole different set of side effects. And some of your listeners may know about cytokine release syndrome, which is nearly universal right after the infusion of the car T cells. But a few days later is where we come into action with the immune effector cell-associated neurotoxicity syndrome. Or ICANS can say that I'll refer to it as ICANS since then. These include focal neurologic symptoms and the form of what's often a conduction sort of aphasia, a predictable deterioration, and handwriting along with confusion. As far as the radiology of that syndrome, that's really pretty odd. It can range from a dramatic cerebellitis, just a dramatic basal ganglia syndrome, a dramatic and enhancing leptomeningeal syndrome to an absolutely normal MRI scan. And the important thing for our consultant consultants to remember is that the patient can look really, really ill, and you can turn to the team and say, you know what, there's a very good chance that it's going to get all better. So, supporting people through what are very good diagnostic and therapeutic algorithms that exist in the literature and are quoted in the Continuum chapter to help know when you should be giving steroids, when you should be giving tocilizumab, etc. these are tried and true therapies now, and the Car-T world has improved not only the prognosis of patients. And I remember seeing some of the very first Car-T patients, and we really didn't know what to do to help them, how to turn off the cascade of this immunologic reaction. Now we know how to do that. And it's important to stay up to date on those algorithms because you can make a big difference for these patients. Dr Monteith: Yeah. So, this is great. We're going to dive back into the diagnostics, which is really related to my follow up question. I think you gave a really great pearl. And it's always can we keep going? Do we stop? So, I want to like dive into that question. And I assume that there are categories. Yes. You can, somewhere in between, and absolutely not. And so, tell me a little bit more about that thinking. Dr Pruitt: Well that's a very nuanced question. And so, the answer that some oncologists will give you as well, they've had such a dramatic response. So maybe we don't need it anymore. It's never the neurologist's decision. It's always the joint decision with the oncologist. So, for instance, with a Merkel cell cancer patient develops a severe anti‑AChR syndrome on an immune checkpoint inhibitor. And we tell the oncologist maybe you shouldn't go back and do that again. And the person says, never mind, he'll be fine. He's already had the response that we want, but that's a difficult question to answer because, for instance, in a slightly different subset, let's look at multiple myeloma patients. And I spent a fair amount of time on multiple myeloma in the article because it affects the nervous system in so many ways. And we have so many different therapies for these patients, one of which is a Car T-cell. And this is a B-cell maturation antigen, Car-T. It's different from the ones that we know for lymphoma and leukemia. And it has a different set of neurologic problems, which unfortunately do preclude going back to taking a Car-T cell therapy again. And just to make a long story short, this particular complication makes the patient look Parkinsonian. The consult you're probably going to get from the medical services is patients weak. Well, the patient is not exactly weak. He is Parkinsonian. He has a extrapyramidal rigidity, sometimes a tremor a negative cat scan and a B-cell maturation antigen syndrome occurs not at the sort of 5 to 7 day mark about ICANS that we just discussed, but rather a month or so out and a month or so out. It's not when you're expecting to see Car-T cell therapies. So, patients end up getting worked up extensively for, let's say, some sort of infection, when in fact, what we should be looking at is a newly described complication of Car-T cell therapy. So, the part of my article on multiple myeloma is one that's really important because as you know, it's such a common hematologic problem among older people. And many of these people may have direct complications of multiple myeloma, such as direct tumor infiltration of nerves. POEMS syndrome. So, it's really a wealth of neurological issues for us to contend with for these people. Dr Monteith: Yeah. And I know you've really done a great job of adding lots of wonderful charts, including understanding the time course of some of these complications, when to anticipate, because I think some of it is about when to anticipate some of these complications. Dr Pruitt: Well, exactly. Yes. Given the time constraints, I've made a lot of tables because there was a lot of information. And those, I think, are the kinds of things that a consultant should know: what should I be thinking about at this point in time? And that sort of leads us to what are the later complications of these things. And those include many medical things, from failure due to neoplasia, morbidity, radiation, chemotherapy agents, the long-term and medium-term consequences of these things for people. Are going to come back to our office as well. Immunocompromised patients, such as the ones and heavily treated patients that I just mentioned, may lack a robust inflammatory response. And they can have infections really at any time out. Some are predictable, as in our leukemia patients who have had hematopoietic cell transplant. So, we kind of know when to expect viral infections, nosocomial infections, progressive multifocal leukoencephalopathy, many other things down the road. But in this era of COVID, we know that these patients are more susceptible to the dire effects of COVID, and they may not mount a good vaccination response. We have seen types of neurologic complications of all sorts of infections, including babesiosis this year, and persistent enteric viral meningitis. So, the patient can present a very atypical fashion. And the neurologic consultant has to keep a really open mind about the broad differential of what might be happening. Dr Monteith: And you do have a section under imaging and metastatic disease. Are there any like new sequences or a way to kind of tease out complexities? Dr Pruitt: So, there is marked variability in the radiographic appearance of brain metastases. And I must confess that I made a very large collage of all the different representative types of things. And I think that's important for neurologic consultants to recognize that some metastases don't enhance. They don't all look like ring-enhancing lesions. Some can be much more diffuse, particularly if the patient has received something like a VEGF inhibitor like bevacizumab therapy can look exceedingly different. They can involve the dura, which should be treated differently. There can be simultaneous leptomeningeal and disease. So as far as I know, sequences perhaps not so much. Although if one is thinking about the differential between radiation-related injury and someone who's already been treated versus tumor recurrence, then we have some pretty good microscopic data, some susceptibility weighted images, other ways of getting whether this is really radiation related change or tumor recurrence, a major problem obviously. What we also know about radiation is kind of a theme of the article is use it as infrequently as possible, because we just talked about some of the other therapies that we have. We may need to give local therapy for symptomatic patients, but we give as little as possible, and we try never to give whole brain radiation therapy. I'll go on record as saying that it's certainly necessary. Sometimes people have diffuse lymphoma, this disease that's recurred, they have multiple metastases in a sort of miliary fashion may be necessary, but if you can use gamma knife radiation, if you cause any use form of focal radiation, new in the leptomeningeal world is proton therapy for spinal metastases. So quick sparing techniques. And this is something that should always be considered when you're consulting on someone in a place in which you have the option of proton therapy. So, I would say that distinguishing between radiation necrosis and recurrent tumor and the use of protons are the big news in the radiation therapy world. And don't give whole brain radiation therapy if you can avoid it. Dr Monteith: Yeah. I'm getting a flashback from residency because, you know, that always happens. And the radiologist saying, you know, we need more information when you put in those orders. And so, I think with this whole era of new chemotherapeutic agents and how they could present on imaging and give the radiologists as much information, including the type of chemotherapeutic agent used. Dr Pruitt: Yeah, I think particularly in the transplant world. So, the leukemia lymphoma patients who have received one of the calcineurin inhibitors, like tacrolimus or cyclosporine, that induces a whole set of complications, some of which are visible radiographically. There's a delayed leukoencephalopathy. There can be stroke. There can be SMART syndrome, stroke like migraine after radiation therapy. And perhaps many of our listeners have been confronted with someone who has a prolonged focal deficit, say, a hemianopia and maybe a hemisensory deficit with or without a subsequent headache. It goes on for days to hours. It looks peculiar on the MRI scan because it's not then a vascular distribution. There's sort of diffuse gyral swelling, flattening of the EEG on that side, the patients getting steroids and valproate and anticoagulation and angiography and all. It doesn't need any of that. The syndrome of stroke, like migraine after radiation therapy, needs to be recognized. And best thing to do is don't just do something. Stand there. You should wait until it goes away. And so, I think that's we are seeing this increasingly, that we first reported this in young adults who had been treated years ago for medulloblastoma. So, it was posterior fossa tumors primarily. But this has now been broadened, as you know, to include supratentorial tumors of many types and adults at various times out from their radiation therapy from a few months to many years. Dr Monteith: I should ask you in writing this article, clearly you have a wealth of knowledge, but in kind of just putting this together, what surprised you? Dr Pruitt: I think what surprised me is the increasing range of complications and that virtually anything needs to be thought of central nervous system or peripheral nervous system. With some of these newer therapies. There is a chart in there about the conventional cytotoxic therapies, and we're all familiar with things like methotrexate and that sort of thing. But what surprised me really is the increasing diversity of complications of these newer drugs, and also the fact that I didn't know some of the third and fourth generations of the tyrosine kinase inhibitors too. When you look at even the year of 2020, neurologic drugs were second only to oncologic drugs and FDA approval even at the height of COVID. So, don't feel badly if you don't remember any of the drugs really changing so rapidly. And they're better ideas, they're going to be fancier Car-T cells that attempt to get around some of the adverse effects of these and neurologists will retain really important role in following some of these patients, to be sure that these improvements are actually real and durable. Dr Monteith: Excellent. Thank you so much for this wonderful conversation. Dr Pruitt: Well, thank you so much for having me. And I hope people do get information from the article. Thanks. Dr Monteith: Again, today I've been interviewing Dr Amy Pruitt about her article on neurologic complications of cancer and its treatment, which appears in the February 2026 Continuum issue on neurology of systemic disease. Be sure to check out Continuum Audio episodes from this and other issues. And thank you to our listeners for joining today. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe, AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neurologic Complications of Critical Illness With Dr. Shivani Ghoshal 04.03.2026 30min

  Nearly one in five patients in intensive care units (ICUs) requires neurologic consultation. The neurologic complications of critical illness can be unique to its underlying processes and can persist as independent disease states even after resolution of the inciting critical illness. In this episode, Casey Albin, MD, speaks with Shivani Ghoshal, MD, author of the article "Neurologic Complications of Critical Illness" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Albin is a Continuum® Audio interviewer, associate editor of media engagement, and an assistant professor of neurology and neurosurgery at Emory University School of Medicine in Atlanta, Georgia. Dr. Ghoshal is an assistant professor of neurology for the Columbia University Vagelos College of Physicians and Surgeons in New York, New York. Additional Resources Read the article: Neurologic Complications of Critical Illness Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @caseyalbin Guest: @ghoshal_shivani Full episode transcript available here Dr Albin: The ICU can be such an intimidating place. There's unresponsive patients, there's beeping equipment and a seemingly endless way in which the nervous system can be compromised. But fortunately, today I have the opportunity to speak with Dr Shivani Ghoshal about her paper, Neurologic Complications of Critical Illness, which is going to help us demystify the approach to these patients and provide some clinical pearls that you can take to your next consult in the ICU. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Albin: Hello, this is Dr Kasey Albin. Today I'm interviewing Dr Shivani Ghoshal about her article on neurologic complications of critical illness, which appears in the February 2026 Continuum issue on neurology of systemic disease. Welcome to the podcast, Dr Ghoshal. It's really such a treat for me to get to interview you, someone who I know and have worked with in the past. But for those who do not know you, please give us a little background about what brought you to this topic and what you do in your clinical life. Dr Ghoshal: Thank you so much. It's a thrill to be interviewed by someone that I know well and get to work with. Outside of writing this article for Continuum, I am a neurointensivist. I'm an assistant professor of neurology at Columbia University and the program director for the Neurocritical Care Fellowship between Columbia Cornell and New York Presbyterian. So, a lot of what I do in my day-to-day is thinking about acute brain injury along with the neurology of systemic disease and how, really, the two interplay with each other, of how neurologic complications can arise from systemic illness and the other way around. Dr Albin: Yeah, you are the absolute perfect person to kind of walk us through the complexity of the brain and body connection. Dr Ghoshal: I don't know if I can deal with that kind of praise, but thank you. Dr Albin: And you've really written a powerhouse article on just the myriad of complications that really arise in the ICU, and you've broken it down into what I think is a very thoughtful way of sort of bucketing these complications. So, tell us a little bit about the approach you took here. Dr Ghoshal: I love this article because neurologic complications are just so common in so many types of acute critical illness. And I think we have to think for each organ system, how does this affect the brain, and then how does the brain then interplay, let's say, in kidney failure, in hepatic failure, in sepsis, right? Which is so common that I think we don't even think a lot about, like, what are types of septic encephalopathy for all the antibiotics we give; like, what are the implications of this? I really enjoy taking each system and thinking about, how does it specifically affect neurologic complications? Dr Albin: Yeah. And then there was a really nice breakdown in terms of some of the procedures that will happen within the ICU in general. You know, the things that are happening to the patients at the bedside also put them at risk for neurologic complications. Then there are those neurologic changes that are happening because of some of the underlying problem that brought those patients to the ICU. And then the unfortunate number of problems that arise because the patient has been in the ICU for such a long period of time. Dr Ghoshal: You know- and I think that that first part you mentioned, just about procedures in the neuro-ICU, right? Or in the ICU in general. I think that we don't think about that on a day-to-day level, right? Just like arterial lines are one of the most associated with any kind of peripheral nerve injury, especially axillary arterial lines. I learned quite a bit, even going through this article and then looking at other sources. So, thank you also for pointing that part out. Dr Albin: Yeah. When I was thinking about how do we distill all of what was covered through this article, I actually really thought it would be sort of most interesting to have you model sort of your approach to these patient complications and how you approach the complexity of an ICU patient. And so, if it's okay with you, we'll just walk through a couple cases. Dr Ghoshal: Oh my gosh, let's do it. Dr Albin: All right. So, these are all, of course, composite cases. You know, there is no patient violation here. Let's say that this is a 64-year-old patient and they're admitted with influenza, and they develop ARDS. And they're in the MICU. And this patient, they were pretty sick on arrival and they were intubated for three days. But now the patient's been extubated, and the MICU team calls you because today she's having trouble swallowing and her voice, you know, the family says that this is not what she normally sounds like. And the team is really quite worried that she's had a stroke. And so they are calling for a neurology consult because they want to know what they should do. So, walk us through your approach to that patient. Dr Ghoshal: Well, I think the primary team being concerned for a stroke is definitely reasonable, but I think, taking a bigger step back, what I would first want to think about, is this neurologic or non-neurologic? Neurology, you know, there's a parcel of things we can go through, but even just a non-neurologic, like, is this just primary injury to the vocal cords, right? I think about the cough were there, the ET tube, it wasn't overinflated which caused direct damage, right? And then after that, then I would think a little bit more about my approach for what is going on neurologically. Thinking about either, is this a brain process or is this a- more of like a spinal cord cervical cord injury process or more cranial nerve issue? Dr Albin: Yeah. How would you approach the exam in that patient? Dr Ghoshal: Yeah. You know, I- and just to, again, take a step back, right? To remember that when we do intubate someone, the physical maneuvers that we have are a chin lift and regular endoscopy, right? They have, like, significant movement for the cervical spine. So, I might want to know even before I examine the patient, right, or their history, right, do they have anything like, do they have known cervical stenosis? Do they have any, like, cervical spine pathology? Was it a difficult intubation? Right? So, these are the kind of the things I'd want to know even from the history, along with whatever vascular risk factors they may have. And then, to your question about the actual exam. Yes, you know, I may look for, like, crossed findings, right? If we're thinking about, let's say, a medullary lesion, etc. I think all listening to this podcast know about MRI testing there. But beyond what I would be looking for, let's say, in a medullary stroke, I'd also want to be looking at just, like, water paresis, right? I might want to be interested in, let's say, signs of neurogenic shock. You know, you mentioned they're in septic shock, ARDS. I might want to actually take a look to see, like, was this all septic, right? Or what are their other shock types present. Dr Albin: So, what I hear you're saying is you're evaluating A, first of all, answering the consulting question, you know, is there a real risk for some sort of cerebrovascular phenomenon, but then actually going to the bedside to examine the patient, to say, does that make sense? Do we see hemibody involvement here? And it's a good thing that you're approaching it that way. Because actually, when you go to the bedside, she does have some difficulty speaking. And reading the notes, this was actually quite a difficult intubation. From just the cranial nerve, you know, where she has maybe some dysphonia and dysphagia. But you also, on exam, then find that she's got some pretty symmetric distal weakness in her arms bilaterally. And so, when you find that, what are some of the imaging that you're going to think through to try to pin down exactly what's going on here? Dr Ghoshal: I love these cases because it's not so straightforward. Now, let's say if she has, like, an upper extremity weakness and lower cranial nerve deficits, you know, things I'd be looking for, like any injury to, like, hypoglossal nerve, vagus nerve. The vagus nerve is going to be hard to tell, right? Recurrent laryngeal nerve, you know, the lingual nerve. I might be thinking more about stretch injury, which we think of as tapia syndrome, right? So, just a textbook answer. The hypoglossal recurrent laryngeal nerve injury. And what we're going to be looking for is dysphonia, dysphagia, and unilateral tongue paralysis. Could be a bilateral as well. But I guess, then, the next question after I'm going through my physical exam findings is thinking about my imaging choice. Dr Albin: So, for this patient, given that she's got this bilateral upper extremity, maybe some tepia syndrome where there may have been some stretch injury to some of those hypoglossal nerves. She may have also just had some trauma to the vocal cords. Like, as you said, these procedures can really put patients at risk for just mechanical injury to some of those structures. But knowing that upper extremity weakness, what kind of imaging, then, do you look at for the court? Dr Ghoshal: I think it's not unreasonable to do an MRI brain, right; with that, it then cuts through the brain stem. And then doing an MRI of the cervical spine. I guess the point that you mentioned at the very beginning, that this is three days after she was intubated… you do run the risk beyond 72 hours of, let's say, a primary injury. Let's say if she had, you know, God forbid, an injury to the cervical spine, those hyperintensities, especially when associated with ligamentous injury, they can pseudonormalize beyond that time. I would say yes, absolutely. MRI of the brain, cervical spine, then cuts through the brain stem. But I would worry that if too much time elapses, you may miss some of those injuries that you would otherwise find. Dr Albin: Yeah. I think those are some really important take-home pearls, and when we're thinking about the cord injury that could occur through the intubation process, that we really do need to be aware of student normalization of the T2 hyperintensities after that 72 hours. And so, I think that's a really important pearl for us to take home. So, kind of summarizing this case here, there was probably a multitude of things going on, which highlights to me the complexity of ICU patients. Less likely in this case, and they did not find a stroke. But that is, of course, something that we must keep on the differential for any critical care, critically injured, critically ill patient. But tapia syndrome where you have some stretch injury to the hypoglossal nerve and the recurrent laryngeal nerve, which can put people at risk for dysphasia or dystonia after intubation. And then that hyperextension injury that can happen for patients who are intubated, because people, especially for difficult intubations, are really having to manipulate the neck. And for an elderly patient who may have some cervical stenosis, that hyperextension can actually result in a central cord syndrome, which is what they discovered with the C-spine MRI in this case. So, cognizant of all of the cervical injuries that might accompany the procedure of intubation. Dr Ghoshal: And you know what I would say, right. Because I think that our population is overall aging. I think with that, we're going to end up with, like, more cervical spine pathology for these patients that are ongoing intubation, just as you, you know, very astutely pointed out. Right? Trying to have at least, like, manual inline stabilization, right, or even like, considering fiber optic intubation in some of these patients is probably going to be a safer way to go to avoid these kind of injuries. Dr Albin: Yeah, I think that that's so true and really emphasizes the importance of communication between the neurology team and the critical care team. Dr Ghoshal: Totally.  Dr Albin: Neurology is probably not the person intubating the patient. Right? But it's really important for any of these consults to have a good appreciation and that robust communication with the critical care team about what has been going on systemically for this patient, even opening that intubation note and saying, was this an easy intubation? Was it a difficult intubation? I think sometimes we forget that key skill of just communicating across the teams to have a holistic picture of what's been happening in MICU. Dr Ghoshal: Yeah, I totally agree. It's kind of why my first part of this case you mentioned is just like asking the team, like, what happened during the intubation, right? Dr Albin: It's a really important takeaway. All right. We're going to shift gears from procedural complications, reminding our listeners there is a fantastic summary of all of the things that can happen to ICU patients, just because we're doing things to them, putting needles in places where needles aren't usually, such as for arterial lines, for central lines, intubating patients; all of these have complications that can affect neurologic function downstream. But let's shift gears and let's talk now about a 72-year-old man. And he's admitted to the ICU with pyelonephritis and bacteremia. He's got nephrolithiasis. And the team calls you because he, like many patients in the ICU, has some, quote, "shaking events." And he's altered, and they want to know what to do. Dr Ghoshal: So, there's a lot to unpack there. Sepsis is so common, right? When you're saying this patient is altered, sepsis-associated encephalopathy occurs in 70% of patients. So, like, in sepsis or septic shock. And we know that, you know, they say it affects mortality, long-term cognitive outcomes. But because, I think, it's so common, we don't really take the time to think about what is going on in sepsis in the brain. Dr Albin: The brain is an end organ perfusion. And the end organs are what we're sort of monitoring in sepsis, and the brain is such a key marker of that. Dr Ghoshal: Absolutely. I think there are a lot of things that happen with sepsis in the brain. But if I were going to pick like 1 or 2 points that I really wanted to hone in on, it's thinking about that blood brain barrier disruption that happens in sepsis. And so, what that does when you disrupt the blood brain barrier is that you end up with this inflammatory milieu, for lack of a better term, that, like, comes into the brain. You have, like, a disordered sort of microglial activation, cytokine release. You know, all of these things are creating more oxidative stress, neuronal damage. And the other hand of this, right, along with that blood brain barrier disruption, is disordered cerebral auto regulation. Dr Albin: And I think that those two things are probably underappreciated. The complications and why, maybe, they lead to this downstream difficulty in recovering and then probably are also setting the patient up to be at risk of downstream delirium that is so frequent in the ICU. Dr Ghoshal: I couldn't agree more. And, you know, for this patient's case, right, where you're saying, like, they're altered, they're shaking, I bring up this idea of cerebral autoregulation. Right? Just because for normal patients---or normal people, rather, right?---normal cerebral autoregulation allows us to have, like, stable brain perfusion through whatever range of pressures we have. A lot of these patients are septic; whether they are hypertensive or not, they have significant changes in cerebral vasoconstriction, vasodilation, right? And this can create anything from, let's say, like, neuronal excitotoxicity, metabolic alterations. Right? Just in that setting of cerebral inflammation. So, these patients, yes, are at a very high risk of encephalopathy. And then from these changes, right, from blood brain barrier disruption, whether that's from a cerebral autoregulation or just from that inflammatory milieu, they're at a super high risk of stroke and seizure. Dr Albin: Yeah. So, they… in calling you to the bedside, someone comes to meet you and they say, we sent a bunch of labs off and we just got one back, and it's his ammonia, and his ammonia is 92. So, do you think that's what's going on here? This is so common. Right? Hyperammonemia. Give us sort of your approach to kind of triaging, is the hyperammonemia really a problem or is it just some sort of bystander? Dr Ghoshal: Oh, you know, ammonia is such a slippery lab, right? That… well, it's very hard not to have a strong opinion on it one way or the other. And so, I think what I would say is that ammonia can be elevated for, like, a parcel of reasons. Right? Like if someone has tonic colonic movements, you can have ammonia. That's just, like, part of like enteral metabolism, muscle breakdown, whatever it may be. And ammonia can go up for a lot of reasons. And it's true also that ammonia can contribute encephalopathy. And there are a few mechanisms that can go through in a little bit. I would first want to know… a part of understanding, I guess, any lab is understanding in this context of, like, what was the ammonia before? Right? What is their baseline ammonia? Is this a significant rise? Like, how much of a rise should you care about? Dr Albin: Yeah, absolutely. So, you look back and they live sort of at the upper range of normal with 60 being their sort of baseline. Dr Ghoshal: Yeah. You know, I don't know that I would be so concerned about this particular ammonia level. I may trend it. But, you know, just to talk a little bit about ammonia and why we care about encephalopathy, right? So, the reason why it's so concerning, I guess I should say, in any kind of acute illness is that ammonia will cross the blood brain barrier. And then it's converted into ammonium ions, and it will go into astrocytes and, like, they can increase interstellar osmolarity. Right? So, these cells swell. Right? And because water is drawn into the astrocytes, they cannot interfere with actual functioning of the astrocytes. Also worsen cerebral auto regulation and cause, I guess, sort of an excitotoxic environment. Right? So, ammonia can be concerning, I think when you send in a lab, right? I think it's important to remember that there's no direct relationship between ammonia level and encephalopathy severity. Dr Albin: Right. I think that's a really key point to drive home that it's usually not until we're in the hyperammonemic ranges above the 120s-150s up into the high two, three, four hundreds that we really need to be concerned about that cerebral edema and potential, even herniation. But these low-level ammonias, just like you said, like we really need to understand the baseline, how much they've changed, the context of, you know, what the ammonia sent on ice? Was it laying out in the room for hours on end? That really contextualizes this lab that we otherwise have a very hard time interpreting. Dr Ghoshal: You're absolutely right that an ammonia greater than 120, you know, from our guidelines, both in lymphatic disease along with kidney disease. So, let's say above 120, your patient may be more at risk for cerebral edema. I could also play the devil's advocate and just remind, you know, that because ammonia isn't converted into ammonium in the brain, a peripheral ammonia level really may not reflect central nervous system levels. Right? So, let's say your ammonia is a bit lower also. But let's say there's been a significant change in ammonia for the patient. That may cause some cerebral disturbance that, you know, let's say this ammonia is still below 120. I may still be worried about it just because of the trend. Right? And knowing that my serum level may not really reflect what's going on above. Dr Albin: That's such a great point. So, lots of pearls around this lab, comes back abnormal all the time. In fact, I feel like it's more frequently abnormal than it is normal in our ICU patients. And so, I really wanted to give residents and listeners a way that we who work in the ICU contextualize that. So, in this case, you've been musing, hmm, this is probably not what's really going on here. He is still having these movements at the bedside. Let me ask you, when you hear shaking in the ICU, what's your big differential there? Dr Ghoshal: I always want to know, is it something like a myoclonus? Right? Is it something like an actual coordinated movement? Is this also something like a chorea, right? There are so many movements. So, like, I think that Continuum actually in the past put out a great issue about, like, movement disorders in critical illness. But really what I want to know is, like, first of all, like, is this neurologic or not neurologic? Right? Is this a, you know, let's say a seizure? Is this something suppressible, nonsuppressible? I really want to know more about what that movement is before I could even create a differential. Dr Albin: Totally. And so, when you're in the bedside, he's doing exactly that sort of classic myoclonus. He is having these short, jerky movements. They are not rhythmic. He is intermittently following some commands through this, but inattentive would be the best neurologic term for his mental status state. But then while you're there, he actually does have a GTC and you're in the room. It's generalized, it's convulsive, no longer responsive. His eyes are rolling up and you are well-convinced this truly is a seizure. As you start to approach, now, a seizure in the ICU, walk us through kind of some of the things that you think about in terms of labs you might want, what imaging you might want, what risk factors you're most concerned about. Dr Ghoshal: It sounds like he's having two distinct types of movement, right? He's having some myoclonus, right, or multifocal myoclonus where he has an intact mental status, for better or worse, through it. On that sort of bucket, I'm thinking more of metabolic disturbances. So, I went through this whole thing about the ammonia. But I think what I'd really want to know is, like, what is happening with his uremia, right? What is happening to his kidney function? I think you mentioned you had nephrolithiasis on top of being, I think, critically ill. I think that's some of the things I'd be looking at. I also would like to know about his antibiotics, any medications he's taking. And then for the seizure, I may want to know some of the similar labs. Right? Even just whatever, like, what is his magnesium? What is his calcium? Like, simple things being simple. And then I can go down a little bit more of a list on what I would do for the actual seizure. Just knowing that sepsis, hepatic disease, renal disease, antibiotics themselves may all increase your risk of having a seizure. Dr Albin: Yeah, absolutely. And I think what you said about sort of knowing the labs and knowing the medications plays such a crucial role in our workup for ICU changes in neurostatus. And so, in this case, because of that nephrolithiasis, you go scroll through his labs. And it looks like his creatinine has risen to 4 quite abruptly. So, he's got a pretty severe acute kidney injury. And his BUN has risen all the way to 80 over the course of three days. And then you're looking at the med list, and he is on a bunch of antibiotics, but one of them is cefepime. And so, walk us through, with just those couple of key words, what are some of the things that you are thinking about from the neurologic perspective? Dr Ghoshal: I am, like, salivating. I love these cases. No, I'm serious, right? So, like, I'll take a few minutes at the beginning to talk about, like, uremia and uremic encephalopathy. You know, we see uremia often, and uremic encephalopathy, we think, maybe there's some part of cytotoxic edema, right? Because that urea accumulates in the brain; it accumulates similar to, like, almost ammonia, creates these toxic wanding compounds in the thalamus, like, in the cortex, wherever it may be. And that itself will cause, like, a, let's say, impaired cytokine clearance from the brain, neuronal apoptosis, also affects the blood brain barrier. So, all of these things itself, like, from urea, all right, like a worsening uremia, can cause a different sort of CNS changes that could affect both the seizure side along with the multifocal myoclonus. Dr Albin: Yeah. Just putting him at risk of two very different types of neuropathology, right in the same case. Dr Ghoshal: Totally. And you know what I'll say about like, uremia? I could talk about this for a very long time, but like, really what I want people to remember is that uremia really increases your risk of seizure. I talked a little bit about this accumulation of uremia, like a uremic exquisitely in the brain, but you have this metabolic acidosis that develops from urea and you increase the activation of your acid-sensing ion channels. Right? And these retaining creatine metabolite actually cause more inhibition of your GABA receptors and stimulation of your NMDA. Right? So, all of these things together, like I think uremia is so common that we don't really take the time to think about, like, all of these things that could be happening. Dr Albin: Yeah. And then because of the poor kidney function, there's also accumulation of drugs. And there's this risk for toxic accumulation of some of the things that are sort of more renally metabolized. Dr Ghoshal: Absolutely. And on top of that, if you include, you know, what we talked about before, let's say you have cortical edema or hypoperfusion or a disordered cerebral autoregulation just from sepsis itself. You know, all of these things do fit together, right? It's not just a one thing for every. I know that you mentioned also there, antibiotic. I loved writing the section on antibiotic-associated encephalopathy, in part because it's something we don't spend as much time thinking about. I will say just broadly, there are three subtypes of antibiotic-associated encephalopathy. The first one, I think, is the most common. That, like, I associate it with beta-lactam, cephalosporins, or penicillin. Right? And that is where we can often see, like, seizure and myoclonus, right? You're really between, like, in days from antibiotic use. We think some of that is just from competitive antagonism of GABA receptors. To quickly talk about, you know, we also have types that are associated with quinolones and macrolides. More of, like, an acute psychosis. And then absolutely metronidazole, which causes a subacute encephalopathy---takes a little bit longer, you know, and more associated with cerebellar dysfunction. But I think every time that I am looking at a patient like this, I am absolutely going through and looking at the antibiotics. Dr Albin: I love that. And because it's not- cefepime is really the classic, and it's been the poster child for that type-one complication where you get mild blueness and seizure, usually within a day or two of starting the antibiotics---but it's all cephalosporins. It can be any beta-lactam. And so, cefepime is sort of our, like, poster child, but is not the only one. And so, with removing that antibiotic by getting him on a continual renal replacement therapy, this patient actually does quite well. And I think this is a take-home message for all of us, that helping the critical care team limit the risk to the patient from a medication perspective, us helping them say, you know, can we pull this off? Can we switch this to something that's going to be more neuro-friendly from their antibiotic perspective? really can make a huge amount of difference to that patient's long-term outcomes. Dr Ghoshal: Totally. Dr Albin: I think that you and I could talk about this all day long. I mean, this is just the, like, bread and butter of these complex patients that we see. But I think I'll summarize it for our listeners that really have to think about what procedures did the patient get, opening some of those notes to figure out where are their complications, and then taking a very holistic approach to the ICU patient and making sure that you're characterizing what kind of abnormal movements are they having? What are their labs? Being mindful about the context the lab was sent in and the patient's baseline, like we talked about with that hyperammonemia, really matters where the patient's been. And then that medication list is- can be culprit number one, two, and three for bad things that are happening to the patient. Again today. I've been interviewing Dr Shivani Ghoshal on her article on neurologic complications of critical illness, which appears in the February 2026 Continuum issue on neurology of systemic disease. Be sure to check out Continuum Audio episodes from this and all other issues. And thank you so much to our listeners and to Dr Ghoshal for joining today. It was a pleasure. Dr Ghoshal: Thank you for having me. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neurologic Complications of Hematologic Disorders With Drs. Lauren Patrick and Mark Terrelonge 25.02.2026 19min

  Neurologic complications of hematologic disorders are frequently encountered in clinical practice and can involve both the central and peripheral nervous systems. Early recognition and appropriate management in collaboration with a hematologist are essential to reduce morbidity and mortality. In this episode, Kait Nevel, MD, speaks with Lauren Patrick, MD, and Mark Terrelonge, MD, MPH, authors of the article "Neurologic Complications of Hematologic Disorders" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Nevel is a Continuum® Audio interviewer and a neurologist and neuro-oncologist at Indiana University School of Medicine in Indianapolis, Indiana. Dr. Patrick is an assistant professor of neurology at the University of California, San Francisco, in San Francisco, California. Dr. Terrelonge is an associate professor of neurology at the University of California, San Francisco, in San Francisco, California. Additional Resources Read the article: Neurologic Complications of Hematologic Disorders Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @IUneurodocmom Full episode transcript available here Dr Nevel: Thick blood, thin blood. These are terms often used by patients and caregivers to describe some of the hematologic disorders that can lead to neurological diseases such as stroke. So, when should we consider a hematologic disorder as a potential cause for neurological conditions, such as stroke or neuropathy. Today I have the opportunity to interview Drs Lauren Patrick and Mark Terrelonge to learn more about neurologic complications of hematologic disorders in their recent article in Continuum. Dr Jones: This is Dr Lyell Jones, editor-in-chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Nevel: Hello, this is Dr Kate Nevel. Today I'm interviewing Drs Lauren Patrick and Mark Terrelonge about their article on neurologic complications of hematologic disorders. This article appears in the February 2026 Continuum issue on neurology of systemic disease. Welcome to the podcast, and please introduce yourself to the audience. Dr Patrick: Thank you for having us. We're both thrilled to be here. I'm Lauren Patrick, a vascular neurologist and assistant professor at the University of California, San Francisco, and program director for the Vascular Neurology Fellowship here. Dr Terrelonge: And I'm Mark Terrelonge, I'm an associate professor of neurology and neuromuscular medicine here at UCSF and one of the associate program directors for the adult neurology residency. Nice to meet you. Dr Nevel: Nice to meet you both. Really looking forward to getting into your article and learning more. So, to kind of kick us off, I always like to ask what do you think is the most important takeaway from your article for the practicing neurologist? And maybe since there are two of you and I suspect you covered slightly different aspects of this article, maybe you could give us two most important takeaways. Dr Patrick: Sure. I think the biggest takeaway is to keep hematologic disorders on the differential when evaluating patients with neurologic symptoms. Conditions like sickle cell disease, myeloproliferative neoplasms, or plasma cell dyscrasias and paraproteinemia can cause strokes or peripheral neuropathies, and many have specific and targetable treatments. The early recognition and collaboration with our hematology colleagues can truly change patient outcomes, whether that's by initiating cytoreductive therapy, managing thrombocytopenia, or optimizing antithrombotic therapy. Dr Nevel: Great. So, this is a really big and diverse topic. As always, I'm going to urge our listeners to read the article because there is a lot of really good stuff in your article that we just don't have time to get into during this interview today. But you cover a lot of different hematological disorders and how they can cause neurological complications. One of the major neurological complications of hematological disorders is cerebral vascular events. So, I'm hoping, Warren, that you can walk us through a little bit. When should we consider workup of potential hematologic disorder as a cause when we see a patient with ischemic stroke, because certainly not all patients with ischemic stroke should be getting a broad hematological disorder work up. So how can we kind of identify early on that there might be something else at play? Dr Patrick: Absolutely, great question. So, in many cases, the underlying hematologic disorder is already known, such as sickle cell disease or polycythemia vera. But sometimes stroke is the initial presentation or manifestation of the disease. So red flags can include young age, recurrent cryptogenic strokes or thrombosis, and unusual locations like the cerebral venous system. Laboratory clues such as unexplained erythrocytosis, thrombocytosis, thrombocytopenia, or hemolytic anemia should raise suspicion for an occult hematologic disorder. In the setting of acute illness, immune-mediated or heparin-induced thrombocytopenia or thrombotic microangiopathies should be suspected in patients that have hemorrhagic and or thrombotic complications, particularly when relevant lab disturbances are present. Acquired thrombophilia such as anti-phospholipid antibody syndrome should be considered in young patients with autoimmune disease, prior venous or arterial thrombotic complications, or pregnancy morbidity. Now, these are rare causes overall, but they're important to catch because the management can differ dramatically from our typical stroke care. Dr Nevel: Great. And what are some of the most common inherited or acquired thrombophilias and when should we be sending these labs? Dr Patrick: The hematologic causes really account for small minority of arterial strokes approximately one to two percent, but among those, sickle cell disease, anti-phospholipid antibody syndrome and the myeloproliferative neoplasms are the most common. Timing of testing is key. So, the genetic thrombophilia panels can be drawn at presentation, but lab values such as protein C, protein S, and antithrombin levels may be falsely low during acute thrombosis, so they're often repeated weeks later. Similarly, for anti-phospholipid antibody testing that should be done at presentation and when positive, confirmed at twelve weeks, since transient positivity can occur with affections or acute events. So, in patients that are already anticoagulated for anti-phospholipid antibody syndrome, testing becomes particularly tricky, especially with lupus anticoagulant assays. Some results need to be interpreted carefully or repeated when feasible. The main message is to collaborate early with our hematology colleagues to guide the timing and interpretation of these studies. Dr Nevel: Yeah, wonderful. Thank you. I'll ask some similar questions about neuropathy. So when should we consider an underlying hematologic disorder as being the cause for someone's neuropathy? Dr Terrelonge: So, luckily for a neurologist, then serum protein electrophoresis or an SPEP is already a part of the first pass evaluation for even the most common neuropathies we see, technically already considered every time we do an evaluation. However, we do know that most neuropathies progress very slowly and don't really lead to significant limitations in patient activities of daily living. And for those, the initial workup step, you may not need to do any additional search for any hematologic diseases after that first step. Within patients who start to have more unusual features with their neuropathy, including a rapid progression, early proximal weakness, significant and extremely painful neuropathies, significant ataxia, or new tremor or anything that's kind of outside of the garden variety neuropathy, then you should start to think about a hematologic cause. Additionally, if a patient already has a known hematologic malignancy or process before their neuropathy, there should be some form of assessment to see through exam or electrodiagnostically if the two are correlated. I do have to add one caveat, though, and that's just because someone has a hematologic malignancy or a paraprotein seen in their blood, their neuropathy and the neurologic syndrome don't necessarily have to be causally related. So, we have to do some additional testing to determine if the patient's presentation of the paraprotein are actually linked. Dr Nevel: Can you walk us through a little bit how we determine if they're associated or just coincidental? Dr Terrelonge: Yeah. So, for some of the proteins, there's a specific phenotype that will come with the specific protein. For example, an anti MAG proteinopathies or MAG standing for a myelin associated glycoprotein, it usually leads to a distal sensor and motor polyneuropathy where the most distal portions of nerves are affected. So, in that case, people might notice that they have numbness and weakness in their toes and their fingers, and it doesn't follow that typical length dependent pattern. So, in that case, if you have the anti mag neuropathy and the electrodiagnostic signature of an anti mag neuropathy along with the symptoms, you're more likely to think that the two are related then if not. Dr Nevel: Great. Thank you. And I was hoping you could speak a little bit more about amyloidosis just because I think that that's one that can be really tricky to diagnose. And I see patients, you know, have sometimes more drawn out evaluations or see multiple providers before a diagnosis is reached. So, can you speak a little bit more to how we diagnose amyloidosis in relationship to neuropathy or other neurological conditions and when we should push for more invasive testing like a nerve biopsy? Dr Terrelonge: So, amyloidosis certainly is a tricky diagnosis. I've been tricked by it and I think most of my neuromuscular colleagues have probably been tricked by it at least once. It's a hard diagnosis to make is it usually requires a pretty high index of suspicion, and also requires a tissue diagnosis to cinch. There're some patients who will come in with a prior history of amyloidosis and they're a little bit easier to figure out if the neuropathy is related. Maybe it's started in their heart or their kidney first and then you can just see if the type of amyloid they have usually deposits in nerve, and that may be enough. But if there's any diagnostic uncertainty, you could go forward with tissue biopsy. But it's patients in which the neuropathy is the first symptom that amyloidosis can be especially tricky to diagnose. It's a primarily light chain disease. So, if you do only an SPEP as a part of your initial neuropathy evaluation, you could miss it. But usually, the patients will have either a severely painful neuropathy, early autonomic dysfunction, or really prominent bilateral carpal tunnel syndrome. So, if they have any of those, usually we'll add in an amyloid workup as a part of that of the rest of the workup, which would include both light chain evaluations to see if there's any increase in Lambda or Kappa light chains and then also biopsy. Biopsy can be of the skin or fat pad first, which have reasonable sensitivity for picking up disease, but they're not necessarily a hundred percent. So if the suspicion remains high in those cases, a nerve biopsy should be considered. And the reason why this is important is that the chemotherapeutic agents that we have now can actually help arrest a lot of these diseases and stop further organ involvement. So, if you think about it, it is important to keep pushing and looking until you find it. Dr Nevel: Thank you so much for that. And a follow up question to that, once patients are started on appropriate therapy, the diagnosis is made, chemotherapy is started, what's the typical clinical course that you see in terms of their neuropathy? Do you ever see improvement or is it arrest of worsening? Dr Terrelonge: Usually for amyloid, there is an arrest of disease, but in some patients, they could have some improvement, not necessarily a dramatic improvement, but some patients could see some reversal of symptoms. That may not necessarily be because nerves injured nerves are regrowing, but because of reorganization of nerves to muscle, they could have some strength increases or at least less pain. Dr Nevel: Yeah, thank you. So, when should we involve a hematologist in aiding in the evaluation of patients we suspect may have an underlying hematological disorder? You guys really outlined very nicely in your article some of the laboratory workup or other workup like you just talked about with amyloidosis. But at what point in that workup should we reach out to our hematology colleagues? Dr Patrick: I would say almost always. So, these disorders are inherently multi-system and benefit from early co-management. In acute sickle cell stroke, for example, hematology helps direct emergent exchange transfusion. For myeloproliferative disorders they guide cyto reduction and long term antithrombotic strategy. And for antibody mediated or plasma cell disorders, hematology determines disease specific therapies. So, neurology may help with identifying the presentation, but the definitive management is almost always shared with our hematology colleagues. Dr Nevel: And as you both have mentioned that a lot of times in these cases, their hematologic disorder may be already known before they present with their neurological symptoms. So, I imagine obviously in those cases that a hematologist hopefully is already heavily involved in their care. What do you think is the most difficult aspect of identifying and diagnosing patients with neurologic illness as having an underlying hematological disorder? Dr Patrick: The hardest part is maintaining a high index of suspicion, especially since hematologic causes account for a very small minority of arterial strokes. Most strokes are from traditional vascular risk factors like you mentioned, or cardio embolism, so it's easy to stop diagnostic evaluation after standard studies have been performed. An example of a challenging case is a patient that's young, they've had recurrent cryptogenic stroke, and they could have antiphospholipid antibody syndrome, but it can be easy to miss if their antibody titers are borderline or if they're already anticoagulated, which would complicate retesting. So, it's about balancing the urge to over-test with recognizing the few cases where identifying A hematologic cause truly changes that management. Dr Terrelonge: And then on the neuropathy side, probably the hardest part is deciding what's causal and what's coincidence. Monoclonal gammopathy of unknown significance, or MGUS, is really common in older adults, so not every M-spike on an SPEP explains a neuropathy. And even sometimes there's times when the neurologic picture will develop a little bit faster than the hematologic one. So, it's hard to put the two together. Dr Nevel: Yeah. What's the most rewarding aspect of taking care of patients with complications from their hematologic disorders? Dr Patrick: It's deeply rewarding when a targeted diagnosis leads to a tangible improvement in that patient's care. For example, identifying A cryptogenic stroke is being due to myeloproliferative neoplasm or an inherited thrombophilia allows us to move from empiric treatment to possible disease specific strategy. It's really gratifying to give patients that clarity, to give them a diagnosis and in some cases prevent future events. Dr Terrelonge: Agreed. And even on the neuropathy side, almost all of the neuropathies that are hematologically related are treatable. So, it's so satisfying whenever you have a patient with say an anti-MAG neuropathy or Waldenström can start the patient on therapy, and you can see someone who's been having a progressive decline to stability and in those cases sometimes even significant recovery. Dr Nevel: Yeah, absolutely. Very rewarding when you can identify the problem and make it better. That's what it's all about. So, what are the future areas of research in this area? What do we still need to learn? Dr Patrick: There's still a lot to learn. I think we need better data on the safety of acute reperfusion therapy and antithrombotic agents, particularly in patients that are at dual risk for bleeding and thrombosis. Other examples, secondary prevention strategies and anti-phospholipid antibody syndrome. What's the best target INR? Do you add aspirin to warfarin or not? All of that is often left up to expert opinion. What's the best management for adults with sickle cell stroke? There are many open questions there. A lot of the protocols that we have in place for sickle cell patients that are adults as derived from pediatric literature and there's vast potential in terms of disease modifying therapies, especially in the fields of sickle cell disease and amyloidosis. And we'll need to reassess how those treatments may change neurologic outcomes. Dr Terrelonge: I think on the neuropathy side that having some form of new biomarkers to help us clearly know of the neuropathy and that hematologic illness are associated would be very helpful. On the treatment side, a lot of this is really being driven by the hematology space, but new therapies that treat hematologic plasma cell disorders, including some of the new BTK inhibitor, may be incorporated relatively soon into the algorithm for how we treat many of our patients. I'm excited to see what's to come from this. Dr Nevel: Wonderful. Thank you so much for sharing your knowledge with us today. I know I've certainly learned a lot by reading your article and through our discussion today. Highly encourage our listeners to read your wonderful article, which is a very thorough review of hematologic disorders and neurological complications. Again, today I've been interviewing Dr Lauren Patrick and Dr Mark Terrelonge on their article Neurologic Complications of Hematologic Disorders, which appears in the February 2026 Continuum issue on Neurology of Systemic Disease. Please be sure to check out Continuum Audio episodes from this and other issues. And as always, thank you so much to our listeners for joining today, and thank you so much to Lauren and Mark. Dr Terrelonge: Yeah, thank you so much for having us. Dr Patrick: Thank you so much for having us and for highlighting this topic. We hope the issue encourages clinicians to think broadly about hematologic causes of neurologic disease and to continue collaborating closely with our hematology colleagues. It's a complex but very fascinating intersection for both of our fields. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in depth and clinically relevant information important for neurology practitioners. Use this link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/AudioCME. Thank you for listening to Continuum Audio.
• Neurologic Complications of Endocrine Disorders With Dr. Rafid Mustafa 18.02.2026 23min

  Neurologic complications of endocrine disorders are diverse and may arise before systemic manifestations. Early recognition is essential because neurologic symptoms may represent the presentation of an undiagnosed underlying endocrine disorder, and because many neurologic complications of endocrine disorders are reversible with timely treatment. In this episode, Gordon Smith, MD, FAAN, speaks with Rafid Mustafa, MD, author of the article "Neurologic Complications of Endocrine Disorders" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Smith is a Continuum® Audio interviewer and a professor and chair of neurology at Kenneth and Dianne Wright Distinguished Chair in Clinical and Translational Research at Virginia Commonwealth University in Richmond, Virginia. Dr. Mustafa is an assistant professor of neurology for the Department of Neurology at Mayo Clinic in Rochester, Minnesota. Additional Resources Read the article: Neurologic Complications of Endocrine Disorders Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @gordonsmithMD Guest: @RafidMustafa Full episode transcript available here Dr Smith: So what group of disorders causes cognitive changes, weakness, fatigue, neuropathy, and seizures? Kind of sounds like all of neurology in one, doesn't it? It turns out that disorders of the endocrine system can cause all of these neurological problems and others. And kind of reminds me of William Osler, who famously said at the end of the 19th century that "he or she who knows syphilis knows medicine." Syphilis was the great imitator of his time. I wonder if in our time, the great imitator is actually endocrine disorders because it can cause all of these different problems. Today I have the great opportunity to talk with Dr Rafid Mustafa from Mayo Clinic about the neurological complications of endocrine disorders, which is a really terrific article in the February 2026 issue of Continuum. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Smith: This is Dr Gordon Smith. Today I'm interviewing Dr Rafid Mustafa about his article on neurological complications of endocrine disorders, which appears in the February 2026 Continuum issue on neurology of systemic disease. Rafid, welcome to the podcast, and please introduce yourself to our listeners. Dr Mustafa: Well, thank you for having me, Dr Smith. Like you had mentioned, I'm Dr Rafid Mustafa. I'm a neurohospitalist at the Mayo Clinic and I had the pleasure of writing this issue with Dr Aaron Berkowitz, and it's been such a fun ride to be a part of Continuum for this issue. Dr Smith: Yeah, it's a really exciting issue. And I have to say, I was really excited to have the opportunity to talk to you. Even though my research is in diabetes and I'm looking forward to talking about that---not my research, but about diabetes---I think the area of endocrine and neurological complications of endocrine disorders is confusing to us. And I guess maybe you could begin by just this concept that most of us check a few endocrine labs on just about everything. But how do you bring order to this when there's a group of disorders that all cause just about every domain of neurological problem, be it weakness, neuropathy, cognitive changes, and so forth? Dr Mustafa: Yeah, I think it's super interesting. I think that's why, you know, this issue on systemic diseases is fun. I had a mentor one time telling me that your interim year in residency is important so you can learn about all these organ systems that are there to keep the brain alive. And so, I think neurologic complications of systemic disease are fun. You know, like you said, the endocrine system, whenever it goes awry, you can get all sorts of neurologic complications. Putting order to it can be challenging. I think it's important to know what the different parts of the endocrine system do, the different glands and how they're connected, and what to look out for when you encounter neurologic problems, because sometimes those neurologic manifestations can be the very earliest sign of something wrong with different parts of the endocrine system. Dr Smith: You knew exactly where I was heading without having to tip my cards. I mean, that's exactly where I wanted to begin, because I think of this as an intimidating topic, but in reading your article, you outlined kind of the glandular structure or anatomy of the endocrine system and sort of the logic of its function. And actually, it's not as complicated as I was thinking going in. You did a good job of framing. And I wonder if maybe you can begin by just reminding our listeners the basic anatomy and functional logic that they'll need to keep in mind. Dr Mustafa: Yeah, absolutely. The system itself is this network of different glands and hormones that work to influence each other, just like our, you know, our nervous system is all interconnected as well, too. But this is more ensuring homeostasis in various ways. So, you have the hypothalamus all the way at top that secretes things, usually just to stimulate the pituitary, which often ends up being the controller of the endocrine system. And then there are these various other organs that have different jobs or things to do. So, there's, you know, the thyroid, parathyroid, adrenal glands; you have your pancreas, there's gonads. And all of these different things have different roles to keep us healthy and regulated. to function appropriately, you know, whether that's just generalized metabolic things from the thyroid gland or more flight or fight responses from the adrenal gland, even, you know, renin, aldosterone, etc, etc, from the adrenal. And then you know, the pancreas, diabetes, all sorts of things there. Gonads are important for sexual health. It's kind of cool how it's all regulated together and there's these feedback loops and- ah, we'll have fun talking about it. Dr Smith: Just listening to you, it kind of feels almost like the endocrine system is part of the nervous system, isn't it? I mean- and there are these sort of relationships between the two that I know we'll get into. We think of insulin sensitivity, for instance, and, you know, patients with diabetes. I mean, there's neuronal insulin resistance as well. So, they're very, very interconnected systems. Dr Mustafa: Absolutely. You're absolutely right. Dr Smith: I wonder if you can talk about this idea of feedback loops. This is something that we all learned in medical school, but probably worth reminding ourselves of as we begin the conversation. Dr Mustafa: Yeah, one part of the endocrine system is important for secreting a hormone that will influence another part of the endocrine system. And that new end target will have some kind of function, and then it all loops together. So, for example, the hypothalamus, it secrets out thyrotropin-releasing hormone and that stimulates the anterior pituitary gland to secrete thyroid-stimulating hormone, and then that hormone acts on the thyroid gland itself to produce the final-acting thyroid hormones themselves, like T3 and T4. Now, if any of these are thrown off, then it throws off other parts of the system. So, for example, maybe you're hyperthyroid and you have too much T3 and T4 coming from the thyroid gland. That may signal the hypothalamus and pituitary to reduce levels of thyrotropin-releasing hormone and thyroid-stimulating hormone to in turn affect the thyroid gland and help reduce production of those end-target thyroid hormone. Or vice versa, it just depends on the condition. You can see this at all aspects of the system at various accesses. So, it's kind of this complicated neural network in a way, but just from endocrine purposes, glands and hormones. Dr Smith: I wonder if we can start talking about the pituitary gland. Your article has all kinds of really cool information. One pearl that I wasn't really aware of is that 10% of adults have a pituitary microadenoma. It's pretty amazing. You point out that most of these aren't clinically significant, but they clearly come up on, kind of, an evaluation now and again. I mean, how should our listeners sort through how to approach these situations, right? Most of them aren't clinically significant, but some of them are. What does a neurologist need to know about this? Dr Mustafa: Yeah, To me, it's like anything else in our field. You scan enough people, you're going to find incidental things. You scan a spine, you're probably going to find a disc herniation. The question is, how clinically relevant is that and how is that affecting your patient? What are the things you need to be worried about and how do you work through it? As you mentioned, yeah, 10% of the population has a pituitary microadenoma. Those are the small ones. Most of them are clinically insignificant. So, if you find it, you know, usually it's not something to worry about too much. You might repeat serial imaging just to make sure it's not growing. But if they're not having neurologic symptoms because of mass effect or physiologic symptoms because of hormonal effect, then most of the time it's just an incidental finding and you just have to work really hard to reassure your patient. Now sometimes, there can be mass effect as the tumor itself grows, as benign tumor, or there can be hormonal effects. And then you might start thinking about how you're going to intervene. Dr Smith: Let's talk about macroadenomas and mass effect. You spend some time, and I actually have a really good example of pituitary apoplexy as well as the relationship between macroadenomas and other headache syndromes. So maybe you can talk about the relationship between macroadenomas and headache? Dr Mustafa: Yeah. So, you know, when pituitary adenomas become large, usually over 10 millimeters or so, we call it a macroadenoma. And the neurologic symptoms that come to play are usually because of mass effect. I think many of us are trained to recognize visual defects like a, you know, bitemporal hemianopia from compression of the optic chiasm. That's one of the classic things. But even just the mass effect alone in that area can cause symptoms like headache. Many of this will be, you know, migrainous in nature. Sometimes you can get a typical trigeminal-type phenomenon, just given everything that's in the region. And with something like pituitary apoplexy that you alluded to, I mean, that usually comes on very quickly. It can be a thunderclap headache. So, not all thunderclap headaches are subarachnoid hemorrhage from aneurysms. You have to think about other things on the differential, and that includes pituitary apoplexy. Dr Smith: Yeah, I mean, I think one of the things I found interesting was the fact that headaches can be associated with pituitary macronoma that are migranous or even look like a trigeminal autonomic cephalgia. I mean, is that something that commonly influences your management of either the headache or the macroadenoma? I mean, if you have a patient with a macroadenoma, do you treat the headache syndrome any differently, or are you particularly attentive for pituitary findings in someone that you're scanning because of headache? Dr Mustafa: Yeah. From my perspective, if I know there's a pituitary macroadenoma and they have these associated headaches, my practice is in general to treat the headache symptomatically, focusing on the phenotype, whether it's migrainous or more, you know, like an attack, a trigeminal autonomic cephalalgia. Now if it starts with they had an atypical headache like a trigeminal autonomic cephalgia, maybe I'm doing the imaging as a result of that to explore why they may be having this from a structural perspective. And if indeed it is because of a pituitary macroadenoma, we'll probably be monitoring the characteristics of the adenoma on a serial basis to see how it transforms over time. And if it's enlarging, you know, those symptoms might be a reason to consider intervention from a surgical resection standpoint. Dr Smith: So, I wonder if we should pivot and talk a little bit about how neurologists encounter patients who have symptoms related to endocrine disorders. And presumably the clues come with the impact of the distal endocrine gland, for instance, either over- or underproduction of the thyroid hormone. Is that the right way of thinking of it? And then, you know, having identified that, you'll start to look whether it's a primary glandular problem or upstream in the pituitary. Dr Mustafa: Absolutely. That's in general my approach. You know, often these patients are coming to the neurologist with specific symptomatology, and being familiar with how that's related to the endocrine system is what's important. So, I try to organize this article kind of by parts of the endocrine system and how that's related to neurologic manifestations. But really, it's about being familiar. So, if the patient presents in a comatose status and it's not a clear-cut structural reason, neurologically, as to why they're comatose, you might be exploring metabolic reasons for their coma. You may find disturbances in thyroid hormone levels, and that can influence you to work your way back up the axis---just like you mentioned, Gordon---to see where the problem is coming from that influences the thyroid problem. Dr Smith: So, you know, maybe we can use that as a good hook to hang our coat on, right? So we have a patient in the unit, comatose, not clear why. Are there specific pearls or indicators that would trigger you to really think about, is this a thyroid problem? Is it adrenal or whatnot? I mean, you give some great examples of, like, myxedema coma, which is very interesting. But what's the clue that we should be going down this pathway? Or, you know, on the other extreme, do you just look for thyroid abnormalities in everyone with a coma that you're having a hard time figuring out? Dr Mustafa: Great question. I am slightly more of a traditionalist in my approach to neurologic disease that, instead of shotgunning every single possible test, I try to localize in any way I can. And what's cool about these disorders of the endocrine system is that there's so much on your examination that can help clue you in. And it's not just the neurologic exam, it's the systemic exam as well, too. So, important to keep an eye out for those things. Since we're on the topic of thyroid, patients with mixed edema coma, you know, they may have neurologic signs like myoedema, etc, but they may also have systemic signs like hair loss, changes in weight, changes in temperature regulation, that you can pick up on history as well, too. And it's putting all that together to localize to not just part of the nervous system now, but part of the body that helps you with your testing. And that's how I tend to approach things. Dr Smith: So, so many questions I have for you. I wonder, can we talk a little bit about Hashimoto's encephalopathy? Dr Mustafa: Oh, yes, absolutely. Dr Smith: What's the deal there? That's something I've always found a little bit challenging. So, when should we think about it? There are lots of people out there with elevated thyroperoxase antibodies. How do you make the connection between serology and clinical phenotype and management? Dr Mustafa: Yeah, it's a great point of contention among groups, this diagnosis of Hashimoto encephalopathy. There are those that believe in this is a distinct autoimmune, essentially encephalitis entity associated with abnormal thyroid antibodies. And then there are those that believe that patients have this encephalopathy, but it's just incidental that we find these abnormalities in thyroid testing. What I'll tell you is there's been some really nice studies looking at Hashimoto's or what's to be Hashimoto's encephalopathy, and most patients that present with what is thought to be that actually have normal thyroid function studies. The other thing is finding abnormal antithyroid antibodies is also pretty prevalent in the general population. So, I think in my approach to thinking about Hashimoto's encephalopathy, you've just got to take everything with a grain of salt. You got to recognize that some things are just very prevalent, and you have to keep your clinical suspicion high for what you normally would see and consider other things on the differential. My personal thought is that there probably is some unique antibody-driven disease process that represents what we think of as Hashimoto's encephalopathy, but we just haven't fully classified what that antibody may be quite yet. And then there's probably some overlap, because in general a lot of these thyroid diseases themselves are reflective of underlying autoimmunity. So, there's probably something going on, but I don't think it's a direct effect of something like, you know, thyroid peroxidase antibodies. Dr Smith: Maybe we should pivot and spend a little time talking about the most common endocrine disorder that we encounter in neurologic practice, which is diabetes. And as I mentioned earlier, it's a topic near and dear to my heart. What's the latest that our listeners should know about regarding peripheral nervous system complications of diabetes? We're all familiar with distal symmetric polyneuropathy. Or are there other new updates or pearls that we should be thinking about? Dr Mustafa: Absolutely. So, the complications on the nervous system extend far beyond just your distal symmetric polyneuropathy is probably the most common thing we see, but you can get all sorts of unique manifestations. In fact, I recently just took care of a patient that had many of these. You can get a single thoracic radiculopathy. You can have what we see often at Mayo Clinic here, a diabetic lamosacral radicule plexus neuropathy where patients have profound, initially, usually pain in their lower limbs, and then this spreading of profound weakness in their lower limbs. That can be a huge complication of association with rapid control of glycemic status. And especially this day and age where we have newer medications that are very effective at controlling diabetes, we're seeing this more and more. I wrote this article before some recent publications that come out highlighting the association with GLP-1 agonists. But with these types of medication, rapid glycemic control can result in, you know, associated DLRPN quite frequently. Dr Smith: Yeah, it's interesting. I think we think of the, kind of the neuro-ophthalmological manifestations or risks of GLP-1 agonists, but the relationship too, of treatment-induced neuropathy and diabetes. And I'm curious of your experience. My sense is that if you aren't attuned to these sort of problems, you often miss them. And you certainly see people that come close to having surgical interventions or, you know, end up going off in the wrong direction with these acute neuropathies that I think are probably a little more common than we often give them credit for. Dr Mustafa: Absolutely. Yeah. I think, you know, learning about these things and being familiar is very important. It's important to keep a good broad differential because there can be mimickers, whether it's infectious things or malignant things like lymphoma, but I wanted to highlight in this article how common something like diabetic radiculoplexus, Lumbosacral radiculoplexus neuropathy can be. I mean, in fact, we see this more than things like Guillain-Barré syndrome, CIDP, etc. And so, I think practicing neurologists everywhere should at least be familiar and know what to look for so that they can make the diagnosis appropriately when they encounter patients with these debilitating diseases that can improve significantly. Dr Smith: So, I have one other diabetes question. That's a central nervous system complication that I wasn't particularly familiar with, and I'd love to hear you talk about a little more. And that is the diabetic striatopathy. Am I saying that right? Dr Mustafa: Absolutely. Yeah, yeah. Dr Smith: Yeah. Talk to us about that. That's pretty cool. Dr Mustafa: Yeah. You know, I think many of us that practice in the hospital setting will encounter patients with severe hyperglycemia. We're trained to recognize it as a stroke mimic. So many times these patients will come in, you know, glucose is in the six hundreds, thousands. And they might be just comatose, they might have focal neurologic signs that can mimic stroke. But one unique feature to be on the lookout for is diabetic striatopathy. And it's really thought to be an influence of out-of-range glycemic control on the basal ganglia itself. And so, these patients can present with unilateral hemibilismus, hemichorrhea, essentially a basal ganglia disorder. If you image them, you'll often see T1 hyperintensity in the striatum on MRI. And as you control the glycemic status, these patients improve. And it's just a unique phenomenon, but it's not- you know, many neurologists will see one of these probably in their careers. So, it's not something that's super rare that you'll never see it. Dr Smith: I think we're probably about out of time, Rafid. I wonder if there's anything that I didn't ask you about that you really think our listeners would like to hear. What nugget did I miss? And there are a great many from which you have to pick, I'm sure. Dr Mustafa: I think you've done such a great job. It's been a pleasure to chat with you. For me, the biggest takeaway for everyone to be aware of is oftentimes the first manifestation of something being off with the endocrine system will be something neurologic. And so, these patients may present to the neurologist first, or the neurologist will be consulted first, for something that seems purely neurologic. But it's important for us to have a high index of suspicion that the root cause could be something outside of the nervous system to help guide management down the line. When you're facing a patient with coma or peripheral neuropathy or myopathy or unique syndromes like the LRPN, remember to look beyond the nervous system, as this could be a very big clue to helping patients recover from disorders that are very, very treatable. Dr Smith: Rafid, thank you so much. It's been a great conversation. Your article is truly outstanding. Topic is kind of complicated, but it's not as complicated as I thought it was going into it. And I certainly learned a lot and enjoyed it a great deal. So, thank you for spending time with me today.  Dr Mustafa: Thank you so much for having me. I appreciate it. Dr Smith: Again, today I've been interviewing Dr Rafid Mustafa from the Mayo Clinic about his article on neurologic complications of endocrine disorders, which appears in the February 2026 Continuum issue on neurology of systemic disease. Be sure to check out Continuum Audio episodes from this and other issues of Continuum, and thanks for joining us today. Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neurologic Manifestations of Renal and Electrolyte Disorders With Dr. Eelco Wijdicks 11.02.2026 28min

  Many serious medical illnesses are associated with some degree of serum electrolyte abnormality, renal impairment, or both. The neurologist must determine if the patient's neurologic symptoms are related to the renal and electrolyte disturbances or whether a concurrent primary neurologic process is at play. In this episode, Casey Albin, MD, speaks with Eelco F. M. Wijdicks, MD, PhD, FAAN, FACP, FNCS, author of the article "Neurologic Manifestations of Renal and Electrolyte Disorders" in the Continuum® February 2026 Neurology of Systemic Disease issue. Dr. Albin is a Continuum® Audio interviewer, associate editor of media engagement, and an assistant professor of neurology and neurosurgery at Emory University School of Medicine in Atlanta, Georgia. Dr. Wijdicks is a professor of neurology and attending neurointensivist for the Neurosciences Intensive Care Unit at Mayo Clinic in Rochester, Minnesota. Additional Resources Read the article: Neurologic Manifestations of Renal and Electrolyte Disorders Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @caseyalbin Guest: @EWijdicks Full episode transcript available here
• February 2026 Neurology of Systemic Disease Issue With Dr. Aaron Berkowitz 04.02.2026 23min

  In this episode, Lyell K. Jones Jr, MD, FAAN, speaks with Aaron L. Berkowitz, MD, PhD, FAAN, who served as the guest editor of the February 2026 Neurology of Systemic Disease issue. They provide a preview of the issue, which publishes on February 2, 2026. Dr. Jones is the editor-in-chief of Continuum: Lifelong Learning in Neurology® and is a professor of neurology at Mayo Clinic in Rochester, Minnesota. Dr. Berkowitz is a Continuum® Audio interviewer and a professor of neurology in the Department of Neurology at the University of California, San Francisco, in San Francisco, California. Additional Resources Read the issue: continuum.aan.com Subscribe to Continuum®: shop.lww.com/Continuum Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @LyellJ Guest: @AaronLBerkowitz Full episode transcript available here Dr Jones: The human nervous system is so complex. You can spend your whole career studying it and still have plenty to learn. But the human brain does not exist in isolation. It's intricately connected with and reliant on other bodily systems. When those systems go awry, sometimes the first sign is in the nervous system. Today we will speak with Dr Aaron Berkowitz, an expert on the neurology of systemic disease, and learn a little about how these disorders can present and what we can do about it. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about subscribing to the journal, listening to verbatim recordings of the articles, and exclusive access to interviews not featured on the podcast. Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum: Lifelong Learning in Neurology. Today, I'm interviewing Dr Aaron Berkowitz, who is Continuum's guest editor for our latest issue of Continuum on the neurology of systemic disease. Dr Berkowitz is a professor of clinical neurology at the University of California, San Francisco, and he has an active practice as a neurohospitalist and in outpatient general neurology---and, importantly, as a clinician educator. In addition to numerous teaching awards, Dr Berkowitz has published several books and also serves on our editorial board for Continuum. Dr Berkowitz, welcome. Thank you for joining us. Why don't you introduce yourself to our listeners?  Dr Berkowitz: Thanks, Lyell. As you mentioned, I'm a general neurologist and neurohospitalist here in San Francisco, California at UCSF and very involved in resident education as well. And I was honored, flattered and a little bit frightened when I received the invitation to guest edit this massive issue on the neurology of systemic disease. But I've learned a ton, and it's been great to work with you and the incredible authors we recruited to write for us. And I'm excited to have the issue out in the world.  Dr Jones: Yeah, me too. And you and I have talked about it before: you're one of a very small group of people who have guest edited multiple issues on different topics, right?  Dr Berkowitz: That's right. I did the neuroinfectious disease issue in… was it 2020? 2021? Something like that.  Dr Jones: Yeah. So, congratulations, more people have walked on the moon than done what you've done. And I'm looking forward to chatting, Aaron, and really grateful for your work putting together a fantastic issue. I think our listeners will appreciate that the nervous system does not function in isolation. It's important to understand the neurologic manifestations of diseases that originate within the brain, spinal cord, nerves, muscles, etc., but also the manifestations of diseases that begin in other systems and, you know, may masquerade as a primary neurologic disorder. So, it's obviously an important topic for neurologists, since many of these patients are receiving care in another setting, perhaps from another specialist. I almost think of this issue of Continuum as a handbook for the consultant neurologist, inpatient or outpatient. I don't know. Do you think that's a fair characterization of the topic? Dr Berkowitz: Absolutely. I completely agree with you. I think, yeah, many of us go into neurology interested in our primary diseases, whether it's stroke or Parkinson's or neuropathy or particular interest in neurologic symptoms, whether they're cognitive, motor, sensory, visual. And we quickly learn in residency, right? As you said, a lot of what we see is neurologic manifestations of primary diseases. So, I don't know how similar this is to other training programs. But it seemed like, if I'm remembering correctly, my first year of residency was mostly on primary neurology services, general stroke, ICU. And we moved into the consultant role more in the PGY-3 year the next year. And I remember explaining to students rotating with us on the consult services, this is actually much more complex in a way, because the patient has some type of symptom in a much broader and much more complicated context of multiple things going on. And I call it "neurology in the wild." There's, like, neurology of, this patient's had a stroke and we know they have a stroke and we're trying to figure out why and treat it. That's all interesting. But our question here, is there a stroke needle buried in this haystack of all of these medical or surgical complications? And learning what I call neurology of X, which is really what this issue is; as you said, that there's a neurology of everything. There's a neurology of cardiac disease. There's a neurology of the peripartum. There's a neurology of rheumatologic disease. There's every new treatment that comes out in oncology has a neurology we learn, right? There's a neurology of everything.  Dr Jones: There's a lot of axes, right? There's the heart-brain axis and the kidney-brain axis. And… I think we cover everything except the spleen-brain axis, which maybe that's a thing, maybe not. I'll probably hear from all the spleen fans out there. So, I want to do a little bit of an experiment. We're going to do something new today on the podcast. Before we get into the questions, we're going to start with a Continuum Audio trivia question. So, this will be a first time ever. Dr Berkowitz, we all know that chronic hyperglycemia, or diabetes, can lead to many neurologic and systemic complications and that optimal glucose control is our goal. For our listeners, here's the question: what neurologic complication can occur from correcting hyperglycemia too quickly? What neurologic complication can occur from correcting hyperglycemia too quickly? Stick around to the end of our interview for the answer. So, Aaron, let's get right to it. You had a chance to review all the articles in this issue on the neurology of systemic disease. What do you think in all of those is the most exciting recent development for patients who fit into this category? Dr Berkowitz: Yeah, that's a great question. I think we talked about when we were putting this issue together, right, a lot of the Continuum subspecialty topics; there should have been updates on particular disease diagnostics, treatments, new phenotypes. Whereas here probably a lot less has changed in primary heart disease, primary cancer. As I'd like to say to our students trying to excite them about neurology, most specialties have new treatments, but I can name a large number of new diseases, right, that have been discovered since we've been out of training. So, a lot of the primary medicine stays the same, and the neurologic complications stay the same. But probably the thing that many readers will want to keep handy and will probably be much in need of update again in three years are the neurologic complications of all the new cancer treatments. So, if we think back to I finished training just over ten years ago when a lot of the fill-in-the-blank-umabs were coming out, CAR T therapy, and we were starting to see a lot of neurology, I remember, related to these and telling the oncologists and they said, oh, you just wait. We are seeing at the conferences that there's a lot of neurology to these. And I feel like that is always a moving target. And I think we are seeing a lot of those and it's hard to keep up with which treatments can cause which complications, which syndromes and which severities require holding the treatment when you can rechallenge longer-term complications of CAR T cell therapies now that we've learned more about the acute complications. So, Amy Pruitt from Penn has written us a fantastic article for this issue that covers a lot of the updates there. And I learned a lot from that. I feel like that's the one that just like every time the carnioplastic diseases are reviewed in Continuum, it seems like the table is another page longer from your colleagues there in Rochester teaching us about new antibodies. And I feel like, for this issue, that's one of the areas that felt like there was a lot of very new content to keep up with since last time.  Dr Jones: That's good news, right? It's good that we have new immunotherapies for cancer, but it does lead to neurologic catastrophes sometimes, and it is a moving target, really rapid. So, you mentioned that just over ten years ago you finished your training and now we see a lot more of these complex immunotherapy-related neurologic complications. What about in the other direction? Are there any things that you see less commonly now in your practice than you might have seen ten years ago right when you were finishing training?  Dr Berkowitz: I would say no, I think. I think we're seeing a lot of new stuff, and we're still seeing a high volume of the classic consults we tend to get, whether that's altered mental status in a patient who's systemically ill; weakness or difficulty reading from the ventilator in a patient who's critically ill; patient has endocarditis and has a stroke hemorrhage or mycotic aneurysm, what do we do? Yeah, one of the parts that was really fun and educational editing this issue is, I really wanted to ask the experts the questions I find that are really troubling and challenging and make sure we could understand their perspective on things like the endocarditis consult, which I always feel like each time there's some twist that even though the question is what do we do about this stroke and/or hemorrhage and/or aneurysm and is surgery safe? It seems like each time I always feel like I'm reinventing the wheel, trying to really sort out how to think about this. And we have a great article from Alvin Doss at Beth Israel and Steve Feskey from Boston Medical Center. It covers a lot of cardiology, as you know, in that article about a great section on endocarditis where every time it came back for review, I would say, but what about this? This comes up. What about this? Can you explain how you think about this for our readers? I don't know. I'd be curious to hear your perspective. It sounds like we agree on what has become more common. I don't think anything in neurology seems to become less… Dr Jones: Well, no, I guess we haven't really solved anything, I guess we haven't cured any problem. But that's okay, right? I mean, it's building on an established foundation of experience and history in our field. And you know, we mentioned earlier that in many ways this issue is kind of like a neurology consultant's handbook. We did something a little different with it in that sense. In addition to you serving as the guest editor, you have authored an article in the issue. It touches on something that we've talked about a couple of times, and I'd be interested to hear you talk through it with our listeners a little bit on how to approach the neurologic consultation. Tell us a little more about that and your article and how you approached it.  Dr Berkowitz: Oh, yeah, thanks. Well, thanks first of all for inviting me to think about a sort of introductory article to this issue. And I was trying to think about what to write about because, as you've said and we've been talking about, no one could know every neurologic complication of every medical disease, treatment, surgery, hospital context. Probably many of us don't even know all the muscle diseases, right, within neurology. So how could we know all this stuff? And we need some type of manual from our colleagues that can explain, okay, I know this patient has inflammatory bowel disease and they've had a stroke. Is that- are these related? Are these unrelated? And I thought the articles kind of answer all of these questions. What would I say beyond this patient has disease X and is on drug Y? Well, look up in this issue disease X and see what the neurology can be, common and rare and how often it's associated, how often it's the presenting feature, how often it means the treatment is failing, etc. I thought, I'm not sure there's much to say there. That's about a paragraph. And I thought, well, let's think even more broadly about neurologic consultation. And as you know, I like to think about diagnostic reasoning and clinical reasoning. And we talk a lot about framing bias right? And I think that is very common in consultative neurology because we'll be told in the consult or in the page or E-consult or whatever it is, this is a blank-year-old blank with a history of blank on treatment blank. And right away your mind is starting to say, oh, well, the patient just had heart disease, or, the patient is nine months pregnant, or, the patient is on an immune checkpoint inhibitor. And whether you want to do it or not, your mind is associating the patient's neurology with that. And it's- even if we know we're framing or anchoring, it's hard to kind of pull away from that. And most of the time, common things being common, a patient with cancer develops new neurology, It's probably the cancer, the treatment, or sometimes a paraneoplastic syndrome. But I've definitely found if you do a lot of inpatient neurology and a lot of consults that you're seeing so much and you have no choice but to apply these heuristics, because you're seeing a lot of volume quickly and the patients are in the hospital or they're being closely followed and outpatient setting by another specialist. You presume if you didn't get it quite right the first time, it's going to come back to you. And there's a little bit of difficulty figuring out, this is a case, actually, of all the altered mental status in acutely ill patients I got today, this is the one I should dig deeper in that I think this could turn out to be a stroke or encephalitis as opposed to delirium. I felt like that I really haven't approached that except knowing that it's easy to fall into traps. And so, I started to think about framing bias. You know, we talked about if we become aware of our biases, right, we're better at not falling prey to them. But it's subconscious. So, we might be applying it without even realizing, or even saying, I might be framing this case the wrong way, you can go right on framing it the wrong way. So, I want to kind of get a little more granular on what types of framing biases actually are relevant, specifically, to the console setting. And so, I tried to come up with a few more specific examples and try to think about ways that we could at least have a quick, if our knee-jerk is to associate primary disease X that the patient has or primary treatment X with neurologic symptom Y, what's at least a quick counter-knee jerk to say, what if it could be something else? So, for example, one of them I call "low signal-to-noise ratio bias." Altered mental status in the acutely ill hospitalized patient. What would you say, Lyell? 99 out of 100- 99.9 out of 100, it's not a primary neurologic disease. Is that fair to say? Dr Jones: Very high, yep. I agree. Dr Berkowitz: Yeah. But could it be a stroke? Could it be non-convulsive status epilepticus, meningitis encephalitis? So, how do we sort of counteract low signal-to-noise ratio bias, acknowledging it exists, acknowledging most of the time there is a low signal-to-noise, that it's not going to be neurology---to just for example, use the time course. This is pretty acute. Have I convinced myself this is not a stroke or a seizure or an acute neurologic infection? And if I'm not sure at the bedside, should I err on the side of more testing? Or the "curbside bias," as I call when your colleague just sends you a text message on your phone, No need to even open the chart, Dr Jones. Patient had a cerebellar stroke. Incidental. They're here for something else. Aspirin, right? Just like a super tentorial stroke. And you might reply thumbs up. And then imagine you open the CT scan and it's a huge cerebellar stroke with fourth ventricular compression- and patient can hide a lot of stroke back there, might just have a little ataxia. You were curbsided and that framed you to think, oh, they asked me, is aspirin okay for a cerebellar stroke and I said yes, without realizing actually the question should have been posed is, how do you manage a huge stroke with mass effect in the posterior fossa? So, these types of biases, I come up with five of them, I won't go through all of them. I'm in the article to sort of acknowledge for the reader, most of the time it's going to be what you look up in this issue, but how to think about the times where it might not be and how to be more precise about what framing is and different types of framing that occur specifically in the consultant arena. Dr Jones: And I think the longer we practice, the more of those low-frequency exceptions that you see. And, you know, and then it sticks in our mind and sometimes the bias swings the other way; people, you know, think primarily about the low frequency. And so, it's tricky. And what I really enjoyed about that article, we started talking about this probably more than a year ago, and more than a year ago, I would say relatively few clinicians were using a now widely popular large language model for clinical decision-making; we won't name the model. And now I think most clinicians are using it almost every day, right? And I think it puts a premium on how to think and how to engage with the patient, and less about the facts and the lists that a lot of conventional medical education really is derived from. So, I really appreciate that article. We can pat ourselves in the back. We had some foresight to put it in the issue, and I think it's a great addition to it. Dr Berkowitz: Thank you. Dr Jones: So, the list of potential topics when we think about the neurologic manifestations of systemic disease, we tend to break it down by organ systems, right? But the amount of things that could end up in the issue is almost infinite. Is there anything that, when you were putting this issue together---either in terms of the topics or editing the articles---is there anything that you wanted to include, but we just didn't have room? Dr Berkowitz: I certainly won't say we covered everything, but I will say we were able to recruit a fantastic team of authors. And as you and I also talked about at the beginning, although you could say, we're doing the movement disorders issue, let's find all the top movement disorders folks who are expert specialists in this field, there's not really a neurohematologist or a neurogastroenterologist out here. So, you and I put our heads together to think of phenomenal general neurologists in most cases, some subspecialists who know a lot about this but were also excited to read a lot more about it and assemble the existing knowledge by the practicing neurologist for the practicing neurologist. And I think with that approach and letting folks have kind of, you know, I asked some specific questions. These are topics I hope you'll cover. These are vexing questions in this area. I hope you'll find some answers to how often can this neurology be the primary feature of this rheumatologic disease with no systemic manifestations and when should we look or as we mentioned, the complicated endocarditis consult. I won't say we covered everything. This could be, and is, textbook-sized, and there are textbooks on this topic. But I think on the contrary, authors came back and had sections on things that I might not have thought to ask- to cover. Dr Sarah LaHue, my colleague here at UCSF, I asked for an article, as traditionally in this issue, on the neurology of pregnancy in the postpartum state and included, I think probably for the first time in Continuum, a fantastic review of neurologic considerations in patients in menopause, which I'm not sure has been covered before. So, things that I wouldn't have even thought to ask for. Our authors came back with some fantastic stuff. And the ICU article by Dr Shivani Ghoshal, instead of focusing just on altered mental status in the ICU, weakness in the ICU---those are all in there---I also asked her to discuss complications of procedures in the ICU. How often do procedures in the ICU cause local neuropathies or vascular injury, these types of things. Dr Jones: Yeah, me too. And I guess that's a great advertisement, that there probably are things that we didn't cover, but if there are, we can't think of them. We've done as best as we can. So now let's come back to our Continuum Audio trivia question for our listeners. And I'll repeat the question: what neurologic complication can occur from correcting hyperglycemia too quickly? And I actually think there might be two correct answers to this one. Dr Berkowitz, what do you think? Dr Berkowitz: Yeah, I was thinking of two things. I hope these are the things you're thinking of as well. One is what I think used to be referred to as insulin neuritis, sort of an acute painful small fiber neuropathy from after the initiation of insulin, I think also called treatment-induced diabetic neuropathy or something of that nature. And then the other one described, defined and classified by your colleagues there in Rochester, the diabetic lumbosacral radiculoplexis neuropathy or Bruns-Garland syndrome or a diabetic amyotropy, I think, can also---if I'm not mistaken---also occur in this context; you should have weight loss in association with diet treatment of diabetes. But how did I do? Dr Jones: Yeah, you win the prize, the first-ever prize. There's no monetary value to the prize, but pride, I think, is a good one. Yeah, those were the two I was thinking of. The treatment-induced neuropathy of diabetes is really nicely covered in Dr Rafid Mustafa's article on the neurologic complications of endocrine disorders. It's a rare condition characterized by the acute/subacute onset of diffuse neuropathic pain and some usually some autonomic dysfunction. And it occurs when you have rapid and substantial reductions in blood glucose levels. And you can almost map it out. There was a study from 2015 which is referenced in the article, which found that a drop in hemoglobin A1c of 2 to 3% over three months confers about a 20% absolute risk of developing this treatment-induced neuropathy of diabetes, and a drop of more than 4%, more than 80% risk. So, very substantial. And then in the other---we see this commonly in patients with diabetic lumbosacral radiculoplexis neuropathy---they have the subacute onset of usually asymmetric pain and weakness in the lower limbs that tends to occur more frequently in patients who have had recent better control of their sugar. We can also see it in the upper limbs too. So, you get a perfect score. Dr Berkowitz, well done. Again, I want to thank you. I want to thank you for such a great issue, a great article to kick off the issue, and a great discussion of the neurology of systemic disease. Today I learned a lot talking today, I learned a lot reading the issue. Really grateful for your leadership of putting it together, pulling together a really great author panel, and I think it will come in handy not just for our junior readers and listeners, but also our more experienced subscribers as well. Dr Berkowitz: Thank you so much. Like I said, it was a big honor to be invited to guest edit this issue. I've read it every three years since I started residency. It's always one of my favorite issues. As you said, a manual for consultative neurology, and I learned a ton from our authors and really appreciate the opportunity to work with you and the amazing Continuum team to bring this from an idea, as you said, probably over a year ago to a printed issue. So, thanks again, Lyell. Dr Jones: Thank you. And again, we've been speaking with Dr Aaron Berkowitz, guest editor of Continuum's most recent issue on the neurology of systemic disease. Please check it out, and thank you to our listeners for joining today. Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. Thank you for listening to Continuum Audio.
• Managing Prognostic Uncertainty in Neurologic Disease With Dr. Robert G. Holloway 28.01.2026 22min

  Clinicians and patients are in a state of prognostic uncertainty when they are unsure about the future course of an illness. By embracing uncertainty while cultivating prognostic awareness, neurologists can serve the critical role of supporting patients and families through the living and dying process. In this episode, Casey Albin, MD, speaks with Robert G. Holloway, MD, MPH, FAAN, author of the article "Managing Prognostic Uncertainty in Neurologic Disease" in the Continuum® December 2025 Neuropalliative Care issue. Dr. Albin is a Continuum® Audio interviewer, associate editor of media engagement, and an assistant professor of neurology and neurosurgery at Emory University School of Medicine in Atlanta, Georgia. Dr. Holloway is the Edward and Alma Vollertsen Rykenboer Chair and a professor of neurology in the department of neurology at the University of Rochester School of Medicine and Dentistry in Rochester, New York. Additional Resources Read the article: Managing Prognostic Uncertainty in Neurologic Disease Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @caseyalbin Full episode transcript available here Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Albin: Hello, this is Dr Casey Albin. Today I'm interviewing Dr Bob Holloway about his article on managing prognostic uncertainty in neurologic disease, which appears in the December 2025 Continuum issue on neuropalliative care. Welcome to the podcast, and please introduce yourself to our audience. Dr Holloway: Hi, Casey, and thank you. Again, my name is Bob Holloway. I'm a clinician and neurologist up in Rochester, New York, and I've been doing both neurology and palliative care for many years. Dr Albin: Well, that's fantastic. And I really wanted to emphasize how much I really enjoyed reading this article. I know that we're going to get into some of the pearls that you offer, but I really want to tell the listeners, like, this is a great one to read because not only does it have sort of a philosophical take, but you also really provide some pragmatic tips of how we can help our patients manage this prognostic uncertainty. But maybe just tell us a little bit, what is prognostic uncertainty? Dr Holloway: Yes, thank you. Well, I think everyone has a sense of what prognostic uncertainty is. And it's just the uncertain futures that we as clinicians and our patients face. And I would just say that a way to summarize it is just, how do we manage the "not yet" of neurologic illness? Dr Albin: I love that. In neurologic illness, there is so much "not yet" and there are so many unknowns. And what I thought was really helpful about your article is you kind of give us three buckets in which we can think about the different types of uncertainty our patients are facing. What are those? Dr Holloway: This is, I think, an area that really is of interest to me, thinking about how to organize the prognostic "not yet" or that landscape. And one way I've tried to simplify it is to think about it as data-centered. And that's the world that we mostly live in as neurologists. That's the probability distributions. We also have kind of system-level uncertainties, and that's the uncertainties that our health system affords for our patients. And then we have, also, the patient-centered uncertainties and the uncertainties that those two prior categories cause for our patients. And that's a big uncertainty that we often don't address. Dr Albin: In reading the article, I was really struck by, we spend a lot of time thinking about data uncertainty. Can we get population-based research? Can we sort of look at prognostication scoring? I live in the ICU, and so we think a lot about these, like, scoring metrics and putting patients into buckets and helping us derive their care based on where their severity index is. And I'm sure that is true in many of the divisions of neurology. But what I did not really appreciate---and I thought you did a really fantastic job of kind of drawing our attention to---is there's a lot of system-centered uncertainty. Can you give us a little bit of examples, like, what is system-based uncertainty? Dr Holloway: I think system-level uncertainties just encompass the practical information gaps that may arise during our healthcare encounter. And a lot of, I think, the uncertainty that our patients face and families, they actually describe it as they feel captive by the uncertainty. And it's just the unknowns, not just what affords from the actual information about the disease and its prognosis in the future, but actually the level of the system, like, who's going to take care of them? How do you manage arranging for nurses to come into the home or all those practical-level uncertainties that the system provides that sometimes we don't do a good job of road-mapping for patients. Dr Albin: Absolutely. Because I feel like we have a little bit of a gap in that often as physicians. Like, the family asks, what will hospice at home look like? Well, you know, that's a question for case management. I think they'll come in and they'll tell you. But it strikes me that that's a real gap of my being able to walk patients through. Will they get home health care? Will they have transportation set up? Will there be a nurse who comes in to check? How often are they available? What's the cost going to be? All of these practical aspects of dealing with an illness that are beyond sort of our scope of knowledge, but probably have a huge practical impact to the patient. Dr Holloway: Without question, every encounter patients wonder about, that kind of future wish landscape that we- all our future-oriented desires and hopes. And so much of that is the practical aspects of our health system, which is often fragmented, kind of unknown, uncertain. And that's a huge source of uncertainty for our patients and families. And then that leads to many other uncertainties that we need to address. Dr Albin: Absolutely. I think another one that we, again, maybe don't spend quite as much time thinking about is this patient-level uncertainty. What's going on there? Dr Holloway: Yeah. So, I think patient-level uncertainty is that uncertainty that they experience when confronted with the two other types of uncertainty: the actual data-centered uncertainty and the system-level uncertainty. And that's that, kind of, very huge kind of uncertainty about what it means for them and their family and their future futures. And that's a source of huge stress and anxiety, and often frankly bordering on dread and fear for our patients and families. That actually gets into very levels of uncertainty that I would call maybe over even in the existential realm. Patient-level uncertainty in the actual existential questions or the fear and the dread or the kind of just unnerving aspect of it is actually even more important to patients than the scientific or data-centered uncertainty that we focus most of our attention on. Dr Albin: Yeah, I think this is, to me, was getting towards that, like, what does the patient care about and how are they coping with what is in many times a really dramatic shift in their life expectancy or morbidity expectations and this sort of radical renegotiation about what it means to have a neurologic illness? And how does that shift their thinking about who they are and their priorities in the world? Is that right? Dr Holloway: One thousand percent, and in fact, I will say---and I think is one of the main take home messages is that, you know, managing prognostic certainty is not an end in itself. It really is to help patients and families adaptively cope to their new and often harsh new reality, that we could help them adapt to their new normal. I think that is one of our main tasks as neurologists in our care teams is to help patients find and ultimately maybe achieve existential or spiritual or well-being even in their new health states. You know, that you certainly often see in the intensive care unit, but we often always see in the outpatient realm as well, and all our other diseases. Dr Albin: I think that's really hard to do. I think those conversations are incredibly difficult and trying to navigate where patients want to be, what would bring meaning, what would bring value. I think many of us struggle to have these pretty real and intense conversations with families about what really is important. And one of the things I really liked about this article is you kind of walk us through some steps that we as clinicians can take to get a little bit more comfortable. Maybe just walk us through, what are some of the things that you have found most helpful in trying to get families and patients to open up about what brings them meaning? How are they navigating this new, really uncertain time in their life? Dr Holloway: Yeah, so I do kind of have a ten-point recommendations of how to help cultivate a more integrated awareness of an uncertain future. I mean, I think the most important thing is actually just recognizing that embracing uncertainty as an amazingly remarkable cognitive tool. I mean, let's face it, uncertainty, when it happens with neurologic illness and disease, is often fearful. It's scary. It kind of changes our world. But on the flip side of it, it's a remarkable cognitive tool that actually can help us find new ways and new paths and new creativity. And I think we can use that kind of opposites to help our patients find new meaning in very difficult situations. So, thinking about uncertainty, kind of being courageous, leaning into it and recognizing that it does create anxieties and fear, but it also can kind of help create new solutions and new ideas to help people navigate. Dr Albin: I was hoping that maybe you could give us an example of, like, how would you do that? If a patient comes in and they're dealing with, you know, a new diagnosis and they're navigating this new uncertainty, what are some of the things that you ask to help them reframe that, to kind of take some of the good about that uncertainty? How do you navigate that? Dr Holloway: One of the other recommendations is actually just resetting the timeline and expectations for these conversations. That it shouldn't be expected that patients should accept their harsh new reality immediately, that it takes time in a trusted environment. And that there's this, like, oscillating nature of hopes and fears and dread, and you've just got to work with them over time. And with time, and once you understand who the patient and family are and understand where they find meaning and where they find, actually, joy in their life, or what actually brings them meaning, you can start recasting their futures into credible narratives in their kind of future landscape in ways that I think can help them enter into their new realities within the, you know, framework of disease management that you can offer them within your healthcare team or your healthcare system or wherever you are in the world and the available resources that you have to offer patients and families. Dr Albin: So, this sounds like a lot to me like active listening and really trying to get to know what is important to the family, what is important to the patient. And I guess probably just creating that space even in that busy clinical environment. Do I have that right? Dr Holloway: You can absolutely do that, right. You know, and honestly, active listening, we are challenged in our busy healthcare system to do this, but I think with the right listening skills and the appropriate ways of paying attention, you can definitely illuminate these possible, kind of future-oriented worlds for patients and help them navigate those new terrains with them. Frankly, I think that's a real new space for us in neurology. We don't think about and train how to create credible narratives for patients and families. We do it on the fly, but I think there's so much more work to do. How do you actually keep, you know, that best-case, worst-case, most likely credible narratives for patients that can help them adapt to their new realities and support them on their new journeys? Dr Albin: I love that best-case, worst-case, most likely case. I find that framework really helpful. But you talk in your article, it's not just about using that best case or worst case or most likely, but it's actually building some forecasting into that and having some real data to kind of support what you're saying. And there's a lot of growth towards actually becoming good as a medical forecaster. Can you describe a little bit, what did you mean by that? Dr Holloway: You're absolutely right. I think, actually, one of the skillsets of becoming and managing prognostic uncertainty is actually becoming a skilled medical forecaster. And it's a really tall order. So, we've got to be both good medical forecasters as well as helping patients adaptively cope to their new reality. But the good medical forecasting is actually now going more quantitative in thinking about the data that's available to help think about the important outcomes for patients and families and then predicting what their probabilities are so you can shape those futures around. So, yes, we do have to have an open mindset. We do have to actually look at the data that's available and actually think about, what are those long-term probabilities and outcomes? And we can be honest about those and even communicate them with families. But it's a really good skill set to have. Dr Albin: Yeah. This to me was a little bit about, how do you bring in the data knowledge that we try to get over time as we develop our expertise? You're developing not just a reliance on population-based data, but in my experience, I have seen this. And that sort of ability to kind of look at the patient in front of you, think about the big picture, but also a little bit about their unique medical comorbidities or prior life experiences. So, some of that database knowledge, and then bringing in and getting to know what is important to the patient. And so, sort of marrying that data-centric/patient-centric mindset. Dr Holloway: I love it. I guess the other way of saying that, too, is we need to think with precision, but communicate in narratives. And it's okay to gently put more precise estimates on our probability predictions with patients and families, what we think is the most likely case, best and worst case. Because patients and families want us to be more precise. We often shy away from it, but- so, it's okay to think in precisions, but we've got to put those in narratives in the most likely, best-, and worst-case scenarios. And don't be afraid if you think in terms of ninety percents, ten percents, fifty percents; most patients and families don't mind that. And what they're telling us is they actually want to hear that, if you are comfortable talking in those terms. Dr Albin: Yeah, absolutely. And giving a sense of the humility to say, like, this is my best guess based on medical data and my experience, I would say, but again, none of us have a crystal ball. And I do think families, as long as you're sort of couching your expectations into the sort of imperfect, but I'm doing my best, really appreciate that. Dr Holloway: They totally do all the time. Just say, I simply don't know for certain, but these are my best estimates. That's a good way of just phrasing that. Dr Albin: Yeah. So powerful. I don't know for certain. And then I wanted to just kind of close out, because there's this one term that you use that I thought was so interesting. And I wanted you to kind of tell our listeners a little bit about what you mean here, which is that, when you're actively open-minded, you're using this, quote, "dragonfly eyes." What do you mean by that? Dr Holloway: So, the dragonfly eyes, as you know, they can look at three sixty around them and they just, they move in all directions. Being actively open minded, I guess the biggest example I would say is, I don't like the term prognostic discordance, which means that there's a difference of subjective estimates of prognosis between patients and families. Being openly minded is actually embracing the potential information that the family has about prognosis and incorporating that into your estimates. So, I wouldn't say it's discordances, per se; I think being really actively open-minded is taking that all in and utilizing that as, you know what, they know more than you do about the patient and their loved ones, and they may have insights that can inform your best estimates of prognosis. So, the true dragonfly prognosticator actually is one who embraces and doesn't consider it discord, but considers it kind of new, useful information that I just need to weigh in so I can help the family in my best professional way in terms of developing a prognosis, whatever the condition may be. Dr Albin: I can imagine this is just so challenging and something that takes a long time to sort of perfect all of this. I think you say right below that, you need a growth mindset to do this because it is hard, and it's going to take an active participation and an active desire to get better at these conversations with our families. Dr Holloway: One thousand percent. You are so right that it takes time, effort, and not feeling like you're being challenged, but that actually you are including them in your entire body of knowledge, that you're just- it's part of all you're collecting. And even, I was on service last week, and I talked to residents and students about that very issue. It's like take their prognosis. And someone who came in, we thought CJB, very sad, tragic case, but we were thinking about what the future may look like and how do we actually work with the family who had very what we thought was unrealistic expectations. I said, well, no, this is not discordance. This is just useful information that we can take understand where they're coming from and incorporate that into the ways we want to build relationships, build trust, and over time we'll get to a point where we hopefully can work with them and have them have that fully integrated awareness of their future. Dr Albin: Yeah, that's beautiful. It really is this ongoing negotiation that really requires so much listening, understanding, and then obviously information and expertise about the data that we're presenting and the likelihood outcome, recognizing that there's a lot of uncertainty in all of this. Which, you know, again, this is kind of a 360 talk. At every level there is uncertainty, and that's what makes it so hard. Dr Holloway: Yeah, you're absolutely right. And actually, even in the article I kind of used the term radical uncertainty as that, no matter how resolvable all this uncertainty is, there will always still remain that radical element of our existence which we have to actually incorporate and be prepared for. And actually, not only of ourselves, but actually for patients and families and helping manage that. Using narratives and credible narratives and kind of ranges of possibilities is the best way to do that in a personalized way. Dr Albin: Well, this has been a fantastic conversation, and I know that we are running a bit short on time. So, as we wrap up and you think about this topic, are there any key take-home messages that you hope our listeners will walk away with? Dr Holloway: I think one main emphasis is that despite all the successes we feel we have in neurology, is that we all have to recognize that prognostic uncertainty is just going to increase in the future. But this is going to be for several reasons. One is that, just, the illness uncertainty of all of our great therapies are just going to be creating more uncertainty for the future. And precision medicine is paradoxical, and that actually it creates more uncertainty. So, I think we need to be prepared that we have to manage prognostic uncertainty better, because it's definitely going to increase. And two, it's what I said earlier, is that actually managing prognostic uncertainty is not an end to itself. It's actually helping patients and families adapt to their new and sometimes harsh new reality and actually help them to ultimately get to a place where maybe either their condition is neither dreaded, but actually they can accept it as their new reality and actually achieve some sort of existential well-being and existential health. I think that we have a lot more to emphasize in this area. And for far too long, we've focused on the certainty aspect of our field and not enough on the uncertainty in the world of medicine to help our patients and families. Dr Albin: And gosh, isn't there just so much uncertainty? And I think this has been beautiful. So, thank you again for coming and sharing your expertise. Dr Holloway: Thank you very much. It's been a pleasure. Dr Albin: For all of our listeners out there, this is a truly fantastic article, and I would just like to direct you to going to read the cases because not only do the cases offer a little bit of practical advice, but there's one that's actually sort of a philosophical discussion about, what does it mean to be alive and confront death? There's some beautiful artwork that's featured as well. So this is just a really unique article, and I'm excited for our listeners to have a chance to check it out. So again, today I've been interviewing Dr Bob Holloway about his article on managing prognostic uncertainty in neurologic disease, which appears in the December 2025 Continuum issue on neuropalliative care. Be sure to check out Continuum Audio episodes from this and other issues. Dr Monteith: This is Dr Teshamae Monteith, Associate Editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.
• Neuropalliative Medicine in Pediatric Neurology With Dr. Lauren Treat 21.01.2026 21min

  Pediatric neuropalliative medicine is an emerging area of subspecialty practice that emphasizes the human experience elements of serious neurologic illness. Child neurologists care daily for patients who can benefit from the communication strategies and management practices central to pediatric neuropalliative medicine, whether at the primary or subspecialty level. In this episode, Gordon Smith, MD, FAAN, speaks with Lauren Treat, MD, author of the article "Neuropalliative Medicine in Pediatric Neurology" in the Continuum® December 2025 Neuropalliative Care issue. Dr. Smith is a Continuum® Audio interviewer and a professor and chair of neurology at Kenneth and Dianne Wright Distinguished Chair in Clinical and Translational Research at Virginia Commonwealth University in Richmond, Virginia. Dr. Treat is an associate professor in the divisions of child neurology and palliative medicine at the University of Colorado School of Medicine in Aurora, Colorado. Additional Resources Read the article: Neuropalliative Medicine in Pediatric Neurology Subscribe to Continuum®: shop.lww.com/Continuum Earn CME (available only to AAN members): continpub.com/AudioCME Continuum® Aloud (verbatim audio-book style recordings of articles available only to Continuum® subscribers): continpub.com/Aloud More about the American Academy of Neurology: aan.com Social Media facebook.com/continuumcme @ContinuumAAN Host: @gordonsmithMD Full episode transcript available here Dr Jones: This is Dr Lyell Jones, Editor-in-Chief of Continuum. Thank you for listening to Continuum Audio. Be sure to visit the links in the episode notes for information about earning CME, subscribing to the journal, and exclusive access to interviews not featured on the podcast. Dr Smith: This is Gordon Smith. Today I've got the great pleasure of interviewing my good friend Dr Lauren Treat about her article on neuropalliative medicine in pediatric neurology practice. This article appears in the December 2025 Continuum issue on neuropalliative care. Lauren, welcome to the Continuum podcast, and maybe you can introduce yourself to our listeners. Dr Treat: Such a delight to be here, Gordon. Thank you. I am a pediatric neurologist and palliative medicine doctor at the University of Colorado, Children's Hospital Colorado, and I am practicing in both areas. I do general child neurology, and I also run a pediatric neuropalliative medicine clinic. So, I'm happy to be here to talk about it. Dr Smith: And, truth in advertising, I tried very hard to get Dr Treat to move to VC to work with me. And I haven't given up yet. I'm looking forward to the conversation. And Lauren, I wonder- one, I'm really excited about this issue, by the way. This is the second podcast I've done. And I'd like to ask the same question I asked of David Oliver, who's amazing. What a great article and conversation we had. And that question is, can you define palliative care? I think a lot of people think of it as, like, end-of-life care or things like that. And is the definition a little different in the pediatric space than it is in the adult space? Dr Treat: Such a great place to start, Gordon. I absolutely think that there are nuances that are very important in pediatrics. And we especially acknowledge in pediatrics that there is a very longitudinal component of this. And even moreso, I think, then in adult neuropalliative medicine, in pediatrics, we are seeing people=even prenatally or early in their first hours and days of life, and walking with them on a journey that might last days or weeks, but might last years or decades. And so, there is this sense that we are going to come alongside them and be part of the ups and the downs. So yes, neuropalliative medicine is a kind of medicine that is a very natural partner to where neurology is in its current field. We're doing a lot of exciting things with modifying diseases, diagnosing things early, and we have a very high reliance on the things that we can measure in medicine. And not all things can be measured that are worthwhile about one's quality of life. A family very poignantly told me very recently, making sure someone stays alive is different from making sure they have a life. And that's what neuropalliative medicine is about. Dr Smith: Well, great summary, and I definitely want to follow up on several aspects of that, but there's one point I was really curious about as I've been thinking about this, you know, these are really exciting times and neurology in general and in child neurology in particular. And we've got all of these exciting new therapies. And as you know, I'm a neuromuscular person, so it's hard not to think back on SMA and not be super excited. And so, I wonder about the impact of these positive developments on the practice of neuropalliative care in kids. You know, I'm just thinking, you know, you mentioned it's a journey with ups and downs. And I wonder, the complexity of that must be really interesting. And I bet your job looks different now than it did seven or eight years ago. Dr Treat: That's absolutely true. I will self-reference here one of the figures in the paper. Figure 2 in my section is about those trajectories, about how these journeys can have lots of ups and downs and whether this person had a normal health status to begin with or whether they started out life with a lot of challenges. Those ups and downs inherently involve a lot of uncertainty. And that's where palliative medicine shines. Not because we have the answer---everyone would love for us to have the answer---but because we consider ourselves uncertainty specialists in the way that we have to figure out what do we know, what can we ground ourselves in, and how can we continue to move forward even if we don't have all the answers? That is a particular aspect of neurology that is incredibly challenging for families and clinicians, and it can't stand as a barrier to moving forward and trying to figure out what's best for this child, what's best for this family. What do we know to be true about them as people, and how can we integrate that with all of the quantitative measures that we know and love in neurology? Dr Smith: So, I love the comment about prognostication, and this really ties into positive uncertainty or negative undercertainty in terms of therapeutic development. I wonder if you can talk a little bit about your approach to prognostication, particularly in a highly fluid situation. And are there pearls and pitfalls that our listeners should consider when they're discussing prognosis for children, particularly maybe young children who have severe neurological problems? Dr Treat: It's such a pivotal issue, a central issue, to child neurology practice. Again, because we are often meeting people very, very early on in their journey---earlier than we ever have before, sometimes, because of this opportunity to have a diagnosis, you know, prenatally or genetically or whatever else it is---sometimes we are seeing the very early signs of something as compared to previously where we wouldn't have a diagnosis until something was in its more kind of full-blown state. This idea of having a spectrum and giving people the range of possible outcomes is absolutely still what we need to do. However, we need to add on another skill on top of that in helping people anchor into what feels like the most likely situation and what the milestones are going to be in the near future, about how we're going to walk this journey and what we'll be on the lookout for that will help us branch into those different areas of the map down the road. Dr Smith: So, I wonder if we can go back to the framework you mentioned, two answers ago, I think? You and the article, you know, provide four different types of situations kind of based on temporal progression. I wonder if maybe the best way of approaching is to give an example and how that impacts your thoughts of how you manage a particular situation. Dr Treat: Absolutely. So, this figure in particular is helpful in multiple ways. One is to just give a visual of what these disease trajectories are doing, because we're doing that when and we take a history from a patient. But actually, to put it into an external visual for yourself, for your team, but also perhaps for the family can be really powerful. It helps you contextualize the episode of care in which you're meeting the family right now. And it also helps, sometimes, provide some sense of alignment or point out some discrepancies about how you're viewing that child's health and quality of life as compared to how the family might be viewing it. And so, if you say, you know, it sounds like during those five years before we met, you were up here, and now we find ourselves down here, and we're kind of in the middle of the range of where I've seen this person's health status be. Do I have that right? Families feel really seen when you do that and when you can get it accurately. And it also invites a dialogue between the two parties to be able to say, well, maybe I would adjust this. I think we had good health or good quality of life in this season. But you're right, it's getting harder. It's kind of that "show, don't tell" approach of bringing together all the facts to put together the relative position of where we are now in the context of everything they've been through. Dr Smith: You know, I wonder if you could talk a little bit more about the differences between palliative care and adult patients and in children? Dr Treat: Absolutely. One of the key features in pediatrics is this kind of overriding sense of an out-of-order event in the family's life. Children are not supposed to have illness. Children are not supposed to have disability. Children are not supposed to die before their parents. And that layer of tragedy is incredibly heavy and pervasive. It's not every encounter that you have in child neurology, but it does kind of permeate some of the conversations that neurologists have with their patients, especially patients who have serious neurological disease. So that could be things like epileptic encephalopathies, birth injuries, other traumatic brain injuries down the line. In the paper, I'd go through many different categories of the types of conditions that are eligible for pediatric neuropalliative medicine, that kind of support. When we think about that layer of tragedy in the relation to where we're meeting these families, they deserve extra support, not just to think about the medicines and the treatments, but also, what can we hope for? How can we give this child the best possible life in whatever circumstance that they're in? How can we show up in whatever medical decision-making circumstances present themselves to us and feel like we've done right by this child? It's a complex task, and pediatric neural palliative medicine is evolving to be able to be in those spaces with families in a very meaningful way. Dr Smith: So, of course, one of the differences is the, you know, very important role of parents in the situation, right? Obviously, parents are involved in adult palliative care issues and family is very important. But I wonder if you can talk about specific considerations given the parent-child relationship? Dr Treat: So, pediatric neuropalliative medicine really helps facilitate discussions not just about, again, those things that we have data on, but also about what is meaningful and foundational for those families. What's possible at home, what's possible in the community. In pediatrics, parents are making decisions on behalf of their child, often as a dyad, and I don't think this gets enough attention. We know from adult literature that making decisions on behalf of someone else is different from making decisions on behalf of oneself. We call this proxy decision-making. And proxies are more likely to be conservative on behalf of someone else than they are on behalf of themselves, and they're also more likely to overestimate the tolerability of a medical intervention. So, they might say, I wouldn't want this, or, I wouldn't accept this risk on behalf of myself, or, I don't think I'd want to have to persevere through something, but on behalf of this other person, I think they can do it or I will help them through it or something else like this, or, I can't accept the risk on behalf of them. So that's not good or bad. That's just different about making a decision on behalf of oneself as compared to making a decision on behalf of someone else. When there's two people trying to be proxies on behalf of a third person, on behalf of a child, that's a really, really complex task, and it deserves support. And so, pediatric neural palliative medicine can function, then, as this neutral space, as this kind of almost coaching opportunity alongside the other medical doctors to give parents an opportunity when their minds are calm---not in the heat of the moment---to talk about how they see their child, how they've shown up themselves, what they've seen go well, what they've struggled with. And how,, then we can feel prepared for future decision making times, future high-stress encounters, about what will be important to ground them in those moments, even though we can't predict fully what those circumstances might be. Dr Smith: It sounds, you know, from talking to you and having read the article, that these sorts of issues evolve over time, right? And you have commented on this already from your very first answer. And you do describe a framework for how parents think---their mental model, I guess---of, you know, a child with a serious illness. And this sounds like appreciation of that's really important in providing care. Maybe you can talk us through that topic? Dr Treat: I refer to this concept of prognostic awareness in all of the conversations that we have with families. So, what I mean by prognostic awareness is the degree of insight that an individual has about what's currently happening with their child and what may happen in the future regarding the disease and/or the complications. And when we meet people early on in their journey, often their prognostic awareness, that sense of insight about what's going on, can be limited because it requires lived experience to build. Oftentimes time is a factor in that, we gain more lived experience over time, but it's not just time that goes into building that. It's often having a child who has a complication. Sometimes it's experiencing a hospitalization. That transfer from a cognitive understanding of what's going on, from a lived experience about what's going on, really amplifies that prognostic awareness, and it changes season by season in terms of what that family is going through and what they're willing to tolerate. Dr Smith: You introduced a new term for me, which is hyper-capableism. Can you talk about that? I found that really interesting and, you know, it reminds me a lot of the epiphanies that we've had about coma and coma prognosis. So, what's hyper-capableism? Dr Treat: Yes. In neurology, we have to be very aware of our views on ableism, on understanding how we prognosticate in relation to what we value about our abilities. And hyper-capableism refers to someone who feels very competent both cognitively and from a motor standpoint and fosters that sense of value around those two aspects to a high degree. I'm referencing that in the article with regard to medicine, because medicine, the rigors of training, the rigors of practice, require that someone has mental and motor fortitude. That neurology practice and medical practice in general can breed this attitude around the value of skills in both of those areas. And we have to be careful in order to give our patients and families the best care, to not overly project our values and our sense of what's good and bad in the world regarding ableism. Impairments can look different in different social contexts. And when the social context doesn't support an impairment, that's where people struggle. That's where people have stigma. And I think there's a lot of work that we can do in society at large to help improve accommodations for impairment so that we have less ableism in society. Dr Smith: Another term that I found really interesting kind of going back to parents is the "good parent identity." Maybe you can talk about that? Dr Treat: Good parent identity, good parent narrative, is something that is inherent to the journey when you're trying to take care of and make decisions on behalf of a child. And whether you're in a medical context or outside of a medical context, all parents have this either explicit or implicit sense of themselves about what it means to do right by their child. This comes up very poignantly in complex medical conditions because there are so many narratives about what parents ought to do on behalf of their child, and some of those roles can be in tension with one another. It's a whole lot of verbs that often fall under that identity. It's about being able to love and support and take good care of and make good decisions on behalf of someone. But it's also about protecting them from harm and treating their pain and being able to respond to them and know their cues and know these details about them. And you can't, sometimes, do multiple of those things at once. You can't give them as much safety and health as possible and also protect them from pain and suffering when they have a serious illness, when they need care in the hospital that might require a treatment that might be invasive or burdensome to them. And so, trying to be a good parent in the face of not being able to fulfill all those different verbs or ideas about what a good parent might do is a big task. And it can help to make it an explicit part of the conversation about what that family feels like their good parent roles might be in a particular situation. Dr Smith: I want to shift a little bit, Lauren, that's a really great answer. And just, you know, listening to you, your language and your tongue is incredibly positive, which is exciting. But, you know, you have talked about up and downs, and I wanted you to comment on a quote. I actually wrote it down, I'm going to read it to you, because you mentioned this early on in your article: "the heavy emotional and psychological impacts of bearing witness to suffering as a child neurologist." I think all of us, no matter how excited we are about all the therapeutic development, see patients who are suffering. And it's hard when it's a child and you're seeing a family. I wonder if you could talk a little bit about that comment and how you balance that. You're clearly- you're energized in your career, but you do have to bear witness to suffering. Dr Treat: You're right. Child neurologists do incredible work, it's an incredible, exciting field, and there are a lot of challenges that we see people face. And we see it impacts their lives in really intense ways over the course of time. We bear witness to marriages that fall apart. We bear witness to families that lose jobs or have to transition big pieces of their identity in order to care for their children. And that impacts us. And we hold the collective weight of the things that we are trying to improve but sometimes feel less efficacious than we hoped that we could around some of these aspects of people's lives. And so, pediatric neuropalliative medicine is also about supporting colleagues and being able to talk to colleagues about how the care of the patients and the really real effort that we exert on their behalf and the caring that we have in our hearts for them, how that matters. Even if the outcome doesn't change, it's something that matters for our work and for our connections with these families. It's really important. Dr Smith: I wonder, maybe we can end by learning a little bit about your journey? And maybe this is your opportunity to- I know we have students and residents who listen to us, and junior faculty. I think neuropalliative care is obviously an important issue. There's a whole Continuum issue on it---no pun intended---but what was your journey, and maybe what's your pitch? Dr Treat: I'm just going to give a little bit of a snippet from a poem by Andrea Gibson, who's a poet, that I think speaks really clearly to this. They say a difficult life is not less worth living than a gentle one. Joy is simply easier to carry than sorrow. I think that sums these things up really well, that we find a lot of meaning in the work that we do. And it's not that it's easier or harder, it's just that these things all matter. I'm going to speak now, Gordon, to your question about how I got to my journey. When I went into pediatrics and then neuro in my training, I have always loved the brain. It's always been so crucial to what I wanted to do and how I wanted to be in the world. And when I was in my training, I saw that a lot of the really impactful conversations that we were having felt like we left something out. It felt like we couldn't talk about some of the anticipated struggles that we would anticipate on a human level. We could talk about the rate and the volume of the G tube, but we couldn't talk about how this was going to impact a mother's sense of being able to nourish and bond and care for their child because we didn't have answers for those things. And as I went on in my journey, I realized that even if we don't have answers, it's still important for us to acknowledge those things and talk about them and be there for our patients in those conversations. Dr Smith: Well, Lauren, what a great way to end, and what a wonderful conversation, and what a great article. Congratulations and thank you. Dr Treat: Thank you, Gordon. It was a pleasure to be here. Dr Smith: Again today, I've been interviewing Dr Lauren Treat about her really great article on neuropalliative medicine in pediatric neurology practice. This article appears in the December 2025 Continuum issue on neuropalliative care. Be sure to check out Continuum Audio episodes from this issue and other issues. And thanks again to you, our listeners, for joining us today. Dr Monteith: This is Dr Teshamae Monteith, associate editor of Continuum Audio. If you've enjoyed this episode, you'll love the journal, which is full of in-depth and clinically relevant information important for neurology practitioners. Use the link in the episode notes to learn more and subscribe. AAN members, you can get CME for listening to this interview by completing the evaluation at continpub.com/audioCME. Thank you for listening to Continuum Audio.