Multiple Sclerosis

A blood test that measures elevations in neurofilament light chain (NfL) levels in patients with multiple sclerosis (MS) could warn of worsening disability up to 2 years before it occurs, a new study suggests.

Rising NfL levels are a known indicator of neuroaxonal injury and correlate with MS disease activity. Levels rise in the presence of an MS relapse or MRI activity and fall following treatment with disease-modifying therapies. But the link between NfL levels and worsening disability was less understood.

This new analysis of NfL in two large MS cohorts found that elevated levels of the neuronal protein at baseline were associated with large increases in future disability risk, even in patients with no clinical relapse.

“This rising of NfL up to 2 years before signs of disability worsening represents the window when interventions may prevent worsening,” lead investigator Ahmed Abdelhak, MD, department of neurology, University of California, San Francisco, said in a press release.

The findings were published online in JAMA Neurology.
 

Early warning system?

The study included data on 1,899 patients with nearly 13,000 patient visits from two observational, long-term, real-world cohorts: the U.S.-based Expression, Proteomics, Imaging, Clinical (EPIC) study (n = 609 patients), and the Swiss Multiple Sclerosis Cohort trial (SMSC; n = 1,290 patients).

Investigators analyzed longitudinal serum NfL measurements in conjunction with clinical disability worsening, defined as 6 months or more of increased impairment as measured by the Expanded Disability Status Scale.

Researchers also assessed the temporal association between NfL measurements and the risk of increased disability and distinguished between disability with and without relapse.

Worsening disability was reported in 227 patients in the EPIC group and 435 in the SMSC trial.

Elevated NfL at baseline was associated with a 70% higher risk for worsening disability with relapse about 11 months later in the SMSC study (hazard ratio, 1.70; P = .02). In the EPIC trial, there was trend toward a 91% higher risk for worsening disability with relapse at 12.6 months, although the findings did not meet statistical significance (HR, 1.91; P = .07).

The risk of future disability progression independent of clinical relapse was 40% higher in those with high NfL at baseline in the EPIC study 12 months after baseline (HR, 1.40; P = .02) and 49% higher in the SMSC trial 21 months later (HR, 1.49; P < .001).

The early elevation of NfL levels suggests a slower degradation of nerve cells and could be a possible early warning system of future progression of disability, allowing time for interventions that could slow or even halt further disability.

“Monitoring NfL levels might be able to detect disease activity with higher sensitivity than clinical exam or conventional imaging,” senior author Jens Kuhle, MD, PhD, leader of the Swiss cohort and head of the Multiple Sclerosis Center at University Hospital and University of Basel, said in a statement.
 

Challenges for clinicians

Commenting on the findings, Robert Fox, MD, staff neurologist at the Mellen Center for MS and vice chair for research, Neurological Institute, Cleveland Clinic, said that, while there is a clinical test to measure NfL levels, incorporating that test into standard of care isn’t straightforward.

“The challenge for the practicing clinician is to translate these population-level studies to individual patient management decisions,” said Dr. Fox, who was not a part of the study.

“The published prediction curves corrected for age, sex, disease course, disease-modifying treatment, relapse within the past 90 days, and current disability status, the combination of which makes it rather challenging to calculate and interpret adjusted z score NfL levels in routine practice and then use it in clinical decision-making.”

The investigators said the study underscores the importance of NfL as an MS biomarker and “points to the existence of different windows of dynamic central nervous system pathology” that precedes worsening disability with or without relapse. But there may be a simpler explanation, Dr. Fox suggested.

“We know MRI activity occurs 5-10 times more frequently than relapses, and we know that MRI activity is associated with both NfL increases and future disability progression,” Dr. Fox said. “It is quite likely that the elevations in NfL seen here are reflective of new MRI disease activity, which frequently is seen without symptoms of an MS relapse,” he said

The study was funded by the Westridge Foundation, F. Hoffmann–La Roche, the Fishman Family, the Swiss National Research Foundation, the National Institutes of Health/National Institute of Neurological Disorders and Stroke, and the Valhalla Foundation. Dr. Abdelhak reported receiving grants from the German Multiple Sclerosis Society and the Weill Institute for Neurosciences outside the submitted work. Dr. Kuhle has received grants from Swiss MS Society, the Swiss National Research Foundation, the Progressive MS Alliance, Biogen, Merck, Celgene, Bristol-Myers Squibb, Novartis, Octave Bioscience, Roche, Sanofi, Alnylam, Bayer, Immunic, Quanterix, Neurogenesis, Stata DX, and the University of Basel outside the submitted work. Dr. Fox reported receiving consulting fees from Siemens and Roche.

A version of this article appeared on Medscape.com.

A blood test that measures elevations in neurofilament light chain (NfL) levels in patients with multiple sclerosis (MS) could warn of worsening disability up to 2 years before it occurs, a new study suggests.

Rising NfL levels are a known indicator of neuroaxonal injury and correlate with MS disease activity. Levels rise in the presence of an MS relapse or MRI activity and fall following treatment with disease-modifying therapies. But the link between NfL levels and worsening disability was less understood.

This new analysis of NfL in two large MS cohorts found that elevated levels of the neuronal protein at baseline were associated with large increases in future disability risk, even in patients with no clinical relapse.

“This rising of NfL up to 2 years before signs of disability worsening represents the window when interventions may prevent worsening,” lead investigator Ahmed Abdelhak, MD, department of neurology, University of California, San Francisco, said in a press release.

The findings were published online in JAMA Neurology.
 

Early warning system?

The study included data on 1,899 patients with nearly 13,000 patient visits from two observational, long-term, real-world cohorts: the U.S.-based Expression, Proteomics, Imaging, Clinical (EPIC) study (n = 609 patients), and the Swiss Multiple Sclerosis Cohort trial (SMSC; n = 1,290 patients).

Investigators analyzed longitudinal serum NfL measurements in conjunction with clinical disability worsening, defined as 6 months or more of increased impairment as measured by the Expanded Disability Status Scale.

Researchers also assessed the temporal association between NfL measurements and the risk of increased disability and distinguished between disability with and without relapse.

Worsening disability was reported in 227 patients in the EPIC group and 435 in the SMSC trial.

Elevated NfL at baseline was associated with a 70% higher risk for worsening disability with relapse about 11 months later in the SMSC study (hazard ratio, 1.70; P = .02). In the EPIC trial, there was trend toward a 91% higher risk for worsening disability with relapse at 12.6 months, although the findings did not meet statistical significance (HR, 1.91; P = .07).

The risk of future disability progression independent of clinical relapse was 40% higher in those with high NfL at baseline in the EPIC study 12 months after baseline (HR, 1.40; P = .02) and 49% higher in the SMSC trial 21 months later (HR, 1.49; P < .001).

The early elevation of NfL levels suggests a slower degradation of nerve cells and could be a possible early warning system of future progression of disability, allowing time for interventions that could slow or even halt further disability.

“Monitoring NfL levels might be able to detect disease activity with higher sensitivity than clinical exam or conventional imaging,” senior author Jens Kuhle, MD, PhD, leader of the Swiss cohort and head of the Multiple Sclerosis Center at University Hospital and University of Basel, said in a statement.
 

Challenges for clinicians

Commenting on the findings, Robert Fox, MD, staff neurologist at the Mellen Center for MS and vice chair for research, Neurological Institute, Cleveland Clinic, said that, while there is a clinical test to measure NfL levels, incorporating that test into standard of care isn’t straightforward.

“The challenge for the practicing clinician is to translate these population-level studies to individual patient management decisions,” said Dr. Fox, who was not a part of the study.

“The published prediction curves corrected for age, sex, disease course, disease-modifying treatment, relapse within the past 90 days, and current disability status, the combination of which makes it rather challenging to calculate and interpret adjusted z score NfL levels in routine practice and then use it in clinical decision-making.”

The investigators said the study underscores the importance of NfL as an MS biomarker and “points to the existence of different windows of dynamic central nervous system pathology” that precedes worsening disability with or without relapse. But there may be a simpler explanation, Dr. Fox suggested.

“We know MRI activity occurs 5-10 times more frequently than relapses, and we know that MRI activity is associated with both NfL increases and future disability progression,” Dr. Fox said. “It is quite likely that the elevations in NfL seen here are reflective of new MRI disease activity, which frequently is seen without symptoms of an MS relapse,” he said

The study was funded by the Westridge Foundation, F. Hoffmann–La Roche, the Fishman Family, the Swiss National Research Foundation, the National Institutes of Health/National Institute of Neurological Disorders and Stroke, and the Valhalla Foundation. Dr. Abdelhak reported receiving grants from the German Multiple Sclerosis Society and the Weill Institute for Neurosciences outside the submitted work. Dr. Kuhle has received grants from Swiss MS Society, the Swiss National Research Foundation, the Progressive MS Alliance, Biogen, Merck, Celgene, Bristol-Myers Squibb, Novartis, Octave Bioscience, Roche, Sanofi, Alnylam, Bayer, Immunic, Quanterix, Neurogenesis, Stata DX, and the University of Basel outside the submitted work. Dr. Fox reported receiving consulting fees from Siemens and Roche.

A version of this article appeared on Medscape.com.

A blood test that measures elevations in neurofilament light chain (NfL) levels in patients with multiple sclerosis (MS) could warn of worsening disability up to 2 years before it occurs, a new study suggests.

Rising NfL levels are a known indicator of neuroaxonal injury and correlate with MS disease activity. Levels rise in the presence of an MS relapse or MRI activity and fall following treatment with disease-modifying therapies. But the link between NfL levels and worsening disability was less understood.

This new analysis of NfL in two large MS cohorts found that elevated levels of the neuronal protein at baseline were associated with large increases in future disability risk, even in patients with no clinical relapse.

“This rising of NfL up to 2 years before signs of disability worsening represents the window when interventions may prevent worsening,” lead investigator Ahmed Abdelhak, MD, department of neurology, University of California, San Francisco, said in a press release.

The findings were published online in JAMA Neurology.
 

Early warning system?

The study included data on 1,899 patients with nearly 13,000 patient visits from two observational, long-term, real-world cohorts: the U.S.-based Expression, Proteomics, Imaging, Clinical (EPIC) study (n = 609 patients), and the Swiss Multiple Sclerosis Cohort trial (SMSC; n = 1,290 patients).

Investigators analyzed longitudinal serum NfL measurements in conjunction with clinical disability worsening, defined as 6 months or more of increased impairment as measured by the Expanded Disability Status Scale.

Researchers also assessed the temporal association between NfL measurements and the risk of increased disability and distinguished between disability with and without relapse.

Worsening disability was reported in 227 patients in the EPIC group and 435 in the SMSC trial.

Elevated NfL at baseline was associated with a 70% higher risk for worsening disability with relapse about 11 months later in the SMSC study (hazard ratio, 1.70; P = .02). In the EPIC trial, there was trend toward a 91% higher risk for worsening disability with relapse at 12.6 months, although the findings did not meet statistical significance (HR, 1.91; P = .07).

The risk of future disability progression independent of clinical relapse was 40% higher in those with high NfL at baseline in the EPIC study 12 months after baseline (HR, 1.40; P = .02) and 49% higher in the SMSC trial 21 months later (HR, 1.49; P < .001).

The early elevation of NfL levels suggests a slower degradation of nerve cells and could be a possible early warning system of future progression of disability, allowing time for interventions that could slow or even halt further disability.

“Monitoring NfL levels might be able to detect disease activity with higher sensitivity than clinical exam or conventional imaging,” senior author Jens Kuhle, MD, PhD, leader of the Swiss cohort and head of the Multiple Sclerosis Center at University Hospital and University of Basel, said in a statement.
 

Challenges for clinicians

Commenting on the findings, Robert Fox, MD, staff neurologist at the Mellen Center for MS and vice chair for research, Neurological Institute, Cleveland Clinic, said that, while there is a clinical test to measure NfL levels, incorporating that test into standard of care isn’t straightforward.

“The challenge for the practicing clinician is to translate these population-level studies to individual patient management decisions,” said Dr. Fox, who was not a part of the study.

“The published prediction curves corrected for age, sex, disease course, disease-modifying treatment, relapse within the past 90 days, and current disability status, the combination of which makes it rather challenging to calculate and interpret adjusted z score NfL levels in routine practice and then use it in clinical decision-making.”

The investigators said the study underscores the importance of NfL as an MS biomarker and “points to the existence of different windows of dynamic central nervous system pathology” that precedes worsening disability with or without relapse. But there may be a simpler explanation, Dr. Fox suggested.

“We know MRI activity occurs 5-10 times more frequently than relapses, and we know that MRI activity is associated with both NfL increases and future disability progression,” Dr. Fox said. “It is quite likely that the elevations in NfL seen here are reflective of new MRI disease activity, which frequently is seen without symptoms of an MS relapse,” he said

The study was funded by the Westridge Foundation, F. Hoffmann–La Roche, the Fishman Family, the Swiss National Research Foundation, the National Institutes of Health/National Institute of Neurological Disorders and Stroke, and the Valhalla Foundation. Dr. Abdelhak reported receiving grants from the German Multiple Sclerosis Society and the Weill Institute for Neurosciences outside the submitted work. Dr. Kuhle has received grants from Swiss MS Society, the Swiss National Research Foundation, the Progressive MS Alliance, Biogen, Merck, Celgene, Bristol-Myers Squibb, Novartis, Octave Bioscience, Roche, Sanofi, Alnylam, Bayer, Immunic, Quanterix, Neurogenesis, Stata DX, and the University of Basel outside the submitted work. Dr. Fox reported receiving consulting fees from Siemens and Roche.

A version of this article appeared on Medscape.com.

PHOENIX – Artificial intelligence (AI) is poised to dramatically alter health care, and it presents opportunities for increased production and automation of some tasks. However, it is prone to error and ‘hallucinations’ despite an authoritative tone, so its conclusions must be verified.

Those were some of the messages from a talk by John Morren, MD, an associate professor of neurology at Case Western Reserve University, Cleveland, who spoke about AI at the 2023 annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine (AANEM).

He encouraged attendees to get involved in the conversation of AI, because it is here to stay and will have a big impact on health care. “If we’re not around the table making decisions, decisions will be made for us in our absence and won’t be in our favor,” said Dr. Morren.

He started out his talk by asking if anyone in the room had used AI. After about half raised their hands, he countered that nearly everyone likely had. Voice assistants like SIRI and Alexa, social media with curated feeds, online shopping tools that provide product suggestions, and content recommendations from streaming services like Netflix all rely on AI technology.

Within medicine, AI is already playing a role in various fields, including medical imaging, disease diagnosis, drug discovery and development, predictive analytics, personalized medicine, telemedicine, and health care management.

It also has potential to be used on the job. For example, ChatGPT can generate and refine conversations towards a specific length, format, style, and level of detail. Alternatives include Bing AI from Microsoft, Bard AI from Google, Writesonic, Copy.ai, SpinBot, HIX.AI, and Chatsonic.

Specific to medicine, Consensus is a search engine that uses AI to search for, summarize, and synthesize studies from peer-reviewed literature.
 

Trust, but verify

Dr. Morren presented some specific use cases, including patient education and responses to patient inquiries, as well as generating letters to insurance companies appealing denial of coverage claims. He also showed an example where he asked Bing AI to explain to a patient, at a sixth- to seventh-grade reading level, the red-flag symptoms of myasthenic crisis.

AI can generate summaries of clinical evidence of previous studies. Asked by this reporter how to trust the accuracies of the summaries if the user hasn’t thoroughly read the papers, he acknowledged the imperfection of AI. “I would say that if you’re going to make a decision that you would not have made normally based on the summary that it’s giving, if you can find the fact that you’re anchoring the decision on, go into the article yourself and make sure that it’s well vetted. The AI is just good to tap you on your shoulder and say, ‘hey, just consider this.’ That’s all it is. You should always trust, but verify. If the AI is forcing you to say something new that you would not say, maybe don’t do it – or at least research it to know that it’s the truth and then you elevate yourself and get yourself to the next level.”
 

Limitations

The need to verify can create its own burden, according to one attendee. “I often find I end up spending more time verifying [what ChatGPT has provided]. This seems to take more time than a traditional way of going to PubMed or UpToDate or any of the other human generated consensus way,” he said.

Dr. Morren replied that he wouldn’t recommend using ChatGPT to query medical literature. Instead he recommended Consensus, which only searches the peer-reviewed medical literature.

Another key limitation is that most AI programs are date limited: For example, ChatGPT doesn’t include information after September 2021, though this may change with paid subscriptions. He also starkly warned the audience to never enter sensitive information, including patient identifiers.

There are legal and ethical considerations to AI. Dr. Morren warned against overreliance on AI, as this could undermine compassion and lead to erosion of trust, which makes it important to disclose any use of AI-generated content.

Another attendee raised concerns that AI may be generating research content, including slides for presentations, abstracts, titles, or article text. Dr. Morren said that some organizations, such as the International Committee of Medical Journal Editors, have incorporated AI in their recommendations, stating that authors should disclose any contributions of AI to their publications. However, there is little that can be done to identify AI-generated content, leaving it up to the honor code.

Asked to make predictions about how AI will evolve in the clinic over the next 2-3 years, Dr. Morren suggested that it will likely be embedded in electronic medical records. He anticipated that it will save physicians time so that they can spend more time interacting directly with patients. He quoted Eric Topol, MD, professor of medicine at Scripps Research Translational Institute, La Jolla, Calif., as saying that AI could save 20% of a physician’s time, which could be spent with patients. Dr. Morren saw it differently. “I know where that 20% of time liberated is going to go. I’m going to see 20% more patients. I’m a realist,” he said, to audience laughter.

He also predicted that AI will be found in wearables and devices, allowing health care to expand into the patient’s home in real time. “A lot of what we’re wearing is going to be an extension of the doctor’s office,” he said.

For those hoping for more guidance, Dr. Morren noted that he is the chairman of the professional practice committee of AANEM, and the group will be putting out a position statement within the next couple of months. “It will be a little bit of a blueprint for the path going forward. There are specific things that need to be done. In research, for example, you have to ensure that datasets are diverse enough. To do that we need to have inter-institutional collaboration. We have to ensure patient privacy. Consent for this needs to be a little more explicit because this is a novel area. Those are things that need to be stipulated and ratified through a task force.”

Dr. Morren has no relevant financial disclosures.

PHOENIX – Artificial intelligence (AI) is poised to dramatically alter health care, and it presents opportunities for increased production and automation of some tasks. However, it is prone to error and ‘hallucinations’ despite an authoritative tone, so its conclusions must be verified.

Those were some of the messages from a talk by John Morren, MD, an associate professor of neurology at Case Western Reserve University, Cleveland, who spoke about AI at the 2023 annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine (AANEM).

He encouraged attendees to get involved in the conversation of AI, because it is here to stay and will have a big impact on health care. “If we’re not around the table making decisions, decisions will be made for us in our absence and won’t be in our favor,” said Dr. Morren.

He started out his talk by asking if anyone in the room had used AI. After about half raised their hands, he countered that nearly everyone likely had. Voice assistants like SIRI and Alexa, social media with curated feeds, online shopping tools that provide product suggestions, and content recommendations from streaming services like Netflix all rely on AI technology.

Within medicine, AI is already playing a role in various fields, including medical imaging, disease diagnosis, drug discovery and development, predictive analytics, personalized medicine, telemedicine, and health care management.

It also has potential to be used on the job. For example, ChatGPT can generate and refine conversations towards a specific length, format, style, and level of detail. Alternatives include Bing AI from Microsoft, Bard AI from Google, Writesonic, Copy.ai, SpinBot, HIX.AI, and Chatsonic.

Specific to medicine, Consensus is a search engine that uses AI to search for, summarize, and synthesize studies from peer-reviewed literature.
 

Trust, but verify

Dr. Morren presented some specific use cases, including patient education and responses to patient inquiries, as well as generating letters to insurance companies appealing denial of coverage claims. He also showed an example where he asked Bing AI to explain to a patient, at a sixth- to seventh-grade reading level, the red-flag symptoms of myasthenic crisis.

AI can generate summaries of clinical evidence of previous studies. Asked by this reporter how to trust the accuracies of the summaries if the user hasn’t thoroughly read the papers, he acknowledged the imperfection of AI. “I would say that if you’re going to make a decision that you would not have made normally based on the summary that it’s giving, if you can find the fact that you’re anchoring the decision on, go into the article yourself and make sure that it’s well vetted. The AI is just good to tap you on your shoulder and say, ‘hey, just consider this.’ That’s all it is. You should always trust, but verify. If the AI is forcing you to say something new that you would not say, maybe don’t do it – or at least research it to know that it’s the truth and then you elevate yourself and get yourself to the next level.”
 

Limitations

The need to verify can create its own burden, according to one attendee. “I often find I end up spending more time verifying [what ChatGPT has provided]. This seems to take more time than a traditional way of going to PubMed or UpToDate or any of the other human generated consensus way,” he said.

Dr. Morren replied that he wouldn’t recommend using ChatGPT to query medical literature. Instead he recommended Consensus, which only searches the peer-reviewed medical literature.

Another key limitation is that most AI programs are date limited: For example, ChatGPT doesn’t include information after September 2021, though this may change with paid subscriptions. He also starkly warned the audience to never enter sensitive information, including patient identifiers.

There are legal and ethical considerations to AI. Dr. Morren warned against overreliance on AI, as this could undermine compassion and lead to erosion of trust, which makes it important to disclose any use of AI-generated content.

Another attendee raised concerns that AI may be generating research content, including slides for presentations, abstracts, titles, or article text. Dr. Morren said that some organizations, such as the International Committee of Medical Journal Editors, have incorporated AI in their recommendations, stating that authors should disclose any contributions of AI to their publications. However, there is little that can be done to identify AI-generated content, leaving it up to the honor code.

Asked to make predictions about how AI will evolve in the clinic over the next 2-3 years, Dr. Morren suggested that it will likely be embedded in electronic medical records. He anticipated that it will save physicians time so that they can spend more time interacting directly with patients. He quoted Eric Topol, MD, professor of medicine at Scripps Research Translational Institute, La Jolla, Calif., as saying that AI could save 20% of a physician’s time, which could be spent with patients. Dr. Morren saw it differently. “I know where that 20% of time liberated is going to go. I’m going to see 20% more patients. I’m a realist,” he said, to audience laughter.

He also predicted that AI will be found in wearables and devices, allowing health care to expand into the patient’s home in real time. “A lot of what we’re wearing is going to be an extension of the doctor’s office,” he said.

For those hoping for more guidance, Dr. Morren noted that he is the chairman of the professional practice committee of AANEM, and the group will be putting out a position statement within the next couple of months. “It will be a little bit of a blueprint for the path going forward. There are specific things that need to be done. In research, for example, you have to ensure that datasets are diverse enough. To do that we need to have inter-institutional collaboration. We have to ensure patient privacy. Consent for this needs to be a little more explicit because this is a novel area. Those are things that need to be stipulated and ratified through a task force.”

Dr. Morren has no relevant financial disclosures.

PHOENIX – Artificial intelligence (AI) is poised to dramatically alter health care, and it presents opportunities for increased production and automation of some tasks. However, it is prone to error and ‘hallucinations’ despite an authoritative tone, so its conclusions must be verified.

Those were some of the messages from a talk by John Morren, MD, an associate professor of neurology at Case Western Reserve University, Cleveland, who spoke about AI at the 2023 annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine (AANEM).

He encouraged attendees to get involved in the conversation of AI, because it is here to stay and will have a big impact on health care. “If we’re not around the table making decisions, decisions will be made for us in our absence and won’t be in our favor,” said Dr. Morren.

He started out his talk by asking if anyone in the room had used AI. After about half raised their hands, he countered that nearly everyone likely had. Voice assistants like SIRI and Alexa, social media with curated feeds, online shopping tools that provide product suggestions, and content recommendations from streaming services like Netflix all rely on AI technology.

Within medicine, AI is already playing a role in various fields, including medical imaging, disease diagnosis, drug discovery and development, predictive analytics, personalized medicine, telemedicine, and health care management.

It also has potential to be used on the job. For example, ChatGPT can generate and refine conversations towards a specific length, format, style, and level of detail. Alternatives include Bing AI from Microsoft, Bard AI from Google, Writesonic, Copy.ai, SpinBot, HIX.AI, and Chatsonic.

Specific to medicine, Consensus is a search engine that uses AI to search for, summarize, and synthesize studies from peer-reviewed literature.
 

Trust, but verify

Dr. Morren presented some specific use cases, including patient education and responses to patient inquiries, as well as generating letters to insurance companies appealing denial of coverage claims. He also showed an example where he asked Bing AI to explain to a patient, at a sixth- to seventh-grade reading level, the red-flag symptoms of myasthenic crisis.

AI can generate summaries of clinical evidence of previous studies. Asked by this reporter how to trust the accuracies of the summaries if the user hasn’t thoroughly read the papers, he acknowledged the imperfection of AI. “I would say that if you’re going to make a decision that you would not have made normally based on the summary that it’s giving, if you can find the fact that you’re anchoring the decision on, go into the article yourself and make sure that it’s well vetted. The AI is just good to tap you on your shoulder and say, ‘hey, just consider this.’ That’s all it is. You should always trust, but verify. If the AI is forcing you to say something new that you would not say, maybe don’t do it – or at least research it to know that it’s the truth and then you elevate yourself and get yourself to the next level.”
 

Limitations

The need to verify can create its own burden, according to one attendee. “I often find I end up spending more time verifying [what ChatGPT has provided]. This seems to take more time than a traditional way of going to PubMed or UpToDate or any of the other human generated consensus way,” he said.

Dr. Morren replied that he wouldn’t recommend using ChatGPT to query medical literature. Instead he recommended Consensus, which only searches the peer-reviewed medical literature.

Another key limitation is that most AI programs are date limited: For example, ChatGPT doesn’t include information after September 2021, though this may change with paid subscriptions. He also starkly warned the audience to never enter sensitive information, including patient identifiers.

There are legal and ethical considerations to AI. Dr. Morren warned against overreliance on AI, as this could undermine compassion and lead to erosion of trust, which makes it important to disclose any use of AI-generated content.

Another attendee raised concerns that AI may be generating research content, including slides for presentations, abstracts, titles, or article text. Dr. Morren said that some organizations, such as the International Committee of Medical Journal Editors, have incorporated AI in their recommendations, stating that authors should disclose any contributions of AI to their publications. However, there is little that can be done to identify AI-generated content, leaving it up to the honor code.

Asked to make predictions about how AI will evolve in the clinic over the next 2-3 years, Dr. Morren suggested that it will likely be embedded in electronic medical records. He anticipated that it will save physicians time so that they can spend more time interacting directly with patients. He quoted Eric Topol, MD, professor of medicine at Scripps Research Translational Institute, La Jolla, Calif., as saying that AI could save 20% of a physician’s time, which could be spent with patients. Dr. Morren saw it differently. “I know where that 20% of time liberated is going to go. I’m going to see 20% more patients. I’m a realist,” he said, to audience laughter.

He also predicted that AI will be found in wearables and devices, allowing health care to expand into the patient’s home in real time. “A lot of what we’re wearing is going to be an extension of the doctor’s office,” he said.

For those hoping for more guidance, Dr. Morren noted that he is the chairman of the professional practice committee of AANEM, and the group will be putting out a position statement within the next couple of months. “It will be a little bit of a blueprint for the path going forward. There are specific things that need to be done. In research, for example, you have to ensure that datasets are diverse enough. To do that we need to have inter-institutional collaboration. We have to ensure patient privacy. Consent for this needs to be a little more explicit because this is a novel area. Those are things that need to be stipulated and ratified through a task force.”

Dr. Morren has no relevant financial disclosures.

MILAN – Subcutaneous administration of anti-CD20 monoclonal antibody therapy offers ongoing clinical efficacy in the management of patients with relapsing and primary progressive multiple sclerosis (MS), suggest results from two clinical trials.

For OCARINA II, more than 325 patients with MS were randomly assigned to either subcutaneous or intravenous treatment with the anti-CD20 monoclonal antibody ocrelizumab (Ocrevus).

After 24 weeks, the presence of lesions on imaging and the occurrence of clinical remissions were almost completely suppressed by both treatments albeit with a higher rate of mild to moderate injection reactions with subcutaneous administration.

The study “makes me feel pretty comfortable that regardless of where you’re delivering the therapy, IV or subcutaneously, it’s getting in there and doing the job that we want it to do,” said lead author Scott D. Newsome, DO, director, Stiff Person Syndrome Center, Johns Hopkins University, Baltimore.

The second study, OLIKOS, involved just over 100 patients with relapsing MS who had previously been treated with an anti-CD20 monoclonal antibody and were switched to subcutaneous therapy with another: ofatumumab (Arzerra).

Le H. Hua, MD, Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas, and colleagues report that the novel treatment maintained clinical efficacy in all patients, with no safety concerns and no changes in serum immunoglobulin levels.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Anti-CD20–naive

OCARINA II involved patients aged 18-65 years with relapsing or primary progressive MS who had never received ocrelizumab or any other anti-CD20 therapy and had an Expanded Disability Status Scale (EDSS) score of 0.0-6.5.

They were randomly assigned to subcutaneous or IV ocrelizumab as a first dose. At week 24, all patients were scheduled to receive subcutaneous ocrelizumab every 24 weeks up to week 96.

In all, 326 patients were randomly assigned to the two treatment arms. They had a mean age of approximately 40 years, and 59.3%-65.3% were women. The mean time since symptom onset was 6.8-7.7 years, and the mean EDSS score at baseline was 2.5-3.0. The majority (89.8%-89.0%) had relapsing MS.

The results showed that subcutaneous and IV administration led to similar exposure to ocrelizumab, and both resulted in rapid reduction in CD19+ B-cell counts.

By week 24, the mean number of lesions on MRI reduced to zero, resulting in “near-complete suppression” of disease activity, the team says, which was reflected in 99% of patients have no clinical evidence of relapse.

The overall adverse event rate was higher with subcutaneous vs. IV administration of ocrelizumab, at 73.7% vs. 45.8%, driven by both local and systemic injection reactions, which were mild to moderate in nature.

However, a similar proportion of patients in the subcutaneous and IV arms experienced serious adverse events, at 2.5% and 3.4%, respectively.

Crucially, the patients were “overwhelmingly positive” about the subcutaneous administration, Dr. Newsome said, and at his institution, “all the patients want to continue, if and when this gets approved.”

He said that, overall, he would like to have both routes available “because, coming down to patient preference, some prefer to have IV over subcutaneous in general, and that could be for a variety of reasons, so I would love to have as many different routes of administration as possible to offer.”
 

Efficacy maintained

The OLIKOS trial included patients aged 18-60 years with relapsing MS who had received at least two consecutive courses of anti-CD20 therapy with either ocrelizumab or rituximab and who had an EDSS score ≤ 5.5 and were neurologically stable.

After an initial loading regimen of subcutaneous ofatumumab on days 1, 7, and 14, the patients continued open-label subcutaneous ofatumumab once a month for 12 months, with assessments carried out at baseline and at 1, 6, and 12 months.

Of 142 patients assessed, 102 received treatment and were evaluated. Their mean age was 43.5 years, and 67.6% were women. The mean baseline EDSS score was 2.9, and the mean disease duration since diagnosis was 9.4 years.

The vast majority of patients (99.0%) had previously received ocrelizumab for an average duration of 26.7 months.

At this interim analysis, 100% of the 77 patients with follow-up MRI met the primary endpoint at month 6 of no change or a reduction in the number of lesions.

The team says there were “no new safety signals,” with 75.5% of patients experiencing a treatment-emergent adverse event, but only 1.0% having a serious adverse event. Injection site reactions occurred in 7.8%; 15.7% had a systemic injection reaction.

They also report that there were no changes in IgG and IgM concentrations between baseline and follow-up, which remained within normal reference ranges.
 

Reassuring results

“It’s exciting to see reassuring results from clinical studies of two high-efficacy therapies for multiple sclerosis, especially given their route of administration,” commented Julie Fiol, LMSW, BSN, RN, MSCN, associate vice president of Clinical Innovation and Strategy for the U.S. National MS Society.

“Subcutaneous injections allow people with multiple sclerosis more flexibility when selecting a therapy that matches their lifestyle and preferences,” she said in an interview.

“Adherence to therapy is critical in multiple sclerosis, and additional options for route of administration and site of care enhance the likelihood that someone with multiple sclerosis will find a medication that effectively manages their disease and fits into their lifestyle,” Dr. Fiol explained.

“Subcutaneous injections also have the potential to be more affordable as they could be administered at home or over a shorter duration than an infused medication,” she noted.

In terms of these two particular studies, she added, “it’s reassuring to see that the safety and efficacy of subcutaneous ocrelizumab was similar to intravenous. It was also reassuring to see those who switched from ocrelizumab and rituximab to ofatumumab remained clinically stable.”

OCARINA II was supported by F. Hoffmann-La Roche. OLIKOS was supported by Novartis. Dr. Newsome declares relationships with Biogen, Genentech, Bristol-Myers Squibb, EMD Serono, Greenwich Biosciences, Horizon Therapeutics, Novartis, Roche, and TG Therapeutics and institutional relationships with Biogen, Lundbeck, Roche, Genentech, National MS Society, The Stiff Person Syndrome Research Foundation, Department of Defense, and the Patient-Centered Outcomes Research Institute. Dr. Hua declares relationships with Alexion, Biogen, Bristol-Meyers Squibb, EMD Serono, Genentech, Genzyme, Greenwich Biosciences, Horizon Therapeutics, and Novartis. Other authors also declare relationships.

A version of this article first appeared on Medscape.com.

MILAN – Subcutaneous administration of anti-CD20 monoclonal antibody therapy offers ongoing clinical efficacy in the management of patients with relapsing and primary progressive multiple sclerosis (MS), suggest results from two clinical trials.

For OCARINA II, more than 325 patients with MS were randomly assigned to either subcutaneous or intravenous treatment with the anti-CD20 monoclonal antibody ocrelizumab (Ocrevus).

After 24 weeks, the presence of lesions on imaging and the occurrence of clinical remissions were almost completely suppressed by both treatments albeit with a higher rate of mild to moderate injection reactions with subcutaneous administration.

The study “makes me feel pretty comfortable that regardless of where you’re delivering the therapy, IV or subcutaneously, it’s getting in there and doing the job that we want it to do,” said lead author Scott D. Newsome, DO, director, Stiff Person Syndrome Center, Johns Hopkins University, Baltimore.

The second study, OLIKOS, involved just over 100 patients with relapsing MS who had previously been treated with an anti-CD20 monoclonal antibody and were switched to subcutaneous therapy with another: ofatumumab (Arzerra).

Le H. Hua, MD, Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas, and colleagues report that the novel treatment maintained clinical efficacy in all patients, with no safety concerns and no changes in serum immunoglobulin levels.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Anti-CD20–naive

OCARINA II involved patients aged 18-65 years with relapsing or primary progressive MS who had never received ocrelizumab or any other anti-CD20 therapy and had an Expanded Disability Status Scale (EDSS) score of 0.0-6.5.

They were randomly assigned to subcutaneous or IV ocrelizumab as a first dose. At week 24, all patients were scheduled to receive subcutaneous ocrelizumab every 24 weeks up to week 96.

In all, 326 patients were randomly assigned to the two treatment arms. They had a mean age of approximately 40 years, and 59.3%-65.3% were women. The mean time since symptom onset was 6.8-7.7 years, and the mean EDSS score at baseline was 2.5-3.0. The majority (89.8%-89.0%) had relapsing MS.

The results showed that subcutaneous and IV administration led to similar exposure to ocrelizumab, and both resulted in rapid reduction in CD19+ B-cell counts.

By week 24, the mean number of lesions on MRI reduced to zero, resulting in “near-complete suppression” of disease activity, the team says, which was reflected in 99% of patients have no clinical evidence of relapse.

The overall adverse event rate was higher with subcutaneous vs. IV administration of ocrelizumab, at 73.7% vs. 45.8%, driven by both local and systemic injection reactions, which were mild to moderate in nature.

However, a similar proportion of patients in the subcutaneous and IV arms experienced serious adverse events, at 2.5% and 3.4%, respectively.

Crucially, the patients were “overwhelmingly positive” about the subcutaneous administration, Dr. Newsome said, and at his institution, “all the patients want to continue, if and when this gets approved.”

He said that, overall, he would like to have both routes available “because, coming down to patient preference, some prefer to have IV over subcutaneous in general, and that could be for a variety of reasons, so I would love to have as many different routes of administration as possible to offer.”
 

Efficacy maintained

The OLIKOS trial included patients aged 18-60 years with relapsing MS who had received at least two consecutive courses of anti-CD20 therapy with either ocrelizumab or rituximab and who had an EDSS score ≤ 5.5 and were neurologically stable.

After an initial loading regimen of subcutaneous ofatumumab on days 1, 7, and 14, the patients continued open-label subcutaneous ofatumumab once a month for 12 months, with assessments carried out at baseline and at 1, 6, and 12 months.

Of 142 patients assessed, 102 received treatment and were evaluated. Their mean age was 43.5 years, and 67.6% were women. The mean baseline EDSS score was 2.9, and the mean disease duration since diagnosis was 9.4 years.

The vast majority of patients (99.0%) had previously received ocrelizumab for an average duration of 26.7 months.

At this interim analysis, 100% of the 77 patients with follow-up MRI met the primary endpoint at month 6 of no change or a reduction in the number of lesions.

The team says there were “no new safety signals,” with 75.5% of patients experiencing a treatment-emergent adverse event, but only 1.0% having a serious adverse event. Injection site reactions occurred in 7.8%; 15.7% had a systemic injection reaction.

They also report that there were no changes in IgG and IgM concentrations between baseline and follow-up, which remained within normal reference ranges.
 

Reassuring results

“It’s exciting to see reassuring results from clinical studies of two high-efficacy therapies for multiple sclerosis, especially given their route of administration,” commented Julie Fiol, LMSW, BSN, RN, MSCN, associate vice president of Clinical Innovation and Strategy for the U.S. National MS Society.

“Subcutaneous injections allow people with multiple sclerosis more flexibility when selecting a therapy that matches their lifestyle and preferences,” she said in an interview.

“Adherence to therapy is critical in multiple sclerosis, and additional options for route of administration and site of care enhance the likelihood that someone with multiple sclerosis will find a medication that effectively manages their disease and fits into their lifestyle,” Dr. Fiol explained.

“Subcutaneous injections also have the potential to be more affordable as they could be administered at home or over a shorter duration than an infused medication,” she noted.

In terms of these two particular studies, she added, “it’s reassuring to see that the safety and efficacy of subcutaneous ocrelizumab was similar to intravenous. It was also reassuring to see those who switched from ocrelizumab and rituximab to ofatumumab remained clinically stable.”

OCARINA II was supported by F. Hoffmann-La Roche. OLIKOS was supported by Novartis. Dr. Newsome declares relationships with Biogen, Genentech, Bristol-Myers Squibb, EMD Serono, Greenwich Biosciences, Horizon Therapeutics, Novartis, Roche, and TG Therapeutics and institutional relationships with Biogen, Lundbeck, Roche, Genentech, National MS Society, The Stiff Person Syndrome Research Foundation, Department of Defense, and the Patient-Centered Outcomes Research Institute. Dr. Hua declares relationships with Alexion, Biogen, Bristol-Meyers Squibb, EMD Serono, Genentech, Genzyme, Greenwich Biosciences, Horizon Therapeutics, and Novartis. Other authors also declare relationships.

A version of this article first appeared on Medscape.com.

MILAN – Subcutaneous administration of anti-CD20 monoclonal antibody therapy offers ongoing clinical efficacy in the management of patients with relapsing and primary progressive multiple sclerosis (MS), suggest results from two clinical trials.

For OCARINA II, more than 325 patients with MS were randomly assigned to either subcutaneous or intravenous treatment with the anti-CD20 monoclonal antibody ocrelizumab (Ocrevus).

After 24 weeks, the presence of lesions on imaging and the occurrence of clinical remissions were almost completely suppressed by both treatments albeit with a higher rate of mild to moderate injection reactions with subcutaneous administration.

The study “makes me feel pretty comfortable that regardless of where you’re delivering the therapy, IV or subcutaneously, it’s getting in there and doing the job that we want it to do,” said lead author Scott D. Newsome, DO, director, Stiff Person Syndrome Center, Johns Hopkins University, Baltimore.

The second study, OLIKOS, involved just over 100 patients with relapsing MS who had previously been treated with an anti-CD20 monoclonal antibody and were switched to subcutaneous therapy with another: ofatumumab (Arzerra).

Le H. Hua, MD, Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas, and colleagues report that the novel treatment maintained clinical efficacy in all patients, with no safety concerns and no changes in serum immunoglobulin levels.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Anti-CD20–naive

OCARINA II involved patients aged 18-65 years with relapsing or primary progressive MS who had never received ocrelizumab or any other anti-CD20 therapy and had an Expanded Disability Status Scale (EDSS) score of 0.0-6.5.

They were randomly assigned to subcutaneous or IV ocrelizumab as a first dose. At week 24, all patients were scheduled to receive subcutaneous ocrelizumab every 24 weeks up to week 96.

In all, 326 patients were randomly assigned to the two treatment arms. They had a mean age of approximately 40 years, and 59.3%-65.3% were women. The mean time since symptom onset was 6.8-7.7 years, and the mean EDSS score at baseline was 2.5-3.0. The majority (89.8%-89.0%) had relapsing MS.

The results showed that subcutaneous and IV administration led to similar exposure to ocrelizumab, and both resulted in rapid reduction in CD19+ B-cell counts.

By week 24, the mean number of lesions on MRI reduced to zero, resulting in “near-complete suppression” of disease activity, the team says, which was reflected in 99% of patients have no clinical evidence of relapse.

The overall adverse event rate was higher with subcutaneous vs. IV administration of ocrelizumab, at 73.7% vs. 45.8%, driven by both local and systemic injection reactions, which were mild to moderate in nature.

However, a similar proportion of patients in the subcutaneous and IV arms experienced serious adverse events, at 2.5% and 3.4%, respectively.

Crucially, the patients were “overwhelmingly positive” about the subcutaneous administration, Dr. Newsome said, and at his institution, “all the patients want to continue, if and when this gets approved.”

He said that, overall, he would like to have both routes available “because, coming down to patient preference, some prefer to have IV over subcutaneous in general, and that could be for a variety of reasons, so I would love to have as many different routes of administration as possible to offer.”
 

Efficacy maintained

The OLIKOS trial included patients aged 18-60 years with relapsing MS who had received at least two consecutive courses of anti-CD20 therapy with either ocrelizumab or rituximab and who had an EDSS score ≤ 5.5 and were neurologically stable.

After an initial loading regimen of subcutaneous ofatumumab on days 1, 7, and 14, the patients continued open-label subcutaneous ofatumumab once a month for 12 months, with assessments carried out at baseline and at 1, 6, and 12 months.

Of 142 patients assessed, 102 received treatment and were evaluated. Their mean age was 43.5 years, and 67.6% were women. The mean baseline EDSS score was 2.9, and the mean disease duration since diagnosis was 9.4 years.

The vast majority of patients (99.0%) had previously received ocrelizumab for an average duration of 26.7 months.

At this interim analysis, 100% of the 77 patients with follow-up MRI met the primary endpoint at month 6 of no change or a reduction in the number of lesions.

The team says there were “no new safety signals,” with 75.5% of patients experiencing a treatment-emergent adverse event, but only 1.0% having a serious adverse event. Injection site reactions occurred in 7.8%; 15.7% had a systemic injection reaction.

They also report that there were no changes in IgG and IgM concentrations between baseline and follow-up, which remained within normal reference ranges.
 

Reassuring results

“It’s exciting to see reassuring results from clinical studies of two high-efficacy therapies for multiple sclerosis, especially given their route of administration,” commented Julie Fiol, LMSW, BSN, RN, MSCN, associate vice president of Clinical Innovation and Strategy for the U.S. National MS Society.

“Subcutaneous injections allow people with multiple sclerosis more flexibility when selecting a therapy that matches their lifestyle and preferences,” she said in an interview.

“Adherence to therapy is critical in multiple sclerosis, and additional options for route of administration and site of care enhance the likelihood that someone with multiple sclerosis will find a medication that effectively manages their disease and fits into their lifestyle,” Dr. Fiol explained.

“Subcutaneous injections also have the potential to be more affordable as they could be administered at home or over a shorter duration than an infused medication,” she noted.

In terms of these two particular studies, she added, “it’s reassuring to see that the safety and efficacy of subcutaneous ocrelizumab was similar to intravenous. It was also reassuring to see those who switched from ocrelizumab and rituximab to ofatumumab remained clinically stable.”

OCARINA II was supported by F. Hoffmann-La Roche. OLIKOS was supported by Novartis. Dr. Newsome declares relationships with Biogen, Genentech, Bristol-Myers Squibb, EMD Serono, Greenwich Biosciences, Horizon Therapeutics, Novartis, Roche, and TG Therapeutics and institutional relationships with Biogen, Lundbeck, Roche, Genentech, National MS Society, The Stiff Person Syndrome Research Foundation, Department of Defense, and the Patient-Centered Outcomes Research Institute. Dr. Hua declares relationships with Alexion, Biogen, Bristol-Meyers Squibb, EMD Serono, Genentech, Genzyme, Greenwich Biosciences, Horizon Therapeutics, and Novartis. Other authors also declare relationships.

A version of this article first appeared on Medscape.com.

MILAN – A specially adapted frame to support individuals with walking and balance disabilities could help people with multiple sclerosis engage in moderate to vigorous physical activity and improve their physical function, a pilot study suggests.

“Frame running” uses a three-wheeled frame with a saddle and body supports but no pedals to allow individuals with disabilities and balance impairments to walk and run under their own power.

Eight individuals with multiple sclerosis and moderate to severe walking impairments took part in a 12-week frame running intervention, which improved both objective physical performance and patient-reported outcomes measures.

“Frame running presents a feasible and enjoyable exercise option for people with multiple sclerosis,” lead author Gary McEwan, PhD, research fellow at the Centre for Health, Activity and Rehabilitation Research at Queen Margaret University, Edinburgh, and colleagues conclude.

It may, they add, “have potential to improve measures of physical function and the ability to perform mobility-related daily activities.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS Meeting.
 

Dearth of exercise opportunities

The authors note regular physical activity and exercise are “amongst the most important adjunct therapies for managing the symptoms of multiple sclerosis,” and yet people with the disease are significantly less physically active than the general population.

This is particularly the case for individuals at the upper end of the disability spectrum, they continue, and may reflect the “relative dearth of exercise opportunities that are suitable for those with more severe mobility impairments.”

In recent years, frame running has emerged as a form of exercise that allows individuals with walking difficulties to engage in moderate to vigorous physical activity in a safe manner, but its feasibility in multiple sclerosis has not been investigated.

The researchers recruited people with multiple sclerosis who had moderate to severe walking impairments to take part in a 12-week frame running intervention, comprising a 1-hour session every week.

The 6-minute frame running test (6MFRT) and an adapted shuttle frame running test (SFRT) were used to assess physical function at baseline and after the intervention. Recruitment, retention, and attendance rates were recorded.

The participants also completed a series of patient-reported outcome measures, alongside the Canadian Occupational Performance Measure, to calculate self-perceived abilities in activities of daily living, and semistructured interviews to capture their experiences of the intervention.
 

The camaraderie of physical activity

With six females and two males enrolled in the study, the team reported that the recruitment rate was 47.1%, the retention rate was 75%, and attendance was 86.7%. No adverse events were reported, they note.

The results indicate there were improvements in performance on the physical measures, with small effect sizes on both the 6MFRT (d = 0.37) and the SFRT (d = 0.30).

There were also improvements on the Multiple Sclerosis Walking Scale (d = 0.27), the Fatigue Scale for Motor and Cognitive Functions (d = 0.20), and the Exercise Self-Efficacy Scale (d = 0.46), again with small effect sizes.

A medium effect size was seen for improvements on the Godin Leisure Time Exercise Questionnaire (d = 0.73), and 80% of the participants reported “changes in performance and in satisfaction with their activities of daily living,” the team says.

The qualitative data also suggested the patients found frame running to be “safe and enjoyable,” with key highlights being the “social aspect and camaraderie developed amongst participants.”
 

Mix of physical interventions

Approached for comment, Robert Motl, MD, professor of kinesiology and nutrition, College of Applied Health Sciences, University of Illinois at Chicago, said it “makes a lot of sense” that frame running can improve walking-related outcomes.

He told this news organization that, “for people who have balance-related problems, using their legs in that rhythmical way could really have some great benefits for walking.”

However, Dr. Motl said he is a “little more skeptical about the benefits for balance, because to improve balance you have to be doing something that challenges upright posture.”

With the frame, “I don’t think you’re having to regulate upright posture while you’re doing that intervention, because you have stability with three points and the ground,” he said. “So, I wonder a little bit about that as an outcome.”

Dr. Motl nevertheless underlined that walking can certainly improve physical activity, “and all the other things like vascular function, cardiovascular fitness,” and so on.

Consequently, frame running “could be part of the mix of things for people who are having a disability, particularly individuals who have some balance dysfunction and [for whom] ambulating might put them at risk of falling.”

The study was supported by a research grant from the Multiple Sclerosis Society UK. The study authors and Dr. Modl report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

MILAN – A specially adapted frame to support individuals with walking and balance disabilities could help people with multiple sclerosis engage in moderate to vigorous physical activity and improve their physical function, a pilot study suggests.

“Frame running” uses a three-wheeled frame with a saddle and body supports but no pedals to allow individuals with disabilities and balance impairments to walk and run under their own power.

Eight individuals with multiple sclerosis and moderate to severe walking impairments took part in a 12-week frame running intervention, which improved both objective physical performance and patient-reported outcomes measures.

“Frame running presents a feasible and enjoyable exercise option for people with multiple sclerosis,” lead author Gary McEwan, PhD, research fellow at the Centre for Health, Activity and Rehabilitation Research at Queen Margaret University, Edinburgh, and colleagues conclude.

It may, they add, “have potential to improve measures of physical function and the ability to perform mobility-related daily activities.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS Meeting.
 

Dearth of exercise opportunities

The authors note regular physical activity and exercise are “amongst the most important adjunct therapies for managing the symptoms of multiple sclerosis,” and yet people with the disease are significantly less physically active than the general population.

This is particularly the case for individuals at the upper end of the disability spectrum, they continue, and may reflect the “relative dearth of exercise opportunities that are suitable for those with more severe mobility impairments.”

In recent years, frame running has emerged as a form of exercise that allows individuals with walking difficulties to engage in moderate to vigorous physical activity in a safe manner, but its feasibility in multiple sclerosis has not been investigated.

The researchers recruited people with multiple sclerosis who had moderate to severe walking impairments to take part in a 12-week frame running intervention, comprising a 1-hour session every week.

The 6-minute frame running test (6MFRT) and an adapted shuttle frame running test (SFRT) were used to assess physical function at baseline and after the intervention. Recruitment, retention, and attendance rates were recorded.

The participants also completed a series of patient-reported outcome measures, alongside the Canadian Occupational Performance Measure, to calculate self-perceived abilities in activities of daily living, and semistructured interviews to capture their experiences of the intervention.
 

The camaraderie of physical activity

With six females and two males enrolled in the study, the team reported that the recruitment rate was 47.1%, the retention rate was 75%, and attendance was 86.7%. No adverse events were reported, they note.

The results indicate there were improvements in performance on the physical measures, with small effect sizes on both the 6MFRT (d = 0.37) and the SFRT (d = 0.30).

There were also improvements on the Multiple Sclerosis Walking Scale (d = 0.27), the Fatigue Scale for Motor and Cognitive Functions (d = 0.20), and the Exercise Self-Efficacy Scale (d = 0.46), again with small effect sizes.

A medium effect size was seen for improvements on the Godin Leisure Time Exercise Questionnaire (d = 0.73), and 80% of the participants reported “changes in performance and in satisfaction with their activities of daily living,” the team says.

The qualitative data also suggested the patients found frame running to be “safe and enjoyable,” with key highlights being the “social aspect and camaraderie developed amongst participants.”
 

Mix of physical interventions

Approached for comment, Robert Motl, MD, professor of kinesiology and nutrition, College of Applied Health Sciences, University of Illinois at Chicago, said it “makes a lot of sense” that frame running can improve walking-related outcomes.

He told this news organization that, “for people who have balance-related problems, using their legs in that rhythmical way could really have some great benefits for walking.”

However, Dr. Motl said he is a “little more skeptical about the benefits for balance, because to improve balance you have to be doing something that challenges upright posture.”

With the frame, “I don’t think you’re having to regulate upright posture while you’re doing that intervention, because you have stability with three points and the ground,” he said. “So, I wonder a little bit about that as an outcome.”

Dr. Motl nevertheless underlined that walking can certainly improve physical activity, “and all the other things like vascular function, cardiovascular fitness,” and so on.

Consequently, frame running “could be part of the mix of things for people who are having a disability, particularly individuals who have some balance dysfunction and [for whom] ambulating might put them at risk of falling.”

The study was supported by a research grant from the Multiple Sclerosis Society UK. The study authors and Dr. Modl report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

MILAN – A specially adapted frame to support individuals with walking and balance disabilities could help people with multiple sclerosis engage in moderate to vigorous physical activity and improve their physical function, a pilot study suggests.

“Frame running” uses a three-wheeled frame with a saddle and body supports but no pedals to allow individuals with disabilities and balance impairments to walk and run under their own power.

Eight individuals with multiple sclerosis and moderate to severe walking impairments took part in a 12-week frame running intervention, which improved both objective physical performance and patient-reported outcomes measures.

“Frame running presents a feasible and enjoyable exercise option for people with multiple sclerosis,” lead author Gary McEwan, PhD, research fellow at the Centre for Health, Activity and Rehabilitation Research at Queen Margaret University, Edinburgh, and colleagues conclude.

It may, they add, “have potential to improve measures of physical function and the ability to perform mobility-related daily activities.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS Meeting.
 

Dearth of exercise opportunities

The authors note regular physical activity and exercise are “amongst the most important adjunct therapies for managing the symptoms of multiple sclerosis,” and yet people with the disease are significantly less physically active than the general population.

This is particularly the case for individuals at the upper end of the disability spectrum, they continue, and may reflect the “relative dearth of exercise opportunities that are suitable for those with more severe mobility impairments.”

In recent years, frame running has emerged as a form of exercise that allows individuals with walking difficulties to engage in moderate to vigorous physical activity in a safe manner, but its feasibility in multiple sclerosis has not been investigated.

The researchers recruited people with multiple sclerosis who had moderate to severe walking impairments to take part in a 12-week frame running intervention, comprising a 1-hour session every week.

The 6-minute frame running test (6MFRT) and an adapted shuttle frame running test (SFRT) were used to assess physical function at baseline and after the intervention. Recruitment, retention, and attendance rates were recorded.

The participants also completed a series of patient-reported outcome measures, alongside the Canadian Occupational Performance Measure, to calculate self-perceived abilities in activities of daily living, and semistructured interviews to capture their experiences of the intervention.
 

The camaraderie of physical activity

With six females and two males enrolled in the study, the team reported that the recruitment rate was 47.1%, the retention rate was 75%, and attendance was 86.7%. No adverse events were reported, they note.

The results indicate there were improvements in performance on the physical measures, with small effect sizes on both the 6MFRT (d = 0.37) and the SFRT (d = 0.30).

There were also improvements on the Multiple Sclerosis Walking Scale (d = 0.27), the Fatigue Scale for Motor and Cognitive Functions (d = 0.20), and the Exercise Self-Efficacy Scale (d = 0.46), again with small effect sizes.

A medium effect size was seen for improvements on the Godin Leisure Time Exercise Questionnaire (d = 0.73), and 80% of the participants reported “changes in performance and in satisfaction with their activities of daily living,” the team says.

The qualitative data also suggested the patients found frame running to be “safe and enjoyable,” with key highlights being the “social aspect and camaraderie developed amongst participants.”
 

Mix of physical interventions

Approached for comment, Robert Motl, MD, professor of kinesiology and nutrition, College of Applied Health Sciences, University of Illinois at Chicago, said it “makes a lot of sense” that frame running can improve walking-related outcomes.

He told this news organization that, “for people who have balance-related problems, using their legs in that rhythmical way could really have some great benefits for walking.”

However, Dr. Motl said he is a “little more skeptical about the benefits for balance, because to improve balance you have to be doing something that challenges upright posture.”

With the frame, “I don’t think you’re having to regulate upright posture while you’re doing that intervention, because you have stability with three points and the ground,” he said. “So, I wonder a little bit about that as an outcome.”

Dr. Motl nevertheless underlined that walking can certainly improve physical activity, “and all the other things like vascular function, cardiovascular fitness,” and so on.

Consequently, frame running “could be part of the mix of things for people who are having a disability, particularly individuals who have some balance dysfunction and [for whom] ambulating might put them at risk of falling.”

The study was supported by a research grant from the Multiple Sclerosis Society UK. The study authors and Dr. Modl report no relevant financial relationships.

A version of this article first appeared on Medscape.com.

MILAN – The news about multiple sclerosis (MS) and child-bearing in women is largely good, a researcher told colleagues at the 9th Joint ECTRIMS-ACTRIMS Meeting. Evidence suggests that MS doesn’t disrupt fertility, pregnancy, birth, or lactation. However, there are still uncertainties about the timing of medical treatment for MS before, during, and after pregnancy.

Epidemiologist Emmanuelle Leray, PhD, of French School of Public Health in Rennes, urged neurologists to not be too eager to take women off medication – or too slow to put them back on it. “MS should not be undertreated due to a desire for pregnancy, as there are several options that are possible and compatible with pregnancy,” she said. As for after pregnancy, when women face a well-known high risk of MS rebound, “we can reasonably assume that women with active MS need to be advised to restart rapid, highly effective DMT [disease-modifying therapy] soon after delivery,” she said.

Women are more likely than men to develop MS, and they often do so during child-bearing years. Pregnancy among women with MS has become more common over the years: A 2018 Neurology study examined U.S. data from 2006 to 2014 and reported that the annual adjusted proportion of women with MS and pregnancy increased from 7.91% to 9.47%.

While it appears that women with MS get pregnant less often than the age-matched general population, that “doesn’t mean that fertility is impaired. It probably rather reflects the impact of an early diagnosis of MS on associated consequences regarding psychological and physical impact,” Dr. Leray said. “Regarding pregnancy outcomes, there is no evidence of an increased risk of prematurity or adverse neonatal outcomes. That’s why we can assume that multiple sclerosis will not impact the course of pregnancy and does not make a pregnancy at-risk.”

But some treatments may be harmful to the fetus, she said. Teriflunomide must be stopped before pregnancy. Natalizumab and fingolimod-siponimod raise the risk of rebound, and alternate drugs should be considered before pregnancy. However, anti–CD 20 drugs and cladribine “may be a relevant option because their use before pregnancy may provide effective disease control without exposing the fetus or the baby.”

Should women be on MS drugs at all during pregnancy, a period when MS typically wanes? “The recommendation is to discontinue disease-modifying therapy before conception,” Dr. Leray said. “However, we know now that some DMTs can be used safely during pregnancy, especially injectables.” Specifically, beta interferon and glatiramer acetate can be used safely during pregnancy, she said.

The biggest hurdle comes after pregnancy, when women face a high risk of MS rebound. The relapse rate has fallen in recent years from about 30% to 11%-14%, Dr. Leray said, possibly because of the rise of more effective treatment. But the risk, she said, is still significant.

What can clinicians do to avert relapse? According to Dr. Leray, research has failed to support several possible alternatives to DMTs – high-dose corticosteroids, intravenous immunoglobulin, and hormonal treatment. “There was no evidence of efficacy of any of these strategies, both in randomized clinical trials and in real-world studies.”

For now, it seems best to restart DMTs as soon as possible after delivery, Dr. Leray said. She urged colleagues to keep in mind that it takes about 3 months for DMTs to reach full efficacy – and research suggests the highest risk of relapse is during the first 3 months after delivery. “That has to be taken into account in the therapeutic strategy,” she said.

Dr. Leray reports consulting/lecture/travel grants from Biogen, Genzyme, MedDay, Merck, Novartis, and Roche.

MILAN – The news about multiple sclerosis (MS) and child-bearing in women is largely good, a researcher told colleagues at the 9th Joint ECTRIMS-ACTRIMS Meeting. Evidence suggests that MS doesn’t disrupt fertility, pregnancy, birth, or lactation. However, there are still uncertainties about the timing of medical treatment for MS before, during, and after pregnancy.

Epidemiologist Emmanuelle Leray, PhD, of French School of Public Health in Rennes, urged neurologists to not be too eager to take women off medication – or too slow to put them back on it. “MS should not be undertreated due to a desire for pregnancy, as there are several options that are possible and compatible with pregnancy,” she said. As for after pregnancy, when women face a well-known high risk of MS rebound, “we can reasonably assume that women with active MS need to be advised to restart rapid, highly effective DMT [disease-modifying therapy] soon after delivery,” she said.

Women are more likely than men to develop MS, and they often do so during child-bearing years. Pregnancy among women with MS has become more common over the years: A 2018 Neurology study examined U.S. data from 2006 to 2014 and reported that the annual adjusted proportion of women with MS and pregnancy increased from 7.91% to 9.47%.

While it appears that women with MS get pregnant less often than the age-matched general population, that “doesn’t mean that fertility is impaired. It probably rather reflects the impact of an early diagnosis of MS on associated consequences regarding psychological and physical impact,” Dr. Leray said. “Regarding pregnancy outcomes, there is no evidence of an increased risk of prematurity or adverse neonatal outcomes. That’s why we can assume that multiple sclerosis will not impact the course of pregnancy and does not make a pregnancy at-risk.”

But some treatments may be harmful to the fetus, she said. Teriflunomide must be stopped before pregnancy. Natalizumab and fingolimod-siponimod raise the risk of rebound, and alternate drugs should be considered before pregnancy. However, anti–CD 20 drugs and cladribine “may be a relevant option because their use before pregnancy may provide effective disease control without exposing the fetus or the baby.”

Should women be on MS drugs at all during pregnancy, a period when MS typically wanes? “The recommendation is to discontinue disease-modifying therapy before conception,” Dr. Leray said. “However, we know now that some DMTs can be used safely during pregnancy, especially injectables.” Specifically, beta interferon and glatiramer acetate can be used safely during pregnancy, she said.

The biggest hurdle comes after pregnancy, when women face a high risk of MS rebound. The relapse rate has fallen in recent years from about 30% to 11%-14%, Dr. Leray said, possibly because of the rise of more effective treatment. But the risk, she said, is still significant.

What can clinicians do to avert relapse? According to Dr. Leray, research has failed to support several possible alternatives to DMTs – high-dose corticosteroids, intravenous immunoglobulin, and hormonal treatment. “There was no evidence of efficacy of any of these strategies, both in randomized clinical trials and in real-world studies.”

For now, it seems best to restart DMTs as soon as possible after delivery, Dr. Leray said. She urged colleagues to keep in mind that it takes about 3 months for DMTs to reach full efficacy – and research suggests the highest risk of relapse is during the first 3 months after delivery. “That has to be taken into account in the therapeutic strategy,” she said.

Dr. Leray reports consulting/lecture/travel grants from Biogen, Genzyme, MedDay, Merck, Novartis, and Roche.

MILAN – The news about multiple sclerosis (MS) and child-bearing in women is largely good, a researcher told colleagues at the 9th Joint ECTRIMS-ACTRIMS Meeting. Evidence suggests that MS doesn’t disrupt fertility, pregnancy, birth, or lactation. However, there are still uncertainties about the timing of medical treatment for MS before, during, and after pregnancy.

Epidemiologist Emmanuelle Leray, PhD, of French School of Public Health in Rennes, urged neurologists to not be too eager to take women off medication – or too slow to put them back on it. “MS should not be undertreated due to a desire for pregnancy, as there are several options that are possible and compatible with pregnancy,” she said. As for after pregnancy, when women face a well-known high risk of MS rebound, “we can reasonably assume that women with active MS need to be advised to restart rapid, highly effective DMT [disease-modifying therapy] soon after delivery,” she said.

Women are more likely than men to develop MS, and they often do so during child-bearing years. Pregnancy among women with MS has become more common over the years: A 2018 Neurology study examined U.S. data from 2006 to 2014 and reported that the annual adjusted proportion of women with MS and pregnancy increased from 7.91% to 9.47%.

While it appears that women with MS get pregnant less often than the age-matched general population, that “doesn’t mean that fertility is impaired. It probably rather reflects the impact of an early diagnosis of MS on associated consequences regarding psychological and physical impact,” Dr. Leray said. “Regarding pregnancy outcomes, there is no evidence of an increased risk of prematurity or adverse neonatal outcomes. That’s why we can assume that multiple sclerosis will not impact the course of pregnancy and does not make a pregnancy at-risk.”

But some treatments may be harmful to the fetus, she said. Teriflunomide must be stopped before pregnancy. Natalizumab and fingolimod-siponimod raise the risk of rebound, and alternate drugs should be considered before pregnancy. However, anti–CD 20 drugs and cladribine “may be a relevant option because their use before pregnancy may provide effective disease control without exposing the fetus or the baby.”

Should women be on MS drugs at all during pregnancy, a period when MS typically wanes? “The recommendation is to discontinue disease-modifying therapy before conception,” Dr. Leray said. “However, we know now that some DMTs can be used safely during pregnancy, especially injectables.” Specifically, beta interferon and glatiramer acetate can be used safely during pregnancy, she said.

The biggest hurdle comes after pregnancy, when women face a high risk of MS rebound. The relapse rate has fallen in recent years from about 30% to 11%-14%, Dr. Leray said, possibly because of the rise of more effective treatment. But the risk, she said, is still significant.

What can clinicians do to avert relapse? According to Dr. Leray, research has failed to support several possible alternatives to DMTs – high-dose corticosteroids, intravenous immunoglobulin, and hormonal treatment. “There was no evidence of efficacy of any of these strategies, both in randomized clinical trials and in real-world studies.”

For now, it seems best to restart DMTs as soon as possible after delivery, Dr. Leray said. She urged colleagues to keep in mind that it takes about 3 months for DMTs to reach full efficacy – and research suggests the highest risk of relapse is during the first 3 months after delivery. “That has to be taken into account in the therapeutic strategy,” she said.

Dr. Leray reports consulting/lecture/travel grants from Biogen, Genzyme, MedDay, Merck, Novartis, and Roche.

MILAN – A tool kit combining a wearable device with automated algorithms allows for the passive monitoring of disease parameters in people with multiple sclerosis (MS) and may even be able to predict the course of the disease, suggests a pilot study.

Twenty patients were enrolled, only half of whom correctly completed all of the assessments and wore the included smartwatch regularly. Importantly, the data reported back for analysis was in line with expectations, and the patient feedback was positive.

The tool kit “seems feasible and usable to remotely monitor multiple domains of health status in people with multiple sclerosis,” conclude Ludovico Pedullà, PhD, Italian Multiple Sclerosis Foundation, Genoa, and colleagues.

Further analysis of the dataset, including the artificial intelligence and machine-learning algorithms, may allow the prediction of “relevant changes throughout the course of multiple sclerosis” and anticipate the need for therapeutic interventions.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Leveraging big data to improve outcomes

The authors note that the primary aim of the pan-European ALAMEDA project is to leverage “big data” through artificial intelligence and machine learning to provide “clinically actionable information” on patients with brain disorders that “complements medical recommendations” and thus improves treatment.

For the current pilot study, the researchers developed an integrated platform to collect patient-centered data from wearables and mobile devices using digital patient-reported outcomes (ePROs), with the aim of testing the resulting tool kit’s feasibility and usability in people with MS.

Dr. Pedullà said that they wanted to have “passive monitoring” of patients over the course of their daily lives and therefore searched for the best devices and the most relevant patient reported outcomes as well as used “innovative algorithms” to analyze the data to try to predict the disease course.

To reduce dropouts and increase adherence to the tool kit, they described the project to patients with MS and asked for their feedback to determine whether what they had designed was feasible from the patient perspective, Dr. Pedullà said.

This led to some changes in the way data were collected, and the team developed a social network channel so patients would be able to ask for support and stay engaged in the study.
 

Feasible with high levels of confidence

Twenty people with relapsing-remitting MS were enrolled, of whom 14 were women. The mean age was 37.8 years, and the mean disease duration was 9.1 years. The mean Expanded Disability Status Scale was 2.2.

The participants were asked to use the tool kit for 1 year, with half reaching the 6-month milestone. Participants correctly completed 53% of the scheduled ePROs and regularly wore the smartwatch without reporting discomfort.

The team reports that the data from the tool kit “are in line with those reported in the literature.”

It showed that participants took an average of 8,415 steps per day and completed 9.8 minutes of vigorous activity and 14.5 minutes of moderate activity daily. Daily sedentary minutes were 705.1.

Patients had a mean Perceived Deficit Questionnaire score of 25.2, a Beck Anxiety Inventory score of 17.3, a score on the 12-Item Multiple Sclerosis Walking Scale of 37.2, and an arm function on the Multiple Sclerosis Questionnaire of 47.4.

The mean Modified Fatigue Impact Scale score was 18.5, and the Pittsburgh Sleep Quality Index score was 25.2. The System Usability Scale revealed “high levels of confidence” with the tool kit, the team says, as well as “very high” intention of using it in the future.

Dr. Pedullà said that the researchers now want to evaluate the feasibility of the tool kit further by analyzing the adherence and usability data and targeting it to the patients who are most likely to use it.

They also want to determine not only whether the use of wearables in this way can predict relapse in multiple sclerosis but also disease progression, particularly as the current definitions are evolving.
 

Reducing daily step count

Approached for comment, Riley M. Bove, MD, MSc, Assistant Professor, UCSF Weill Institute for Neurosciences, San Francisco, said that the study is “very interesting and in line with what has been previously published.”

She pointed to a recent study that she co-authored, in which remote monitoring via a continuous step counter revealed that a decreasing average daily step count was associated with the worsening of standard ambulatory measures.

“There are nice benefits of an integrated platform” such as what was used in the current study, Dr. Bove noted, adding that it is “even better if it can also send the data to clinicians.”

The ALAMEDA project has received funding from the European Union’s Horizon 2020 research and innovation program. No relevant financial relationships declared.

A version of this article first appeared on Medscape.com.

MILAN – A tool kit combining a wearable device with automated algorithms allows for the passive monitoring of disease parameters in people with multiple sclerosis (MS) and may even be able to predict the course of the disease, suggests a pilot study.

Twenty patients were enrolled, only half of whom correctly completed all of the assessments and wore the included smartwatch regularly. Importantly, the data reported back for analysis was in line with expectations, and the patient feedback was positive.

The tool kit “seems feasible and usable to remotely monitor multiple domains of health status in people with multiple sclerosis,” conclude Ludovico Pedullà, PhD, Italian Multiple Sclerosis Foundation, Genoa, and colleagues.

Further analysis of the dataset, including the artificial intelligence and machine-learning algorithms, may allow the prediction of “relevant changes throughout the course of multiple sclerosis” and anticipate the need for therapeutic interventions.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Leveraging big data to improve outcomes

The authors note that the primary aim of the pan-European ALAMEDA project is to leverage “big data” through artificial intelligence and machine learning to provide “clinically actionable information” on patients with brain disorders that “complements medical recommendations” and thus improves treatment.

For the current pilot study, the researchers developed an integrated platform to collect patient-centered data from wearables and mobile devices using digital patient-reported outcomes (ePROs), with the aim of testing the resulting tool kit’s feasibility and usability in people with MS.

Dr. Pedullà said that they wanted to have “passive monitoring” of patients over the course of their daily lives and therefore searched for the best devices and the most relevant patient reported outcomes as well as used “innovative algorithms” to analyze the data to try to predict the disease course.

To reduce dropouts and increase adherence to the tool kit, they described the project to patients with MS and asked for their feedback to determine whether what they had designed was feasible from the patient perspective, Dr. Pedullà said.

This led to some changes in the way data were collected, and the team developed a social network channel so patients would be able to ask for support and stay engaged in the study.
 

Feasible with high levels of confidence

Twenty people with relapsing-remitting MS were enrolled, of whom 14 were women. The mean age was 37.8 years, and the mean disease duration was 9.1 years. The mean Expanded Disability Status Scale was 2.2.

The participants were asked to use the tool kit for 1 year, with half reaching the 6-month milestone. Participants correctly completed 53% of the scheduled ePROs and regularly wore the smartwatch without reporting discomfort.

The team reports that the data from the tool kit “are in line with those reported in the literature.”

It showed that participants took an average of 8,415 steps per day and completed 9.8 minutes of vigorous activity and 14.5 minutes of moderate activity daily. Daily sedentary minutes were 705.1.

Patients had a mean Perceived Deficit Questionnaire score of 25.2, a Beck Anxiety Inventory score of 17.3, a score on the 12-Item Multiple Sclerosis Walking Scale of 37.2, and an arm function on the Multiple Sclerosis Questionnaire of 47.4.

The mean Modified Fatigue Impact Scale score was 18.5, and the Pittsburgh Sleep Quality Index score was 25.2. The System Usability Scale revealed “high levels of confidence” with the tool kit, the team says, as well as “very high” intention of using it in the future.

Dr. Pedullà said that the researchers now want to evaluate the feasibility of the tool kit further by analyzing the adherence and usability data and targeting it to the patients who are most likely to use it.

They also want to determine not only whether the use of wearables in this way can predict relapse in multiple sclerosis but also disease progression, particularly as the current definitions are evolving.
 

Reducing daily step count

Approached for comment, Riley M. Bove, MD, MSc, Assistant Professor, UCSF Weill Institute for Neurosciences, San Francisco, said that the study is “very interesting and in line with what has been previously published.”

She pointed to a recent study that she co-authored, in which remote monitoring via a continuous step counter revealed that a decreasing average daily step count was associated with the worsening of standard ambulatory measures.

“There are nice benefits of an integrated platform” such as what was used in the current study, Dr. Bove noted, adding that it is “even better if it can also send the data to clinicians.”

The ALAMEDA project has received funding from the European Union’s Horizon 2020 research and innovation program. No relevant financial relationships declared.

A version of this article first appeared on Medscape.com.

MILAN – A tool kit combining a wearable device with automated algorithms allows for the passive monitoring of disease parameters in people with multiple sclerosis (MS) and may even be able to predict the course of the disease, suggests a pilot study.

Twenty patients were enrolled, only half of whom correctly completed all of the assessments and wore the included smartwatch regularly. Importantly, the data reported back for analysis was in line with expectations, and the patient feedback was positive.

The tool kit “seems feasible and usable to remotely monitor multiple domains of health status in people with multiple sclerosis,” conclude Ludovico Pedullà, PhD, Italian Multiple Sclerosis Foundation, Genoa, and colleagues.

Further analysis of the dataset, including the artificial intelligence and machine-learning algorithms, may allow the prediction of “relevant changes throughout the course of multiple sclerosis” and anticipate the need for therapeutic interventions.

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Leveraging big data to improve outcomes

The authors note that the primary aim of the pan-European ALAMEDA project is to leverage “big data” through artificial intelligence and machine learning to provide “clinically actionable information” on patients with brain disorders that “complements medical recommendations” and thus improves treatment.

For the current pilot study, the researchers developed an integrated platform to collect patient-centered data from wearables and mobile devices using digital patient-reported outcomes (ePROs), with the aim of testing the resulting tool kit’s feasibility and usability in people with MS.

Dr. Pedullà said that they wanted to have “passive monitoring” of patients over the course of their daily lives and therefore searched for the best devices and the most relevant patient reported outcomes as well as used “innovative algorithms” to analyze the data to try to predict the disease course.

To reduce dropouts and increase adherence to the tool kit, they described the project to patients with MS and asked for their feedback to determine whether what they had designed was feasible from the patient perspective, Dr. Pedullà said.

This led to some changes in the way data were collected, and the team developed a social network channel so patients would be able to ask for support and stay engaged in the study.
 

Feasible with high levels of confidence

Twenty people with relapsing-remitting MS were enrolled, of whom 14 were women. The mean age was 37.8 years, and the mean disease duration was 9.1 years. The mean Expanded Disability Status Scale was 2.2.

The participants were asked to use the tool kit for 1 year, with half reaching the 6-month milestone. Participants correctly completed 53% of the scheduled ePROs and regularly wore the smartwatch without reporting discomfort.

The team reports that the data from the tool kit “are in line with those reported in the literature.”

It showed that participants took an average of 8,415 steps per day and completed 9.8 minutes of vigorous activity and 14.5 minutes of moderate activity daily. Daily sedentary minutes were 705.1.

Patients had a mean Perceived Deficit Questionnaire score of 25.2, a Beck Anxiety Inventory score of 17.3, a score on the 12-Item Multiple Sclerosis Walking Scale of 37.2, and an arm function on the Multiple Sclerosis Questionnaire of 47.4.

The mean Modified Fatigue Impact Scale score was 18.5, and the Pittsburgh Sleep Quality Index score was 25.2. The System Usability Scale revealed “high levels of confidence” with the tool kit, the team says, as well as “very high” intention of using it in the future.

Dr. Pedullà said that the researchers now want to evaluate the feasibility of the tool kit further by analyzing the adherence and usability data and targeting it to the patients who are most likely to use it.

They also want to determine not only whether the use of wearables in this way can predict relapse in multiple sclerosis but also disease progression, particularly as the current definitions are evolving.
 

Reducing daily step count

Approached for comment, Riley M. Bove, MD, MSc, Assistant Professor, UCSF Weill Institute for Neurosciences, San Francisco, said that the study is “very interesting and in line with what has been previously published.”

She pointed to a recent study that she co-authored, in which remote monitoring via a continuous step counter revealed that a decreasing average daily step count was associated with the worsening of standard ambulatory measures.

“There are nice benefits of an integrated platform” such as what was used in the current study, Dr. Bove noted, adding that it is “even better if it can also send the data to clinicians.”

The ALAMEDA project has received funding from the European Union’s Horizon 2020 research and innovation program. No relevant financial relationships declared.

A version of this article first appeared on Medscape.com.

MILAN – An analysis of medical records of patients diagnosed with neuromyelitis optica spectrum disorder (NMO) found that many may be misdiagnosed: 47% had diagnoses listed for both NMO and multiple sclerosis (MS), a similar disease that requires different treatment, according to a poster presented at the 9th Joint ECTRIMS-ACTRIMS meeting.

“There is a lack of education in differentiating between MS and NMO even in the medical community, which may result in a high misdiagnosis rate,” said study lead author Ka-Ho Wong, MBA, of the University of Utah, Salt Lake City, in an interview.

“NMO was recognized in the late 1800s and was historically thought to be a variant of MS until 1999,” said Michael Levy, MD, PhD, of Harvard Medical School and Massachusetts General Hospital, both in Boston, in an interview.

“They are both relapsing inflammatory disorders of the central nervous system with similarities in symptoms of weakness, numbness, mobility problem, vision defects, pain and fatigue,” said Dr. Levy, who did not take part in the new study. “A blood test for NMO was developed in 2004 and improved over time to the point that it can now reliably distinguish NMO from MS.”

As for therapy, “recent research has confirmed the two conditions are immunologically different and respond to different treatment,” Dr. Levy said. “The treatments developed for MS, especially from the 1990s, are harmful in NMO so it is important to make the diagnosis correctly.”

He added that “we do not recognize overlap between NMO or MS – it’s one or the other.”

Exploring the reasons for misdiagnosis

Mr. Wong, the present study’s lead author, said he and a research team launched the new study to better understand who gets misdiagnosed. “We know that almost 50% of the individuals get misdiagnosed at some point. However, what we don’t know yet is if the influencing factors are social determinants of health or if there are other causes.”

For the study, Mr. Wong and colleagues analyzed data from TriNetX, a health research network with access to medical records from 61 U.S. health care organizations. providing access to electronic medical records that includes sixty-one health care organizations (HCOs) in the United States.

ICD-10 coding statistics from 2008 to 2022 identified 7,657 patients with diagnoses for NMO. Of those, 4,040 (53%) only had diagnoses for NMO, and the rest (3,617, 47%) had diagnoses for both NMO and MS.

The researchers focused on 1,265 patients who had been coded for both diagnoses and had at least three clinical visits. They determined that a patient was misdiagnosed when they had three consecutive diagnoses of the same type. “For example, if they had MS but got misdiagnosed as NMO, once they are confirmed as MS they must have three or more consecutive diagnosis of MS to be considered as misdiagnosed,” Mr. Wong said.

Of the 1,265 subjects, the researchers determined that 308 (24%) had NMO but had been misdiagnosed as having MS, 189 (15%) had MS but were misdiagnosed as having NMO, and 768 (61%) were interchangeably diagnosed with the two conditions over time.

Among these three groups, 70.8%, 73.1%, and 78.4% were female, respectively; and 59.4%, 52.9%, and 53.0% were White, respectively. The percentages of Black patients were 17.2%, 24.3%, and 28.9%, respectively. Information about statistical significance was not provided in the poster.

Dr. Levy said he would “expect most NMO patients to initially be diagnosed with MS. It’s unusual to start with a diagnosis of NMO and then figure out it’s MS.”

As for the larger number of people with interchangeable diagnoses, Dr. Levy said that likely “reflects the messiness of billing codes.” For his part, Mr. Wong said there could be multiple causes for the interchangeable diagnoses: lack of disease knowledge, miscoding, lack of Food and Drug Administration–approved treatment for NMO at the time, and potentially other factors.

What does it all mean?

As for the study’s significance, Mr. Wong said a full workup should be performed before diagnosis, “and a neurologist should never prescribe disease-modifying therapies prior to a confirmation of diagnosis.”

Indeed, some disease-modifying therapies for MS are inappropriate for patients with NMO, Dr. Levy said. “The older medications, including beta-interferons, are among the most harmful to NMO patients. But they are not commonly used as first line for MS as they used to be. In contrast, B cell–depleting medications like ocrelizumab may be helpful in NMO.” 

In regards to diagnosis, Dr. Levy noted that the NMO aquaporin-4 (AQP4) antibody test is “extremely specific and reliable.”

“A positive test result in the context of a clinical presentation of central nervous system inflammation allows for the diagnosis of NMO,” he said. “A negative test result is more complicated and may require some expertise to sort out after a careful review of the history, neurological exam, MRI features, central nervous system testing and other blood test results.”

The study was funded by the Sumaira Foundation. The authors did not provide information about relevant disclosures. Dr. Levy reports personal compensation for advisory board activities from Roche, Genentech, Chugai, Horizon, Alexion and Mitsubishi and grant support from Genentech, Horizon, Alexion, Sanofi, and UCB.

MILAN – An analysis of medical records of patients diagnosed with neuromyelitis optica spectrum disorder (NMO) found that many may be misdiagnosed: 47% had diagnoses listed for both NMO and multiple sclerosis (MS), a similar disease that requires different treatment, according to a poster presented at the 9th Joint ECTRIMS-ACTRIMS meeting.

“There is a lack of education in differentiating between MS and NMO even in the medical community, which may result in a high misdiagnosis rate,” said study lead author Ka-Ho Wong, MBA, of the University of Utah, Salt Lake City, in an interview.

“NMO was recognized in the late 1800s and was historically thought to be a variant of MS until 1999,” said Michael Levy, MD, PhD, of Harvard Medical School and Massachusetts General Hospital, both in Boston, in an interview.

“They are both relapsing inflammatory disorders of the central nervous system with similarities in symptoms of weakness, numbness, mobility problem, vision defects, pain and fatigue,” said Dr. Levy, who did not take part in the new study. “A blood test for NMO was developed in 2004 and improved over time to the point that it can now reliably distinguish NMO from MS.”

As for therapy, “recent research has confirmed the two conditions are immunologically different and respond to different treatment,” Dr. Levy said. “The treatments developed for MS, especially from the 1990s, are harmful in NMO so it is important to make the diagnosis correctly.”

He added that “we do not recognize overlap between NMO or MS – it’s one or the other.”

Exploring the reasons for misdiagnosis

Mr. Wong, the present study’s lead author, said he and a research team launched the new study to better understand who gets misdiagnosed. “We know that almost 50% of the individuals get misdiagnosed at some point. However, what we don’t know yet is if the influencing factors are social determinants of health or if there are other causes.”

For the study, Mr. Wong and colleagues analyzed data from TriNetX, a health research network with access to medical records from 61 U.S. health care organizations. providing access to electronic medical records that includes sixty-one health care organizations (HCOs) in the United States.

ICD-10 coding statistics from 2008 to 2022 identified 7,657 patients with diagnoses for NMO. Of those, 4,040 (53%) only had diagnoses for NMO, and the rest (3,617, 47%) had diagnoses for both NMO and MS.

The researchers focused on 1,265 patients who had been coded for both diagnoses and had at least three clinical visits. They determined that a patient was misdiagnosed when they had three consecutive diagnoses of the same type. “For example, if they had MS but got misdiagnosed as NMO, once they are confirmed as MS they must have three or more consecutive diagnosis of MS to be considered as misdiagnosed,” Mr. Wong said.

Of the 1,265 subjects, the researchers determined that 308 (24%) had NMO but had been misdiagnosed as having MS, 189 (15%) had MS but were misdiagnosed as having NMO, and 768 (61%) were interchangeably diagnosed with the two conditions over time.

Among these three groups, 70.8%, 73.1%, and 78.4% were female, respectively; and 59.4%, 52.9%, and 53.0% were White, respectively. The percentages of Black patients were 17.2%, 24.3%, and 28.9%, respectively. Information about statistical significance was not provided in the poster.

Dr. Levy said he would “expect most NMO patients to initially be diagnosed with MS. It’s unusual to start with a diagnosis of NMO and then figure out it’s MS.”

As for the larger number of people with interchangeable diagnoses, Dr. Levy said that likely “reflects the messiness of billing codes.” For his part, Mr. Wong said there could be multiple causes for the interchangeable diagnoses: lack of disease knowledge, miscoding, lack of Food and Drug Administration–approved treatment for NMO at the time, and potentially other factors.

What does it all mean?

As for the study’s significance, Mr. Wong said a full workup should be performed before diagnosis, “and a neurologist should never prescribe disease-modifying therapies prior to a confirmation of diagnosis.”

Indeed, some disease-modifying therapies for MS are inappropriate for patients with NMO, Dr. Levy said. “The older medications, including beta-interferons, are among the most harmful to NMO patients. But they are not commonly used as first line for MS as they used to be. In contrast, B cell–depleting medications like ocrelizumab may be helpful in NMO.” 

In regards to diagnosis, Dr. Levy noted that the NMO aquaporin-4 (AQP4) antibody test is “extremely specific and reliable.”

“A positive test result in the context of a clinical presentation of central nervous system inflammation allows for the diagnosis of NMO,” he said. “A negative test result is more complicated and may require some expertise to sort out after a careful review of the history, neurological exam, MRI features, central nervous system testing and other blood test results.”

The study was funded by the Sumaira Foundation. The authors did not provide information about relevant disclosures. Dr. Levy reports personal compensation for advisory board activities from Roche, Genentech, Chugai, Horizon, Alexion and Mitsubishi and grant support from Genentech, Horizon, Alexion, Sanofi, and UCB.

MILAN – An analysis of medical records of patients diagnosed with neuromyelitis optica spectrum disorder (NMO) found that many may be misdiagnosed: 47% had diagnoses listed for both NMO and multiple sclerosis (MS), a similar disease that requires different treatment, according to a poster presented at the 9th Joint ECTRIMS-ACTRIMS meeting.

“There is a lack of education in differentiating between MS and NMO even in the medical community, which may result in a high misdiagnosis rate,” said study lead author Ka-Ho Wong, MBA, of the University of Utah, Salt Lake City, in an interview.

“NMO was recognized in the late 1800s and was historically thought to be a variant of MS until 1999,” said Michael Levy, MD, PhD, of Harvard Medical School and Massachusetts General Hospital, both in Boston, in an interview.

“They are both relapsing inflammatory disorders of the central nervous system with similarities in symptoms of weakness, numbness, mobility problem, vision defects, pain and fatigue,” said Dr. Levy, who did not take part in the new study. “A blood test for NMO was developed in 2004 and improved over time to the point that it can now reliably distinguish NMO from MS.”

As for therapy, “recent research has confirmed the two conditions are immunologically different and respond to different treatment,” Dr. Levy said. “The treatments developed for MS, especially from the 1990s, are harmful in NMO so it is important to make the diagnosis correctly.”

He added that “we do not recognize overlap between NMO or MS – it’s one or the other.”

Exploring the reasons for misdiagnosis

Mr. Wong, the present study’s lead author, said he and a research team launched the new study to better understand who gets misdiagnosed. “We know that almost 50% of the individuals get misdiagnosed at some point. However, what we don’t know yet is if the influencing factors are social determinants of health or if there are other causes.”

For the study, Mr. Wong and colleagues analyzed data from TriNetX, a health research network with access to medical records from 61 U.S. health care organizations. providing access to electronic medical records that includes sixty-one health care organizations (HCOs) in the United States.

ICD-10 coding statistics from 2008 to 2022 identified 7,657 patients with diagnoses for NMO. Of those, 4,040 (53%) only had diagnoses for NMO, and the rest (3,617, 47%) had diagnoses for both NMO and MS.

The researchers focused on 1,265 patients who had been coded for both diagnoses and had at least three clinical visits. They determined that a patient was misdiagnosed when they had three consecutive diagnoses of the same type. “For example, if they had MS but got misdiagnosed as NMO, once they are confirmed as MS they must have three or more consecutive diagnosis of MS to be considered as misdiagnosed,” Mr. Wong said.

Of the 1,265 subjects, the researchers determined that 308 (24%) had NMO but had been misdiagnosed as having MS, 189 (15%) had MS but were misdiagnosed as having NMO, and 768 (61%) were interchangeably diagnosed with the two conditions over time.

Among these three groups, 70.8%, 73.1%, and 78.4% were female, respectively; and 59.4%, 52.9%, and 53.0% were White, respectively. The percentages of Black patients were 17.2%, 24.3%, and 28.9%, respectively. Information about statistical significance was not provided in the poster.

Dr. Levy said he would “expect most NMO patients to initially be diagnosed with MS. It’s unusual to start with a diagnosis of NMO and then figure out it’s MS.”

As for the larger number of people with interchangeable diagnoses, Dr. Levy said that likely “reflects the messiness of billing codes.” For his part, Mr. Wong said there could be multiple causes for the interchangeable diagnoses: lack of disease knowledge, miscoding, lack of Food and Drug Administration–approved treatment for NMO at the time, and potentially other factors.

What does it all mean?

As for the study’s significance, Mr. Wong said a full workup should be performed before diagnosis, “and a neurologist should never prescribe disease-modifying therapies prior to a confirmation of diagnosis.”

Indeed, some disease-modifying therapies for MS are inappropriate for patients with NMO, Dr. Levy said. “The older medications, including beta-interferons, are among the most harmful to NMO patients. But they are not commonly used as first line for MS as they used to be. In contrast, B cell–depleting medications like ocrelizumab may be helpful in NMO.” 

In regards to diagnosis, Dr. Levy noted that the NMO aquaporin-4 (AQP4) antibody test is “extremely specific and reliable.”

“A positive test result in the context of a clinical presentation of central nervous system inflammation allows for the diagnosis of NMO,” he said. “A negative test result is more complicated and may require some expertise to sort out after a careful review of the history, neurological exam, MRI features, central nervous system testing and other blood test results.”

The study was funded by the Sumaira Foundation. The authors did not provide information about relevant disclosures. Dr. Levy reports personal compensation for advisory board activities from Roche, Genentech, Chugai, Horizon, Alexion and Mitsubishi and grant support from Genentech, Horizon, Alexion, Sanofi, and UCB.

MILAN – Two physicians agreed that there’s no doubt that Epstein-Barr virus (EBV) is deeply linked to multiple sclerosis (MS), but they diverged over the extent of its role in a joint presentation at the 9th Joint ECTRIMS-ACTRIMS meeting.

Armed with the findings of his own landmark 2022 study into EBV and MS, Harvard Medical School, Boston, professor of medicine Alberto Ascherio, MD, DrPH, argued that they’re tightly connected. But rheumatologist William H. Robinson, MD, PhD, of Stanford (Calif.) University, said that while he also believes EBV plays a significant role in MS, “there’s likely a role for a second hit” – some other factor. “Why are 95% of us EBV-infected, but only a small subset ultimately develop MS or ... other autoimmune diseases?”

As a 2023 review noted, researchers have puzzled over the connection between EBV and MS since the early 1980s. “Until that point, EBV was primarily viewed as a cancer-causing agent, but the culmination of evidence now shows that EBV has a pivotal role in development of MS.” But it’s not clear how EBV – which strikes more than an estimated 95% of humans and causes mononucleosis – manages to trigger MS.
 

A rare complication of EBV infection

In the 2022 study, Dr. Ascherio aimed to understand exactly how deeply EBV and MS are connected by analyzing serum data gathered from more than 10 million active-duty members of the U.S. military. Of those, 955 were diagnosed with MS.

The researchers focused on 801 subjects with MS and matched them to 1,566 controls. Only 1 of the 801 subjects with MS had a negative EBV test prior to diagnosis, a fact that researchers believe could be due to a factor such as a failure to seroconvert during infection. “At baseline, 35 MS cases and 107 controls were EBV-negative,” the study reported. “All but one of these 35 EBV-negative MS cases became infected with EBV during the follow-up.”

Overall, subjects who were positive for EBV were 32.4 times to develop MS than those who weren’t (95% confidence interval, 4.3-245.3; P < 0.001).

Is it possible that immune dysregulation from MS precedes EBV infection? The researchers analyzed viruses in 30 subjects with MS – before and after MS onset – and in 30 controls. The findings suggested that EBV was the major player, Dr. Ascherio said.

Researchers also focused on cytomegalovirus (CMV) infection, which is closely related to EBV and to the chicken pox virus. “CMV seroconversion is not associated with MS, and positivity for CMV at baseline was associated with a modestly lower risk of MS,” Dr. Ascherio said.

In the big picture, “this data establishes beyond reasonable doubt that MS is a rare complication of EBV infection,” Dr. Ascherio said. “The main question now is whether the virus triggers an immune process that then is self-maintained, or whether the presence of the infection keeps feeding the immune process.”
 

Inadequate evidence for causation

In his presentation, Dr. Robinson asked: “Does EBV cause MS? Really? All of MS? In humans [with MS], yes, we found monoclonal antibodies expressed by the B cells that bound to EBV. But we also found spinal fluid B cells and coding antibodies that bound to multiple other viruses, including rubella, VZV [varicella-zoster virus/chickenpox], CMV, and HSV [herpes simplex virus]. And there’s even a measles reactive antibody there.”

And there’s evidence that human herpes virus type 6 (HHV-6) and HHV-6A could be linked to MS: “Maybe HHV-6 or HHV-6A is the cause of MS in a subset of patients,” Dr. Robinson said. Research suggests that pox viruses could be another possible cause, he said.

He added: “I’m a rheumatologist, and I see patients in the clinic and in the hospital who have lupus, a disease highly associated with EBV infection. But they definitely do not have MS, nor do they have RA [rheumatoid arthritis], and likewise your MS patients don’t have lupus. What’s up with all these diseases potentially being linked to EBV?”
 

A missing piece of the puzzle?

In a discussion period, Dr. Ascherio responded to Dr. Robinson by saying he’s waiting to see evidence that patients with the other diseases linked to EBV don’t develop them if they’re EBV-negative. Dr. Ascherio added that it’s possible that there are different strains of EBV, and some may be more likely to cause MS.

What does this all mean for MS prevention? In a commentary published with Dr. Ascherio’s 2022 study, Dr. Robinson and a coauthor asked: “Would a vaccine against EBV protect against MS? Can the B cells that dwell in the CSF be killed or inactivated with therapeutics? Would antivirals that target EBV provide effective therapy, especially when given early in the course of disease? Now that the initial trigger for MS has been identified, perhaps MS could be eradicated.”

Dr. Ascherio discloses speaker/consultant relationships with Prada Foundation, WebMD, Biogen, Moderna, Merck, Roche, and GSK. Dr. Robinson discloses unspecified relationships with Altreca and Flatiron Bio, and he is a coinventor on a patent application filed by Stanford University that includes antibodies to EBV.
 

MILAN – Two physicians agreed that there’s no doubt that Epstein-Barr virus (EBV) is deeply linked to multiple sclerosis (MS), but they diverged over the extent of its role in a joint presentation at the 9th Joint ECTRIMS-ACTRIMS meeting.

Armed with the findings of his own landmark 2022 study into EBV and MS, Harvard Medical School, Boston, professor of medicine Alberto Ascherio, MD, DrPH, argued that they’re tightly connected. But rheumatologist William H. Robinson, MD, PhD, of Stanford (Calif.) University, said that while he also believes EBV plays a significant role in MS, “there’s likely a role for a second hit” – some other factor. “Why are 95% of us EBV-infected, but only a small subset ultimately develop MS or ... other autoimmune diseases?”

As a 2023 review noted, researchers have puzzled over the connection between EBV and MS since the early 1980s. “Until that point, EBV was primarily viewed as a cancer-causing agent, but the culmination of evidence now shows that EBV has a pivotal role in development of MS.” But it’s not clear how EBV – which strikes more than an estimated 95% of humans and causes mononucleosis – manages to trigger MS.
 

A rare complication of EBV infection

In the 2022 study, Dr. Ascherio aimed to understand exactly how deeply EBV and MS are connected by analyzing serum data gathered from more than 10 million active-duty members of the U.S. military. Of those, 955 were diagnosed with MS.

The researchers focused on 801 subjects with MS and matched them to 1,566 controls. Only 1 of the 801 subjects with MS had a negative EBV test prior to diagnosis, a fact that researchers believe could be due to a factor such as a failure to seroconvert during infection. “At baseline, 35 MS cases and 107 controls were EBV-negative,” the study reported. “All but one of these 35 EBV-negative MS cases became infected with EBV during the follow-up.”

Overall, subjects who were positive for EBV were 32.4 times to develop MS than those who weren’t (95% confidence interval, 4.3-245.3; P < 0.001).

Is it possible that immune dysregulation from MS precedes EBV infection? The researchers analyzed viruses in 30 subjects with MS – before and after MS onset – and in 30 controls. The findings suggested that EBV was the major player, Dr. Ascherio said.

Researchers also focused on cytomegalovirus (CMV) infection, which is closely related to EBV and to the chicken pox virus. “CMV seroconversion is not associated with MS, and positivity for CMV at baseline was associated with a modestly lower risk of MS,” Dr. Ascherio said.

In the big picture, “this data establishes beyond reasonable doubt that MS is a rare complication of EBV infection,” Dr. Ascherio said. “The main question now is whether the virus triggers an immune process that then is self-maintained, or whether the presence of the infection keeps feeding the immune process.”
 

Inadequate evidence for causation

In his presentation, Dr. Robinson asked: “Does EBV cause MS? Really? All of MS? In humans [with MS], yes, we found monoclonal antibodies expressed by the B cells that bound to EBV. But we also found spinal fluid B cells and coding antibodies that bound to multiple other viruses, including rubella, VZV [varicella-zoster virus/chickenpox], CMV, and HSV [herpes simplex virus]. And there’s even a measles reactive antibody there.”

And there’s evidence that human herpes virus type 6 (HHV-6) and HHV-6A could be linked to MS: “Maybe HHV-6 or HHV-6A is the cause of MS in a subset of patients,” Dr. Robinson said. Research suggests that pox viruses could be another possible cause, he said.

He added: “I’m a rheumatologist, and I see patients in the clinic and in the hospital who have lupus, a disease highly associated with EBV infection. But they definitely do not have MS, nor do they have RA [rheumatoid arthritis], and likewise your MS patients don’t have lupus. What’s up with all these diseases potentially being linked to EBV?”
 

A missing piece of the puzzle?

In a discussion period, Dr. Ascherio responded to Dr. Robinson by saying he’s waiting to see evidence that patients with the other diseases linked to EBV don’t develop them if they’re EBV-negative. Dr. Ascherio added that it’s possible that there are different strains of EBV, and some may be more likely to cause MS.

What does this all mean for MS prevention? In a commentary published with Dr. Ascherio’s 2022 study, Dr. Robinson and a coauthor asked: “Would a vaccine against EBV protect against MS? Can the B cells that dwell in the CSF be killed or inactivated with therapeutics? Would antivirals that target EBV provide effective therapy, especially when given early in the course of disease? Now that the initial trigger for MS has been identified, perhaps MS could be eradicated.”

Dr. Ascherio discloses speaker/consultant relationships with Prada Foundation, WebMD, Biogen, Moderna, Merck, Roche, and GSK. Dr. Robinson discloses unspecified relationships with Altreca and Flatiron Bio, and he is a coinventor on a patent application filed by Stanford University that includes antibodies to EBV.
 

MILAN – Two physicians agreed that there’s no doubt that Epstein-Barr virus (EBV) is deeply linked to multiple sclerosis (MS), but they diverged over the extent of its role in a joint presentation at the 9th Joint ECTRIMS-ACTRIMS meeting.

Armed with the findings of his own landmark 2022 study into EBV and MS, Harvard Medical School, Boston, professor of medicine Alberto Ascherio, MD, DrPH, argued that they’re tightly connected. But rheumatologist William H. Robinson, MD, PhD, of Stanford (Calif.) University, said that while he also believes EBV plays a significant role in MS, “there’s likely a role for a second hit” – some other factor. “Why are 95% of us EBV-infected, but only a small subset ultimately develop MS or ... other autoimmune diseases?”

As a 2023 review noted, researchers have puzzled over the connection between EBV and MS since the early 1980s. “Until that point, EBV was primarily viewed as a cancer-causing agent, but the culmination of evidence now shows that EBV has a pivotal role in development of MS.” But it’s not clear how EBV – which strikes more than an estimated 95% of humans and causes mononucleosis – manages to trigger MS.
 

A rare complication of EBV infection

In the 2022 study, Dr. Ascherio aimed to understand exactly how deeply EBV and MS are connected by analyzing serum data gathered from more than 10 million active-duty members of the U.S. military. Of those, 955 were diagnosed with MS.

The researchers focused on 801 subjects with MS and matched them to 1,566 controls. Only 1 of the 801 subjects with MS had a negative EBV test prior to diagnosis, a fact that researchers believe could be due to a factor such as a failure to seroconvert during infection. “At baseline, 35 MS cases and 107 controls were EBV-negative,” the study reported. “All but one of these 35 EBV-negative MS cases became infected with EBV during the follow-up.”

Overall, subjects who were positive for EBV were 32.4 times to develop MS than those who weren’t (95% confidence interval, 4.3-245.3; P < 0.001).

Is it possible that immune dysregulation from MS precedes EBV infection? The researchers analyzed viruses in 30 subjects with MS – before and after MS onset – and in 30 controls. The findings suggested that EBV was the major player, Dr. Ascherio said.

Researchers also focused on cytomegalovirus (CMV) infection, which is closely related to EBV and to the chicken pox virus. “CMV seroconversion is not associated with MS, and positivity for CMV at baseline was associated with a modestly lower risk of MS,” Dr. Ascherio said.

In the big picture, “this data establishes beyond reasonable doubt that MS is a rare complication of EBV infection,” Dr. Ascherio said. “The main question now is whether the virus triggers an immune process that then is self-maintained, or whether the presence of the infection keeps feeding the immune process.”
 

Inadequate evidence for causation

In his presentation, Dr. Robinson asked: “Does EBV cause MS? Really? All of MS? In humans [with MS], yes, we found monoclonal antibodies expressed by the B cells that bound to EBV. But we also found spinal fluid B cells and coding antibodies that bound to multiple other viruses, including rubella, VZV [varicella-zoster virus/chickenpox], CMV, and HSV [herpes simplex virus]. And there’s even a measles reactive antibody there.”

And there’s evidence that human herpes virus type 6 (HHV-6) and HHV-6A could be linked to MS: “Maybe HHV-6 or HHV-6A is the cause of MS in a subset of patients,” Dr. Robinson said. Research suggests that pox viruses could be another possible cause, he said.

He added: “I’m a rheumatologist, and I see patients in the clinic and in the hospital who have lupus, a disease highly associated with EBV infection. But they definitely do not have MS, nor do they have RA [rheumatoid arthritis], and likewise your MS patients don’t have lupus. What’s up with all these diseases potentially being linked to EBV?”
 

A missing piece of the puzzle?

In a discussion period, Dr. Ascherio responded to Dr. Robinson by saying he’s waiting to see evidence that patients with the other diseases linked to EBV don’t develop them if they’re EBV-negative. Dr. Ascherio added that it’s possible that there are different strains of EBV, and some may be more likely to cause MS.

What does this all mean for MS prevention? In a commentary published with Dr. Ascherio’s 2022 study, Dr. Robinson and a coauthor asked: “Would a vaccine against EBV protect against MS? Can the B cells that dwell in the CSF be killed or inactivated with therapeutics? Would antivirals that target EBV provide effective therapy, especially when given early in the course of disease? Now that the initial trigger for MS has been identified, perhaps MS could be eradicated.”

Dr. Ascherio discloses speaker/consultant relationships with Prada Foundation, WebMD, Biogen, Moderna, Merck, Roche, and GSK. Dr. Robinson discloses unspecified relationships with Altreca and Flatiron Bio, and he is a coinventor on a patent application filed by Stanford University that includes antibodies to EBV.
 

MILAN – Studies are exploring hematopoietic stem cell transplantation (HSCT) as a rescue therapy in early-stage multiple sclerosis (MS), researchers told colleagues at the 9th Joint ECTRIMS-ACTRIMS meeting. But there’s no consensus over best practices.

“Is this a good alternative regarding treatment efficacy and risk? When should we switch from standard treatment? Should we switch from a low-efficacy treatment, from a previous high-efficacy treatment, or from two or more? There is no agreement on this at the moment,” said neurologist Lars Bø, MD, PhD, a professor at the University of Bergen (Norway).

However, rapid conversion to efficient treatment in the early stages of disease is turning out to be crucial, Dr. Bø said. “Early inflammatory activity has lasting effects. A delay from less than 2 years to 4-6 years has implications for disability.”

Where does HSCT fit in? According to Dr. Bø, a 2017 study found that newer treatments bring up to 50% of patients to no evidence of disease activity at 2 years compared with 70%-90% for HSCT. That study reported that “optimal candidates ... are young, ambulatory, and have inflammatory-active relapsing remitting MS.”

But other research is presenting a different picture with “data that doesn’t show such a clear-cut difference.” Dr. Bø highlighted a study published earlier this year that found that HSCT was “considerably superior” to fingolimod and “marginally superior” to natalizumab, but was not superior to ocrelizumab over shorter periods of time. As a result, “there is a need for further randomized trials comparing [HSCT] with these newer medications.”

Would it make sense to treat all younger patients with highly active MS? Research does suggest that “there’s a significant benefit in what we describe as aggressive [disease], high-disability, young age, very short disease lengths,” said neurologist Richard Nicholas, MBBS, of Imperial College London, in a separate presentation.

However, he cautioned that not everyone with highly active MS may be appropriate for HSCT. “That number could be as high as 15%, and “that’s a rather large group of people who would be treated with this therapy.” He suggested focusing on “the most important features”: “two or more relapses and also rapid accrual of disabilities.”

Dr. Nicholas also noted the findings of a study that he coauthored into HSCT versus alemtuzumab and ocrelizumab. The findings of that study were released at ECTRIMS and presented by neurologist Antonio Scalfari, MD, PhD, of Imperial College Healthcare NHS Trust.

The researchers tracked 103 patients after stem cell transplants (median, 45 months), 204 patients on alemtuzumab (median, 45 months), and 314 patients on ocrelizumab (median, 35 months). Those who received transplants had a 74% lower risk of relapse versus alemtuzumab, and a 66% lower risk of new MS activity detected via MRI. Compared with ocrelizumab, patients who received stem cell transplants had a 60% lower risk of relapse but the same risk of MS activity detected via MRI.

The researchers noted that the patients who underwent stem cell transplantation had numerous adverse effects.

What happens now? “HSCT should be available for our MS patients when standard treatment is no longer effective,” Dr. Bø said. “When treatment options are limited, it is likely to have a good effect in younger patients with a shorter disease duration and a low disability.”

He added that “there is an increasing use of high-efficacy treatment early in RRMS [relapsing-remitting MS], and this may make the subgroup with indication for HSCT as a rescue therapy smaller.”

Meanwhile, he said, “demonstrating a higher efficacy may require larger studies and a combined analysis of data from the ongoing randomized trials. Also, there is a need for follow-up longer than 2 or 3 years for the estimation of cost versus benefit for this treatment.”

Dr. Bø disclosed receiving speaker fees from Novartis and consulting fees from Viatris. Dr. Nicholas disclosed speaker advisory board relationships with Roche and Novartis.

MILAN – Studies are exploring hematopoietic stem cell transplantation (HSCT) as a rescue therapy in early-stage multiple sclerosis (MS), researchers told colleagues at the 9th Joint ECTRIMS-ACTRIMS meeting. But there’s no consensus over best practices.

“Is this a good alternative regarding treatment efficacy and risk? When should we switch from standard treatment? Should we switch from a low-efficacy treatment, from a previous high-efficacy treatment, or from two or more? There is no agreement on this at the moment,” said neurologist Lars Bø, MD, PhD, a professor at the University of Bergen (Norway).

However, rapid conversion to efficient treatment in the early stages of disease is turning out to be crucial, Dr. Bø said. “Early inflammatory activity has lasting effects. A delay from less than 2 years to 4-6 years has implications for disability.”

Where does HSCT fit in? According to Dr. Bø, a 2017 study found that newer treatments bring up to 50% of patients to no evidence of disease activity at 2 years compared with 70%-90% for HSCT. That study reported that “optimal candidates ... are young, ambulatory, and have inflammatory-active relapsing remitting MS.”

But other research is presenting a different picture with “data that doesn’t show such a clear-cut difference.” Dr. Bø highlighted a study published earlier this year that found that HSCT was “considerably superior” to fingolimod and “marginally superior” to natalizumab, but was not superior to ocrelizumab over shorter periods of time. As a result, “there is a need for further randomized trials comparing [HSCT] with these newer medications.”

Would it make sense to treat all younger patients with highly active MS? Research does suggest that “there’s a significant benefit in what we describe as aggressive [disease], high-disability, young age, very short disease lengths,” said neurologist Richard Nicholas, MBBS, of Imperial College London, in a separate presentation.

However, he cautioned that not everyone with highly active MS may be appropriate for HSCT. “That number could be as high as 15%, and “that’s a rather large group of people who would be treated with this therapy.” He suggested focusing on “the most important features”: “two or more relapses and also rapid accrual of disabilities.”

Dr. Nicholas also noted the findings of a study that he coauthored into HSCT versus alemtuzumab and ocrelizumab. The findings of that study were released at ECTRIMS and presented by neurologist Antonio Scalfari, MD, PhD, of Imperial College Healthcare NHS Trust.

The researchers tracked 103 patients after stem cell transplants (median, 45 months), 204 patients on alemtuzumab (median, 45 months), and 314 patients on ocrelizumab (median, 35 months). Those who received transplants had a 74% lower risk of relapse versus alemtuzumab, and a 66% lower risk of new MS activity detected via MRI. Compared with ocrelizumab, patients who received stem cell transplants had a 60% lower risk of relapse but the same risk of MS activity detected via MRI.

The researchers noted that the patients who underwent stem cell transplantation had numerous adverse effects.

What happens now? “HSCT should be available for our MS patients when standard treatment is no longer effective,” Dr. Bø said. “When treatment options are limited, it is likely to have a good effect in younger patients with a shorter disease duration and a low disability.”

He added that “there is an increasing use of high-efficacy treatment early in RRMS [relapsing-remitting MS], and this may make the subgroup with indication for HSCT as a rescue therapy smaller.”

Meanwhile, he said, “demonstrating a higher efficacy may require larger studies and a combined analysis of data from the ongoing randomized trials. Also, there is a need for follow-up longer than 2 or 3 years for the estimation of cost versus benefit for this treatment.”

Dr. Bø disclosed receiving speaker fees from Novartis and consulting fees from Viatris. Dr. Nicholas disclosed speaker advisory board relationships with Roche and Novartis.

MILAN – Studies are exploring hematopoietic stem cell transplantation (HSCT) as a rescue therapy in early-stage multiple sclerosis (MS), researchers told colleagues at the 9th Joint ECTRIMS-ACTRIMS meeting. But there’s no consensus over best practices.

“Is this a good alternative regarding treatment efficacy and risk? When should we switch from standard treatment? Should we switch from a low-efficacy treatment, from a previous high-efficacy treatment, or from two or more? There is no agreement on this at the moment,” said neurologist Lars Bø, MD, PhD, a professor at the University of Bergen (Norway).

However, rapid conversion to efficient treatment in the early stages of disease is turning out to be crucial, Dr. Bø said. “Early inflammatory activity has lasting effects. A delay from less than 2 years to 4-6 years has implications for disability.”

Where does HSCT fit in? According to Dr. Bø, a 2017 study found that newer treatments bring up to 50% of patients to no evidence of disease activity at 2 years compared with 70%-90% for HSCT. That study reported that “optimal candidates ... are young, ambulatory, and have inflammatory-active relapsing remitting MS.”

But other research is presenting a different picture with “data that doesn’t show such a clear-cut difference.” Dr. Bø highlighted a study published earlier this year that found that HSCT was “considerably superior” to fingolimod and “marginally superior” to natalizumab, but was not superior to ocrelizumab over shorter periods of time. As a result, “there is a need for further randomized trials comparing [HSCT] with these newer medications.”

Would it make sense to treat all younger patients with highly active MS? Research does suggest that “there’s a significant benefit in what we describe as aggressive [disease], high-disability, young age, very short disease lengths,” said neurologist Richard Nicholas, MBBS, of Imperial College London, in a separate presentation.

However, he cautioned that not everyone with highly active MS may be appropriate for HSCT. “That number could be as high as 15%, and “that’s a rather large group of people who would be treated with this therapy.” He suggested focusing on “the most important features”: “two or more relapses and also rapid accrual of disabilities.”

Dr. Nicholas also noted the findings of a study that he coauthored into HSCT versus alemtuzumab and ocrelizumab. The findings of that study were released at ECTRIMS and presented by neurologist Antonio Scalfari, MD, PhD, of Imperial College Healthcare NHS Trust.

The researchers tracked 103 patients after stem cell transplants (median, 45 months), 204 patients on alemtuzumab (median, 45 months), and 314 patients on ocrelizumab (median, 35 months). Those who received transplants had a 74% lower risk of relapse versus alemtuzumab, and a 66% lower risk of new MS activity detected via MRI. Compared with ocrelizumab, patients who received stem cell transplants had a 60% lower risk of relapse but the same risk of MS activity detected via MRI.

The researchers noted that the patients who underwent stem cell transplantation had numerous adverse effects.

What happens now? “HSCT should be available for our MS patients when standard treatment is no longer effective,” Dr. Bø said. “When treatment options are limited, it is likely to have a good effect in younger patients with a shorter disease duration and a low disability.”

He added that “there is an increasing use of high-efficacy treatment early in RRMS [relapsing-remitting MS], and this may make the subgroup with indication for HSCT as a rescue therapy smaller.”

Meanwhile, he said, “demonstrating a higher efficacy may require larger studies and a combined analysis of data from the ongoing randomized trials. Also, there is a need for follow-up longer than 2 or 3 years for the estimation of cost versus benefit for this treatment.”

Dr. Bø disclosed receiving speaker fees from Novartis and consulting fees from Viatris. Dr. Nicholas disclosed speaker advisory board relationships with Roche and Novartis.

MILAN – A weight loss intervention tailored to patients with multiple sclerosis (MS) and comorbid obesity achieved clinically meaningful weight loss, resulting in improved mobility, reduced fatigue, and better quality of life, results of a new trial show.

Seventy patients with MS and a high body mass index (BMI) were randomized to receive a multifaceted weight loss program or treatment as usual, resulting in almost two-thirds of the intervention group patients losing at least 5% of their body weight.

“Our weight loss intervention achieved clinically significant weight loss and improved mental quality of life,” said study presenter Sharon G. Lynch, MD, professor in the department of neurology at the University of Kansas Medical Center, Kansas City.

The results also showed weight loss “was associated with improved mobility, reduced fatigability, and improved physical quality of life.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Obesity linked to MS progression

Dr. Lynch noted that almost 40% of people with MS have comorbid obesity, and that obesity “is associated with developing MS in some studies, and also disease progression.” Moreover, MS and obesity share common chronic symptoms, particularly mobility problems, depression, fatigue, and reduced quality of life.

Despite this, no randomized controlled trials have been specifically designed to help people with MS lose weight, he noted.

The team therefore examined the efficacy of a behavioral weight loss program designed for patients with the disease, as well as the impact of weight loss on mobility and other chronic symptoms.

The participants were required to be English speaking, with access to a telephone and/or computer, and to have a confirmed diagnosis of MS. They also had to be aged 18-70 years, have a BMI of 29-50 kg/m², and have a Patient-Determined Disease Steps (PDDS) score of less than 4.

The patients were randomly assigned to receive either a weight loss intervention or brief health education and treatment as usual. They were assessed at 6 months to measure their weight loss, mobility, and self-reported quality of life and perceived fatigability.

Dr. Lynch said the intervention was “fairly time intensive,” with an hour-long telehealth group weight loss session every week for 24 weeks, as well as monthly individual sessions for 6 months.

The participants were provided with a Fitbit activity tracker, a set of Bluetooth-enabled weighing scales, and access to the Lose It! weight loss app.

Caloric restriction was encouraged, with a focus on increasing intake of fruits and vegetables, alongside a target of 150 minutes per week of moderate to vigorous physical activity, in line with Centers for Disease Control and Prevention and American Heart Association recommendations.
 

Significant loss in body weight

Seventy individuals with MS took part in the trial, of whom 83% were female and 88% were White, 9% African American, and 3% Hispanic or Latino. The mean age was 46.7 years, and the mean number of years in education was 11.8.

The vast majority (96%) of the participants had relapsing remitting MS, at a mean disease duration of 10.9 years, and 82% had a score of 0 or 1 on the PDDS.

Dr. Lynch showed that participants in the intervention group lost, over the course of the study, 8.6% of their total body weight, compared with a loss of 0.7% among controls (P < .001).

Moreover, 65% of the intervention group lost at least 5% of their body weight, whereas 41% lost at least 10% of their body weight, which again was significantly higher than that seen in the control group (P < .001).

There was also a significant increase in moderate to vigorous physical activity in the intervention group as measured by accelerometry (P < .05), although Dr. Lynch pointed out this “did not necessarily correlate with their weight loss.”

Dr. Lynch showed there were significant differences across a range of anthropometric measures from baseline to follow-up between the intervention and control groups.

The adjusted difference in weight loss between the intervention and control participants was 7.8 kg, whereas the difference in reduction of BMI was 2.7 (P = .001 for both).

There was also a significant difference in the reduction in waist-to-hip ratio between the groups, at 0.033 in favor of the intervention, as well as a difference in the reduction in fat tissue, at 3.1% (P = .001 for both).

Further analyses showed weight loss was associated with significant improvements on the 6-minute walk test, at an r value of 0.48 (P = .015), and in the 25-foot walk test (r = 0.42; P = .015). Weight loss was also linked to reductions in perceived fatigability (r = 0.48; P = .005).

Dr. Lynch also reported that a 5% reduction in body weight was associated with a “clinically meaningful” improvement of 50 meters on the 6-minute walk test.

Finally, it was found the intervention was associated with a significant improvement in mental quality of life (P = .01), whereas weight loss specifically was linked to improved physical quality of life (P = .02).

“We believe that future studies should examine weight loss in people with MS who have more advanced disability,” Dr. Lynch said, and “we should examine the effects of weight loss on the underlying disease processes.”

She added they also “need to follow the patient for longer and see if they can maintain their weight loss.”
 

Emphasizing the social side of interventions

Session cochair Brian M. Sandroff, PhD, director of the Exercise Neurorehabilitation Research Laboratory at the Kessler Foundation, East Hanover, N.J., commented that the results are “really exciting.”

He said that the improvements across the range of measures assessed in the study were not surprising, “considering the intervention was multicomponent, and so had the potential to affect a number of different physical and cognitive domains.”

One factor in managing MS that came up again and again during the discussion at the end of the session was the social aspect of interventions, with Dr. Lynch saying the group sessions in particular were appreciated by participants in her trial.

Dr. Sandroff, who was not involved in the study, said that it has been questioned whether the social side should be controlled for when assessing interventions, or “maybe it’s something we should promote within our studies.”

He explained that being social “overcomes a lot of isolation-related issues among people with MS who have comorbidities,” which can result in “reduced quality of life and differences in symptomatic manifestations.”

“Providing that group setting might have lots of outcomes besides just a biological loss of mass” because of the intervention itself, Dr. Sandroff said.

The study was supported by grants from the National MS Society. Dr. Lynch declares relationships with Biogen, Genzyme, Teva, Sanofi, Novartis, Celgene, Roche, Immunic, National Institutes of Health, National Multiple Sclerosis Society, Patient-Centered Outcomes Research Institute, Anokion, TG Therapeutics, and Actelion. Other authors also declared relationships. Dr. Sandroff declared no relevant relationships.

A version of this article first appeared on Medscape.com.

MILAN – A weight loss intervention tailored to patients with multiple sclerosis (MS) and comorbid obesity achieved clinically meaningful weight loss, resulting in improved mobility, reduced fatigue, and better quality of life, results of a new trial show.

Seventy patients with MS and a high body mass index (BMI) were randomized to receive a multifaceted weight loss program or treatment as usual, resulting in almost two-thirds of the intervention group patients losing at least 5% of their body weight.

“Our weight loss intervention achieved clinically significant weight loss and improved mental quality of life,” said study presenter Sharon G. Lynch, MD, professor in the department of neurology at the University of Kansas Medical Center, Kansas City.

The results also showed weight loss “was associated with improved mobility, reduced fatigability, and improved physical quality of life.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Obesity linked to MS progression

Dr. Lynch noted that almost 40% of people with MS have comorbid obesity, and that obesity “is associated with developing MS in some studies, and also disease progression.” Moreover, MS and obesity share common chronic symptoms, particularly mobility problems, depression, fatigue, and reduced quality of life.

Despite this, no randomized controlled trials have been specifically designed to help people with MS lose weight, he noted.

The team therefore examined the efficacy of a behavioral weight loss program designed for patients with the disease, as well as the impact of weight loss on mobility and other chronic symptoms.

The participants were required to be English speaking, with access to a telephone and/or computer, and to have a confirmed diagnosis of MS. They also had to be aged 18-70 years, have a BMI of 29-50 kg/m², and have a Patient-Determined Disease Steps (PDDS) score of less than 4.

The patients were randomly assigned to receive either a weight loss intervention or brief health education and treatment as usual. They were assessed at 6 months to measure their weight loss, mobility, and self-reported quality of life and perceived fatigability.

Dr. Lynch said the intervention was “fairly time intensive,” with an hour-long telehealth group weight loss session every week for 24 weeks, as well as monthly individual sessions for 6 months.

The participants were provided with a Fitbit activity tracker, a set of Bluetooth-enabled weighing scales, and access to the Lose It! weight loss app.

Caloric restriction was encouraged, with a focus on increasing intake of fruits and vegetables, alongside a target of 150 minutes per week of moderate to vigorous physical activity, in line with Centers for Disease Control and Prevention and American Heart Association recommendations.
 

Significant loss in body weight

Seventy individuals with MS took part in the trial, of whom 83% were female and 88% were White, 9% African American, and 3% Hispanic or Latino. The mean age was 46.7 years, and the mean number of years in education was 11.8.

The vast majority (96%) of the participants had relapsing remitting MS, at a mean disease duration of 10.9 years, and 82% had a score of 0 or 1 on the PDDS.

Dr. Lynch showed that participants in the intervention group lost, over the course of the study, 8.6% of their total body weight, compared with a loss of 0.7% among controls (P < .001).

Moreover, 65% of the intervention group lost at least 5% of their body weight, whereas 41% lost at least 10% of their body weight, which again was significantly higher than that seen in the control group (P < .001).

There was also a significant increase in moderate to vigorous physical activity in the intervention group as measured by accelerometry (P < .05), although Dr. Lynch pointed out this “did not necessarily correlate with their weight loss.”

Dr. Lynch showed there were significant differences across a range of anthropometric measures from baseline to follow-up between the intervention and control groups.

The adjusted difference in weight loss between the intervention and control participants was 7.8 kg, whereas the difference in reduction of BMI was 2.7 (P = .001 for both).

There was also a significant difference in the reduction in waist-to-hip ratio between the groups, at 0.033 in favor of the intervention, as well as a difference in the reduction in fat tissue, at 3.1% (P = .001 for both).

Further analyses showed weight loss was associated with significant improvements on the 6-minute walk test, at an r value of 0.48 (P = .015), and in the 25-foot walk test (r = 0.42; P = .015). Weight loss was also linked to reductions in perceived fatigability (r = 0.48; P = .005).

Dr. Lynch also reported that a 5% reduction in body weight was associated with a “clinically meaningful” improvement of 50 meters on the 6-minute walk test.

Finally, it was found the intervention was associated with a significant improvement in mental quality of life (P = .01), whereas weight loss specifically was linked to improved physical quality of life (P = .02).

“We believe that future studies should examine weight loss in people with MS who have more advanced disability,” Dr. Lynch said, and “we should examine the effects of weight loss on the underlying disease processes.”

She added they also “need to follow the patient for longer and see if they can maintain their weight loss.”
 

Emphasizing the social side of interventions

Session cochair Brian M. Sandroff, PhD, director of the Exercise Neurorehabilitation Research Laboratory at the Kessler Foundation, East Hanover, N.J., commented that the results are “really exciting.”

He said that the improvements across the range of measures assessed in the study were not surprising, “considering the intervention was multicomponent, and so had the potential to affect a number of different physical and cognitive domains.”

One factor in managing MS that came up again and again during the discussion at the end of the session was the social aspect of interventions, with Dr. Lynch saying the group sessions in particular were appreciated by participants in her trial.

Dr. Sandroff, who was not involved in the study, said that it has been questioned whether the social side should be controlled for when assessing interventions, or “maybe it’s something we should promote within our studies.”

He explained that being social “overcomes a lot of isolation-related issues among people with MS who have comorbidities,” which can result in “reduced quality of life and differences in symptomatic manifestations.”

“Providing that group setting might have lots of outcomes besides just a biological loss of mass” because of the intervention itself, Dr. Sandroff said.

The study was supported by grants from the National MS Society. Dr. Lynch declares relationships with Biogen, Genzyme, Teva, Sanofi, Novartis, Celgene, Roche, Immunic, National Institutes of Health, National Multiple Sclerosis Society, Patient-Centered Outcomes Research Institute, Anokion, TG Therapeutics, and Actelion. Other authors also declared relationships. Dr. Sandroff declared no relevant relationships.

A version of this article first appeared on Medscape.com.

MILAN – A weight loss intervention tailored to patients with multiple sclerosis (MS) and comorbid obesity achieved clinically meaningful weight loss, resulting in improved mobility, reduced fatigue, and better quality of life, results of a new trial show.

Seventy patients with MS and a high body mass index (BMI) were randomized to receive a multifaceted weight loss program or treatment as usual, resulting in almost two-thirds of the intervention group patients losing at least 5% of their body weight.

“Our weight loss intervention achieved clinically significant weight loss and improved mental quality of life,” said study presenter Sharon G. Lynch, MD, professor in the department of neurology at the University of Kansas Medical Center, Kansas City.

The results also showed weight loss “was associated with improved mobility, reduced fatigability, and improved physical quality of life.”

The findings were presented at the 9th Joint ECTRIMS-ACTRIMS meeting.
 

Obesity linked to MS progression

Dr. Lynch noted that almost 40% of people with MS have comorbid obesity, and that obesity “is associated with developing MS in some studies, and also disease progression.” Moreover, MS and obesity share common chronic symptoms, particularly mobility problems, depression, fatigue, and reduced quality of life.

Despite this, no randomized controlled trials have been specifically designed to help people with MS lose weight, he noted.

The team therefore examined the efficacy of a behavioral weight loss program designed for patients with the disease, as well as the impact of weight loss on mobility and other chronic symptoms.

The participants were required to be English speaking, with access to a telephone and/or computer, and to have a confirmed diagnosis of MS. They also had to be aged 18-70 years, have a BMI of 29-50 kg/m², and have a Patient-Determined Disease Steps (PDDS) score of less than 4.

The patients were randomly assigned to receive either a weight loss intervention or brief health education and treatment as usual. They were assessed at 6 months to measure their weight loss, mobility, and self-reported quality of life and perceived fatigability.

Dr. Lynch said the intervention was “fairly time intensive,” with an hour-long telehealth group weight loss session every week for 24 weeks, as well as monthly individual sessions for 6 months.

The participants were provided with a Fitbit activity tracker, a set of Bluetooth-enabled weighing scales, and access to the Lose It! weight loss app.

Caloric restriction was encouraged, with a focus on increasing intake of fruits and vegetables, alongside a target of 150 minutes per week of moderate to vigorous physical activity, in line with Centers for Disease Control and Prevention and American Heart Association recommendations.
 

Significant loss in body weight

Seventy individuals with MS took part in the trial, of whom 83% were female and 88% were White, 9% African American, and 3% Hispanic or Latino. The mean age was 46.7 years, and the mean number of years in education was 11.8.

The vast majority (96%) of the participants had relapsing remitting MS, at a mean disease duration of 10.9 years, and 82% had a score of 0 or 1 on the PDDS.

Dr. Lynch showed that participants in the intervention group lost, over the course of the study, 8.6% of their total body weight, compared with a loss of 0.7% among controls (P < .001).

Moreover, 65% of the intervention group lost at least 5% of their body weight, whereas 41% lost at least 10% of their body weight, which again was significantly higher than that seen in the control group (P < .001).

There was also a significant increase in moderate to vigorous physical activity in the intervention group as measured by accelerometry (P < .05), although Dr. Lynch pointed out this “did not necessarily correlate with their weight loss.”

Dr. Lynch showed there were significant differences across a range of anthropometric measures from baseline to follow-up between the intervention and control groups.

The adjusted difference in weight loss between the intervention and control participants was 7.8 kg, whereas the difference in reduction of BMI was 2.7 (P = .001 for both).

There was also a significant difference in the reduction in waist-to-hip ratio between the groups, at 0.033 in favor of the intervention, as well as a difference in the reduction in fat tissue, at 3.1% (P = .001 for both).

Further analyses showed weight loss was associated with significant improvements on the 6-minute walk test, at an r value of 0.48 (P = .015), and in the 25-foot walk test (r = 0.42; P = .015). Weight loss was also linked to reductions in perceived fatigability (r = 0.48; P = .005).

Dr. Lynch also reported that a 5% reduction in body weight was associated with a “clinically meaningful” improvement of 50 meters on the 6-minute walk test.

Finally, it was found the intervention was associated with a significant improvement in mental quality of life (P = .01), whereas weight loss specifically was linked to improved physical quality of life (P = .02).

“We believe that future studies should examine weight loss in people with MS who have more advanced disability,” Dr. Lynch said, and “we should examine the effects of weight loss on the underlying disease processes.”

She added they also “need to follow the patient for longer and see if they can maintain their weight loss.”
 

Emphasizing the social side of interventions

Session cochair Brian M. Sandroff, PhD, director of the Exercise Neurorehabilitation Research Laboratory at the Kessler Foundation, East Hanover, N.J., commented that the results are “really exciting.”

He said that the improvements across the range of measures assessed in the study were not surprising, “considering the intervention was multicomponent, and so had the potential to affect a number of different physical and cognitive domains.”

One factor in managing MS that came up again and again during the discussion at the end of the session was the social aspect of interventions, with Dr. Lynch saying the group sessions in particular were appreciated by participants in her trial.

Dr. Sandroff, who was not involved in the study, said that it has been questioned whether the social side should be controlled for when assessing interventions, or “maybe it’s something we should promote within our studies.”

He explained that being social “overcomes a lot of isolation-related issues among people with MS who have comorbidities,” which can result in “reduced quality of life and differences in symptomatic manifestations.”

“Providing that group setting might have lots of outcomes besides just a biological loss of mass” because of the intervention itself, Dr. Sandroff said.

The study was supported by grants from the National MS Society. Dr. Lynch declares relationships with Biogen, Genzyme, Teva, Sanofi, Novartis, Celgene, Roche, Immunic, National Institutes of Health, National Multiple Sclerosis Society, Patient-Centered Outcomes Research Institute, Anokion, TG Therapeutics, and Actelion. Other authors also declared relationships. Dr. Sandroff declared no relevant relationships.

A version of this article first appeared on Medscape.com.