Literature Review

It may be possible to diagnose Parkinson’s disease with a skin test, a new study suggests. For the study, researchers used a chemical assay to detect clumping of the protein alpha-synuclein, a hallmark of Parkinson’s disease, in autopsy skin samples taken from patients who had Parkinson’s disease confirmed by brain pathology and from controls without the disease. The test showed a high degree of sensitivity and specificity for the diagnosis of Parkinson’s disease.

The study was published online in Movement Disorders.

“This test has a lot of promise,” said senior author Anumantha Kanthasamy, PhD, professor of biomedical sciences at Iowa State University in Ames. “At present there are no peripheral biomarkers for Parkinson’s disease. The current diagnosis is just based on symptoms, and the symptoms can be similar to many other neurological diseases,” he added. “It can take many years to establish a correct diagnosis and the accuracy is low even with experienced neurologists.”

If the current results can be replicated in samples from live patients and in those with very early stages of Parkinson’s disease, a skin test could allow early diagnosis and the possibility of starting preventive treatments to slow disease progression before symptoms develop too severely, the researchers suggest.
 

Sensitive and specific test

The blinded study used a seeding assay – used previously to detect misfolded proteins in prion diseases – to analyze 50 skin samples provided by the Arizona Study of Aging and Neurodegenerative Disorders/Brain and Body Donation Program based at Banner Sun Health Research Institute in Sun City.

Half of the skin samples came from patients with Parkinson’s disease and half came from people without neurologic disease. The protein assay correctly diagnosed 24 out of 25 patients with Parkinson’s disease and only one of the 25 controls had the protein clumping.

“At present, the only way to definitely diagnose Parkinson’s disease is on autopsy – by the detection of alpha-synuclein clumps [Lewy bodies] in the brain,” commented Charles Adler, MD, professor of neurology at Mayo Clinic Arizona in Scottsdale and a coinvestigator of the study. “In our research, we have also seen clumping of alpha-synuclein in many other organs including submandibular gland, colon, skin, heart, and stomach, but in terms of access, the skin is probably the easiest source.”

In this study, “we found this seeding assay for alpha-synuclein clumps to be extremely sensitive and specific in the diagnosis of Parkinson’s disease,” he added. “This is very valuable data as we have samples from patients with autopsy-validated Parkinson’s disease.”
 

A reliable biomarker?

The researchers are now starting a study in living patients with funding from the National Institutes of Health in which they will repeat the process comparing skin samples from patients with clinically diagnosed Parkinson’s disease and controls.

“We need to know whether analyzing alpha-synuclein clumping in skin biopsies from live patients with Parkinson’s disease would serve as a reliable biomarker for disease progression. Will clumping of this protein in skin samples increase over time and does it correspond with disease progression?” Dr. Adler said.

In future they are also hoping to test individuals who have not yet developed Parkinson’s disease but may have some prodromal type symptoms and to test whether this assay could measure a treatment effect of drug therapy.

Dr. Adler noted that they are currently conducting an autopsy study of skin samples from individuals who did not have clinical Parkinson’s disease when alive but in whom Lewy bodies have been found postmortem.

“This suggests that the disease pathology starts before Parkinson’s symptoms develop, and in the future, if we can diagnose Parkinson’s disease earlier then we may be able to stop progression,” he said.

“There is a long list of compounds that have been studied to try and slow progression but haven’t shown benefits, but by the time patients develop symptoms they already have significant disease and [have] lost most of their dopamine neurons,” he added. “If we could backtrack by 10 years, then these drugs may well make a difference.”

Dr. Adler also noted that currently more advanced patients may undergo invasive procedures such as deep brain stimulation or surgery. “It is of utmost importance that they have an accurate diagnosis before being subjected to such procedures.”

In addition, he pointed out that an accurate test would help the drug development process. “It is vitally important to enroll patients with an accurate diagnosis in clinical trials of new drugs. At present, a large percentage of patients in these trials may not actually have Parkinson’s disease, which makes it very difficult to show a treatment effect.”
 

Important step, but preliminary

Commenting on the research, James Beck, PhD, chief scientific officer of the Parkinson’s Foundation, said the study “is an important step toward the creation of a new way to potentially diagnose Parkinson’s disease.”

But he cautioned that this is a preliminary study. “To really confirm the possibility of using this approach for diagnosing Parkinson’s disease, a larger study will be necessary. And it will be important to test this in a population with early disease – the most difficult group to accurately diagnose.”

Also commenting on the findings, Beate Ritz, MD, PhD, an epidemiologist at UCLA Fielding School of Public Health in Los Angeles, who is part of a team also working on ways to measure abnormal alpha-synuclein to diagnose Parkinson’s disease, described the current study of skin samples as “pretty nifty.”

“Their research shows clearly that they can distinguish between patients with Parkinson’s disease and controls in this way,” she said. “The big advantage of this study is that they have brain pathology, so they know exactly which individuals had Parkinson’s disease.”

Dr. Ritz is working with Gal Bitan, PhD, from the UCLA Brain Research Institute on a potential blood test to measure abnormal alpha-synuclein.

Dr. Ritz explained that it is not possible to measure alpha-synuclein pathology in regular blood samples as it is expressed normally in red blood cells, but they are measuring the protein and its more toxic phosphorylated form from exosomes, which contain the waste discarded by cells using technology that determines the origin of these exosomes.

“Alpha-synuclein itself is not a problem. It is the way it misfolds that causes toxicity and disrupts the workings of the cell,” Dr. Ritz added. “In Parkinson’s disease, it is particularly toxic to dopaminergic neurons, and in multiple system atrophy, it is toxic to glial cells, so if we can identify the source of the protein then that could be helpful.”

The study was funded by the National Institutes of Health and the US Army Medical Research Materiel Command. The study authors, Dr. Beck, and Dr. Ritz have disclosed no relevant financial relationships.
 

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

It may be possible to diagnose Parkinson’s disease with a skin test, a new study suggests. For the study, researchers used a chemical assay to detect clumping of the protein alpha-synuclein, a hallmark of Parkinson’s disease, in autopsy skin samples taken from patients who had Parkinson’s disease confirmed by brain pathology and from controls without the disease. The test showed a high degree of sensitivity and specificity for the diagnosis of Parkinson’s disease.

The study was published online in Movement Disorders.

“This test has a lot of promise,” said senior author Anumantha Kanthasamy, PhD, professor of biomedical sciences at Iowa State University in Ames. “At present there are no peripheral biomarkers for Parkinson’s disease. The current diagnosis is just based on symptoms, and the symptoms can be similar to many other neurological diseases,” he added. “It can take many years to establish a correct diagnosis and the accuracy is low even with experienced neurologists.”

If the current results can be replicated in samples from live patients and in those with very early stages of Parkinson’s disease, a skin test could allow early diagnosis and the possibility of starting preventive treatments to slow disease progression before symptoms develop too severely, the researchers suggest.
 

Sensitive and specific test

The blinded study used a seeding assay – used previously to detect misfolded proteins in prion diseases – to analyze 50 skin samples provided by the Arizona Study of Aging and Neurodegenerative Disorders/Brain and Body Donation Program based at Banner Sun Health Research Institute in Sun City.

Half of the skin samples came from patients with Parkinson’s disease and half came from people without neurologic disease. The protein assay correctly diagnosed 24 out of 25 patients with Parkinson’s disease and only one of the 25 controls had the protein clumping.

“At present, the only way to definitely diagnose Parkinson’s disease is on autopsy – by the detection of alpha-synuclein clumps [Lewy bodies] in the brain,” commented Charles Adler, MD, professor of neurology at Mayo Clinic Arizona in Scottsdale and a coinvestigator of the study. “In our research, we have also seen clumping of alpha-synuclein in many other organs including submandibular gland, colon, skin, heart, and stomach, but in terms of access, the skin is probably the easiest source.”

In this study, “we found this seeding assay for alpha-synuclein clumps to be extremely sensitive and specific in the diagnosis of Parkinson’s disease,” he added. “This is very valuable data as we have samples from patients with autopsy-validated Parkinson’s disease.”
 

A reliable biomarker?

The researchers are now starting a study in living patients with funding from the National Institutes of Health in which they will repeat the process comparing skin samples from patients with clinically diagnosed Parkinson’s disease and controls.

“We need to know whether analyzing alpha-synuclein clumping in skin biopsies from live patients with Parkinson’s disease would serve as a reliable biomarker for disease progression. Will clumping of this protein in skin samples increase over time and does it correspond with disease progression?” Dr. Adler said.

In future they are also hoping to test individuals who have not yet developed Parkinson’s disease but may have some prodromal type symptoms and to test whether this assay could measure a treatment effect of drug therapy.

Dr. Adler noted that they are currently conducting an autopsy study of skin samples from individuals who did not have clinical Parkinson’s disease when alive but in whom Lewy bodies have been found postmortem.

“This suggests that the disease pathology starts before Parkinson’s symptoms develop, and in the future, if we can diagnose Parkinson’s disease earlier then we may be able to stop progression,” he said.

“There is a long list of compounds that have been studied to try and slow progression but haven’t shown benefits, but by the time patients develop symptoms they already have significant disease and [have] lost most of their dopamine neurons,” he added. “If we could backtrack by 10 years, then these drugs may well make a difference.”

Dr. Adler also noted that currently more advanced patients may undergo invasive procedures such as deep brain stimulation or surgery. “It is of utmost importance that they have an accurate diagnosis before being subjected to such procedures.”

In addition, he pointed out that an accurate test would help the drug development process. “It is vitally important to enroll patients with an accurate diagnosis in clinical trials of new drugs. At present, a large percentage of patients in these trials may not actually have Parkinson’s disease, which makes it very difficult to show a treatment effect.”
 

Important step, but preliminary

Commenting on the research, James Beck, PhD, chief scientific officer of the Parkinson’s Foundation, said the study “is an important step toward the creation of a new way to potentially diagnose Parkinson’s disease.”

But he cautioned that this is a preliminary study. “To really confirm the possibility of using this approach for diagnosing Parkinson’s disease, a larger study will be necessary. And it will be important to test this in a population with early disease – the most difficult group to accurately diagnose.”

Also commenting on the findings, Beate Ritz, MD, PhD, an epidemiologist at UCLA Fielding School of Public Health in Los Angeles, who is part of a team also working on ways to measure abnormal alpha-synuclein to diagnose Parkinson’s disease, described the current study of skin samples as “pretty nifty.”

“Their research shows clearly that they can distinguish between patients with Parkinson’s disease and controls in this way,” she said. “The big advantage of this study is that they have brain pathology, so they know exactly which individuals had Parkinson’s disease.”

Dr. Ritz is working with Gal Bitan, PhD, from the UCLA Brain Research Institute on a potential blood test to measure abnormal alpha-synuclein.

Dr. Ritz explained that it is not possible to measure alpha-synuclein pathology in regular blood samples as it is expressed normally in red blood cells, but they are measuring the protein and its more toxic phosphorylated form from exosomes, which contain the waste discarded by cells using technology that determines the origin of these exosomes.

“Alpha-synuclein itself is not a problem. It is the way it misfolds that causes toxicity and disrupts the workings of the cell,” Dr. Ritz added. “In Parkinson’s disease, it is particularly toxic to dopaminergic neurons, and in multiple system atrophy, it is toxic to glial cells, so if we can identify the source of the protein then that could be helpful.”

The study was funded by the National Institutes of Health and the US Army Medical Research Materiel Command. The study authors, Dr. Beck, and Dr. Ritz have disclosed no relevant financial relationships.
 

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

It may be possible to diagnose Parkinson’s disease with a skin test, a new study suggests. For the study, researchers used a chemical assay to detect clumping of the protein alpha-synuclein, a hallmark of Parkinson’s disease, in autopsy skin samples taken from patients who had Parkinson’s disease confirmed by brain pathology and from controls without the disease. The test showed a high degree of sensitivity and specificity for the diagnosis of Parkinson’s disease.

The study was published online in Movement Disorders.

“This test has a lot of promise,” said senior author Anumantha Kanthasamy, PhD, professor of biomedical sciences at Iowa State University in Ames. “At present there are no peripheral biomarkers for Parkinson’s disease. The current diagnosis is just based on symptoms, and the symptoms can be similar to many other neurological diseases,” he added. “It can take many years to establish a correct diagnosis and the accuracy is low even with experienced neurologists.”

If the current results can be replicated in samples from live patients and in those with very early stages of Parkinson’s disease, a skin test could allow early diagnosis and the possibility of starting preventive treatments to slow disease progression before symptoms develop too severely, the researchers suggest.
 

Sensitive and specific test

The blinded study used a seeding assay – used previously to detect misfolded proteins in prion diseases – to analyze 50 skin samples provided by the Arizona Study of Aging and Neurodegenerative Disorders/Brain and Body Donation Program based at Banner Sun Health Research Institute in Sun City.

Half of the skin samples came from patients with Parkinson’s disease and half came from people without neurologic disease. The protein assay correctly diagnosed 24 out of 25 patients with Parkinson’s disease and only one of the 25 controls had the protein clumping.

“At present, the only way to definitely diagnose Parkinson’s disease is on autopsy – by the detection of alpha-synuclein clumps [Lewy bodies] in the brain,” commented Charles Adler, MD, professor of neurology at Mayo Clinic Arizona in Scottsdale and a coinvestigator of the study. “In our research, we have also seen clumping of alpha-synuclein in many other organs including submandibular gland, colon, skin, heart, and stomach, but in terms of access, the skin is probably the easiest source.”

In this study, “we found this seeding assay for alpha-synuclein clumps to be extremely sensitive and specific in the diagnosis of Parkinson’s disease,” he added. “This is very valuable data as we have samples from patients with autopsy-validated Parkinson’s disease.”
 

A reliable biomarker?

The researchers are now starting a study in living patients with funding from the National Institutes of Health in which they will repeat the process comparing skin samples from patients with clinically diagnosed Parkinson’s disease and controls.

“We need to know whether analyzing alpha-synuclein clumping in skin biopsies from live patients with Parkinson’s disease would serve as a reliable biomarker for disease progression. Will clumping of this protein in skin samples increase over time and does it correspond with disease progression?” Dr. Adler said.

In future they are also hoping to test individuals who have not yet developed Parkinson’s disease but may have some prodromal type symptoms and to test whether this assay could measure a treatment effect of drug therapy.

Dr. Adler noted that they are currently conducting an autopsy study of skin samples from individuals who did not have clinical Parkinson’s disease when alive but in whom Lewy bodies have been found postmortem.

“This suggests that the disease pathology starts before Parkinson’s symptoms develop, and in the future, if we can diagnose Parkinson’s disease earlier then we may be able to stop progression,” he said.

“There is a long list of compounds that have been studied to try and slow progression but haven’t shown benefits, but by the time patients develop symptoms they already have significant disease and [have] lost most of their dopamine neurons,” he added. “If we could backtrack by 10 years, then these drugs may well make a difference.”

Dr. Adler also noted that currently more advanced patients may undergo invasive procedures such as deep brain stimulation or surgery. “It is of utmost importance that they have an accurate diagnosis before being subjected to such procedures.”

In addition, he pointed out that an accurate test would help the drug development process. “It is vitally important to enroll patients with an accurate diagnosis in clinical trials of new drugs. At present, a large percentage of patients in these trials may not actually have Parkinson’s disease, which makes it very difficult to show a treatment effect.”
 

Important step, but preliminary

Commenting on the research, James Beck, PhD, chief scientific officer of the Parkinson’s Foundation, said the study “is an important step toward the creation of a new way to potentially diagnose Parkinson’s disease.”

But he cautioned that this is a preliminary study. “To really confirm the possibility of using this approach for diagnosing Parkinson’s disease, a larger study will be necessary. And it will be important to test this in a population with early disease – the most difficult group to accurately diagnose.”

Also commenting on the findings, Beate Ritz, MD, PhD, an epidemiologist at UCLA Fielding School of Public Health in Los Angeles, who is part of a team also working on ways to measure abnormal alpha-synuclein to diagnose Parkinson’s disease, described the current study of skin samples as “pretty nifty.”

“Their research shows clearly that they can distinguish between patients with Parkinson’s disease and controls in this way,” she said. “The big advantage of this study is that they have brain pathology, so they know exactly which individuals had Parkinson’s disease.”

Dr. Ritz is working with Gal Bitan, PhD, from the UCLA Brain Research Institute on a potential blood test to measure abnormal alpha-synuclein.

Dr. Ritz explained that it is not possible to measure alpha-synuclein pathology in regular blood samples as it is expressed normally in red blood cells, but they are measuring the protein and its more toxic phosphorylated form from exosomes, which contain the waste discarded by cells using technology that determines the origin of these exosomes.

“Alpha-synuclein itself is not a problem. It is the way it misfolds that causes toxicity and disrupts the workings of the cell,” Dr. Ritz added. “In Parkinson’s disease, it is particularly toxic to dopaminergic neurons, and in multiple system atrophy, it is toxic to glial cells, so if we can identify the source of the protein then that could be helpful.”

The study was funded by the National Institutes of Health and the US Army Medical Research Materiel Command. The study authors, Dr. Beck, and Dr. Ritz have disclosed no relevant financial relationships.
 

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

A more than 6-point improvement in Headache Impact Test (HIT-6) total score and a 1-2 category improvement in item-specific scores of HIT-6 appeared to be associated with meaningful change in an individual with chronic migraine, recent research suggests.

Using data from the phase 3 PROMISE-2 study, which evaluated intravenous eptinezumab in doses of 100 mg or 300 mg, or placebo every 12 weeks in 1,072 participants for the prevention of chronic migraine, Carrie R. Houts, PhD, director of psychometrics at the Vector Psychometric Group, in Chapel Hill, N.C., and colleagues determined that their finding of 6-point improvement of HIT-6 total score was consistent with other studies. However, they pointed out that little research has been done in evaluating how item-specific scores of HIT-6 impact individuals with chronic migraine. HIT-6 item scores examine whether individuals with headaches experience severe pain, limit their daily activities, have a desire to lie down, feel too tired to do daily activities, felt “fed up or irritated” because of headaches, and feel their headaches limit concentration on work or daily activities.

“The item-specific responder definitions give clinicians and researchers the ability to evaluate and track the impact of headache on specific item-level areas of patients’ lives. These responder definitions provide practical and easily interpreted results that can be used to evaluate treatment benefits over time and to improve clinician-patients communication focus on improvements in key aspects of functioning in individuals with chronic migraine,” Dr. Houts and colleagues wrote in their study, published in the October issue of Headache.

The 6-point value and the 1-2 category improvement values in item-specific scores, they suggested, could be used as a benchmark to help other clinicians and researchers detect meaningful change in individual patients with chronic migraine. Although the user guide for HIT-6 highlights a 5-point change in the total score as clinically meaningful, the authors of the guide do not provide evidence for why the 5-point value signifies clinically meaningful change, they said.
 

Determining thresholds of clinically meaningful change

In their study, Dr. Houts and colleagues used distribution-based methods to gauge responder values for the HIT-6 total score, while item-specific HIT-6 analyses were measured with Patients’ Global Impression of Change (PGIC), reduction in migraine frequency through monthly migraine days (MMDs), and EuroQol 5 dimensions 5 levels visual analog scale (EQ-5D-5L VAS). The researchers also used HIT-6 values from a literature review and from analyses in PROMISE-2 to calculate “a final chronic migraine-specific responder definition value” between baseline and 12 weeks. Participants in the PROMISE-2 study were mostly women (88.2%) and white (91.0%) with a mean age of 40.5 years.

The literature search revealed responder thresholds for the HIT-6 total score in a range between a decrease of 3 points and 8 points. Within PROMISE-2, the HIT-6 total score responder threshold was found to be between –2.6 and –2.2, which the researchers rounded down to a decrease of 3 points. When taking both sets of responder thresholds into account, the researchers calculated the median responder value as –5.5, which was rounded down to a decrease in 6 points in the HIT-6 total score. “[The estimate] appears most appropriate for discriminating between individuals with chronic migraine who have experienced meaningful change over time and those who have not,” Dr. Houts and colleagues said.

For item-specific HIT-6 scores, the mean score changes were –1 points for categories involving severe pain, limiting activities, lying down, and –2 points for categories involving feeling tired, being fed up or irritated, and limiting concentration.

“Taken together, the current chronic migraine-specific results are consistent with values derived from general headache/migraine samples and suggest that a decrease of 6 points or more on the HIT-6 total score would be considered meaningful to chronic migraine patients,” Dr. Houts and colleagues said. “This would translate to approximately a 4-category change on a single item, change on 2 items of approximately 2 and 3 categories, or a 1-category change on 3 or 4 of the 6 items, depending on the initial category.”

The researchers cautioned that the values outlined in the study “should not be used to determine clinically meaningful difference between treatment groups” and that “future work, similar to that reported here, will identify a chronic migraine-specific clinically meaningful difference between treatment groups value.”
 

A better measure of chronic migraine?

In an interview, J. D. Bartleson Jr., MD, a retired neurologist with the Mayo Clinic in Rochester, Minn., questioned why HIT-6 criteria was used in the initial PROMISE-2 study. “There is not a lot of difference between the significant and insignificant categories. Chronic migraine may be better measured with pain severity and number of headache days per month,” he said.

,“It may be appropriate to use just 1 or 2 symptoms for evaluating a given patient’s headache burden,” in terms of clinical application of the study for neurologists, Dr. Bartleson said. He emphasized that more research is needed.

This study was funded by H. Lundbeck A/S, which also provided funding of medical writing and editorial support for the manuscript. Three authors report being employees of Vector Psychometric Group at the time of the study, and the company received funding from H. Lundbeck A/S for their time conducting study-related research. Three other authors report relationships with pharmaceutical companies, medical societies, government agencies, and industry related to the study in the form of consultancies, advisory board memberships, honoraria, research support, stock or stock options, and employment. Dr. Bartleson reports no relevant conflicts of interest.

SOURCE: Houts C et al. Headache. 2020;60(9):2003-13.

A more than 6-point improvement in Headache Impact Test (HIT-6) total score and a 1-2 category improvement in item-specific scores of HIT-6 appeared to be associated with meaningful change in an individual with chronic migraine, recent research suggests.

Using data from the phase 3 PROMISE-2 study, which evaluated intravenous eptinezumab in doses of 100 mg or 300 mg, or placebo every 12 weeks in 1,072 participants for the prevention of chronic migraine, Carrie R. Houts, PhD, director of psychometrics at the Vector Psychometric Group, in Chapel Hill, N.C., and colleagues determined that their finding of 6-point improvement of HIT-6 total score was consistent with other studies. However, they pointed out that little research has been done in evaluating how item-specific scores of HIT-6 impact individuals with chronic migraine. HIT-6 item scores examine whether individuals with headaches experience severe pain, limit their daily activities, have a desire to lie down, feel too tired to do daily activities, felt “fed up or irritated” because of headaches, and feel their headaches limit concentration on work or daily activities.

“The item-specific responder definitions give clinicians and researchers the ability to evaluate and track the impact of headache on specific item-level areas of patients’ lives. These responder definitions provide practical and easily interpreted results that can be used to evaluate treatment benefits over time and to improve clinician-patients communication focus on improvements in key aspects of functioning in individuals with chronic migraine,” Dr. Houts and colleagues wrote in their study, published in the October issue of Headache.

The 6-point value and the 1-2 category improvement values in item-specific scores, they suggested, could be used as a benchmark to help other clinicians and researchers detect meaningful change in individual patients with chronic migraine. Although the user guide for HIT-6 highlights a 5-point change in the total score as clinically meaningful, the authors of the guide do not provide evidence for why the 5-point value signifies clinically meaningful change, they said.
 

Determining thresholds of clinically meaningful change

In their study, Dr. Houts and colleagues used distribution-based methods to gauge responder values for the HIT-6 total score, while item-specific HIT-6 analyses were measured with Patients’ Global Impression of Change (PGIC), reduction in migraine frequency through monthly migraine days (MMDs), and EuroQol 5 dimensions 5 levels visual analog scale (EQ-5D-5L VAS). The researchers also used HIT-6 values from a literature review and from analyses in PROMISE-2 to calculate “a final chronic migraine-specific responder definition value” between baseline and 12 weeks. Participants in the PROMISE-2 study were mostly women (88.2%) and white (91.0%) with a mean age of 40.5 years.

The literature search revealed responder thresholds for the HIT-6 total score in a range between a decrease of 3 points and 8 points. Within PROMISE-2, the HIT-6 total score responder threshold was found to be between –2.6 and –2.2, which the researchers rounded down to a decrease of 3 points. When taking both sets of responder thresholds into account, the researchers calculated the median responder value as –5.5, which was rounded down to a decrease in 6 points in the HIT-6 total score. “[The estimate] appears most appropriate for discriminating between individuals with chronic migraine who have experienced meaningful change over time and those who have not,” Dr. Houts and colleagues said.

For item-specific HIT-6 scores, the mean score changes were –1 points for categories involving severe pain, limiting activities, lying down, and –2 points for categories involving feeling tired, being fed up or irritated, and limiting concentration.

“Taken together, the current chronic migraine-specific results are consistent with values derived from general headache/migraine samples and suggest that a decrease of 6 points or more on the HIT-6 total score would be considered meaningful to chronic migraine patients,” Dr. Houts and colleagues said. “This would translate to approximately a 4-category change on a single item, change on 2 items of approximately 2 and 3 categories, or a 1-category change on 3 or 4 of the 6 items, depending on the initial category.”

The researchers cautioned that the values outlined in the study “should not be used to determine clinically meaningful difference between treatment groups” and that “future work, similar to that reported here, will identify a chronic migraine-specific clinically meaningful difference between treatment groups value.”
 

A better measure of chronic migraine?

In an interview, J. D. Bartleson Jr., MD, a retired neurologist with the Mayo Clinic in Rochester, Minn., questioned why HIT-6 criteria was used in the initial PROMISE-2 study. “There is not a lot of difference between the significant and insignificant categories. Chronic migraine may be better measured with pain severity and number of headache days per month,” he said.

,“It may be appropriate to use just 1 or 2 symptoms for evaluating a given patient’s headache burden,” in terms of clinical application of the study for neurologists, Dr. Bartleson said. He emphasized that more research is needed.

This study was funded by H. Lundbeck A/S, which also provided funding of medical writing and editorial support for the manuscript. Three authors report being employees of Vector Psychometric Group at the time of the study, and the company received funding from H. Lundbeck A/S for their time conducting study-related research. Three other authors report relationships with pharmaceutical companies, medical societies, government agencies, and industry related to the study in the form of consultancies, advisory board memberships, honoraria, research support, stock or stock options, and employment. Dr. Bartleson reports no relevant conflicts of interest.

SOURCE: Houts C et al. Headache. 2020;60(9):2003-13.

A more than 6-point improvement in Headache Impact Test (HIT-6) total score and a 1-2 category improvement in item-specific scores of HIT-6 appeared to be associated with meaningful change in an individual with chronic migraine, recent research suggests.

Using data from the phase 3 PROMISE-2 study, which evaluated intravenous eptinezumab in doses of 100 mg or 300 mg, or placebo every 12 weeks in 1,072 participants for the prevention of chronic migraine, Carrie R. Houts, PhD, director of psychometrics at the Vector Psychometric Group, in Chapel Hill, N.C., and colleagues determined that their finding of 6-point improvement of HIT-6 total score was consistent with other studies. However, they pointed out that little research has been done in evaluating how item-specific scores of HIT-6 impact individuals with chronic migraine. HIT-6 item scores examine whether individuals with headaches experience severe pain, limit their daily activities, have a desire to lie down, feel too tired to do daily activities, felt “fed up or irritated” because of headaches, and feel their headaches limit concentration on work or daily activities.

“The item-specific responder definitions give clinicians and researchers the ability to evaluate and track the impact of headache on specific item-level areas of patients’ lives. These responder definitions provide practical and easily interpreted results that can be used to evaluate treatment benefits over time and to improve clinician-patients communication focus on improvements in key aspects of functioning in individuals with chronic migraine,” Dr. Houts and colleagues wrote in their study, published in the October issue of Headache.

The 6-point value and the 1-2 category improvement values in item-specific scores, they suggested, could be used as a benchmark to help other clinicians and researchers detect meaningful change in individual patients with chronic migraine. Although the user guide for HIT-6 highlights a 5-point change in the total score as clinically meaningful, the authors of the guide do not provide evidence for why the 5-point value signifies clinically meaningful change, they said.
 

Determining thresholds of clinically meaningful change

In their study, Dr. Houts and colleagues used distribution-based methods to gauge responder values for the HIT-6 total score, while item-specific HIT-6 analyses were measured with Patients’ Global Impression of Change (PGIC), reduction in migraine frequency through monthly migraine days (MMDs), and EuroQol 5 dimensions 5 levels visual analog scale (EQ-5D-5L VAS). The researchers also used HIT-6 values from a literature review and from analyses in PROMISE-2 to calculate “a final chronic migraine-specific responder definition value” between baseline and 12 weeks. Participants in the PROMISE-2 study were mostly women (88.2%) and white (91.0%) with a mean age of 40.5 years.

The literature search revealed responder thresholds for the HIT-6 total score in a range between a decrease of 3 points and 8 points. Within PROMISE-2, the HIT-6 total score responder threshold was found to be between –2.6 and –2.2, which the researchers rounded down to a decrease of 3 points. When taking both sets of responder thresholds into account, the researchers calculated the median responder value as –5.5, which was rounded down to a decrease in 6 points in the HIT-6 total score. “[The estimate] appears most appropriate for discriminating between individuals with chronic migraine who have experienced meaningful change over time and those who have not,” Dr. Houts and colleagues said.

For item-specific HIT-6 scores, the mean score changes were –1 points for categories involving severe pain, limiting activities, lying down, and –2 points for categories involving feeling tired, being fed up or irritated, and limiting concentration.

“Taken together, the current chronic migraine-specific results are consistent with values derived from general headache/migraine samples and suggest that a decrease of 6 points or more on the HIT-6 total score would be considered meaningful to chronic migraine patients,” Dr. Houts and colleagues said. “This would translate to approximately a 4-category change on a single item, change on 2 items of approximately 2 and 3 categories, or a 1-category change on 3 or 4 of the 6 items, depending on the initial category.”

The researchers cautioned that the values outlined in the study “should not be used to determine clinically meaningful difference between treatment groups” and that “future work, similar to that reported here, will identify a chronic migraine-specific clinically meaningful difference between treatment groups value.”
 

A better measure of chronic migraine?

In an interview, J. D. Bartleson Jr., MD, a retired neurologist with the Mayo Clinic in Rochester, Minn., questioned why HIT-6 criteria was used in the initial PROMISE-2 study. “There is not a lot of difference between the significant and insignificant categories. Chronic migraine may be better measured with pain severity and number of headache days per month,” he said.

,“It may be appropriate to use just 1 or 2 symptoms for evaluating a given patient’s headache burden,” in terms of clinical application of the study for neurologists, Dr. Bartleson said. He emphasized that more research is needed.

This study was funded by H. Lundbeck A/S, which also provided funding of medical writing and editorial support for the manuscript. Three authors report being employees of Vector Psychometric Group at the time of the study, and the company received funding from H. Lundbeck A/S for their time conducting study-related research. Three other authors report relationships with pharmaceutical companies, medical societies, government agencies, and industry related to the study in the form of consultancies, advisory board memberships, honoraria, research support, stock or stock options, and employment. Dr. Bartleson reports no relevant conflicts of interest.

SOURCE: Houts C et al. Headache. 2020;60(9):2003-13.

Neurofilament light chain (NfL), a biomarker previously measured in blood or cerebrospinal fluid and used to indicate neurodegeneration, is detectable in the vitreous humor of the eye, opening the door to a potential new method of predicting neurodegenerative disease, new research suggests.

In a study of 77 patients undergoing eye surgery for various conditions, more than 70% had more than 20 pg/mL of NfL in their vitreous humor. Higher levels of NfL were associated with higher levels of other biomarkers known to be associated with Alzheimer’s disease, including amyloid-beta and tau proteins.

“The study had three primary findings,” said lead author Manju L. Subramanian, MD, associate professor of ophthalmology at Boston University.

First, the investigators were able to detect levels of NfL in eye fluid; and second, those levels were not in any way correlated to the patient’s clinical eye condition, Dr. Subramanian said. “The third finding was that we were able to correlate those neurofilament light levels with other markers that have been known to be associated with conditions such as Alzheimer’s disease,” she noted.

For Dr. Subramanian, these findings add to the hypothesis that the eye is an extension of the brain. “This is further evidence that the eye might potentially be a proxy for neurodegenerative diseases,” she said. “So finding neurofilament light chain in the eye demonstrates that the eye is not an isolated organ, and things that happen in the body can affect the eye and vice versa.”

The findings were published online Sept. 17 in Alzheimer’s Research & Therapy.
 

Verge of clinical applicability?

Early diagnosis of neurodegenerative diseases remains a challenge, the investigators noted. As such, there is a palpable need for reliable biomarkers that can help with early diagnosis, prognostic assessment, and measurable response to treatment for Alzheimer’s disease and other neurologic disorders

Recent research has identified NfL as a potential screening tool and some researchers believe it to be on the verge of clinical applicability. In addition, increased levels of the biomarker have been observed in both the cerebrospinal fluid (CSF) and blood of individuals with neurodegeneration and neurological diseases, including Alzheimer’s disease. In previous studies, for example, elevated levels of NfL in CSF and blood have been shown to reliably distinguish between patients with Alzheimer’s disease and healthy volunteers.

Because certain eye diseases have been associated with Alzheimer’s disease in epidemiological studies, they may share common risk factors and pathological mechanisms at the molecular level, the researchers noted. In an earlier study, the current investigators found that cognitive function among patients with eye disease was significantly associated with amyloid-beta and total tau protein levels in the vitreous humor.

Given these connections, the researchers hypothesized that NfL could be identified in the vitreous humor and may be associated with other relevant biomarkers of neuronal origin. “Neurofilament light chain is detectable in the cerebrospinal fluid, but it’s never been tested for detection in the eye,” Dr. Subramanian noted.

In total, vitreous humor samples were collected from 77 unique participants (mean age, 56.2 years; 63% men) as part of the single-center, prospective, cross-sectional cohort study. The researchers aspirated 0.5 to 1.0 ml of undiluted vitreous fluid during vitrectomy, while whole blood was drawn for APOE genotyping.

Immunoassay was used to quantitatively measure for NfL, amyloid-beta, total tau, phosphorylated tau 181 (p-tau181), inflammatory cytokines, chemokines, and vascular proteins in the vitreous humor. The trial’s primary outcome measures were the detection of NfL levels in the vitreous humor, as well as its associations with other proteins.


 

Significant correlations

Results showed that 55 of the 77 participants (71.4%) had at least 20 pg/ml of NfL protein present in the vitreous humor. The median level was 68.65 pg/ml. Statistically significant associations were found between NfL levels in the vitreous humor and Abeta40, Abeta42, and total tau; higher NfL levels were associated with higher levels of all three biomarkers. On the other hand, NfL levels were not positively associated with increased vitreous levels of p-tau181.

Vitreous NfL concentration was significantly associated with inflammatory cytokines, including interleukin-15, interleukin-16, and monocyte chemoattractant protein-1, as well as vascular proteins such as vascular endothelial growth factor receptor-1, VEGF-C, vascular cell adhesion molecule-1, Tie-2, and intracellular adhesion molecular-1.

Despite these findings, NfL in the vitreous humor was not associated with patients’ clinical ophthalmic conditions or systemic diseases such as hypertension, diabetes, and hyperlipidemia. Similarly, NfL was not significantly associated with APOE genotype E2 and E4, the alleles most commonly associated with Alzheimer’s disease.

Finally, no statistically significant associations were found between NfL and Mini-Mental State Examination (MMSE) scores.
 

A “first step”

Most research currently examining the role of the eye in neurodegenerative disease is focused on retinal biomarkers imaged by optical coherence tomography, the investigators noted. Although promising, data obtained this way have yielded conflicting results.

Similarly, while the diagnostic potential of the core CSF biomarkers for AD (Abeta40, Abeta42, p-tau, and total tau) is well established, the practical utility of testing CSF for neurodegenerative diseases is limited, wrote the researchers.

As such, an additional biomarker source such as NfL–which is quantifiable and protein-based within eye fluid – has the potential to play an important role in predicting neurodegenerative disease in the clinical setting, they added.

“The holy grail of neurodegenerative-disease diagnosis is early diagnosis. Because if you can implement treatment early, you can slow down and potentially halt the progression of these diseases,” Dr. Subramanian said.

“This study is the first step toward determining if the eye could play a potential role in early diagnosis of conditions such as Alzheimer’s disease,” she added.

That said, Dr. Subramanian was quick to recognize the findings’ preliminary nature and that they do not offer reliable evidence that vitreous NfL levels definitively represent neurodegeneration. As such, the investigators called for more research to validate the association between this type of biomarker with other established biomarkers of neurodegeneration, such as those found in CSF fluid or on MRI and PET scans.

“At this point, we can’t look at eye fluid and say that people have neurodegenerative diseases,” she noted. “The other thing to consider is that vitreous humor is at the back of the eye, so it’s actually a fairly invasive procedure.

“I think the next step is to look at other types of eye fluids such as the aqueous fluid in the front of the eye, or even tear secretions, potentially,” Dr. Subramanian said.

Other study limitations include the lack of an association between NfL levels and MMSE scores and that none of the study participants were actually diagnosed with Alzheimer’s disease. Validation studies are needed to compare vitreous levels of NfL in patients with mild cognitive impairment/AD to normal controls, the investigators noted.
 

Fascinating but impractical?

Commenting on the findings, Sharon Fekrat, MD, professor of ophthalmology, Duke University, Durham, N.C., agreed that there’s potential importance of the eye in diagnosing neurodegeneration. However, she suggested that vitreous humor may not be the most expedient medium to use.

“I commend the authors for this fascinating work. But practically speaking, if we ultimately want to use intraocular fluid to diagnose Alzheimer’s and perhaps other neurodegeneration, I think aqueous humor might be more practical than the vitreous humor,” said Dr. Fekrat, who was not involved with the research. “What might be even better is to have a device that can be held against the eyeball that measures the levels of various substances inside the eyeball without having to enter the eye,” added Justin Ma, a Duke University medical student working under Dr. Fekrat’s guidance. “It could be similar technology to what’s currently used to measure blood glucose levels,” Mr. Ma added.

The study was supported in part by the National Institute of Aging. Dr. Subramanian, Dr. Fekrat, and Mr. Ma have disclosed no relevant financial relationships. Disclosures for other study authors are listed in the original article.

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

Neurofilament light chain (NfL), a biomarker previously measured in blood or cerebrospinal fluid and used to indicate neurodegeneration, is detectable in the vitreous humor of the eye, opening the door to a potential new method of predicting neurodegenerative disease, new research suggests.

In a study of 77 patients undergoing eye surgery for various conditions, more than 70% had more than 20 pg/mL of NfL in their vitreous humor. Higher levels of NfL were associated with higher levels of other biomarkers known to be associated with Alzheimer’s disease, including amyloid-beta and tau proteins.

“The study had three primary findings,” said lead author Manju L. Subramanian, MD, associate professor of ophthalmology at Boston University.

First, the investigators were able to detect levels of NfL in eye fluid; and second, those levels were not in any way correlated to the patient’s clinical eye condition, Dr. Subramanian said. “The third finding was that we were able to correlate those neurofilament light levels with other markers that have been known to be associated with conditions such as Alzheimer’s disease,” she noted.

For Dr. Subramanian, these findings add to the hypothesis that the eye is an extension of the brain. “This is further evidence that the eye might potentially be a proxy for neurodegenerative diseases,” she said. “So finding neurofilament light chain in the eye demonstrates that the eye is not an isolated organ, and things that happen in the body can affect the eye and vice versa.”

The findings were published online Sept. 17 in Alzheimer’s Research & Therapy.
 

Verge of clinical applicability?

Early diagnosis of neurodegenerative diseases remains a challenge, the investigators noted. As such, there is a palpable need for reliable biomarkers that can help with early diagnosis, prognostic assessment, and measurable response to treatment for Alzheimer’s disease and other neurologic disorders

Recent research has identified NfL as a potential screening tool and some researchers believe it to be on the verge of clinical applicability. In addition, increased levels of the biomarker have been observed in both the cerebrospinal fluid (CSF) and blood of individuals with neurodegeneration and neurological diseases, including Alzheimer’s disease. In previous studies, for example, elevated levels of NfL in CSF and blood have been shown to reliably distinguish between patients with Alzheimer’s disease and healthy volunteers.

Because certain eye diseases have been associated with Alzheimer’s disease in epidemiological studies, they may share common risk factors and pathological mechanisms at the molecular level, the researchers noted. In an earlier study, the current investigators found that cognitive function among patients with eye disease was significantly associated with amyloid-beta and total tau protein levels in the vitreous humor.

Given these connections, the researchers hypothesized that NfL could be identified in the vitreous humor and may be associated with other relevant biomarkers of neuronal origin. “Neurofilament light chain is detectable in the cerebrospinal fluid, but it’s never been tested for detection in the eye,” Dr. Subramanian noted.

In total, vitreous humor samples were collected from 77 unique participants (mean age, 56.2 years; 63% men) as part of the single-center, prospective, cross-sectional cohort study. The researchers aspirated 0.5 to 1.0 ml of undiluted vitreous fluid during vitrectomy, while whole blood was drawn for APOE genotyping.

Immunoassay was used to quantitatively measure for NfL, amyloid-beta, total tau, phosphorylated tau 181 (p-tau181), inflammatory cytokines, chemokines, and vascular proteins in the vitreous humor. The trial’s primary outcome measures were the detection of NfL levels in the vitreous humor, as well as its associations with other proteins.


 

Significant correlations

Results showed that 55 of the 77 participants (71.4%) had at least 20 pg/ml of NfL protein present in the vitreous humor. The median level was 68.65 pg/ml. Statistically significant associations were found between NfL levels in the vitreous humor and Abeta40, Abeta42, and total tau; higher NfL levels were associated with higher levels of all three biomarkers. On the other hand, NfL levels were not positively associated with increased vitreous levels of p-tau181.

Vitreous NfL concentration was significantly associated with inflammatory cytokines, including interleukin-15, interleukin-16, and monocyte chemoattractant protein-1, as well as vascular proteins such as vascular endothelial growth factor receptor-1, VEGF-C, vascular cell adhesion molecule-1, Tie-2, and intracellular adhesion molecular-1.

Despite these findings, NfL in the vitreous humor was not associated with patients’ clinical ophthalmic conditions or systemic diseases such as hypertension, diabetes, and hyperlipidemia. Similarly, NfL was not significantly associated with APOE genotype E2 and E4, the alleles most commonly associated with Alzheimer’s disease.

Finally, no statistically significant associations were found between NfL and Mini-Mental State Examination (MMSE) scores.
 

A “first step”

Most research currently examining the role of the eye in neurodegenerative disease is focused on retinal biomarkers imaged by optical coherence tomography, the investigators noted. Although promising, data obtained this way have yielded conflicting results.

Similarly, while the diagnostic potential of the core CSF biomarkers for AD (Abeta40, Abeta42, p-tau, and total tau) is well established, the practical utility of testing CSF for neurodegenerative diseases is limited, wrote the researchers.

As such, an additional biomarker source such as NfL–which is quantifiable and protein-based within eye fluid – has the potential to play an important role in predicting neurodegenerative disease in the clinical setting, they added.

“The holy grail of neurodegenerative-disease diagnosis is early diagnosis. Because if you can implement treatment early, you can slow down and potentially halt the progression of these diseases,” Dr. Subramanian said.

“This study is the first step toward determining if the eye could play a potential role in early diagnosis of conditions such as Alzheimer’s disease,” she added.

That said, Dr. Subramanian was quick to recognize the findings’ preliminary nature and that they do not offer reliable evidence that vitreous NfL levels definitively represent neurodegeneration. As such, the investigators called for more research to validate the association between this type of biomarker with other established biomarkers of neurodegeneration, such as those found in CSF fluid or on MRI and PET scans.

“At this point, we can’t look at eye fluid and say that people have neurodegenerative diseases,” she noted. “The other thing to consider is that vitreous humor is at the back of the eye, so it’s actually a fairly invasive procedure.

“I think the next step is to look at other types of eye fluids such as the aqueous fluid in the front of the eye, or even tear secretions, potentially,” Dr. Subramanian said.

Other study limitations include the lack of an association between NfL levels and MMSE scores and that none of the study participants were actually diagnosed with Alzheimer’s disease. Validation studies are needed to compare vitreous levels of NfL in patients with mild cognitive impairment/AD to normal controls, the investigators noted.
 

Fascinating but impractical?

Commenting on the findings, Sharon Fekrat, MD, professor of ophthalmology, Duke University, Durham, N.C., agreed that there’s potential importance of the eye in diagnosing neurodegeneration. However, she suggested that vitreous humor may not be the most expedient medium to use.

“I commend the authors for this fascinating work. But practically speaking, if we ultimately want to use intraocular fluid to diagnose Alzheimer’s and perhaps other neurodegeneration, I think aqueous humor might be more practical than the vitreous humor,” said Dr. Fekrat, who was not involved with the research. “What might be even better is to have a device that can be held against the eyeball that measures the levels of various substances inside the eyeball without having to enter the eye,” added Justin Ma, a Duke University medical student working under Dr. Fekrat’s guidance. “It could be similar technology to what’s currently used to measure blood glucose levels,” Mr. Ma added.

The study was supported in part by the National Institute of Aging. Dr. Subramanian, Dr. Fekrat, and Mr. Ma have disclosed no relevant financial relationships. Disclosures for other study authors are listed in the original article.

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

Neurofilament light chain (NfL), a biomarker previously measured in blood or cerebrospinal fluid and used to indicate neurodegeneration, is detectable in the vitreous humor of the eye, opening the door to a potential new method of predicting neurodegenerative disease, new research suggests.

In a study of 77 patients undergoing eye surgery for various conditions, more than 70% had more than 20 pg/mL of NfL in their vitreous humor. Higher levels of NfL were associated with higher levels of other biomarkers known to be associated with Alzheimer’s disease, including amyloid-beta and tau proteins.

“The study had three primary findings,” said lead author Manju L. Subramanian, MD, associate professor of ophthalmology at Boston University.

First, the investigators were able to detect levels of NfL in eye fluid; and second, those levels were not in any way correlated to the patient’s clinical eye condition, Dr. Subramanian said. “The third finding was that we were able to correlate those neurofilament light levels with other markers that have been known to be associated with conditions such as Alzheimer’s disease,” she noted.

For Dr. Subramanian, these findings add to the hypothesis that the eye is an extension of the brain. “This is further evidence that the eye might potentially be a proxy for neurodegenerative diseases,” she said. “So finding neurofilament light chain in the eye demonstrates that the eye is not an isolated organ, and things that happen in the body can affect the eye and vice versa.”

The findings were published online Sept. 17 in Alzheimer’s Research & Therapy.
 

Verge of clinical applicability?

Early diagnosis of neurodegenerative diseases remains a challenge, the investigators noted. As such, there is a palpable need for reliable biomarkers that can help with early diagnosis, prognostic assessment, and measurable response to treatment for Alzheimer’s disease and other neurologic disorders

Recent research has identified NfL as a potential screening tool and some researchers believe it to be on the verge of clinical applicability. In addition, increased levels of the biomarker have been observed in both the cerebrospinal fluid (CSF) and blood of individuals with neurodegeneration and neurological diseases, including Alzheimer’s disease. In previous studies, for example, elevated levels of NfL in CSF and blood have been shown to reliably distinguish between patients with Alzheimer’s disease and healthy volunteers.

Because certain eye diseases have been associated with Alzheimer’s disease in epidemiological studies, they may share common risk factors and pathological mechanisms at the molecular level, the researchers noted. In an earlier study, the current investigators found that cognitive function among patients with eye disease was significantly associated with amyloid-beta and total tau protein levels in the vitreous humor.

Given these connections, the researchers hypothesized that NfL could be identified in the vitreous humor and may be associated with other relevant biomarkers of neuronal origin. “Neurofilament light chain is detectable in the cerebrospinal fluid, but it’s never been tested for detection in the eye,” Dr. Subramanian noted.

In total, vitreous humor samples were collected from 77 unique participants (mean age, 56.2 years; 63% men) as part of the single-center, prospective, cross-sectional cohort study. The researchers aspirated 0.5 to 1.0 ml of undiluted vitreous fluid during vitrectomy, while whole blood was drawn for APOE genotyping.

Immunoassay was used to quantitatively measure for NfL, amyloid-beta, total tau, phosphorylated tau 181 (p-tau181), inflammatory cytokines, chemokines, and vascular proteins in the vitreous humor. The trial’s primary outcome measures were the detection of NfL levels in the vitreous humor, as well as its associations with other proteins.


 

Significant correlations

Results showed that 55 of the 77 participants (71.4%) had at least 20 pg/ml of NfL protein present in the vitreous humor. The median level was 68.65 pg/ml. Statistically significant associations were found between NfL levels in the vitreous humor and Abeta40, Abeta42, and total tau; higher NfL levels were associated with higher levels of all three biomarkers. On the other hand, NfL levels were not positively associated with increased vitreous levels of p-tau181.

Vitreous NfL concentration was significantly associated with inflammatory cytokines, including interleukin-15, interleukin-16, and monocyte chemoattractant protein-1, as well as vascular proteins such as vascular endothelial growth factor receptor-1, VEGF-C, vascular cell adhesion molecule-1, Tie-2, and intracellular adhesion molecular-1.

Despite these findings, NfL in the vitreous humor was not associated with patients’ clinical ophthalmic conditions or systemic diseases such as hypertension, diabetes, and hyperlipidemia. Similarly, NfL was not significantly associated with APOE genotype E2 and E4, the alleles most commonly associated with Alzheimer’s disease.

Finally, no statistically significant associations were found between NfL and Mini-Mental State Examination (MMSE) scores.
 

A “first step”

Most research currently examining the role of the eye in neurodegenerative disease is focused on retinal biomarkers imaged by optical coherence tomography, the investigators noted. Although promising, data obtained this way have yielded conflicting results.

Similarly, while the diagnostic potential of the core CSF biomarkers for AD (Abeta40, Abeta42, p-tau, and total tau) is well established, the practical utility of testing CSF for neurodegenerative diseases is limited, wrote the researchers.

As such, an additional biomarker source such as NfL–which is quantifiable and protein-based within eye fluid – has the potential to play an important role in predicting neurodegenerative disease in the clinical setting, they added.

“The holy grail of neurodegenerative-disease diagnosis is early diagnosis. Because if you can implement treatment early, you can slow down and potentially halt the progression of these diseases,” Dr. Subramanian said.

“This study is the first step toward determining if the eye could play a potential role in early diagnosis of conditions such as Alzheimer’s disease,” she added.

That said, Dr. Subramanian was quick to recognize the findings’ preliminary nature and that they do not offer reliable evidence that vitreous NfL levels definitively represent neurodegeneration. As such, the investigators called for more research to validate the association between this type of biomarker with other established biomarkers of neurodegeneration, such as those found in CSF fluid or on MRI and PET scans.

“At this point, we can’t look at eye fluid and say that people have neurodegenerative diseases,” she noted. “The other thing to consider is that vitreous humor is at the back of the eye, so it’s actually a fairly invasive procedure.

“I think the next step is to look at other types of eye fluids such as the aqueous fluid in the front of the eye, or even tear secretions, potentially,” Dr. Subramanian said.

Other study limitations include the lack of an association between NfL levels and MMSE scores and that none of the study participants were actually diagnosed with Alzheimer’s disease. Validation studies are needed to compare vitreous levels of NfL in patients with mild cognitive impairment/AD to normal controls, the investigators noted.
 

Fascinating but impractical?

Commenting on the findings, Sharon Fekrat, MD, professor of ophthalmology, Duke University, Durham, N.C., agreed that there’s potential importance of the eye in diagnosing neurodegeneration. However, she suggested that vitreous humor may not be the most expedient medium to use.

“I commend the authors for this fascinating work. But practically speaking, if we ultimately want to use intraocular fluid to diagnose Alzheimer’s and perhaps other neurodegeneration, I think aqueous humor might be more practical than the vitreous humor,” said Dr. Fekrat, who was not involved with the research. “What might be even better is to have a device that can be held against the eyeball that measures the levels of various substances inside the eyeball without having to enter the eye,” added Justin Ma, a Duke University medical student working under Dr. Fekrat’s guidance. “It could be similar technology to what’s currently used to measure blood glucose levels,” Mr. Ma added.

The study was supported in part by the National Institute of Aging. Dr. Subramanian, Dr. Fekrat, and Mr. Ma have disclosed no relevant financial relationships. Disclosures for other study authors are listed in the original article.

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

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

Stroke may be the first presenting symptom of COVID-19 in younger patients, new research suggests. Investigators carried out a meta-analysis of data, including 160 patients with COVID-19 and stroke, and found that nearly half of patients under the age of 50 were asymptomatic at the time of stroke onset.

Although younger patients had the highest risk of stroke, the highest risk of death was in patients who were older, had other chronic conditions, and had more severe COVID-19–associated respiratory symptoms.

“One of the most eye-opening findings of this study is that, for patients under 50 years old, many were totally asymptomatic when they had a stroke related to COVID-19, [which] means that, for these patients, the stroke was their first symptom of the disease,” lead author Luciano Sposato, MD, MBA, associate professor and chair in stroke research at Western University, London, Ont.

The study was published online Sept. 15 in Neurology.
 

Anecdotal reports

“In early April of 2020, we realized that COVID-19 was a highly thrombogenic disease,” said Dr. Sposato. “Almost in parallel, I started to see anecdotal reports in social media of strokes occurring in patients with COVID-19, and there were also very few case reports.”

The investigators “thought it would be a good idea to put all the data together in one paper,” he said, and began by conducting a systematic review of 10 published studies of COVID-19 and stroke (n = 125 patients), which were then pooled with 35 unpublished cases from Canada, the United States, and Iran for a total of 160 cases.

The analysis examined in-hospital mortality rates of patients with stroke and COVID-19.

In addition, the researchers conducted a second review of 150 papers, encompassing a final cohort of 3,306 COVID-19 patients with stroke of any type and 5,322 with ischemic stroke.

“Some studies reported data for only ischemic stroke, and some reported data for all strokes considered together, which resulted in a different number of patients on each meta-analysis, with a lower number of ‘any stroke’ cases,” Dr. Sposato explained. “This review looked at the number of patients who developed a stroke during admission and included thousands of patients.”

Dr. Sposato noted that the first review was conducted on single case reports and small case series “to understand the clinical characteristics of strokes in patients with COVID-19 on an individual patient level,” since “large studies, including hundreds of thousands of patients, usually do not provide the level of detail for a descriptive analysis of the clinical characteristics of a disease.”

Cluster analyses were used to “identify specific clinical phenotypes and their relationship with death.” Patients were stratified into three age groups: <50, 50-70, and >70 years (“young,” “middle aged,” and “older,” respectively). The median age was 65 years and 43% were female.
 

Mortality ‘remarkably high’

The review showed that 1.8% (95% confidence interval, 0.9%-3.7%) of patients experienced a new stroke, while 1.5% (95% CI, 0.8%-2.8%) of these experienced an ischemic stroke. “These numbers are higher than historical data for other infectious diseases – for example, 0.75% in SARS-CoV-1, 0.78% in sepsis, and 0.2% in influenza,” Dr. Sposato commented.

Moreover, “this number may be an underestimate, given that many patients die without a confirmed diagnosis and that some patients did not come to the emergency department when experiencing mild symptoms during the first months of the pandemic,” he added.

Focusing on the review of 160 patients, the researchers described in-hospital mortality for strokes of all types and for ischemic strokes alone as “remarkably high” (34.4% [95% CI, 27.2%-42.4%] and 35.7% [95% CI, 27.5%-44.8%], respectively), with most deaths occurring among ischemic stroke patients.

“This high mortality rate is higher than the [roughly] 15% to 30% reported for stroke patients without COVID-19 admitted to intensive care units,” Dr. Sposato said.
 

High-risk phenotype

Many “young” COVID-19 patients (under age 50) who had a stroke (42.9%) had no previous risk factors or comorbidities. Moreover, in almost half of these patients (48.3%), stroke was more likely to occur before the onset of any COVID-19 respiratory symptoms.

Additionally, younger patients showed the highest frequency of elevated cardiac troponin compared with middle-aged and older patients (71.4% vs. 48.4% and 27.8%, respectively). On the other hand, mortality was 67% lower in younger versus older patients (odds ratio, 0.33; 95% CI, 0.12-0.94; P = .039).

Dr. Sposato noted that the proportion of ischemic stroke patients with large-vessel occlusion was “higher than previously reported” for patients with stroke without COVID-19 (47% compared with 29%, respectively).

“We should consider COVID-19 as a new cause or risk factor for stroke. At least, patients with stroke should probably be tested for SARS-CoV-2 infection if they are young and present with a large-vessel occlusion, even in the absence of typical COVID-19 respiratory symptoms,” he suggested.

The researchers identified a “high-risk phenotype” for death for all types of stroke considered together: older age, a higher burden of comorbidities, and severe COVID-19 respiratory symptoms. Patients with all three characteristics had the highest in-hospital mortality rate (58.6%) and a threefold risk of death, compared with the rest of the cohort (OR, 3.52; 95% CI, 1.53-8.09; P = .003).

“Several potential mechanisms can explain the increased risk of stroke among COVID-19 patients, but perhaps the most important one is increased thrombogenesis secondary to an exaggerated inflammatory response,” Dr. Sposato said.
 

Not just elders

Commenting on the study, Jodi Edwards, PhD, director of the Brain and Heart Nexus Research Program at the University of Ottawa Heart Institute, said the findings are “consistent with and underscore public health messaging emphasizing that COVID-19 does not only affect the elderly and those with underlying health conditions, but can have serious and even fatal consequences at any age.”

Dr. Edwards, who was not involved with the study, emphasized that “adherence to public health recommendations is critical to begin to reduce the rising incidence in younger adults.”

Dr. Sposato acknowledged that the study was small and that there “can be problems associated with a systematic review of case reports, such as publication bias, lack of completeness of data, etc, so more research is needed.”

Dr. Sposato is supported by the Kathleen & Dr. Henry Barnett Research Chair in Stroke Research at Western University, the Edward and Alma Saraydar Neurosciences Fund of the London Health Sciences Foundation, and the Opportunities Fund of the Academic Health Sciences Centre Alternative Funding Plan of the Academic Medical Organization of Southwestern Ontario. Dr. Sposato reported speaker honoraria from Boehringer Ingelheim, Pfizer, Gore, and Bayer and research/quality improvement grants from Boehringer Ingelheim and Bayer. The other authors’ disclosures are listed on the original article. Dr. Edwards has disclosed no relevant financial relationships.

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

Among COVID-19 patients who undergo mechanical ventilation, lying in the prone position has been associated with lasting nerve damage. A new case series describes peripheral nerve injuries associated with this type of positioning and suggests ways to minimize the potential damage.

“Physicians should remain aware of increased susceptibility to peripheral nerve damage in patients with severe COVID-19 after prone positioning, since it is surprisingly common among these patients, and should refine standard protocols accordingly to reduce that risk,” said senior author Colin Franz, MD, PhD, director of the Electrodiagnostic Laboratory, Shirley Ryan AbilityLab, Chicago.

The article was published online Sept. 4 in the British Journal of Anaesthesiology.
 

Unique type of nerve injury

Many patients who are admitted to the intensive care unit with COVID-19 undergo invasive mechanical ventilation because of acute respiratory distress syndrome (ARDS). Clinical guidelines recommend that such patients lie in the prone position 12-16 hours per day.

“Prone positioning for up to 16 hours is a therapy we use for patients with more severe forms of ARDS, and high-level evidence points to mortality benefit in patients with moderate to severe ARDS if [mechanical] ventilation occurs,” said study coauthor James McCauley Walter, MD, of the pulmonary division at Northwestern University, Chicago.

With a “significant number of COVID-19 patients flooding the ICU, we quickly started to prone a lot of them, but if you are in a specific position for multiple hours a day, coupled with the neurotoxic effects of the SARS-CoV-2 virus itself, you may be exposed to a unique type of nerve injury,” he said.

Dr. Walter said that the “incidence of asymmetric neuropathies seems out of proportion to what has been reported in non–COVID-19 settings, which is what caught our attention.”

Many of these patients are discharged to rehabilitation hospitals, and “what we noticed, which was unique about COVID-19 patients coming to our rehab hospital, was that, compared with other patients who had been critically ill with a long hospital stay, there was a significantly higher percentage of COVID-19 patients who had peripheral nerve damage,” Dr. Franz said.

The authors described 12 of these patients who were admitted between April 24 and June 30, 2020 (mean age, 60.3 years; range, 23-80 years). The sample included White, Black, and Hispanic individuals. Eleven of the 12 post–COVID-19 patients with peripheral nerve damage had experienced prone positioning during acute management.

The average number of days patients received mechanical ventilation was 33.6 (range, 12-62 days). The average number of proning sessions was 4.5 (range, 1-16) with an average of 81.2 hours (range, 16-252 hours) spent prone.
 

A major contributor

Dr. Franz suggested that prone positioning is likely not the only cause of peripheral nerve damage but “may play a big role in these patients who are vulnerable because of viral infection and the critical illness that causes damage and nerve injuries.”

“The first component of lifesaving care for the critically ill in the ICU is intravenous fluids, mechanical ventilation, steroids, and antibiotics for infection,” said Dr. Walter.

“We are trying to come up with ways to place patients in prone position in safer ways, to pay attention to pressure points and areas of injury that we have seen and try to offload them, to see if we can decrease the rate of these injuries,” he added.

The researchers’ article includes a heat map diagram as a “template for where to focus the most efforts, in terms of decreasing pressure,” Dr. Walter said.

“The nerves are accepting too much force for gravely ill COVID-19 patients to handle, so we suggest using the template to determine where extra padding might be needed, or a protocol that might include changes in positioning,” he added.

Dr. Franz described the interventions used for COVID-19 patients with prone positioning–related peripheral nerve damage. “The first step is trying to address the problems one by one, either trying to solve them through exercise or teaching new skills, new ways to compensate, beginning with basic activities, such as getting out of bed and self-care,” he said.

Long-term recovery of nerve injuries depends on how severe the injuries are. Some nerves can slowly regenerate – possibly at the rate of 1 inch per month – which can be a long process, taking between a year and 18 months.

Dr. Franz said that therapies for this condition are “extrapolated from clinical trial work” on promoting nerve regeneration after surgery using electrical stimulation to enable nerves to regrow at a faster rate.

“Regeneration is not only slow, but it may not happen completely, leaving the patient with permanent nerve damage – in fact, based on our experience and what has been reported, the percentage of patients with full recovery is only 10%,” he said.

The most common symptomatic complaint other than lack of movement or feeling is neuropathic pain, “which may require medication to take the edge off the pain,” Dr. Franz added.
 

Irreversible damage?

Commenting on the study, Tae Chung, MD, of the departments of physical medicine, rehabilitation, and neurology, Johns Hopkins University, Baltimore, said the study “provides one of the first and the largest description of peripheral nerve injury associated with prone positioning for management of ARDS from COVID-19.”

Dr. Chung, who was not involved in the research, noted that “various neurological complications from COVID-19 have been reported, and some of them may result in irreversible neurological damage or delay the recovery from COVID-19 infection,” so “accurate and timely diagnosis of such neurological complications is critical for rehabilitation of the COVID-19 survivors.”

The study received no funding. Dr. Franz, Dr. Walter, study coauthors, and Dr. Chung report no relevant financial relationships.

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

Among COVID-19 patients who undergo mechanical ventilation, lying in the prone position has been associated with lasting nerve damage. A new case series describes peripheral nerve injuries associated with this type of positioning and suggests ways to minimize the potential damage.

“Physicians should remain aware of increased susceptibility to peripheral nerve damage in patients with severe COVID-19 after prone positioning, since it is surprisingly common among these patients, and should refine standard protocols accordingly to reduce that risk,” said senior author Colin Franz, MD, PhD, director of the Electrodiagnostic Laboratory, Shirley Ryan AbilityLab, Chicago.

The article was published online Sept. 4 in the British Journal of Anaesthesiology.
 

Unique type of nerve injury

Many patients who are admitted to the intensive care unit with COVID-19 undergo invasive mechanical ventilation because of acute respiratory distress syndrome (ARDS). Clinical guidelines recommend that such patients lie in the prone position 12-16 hours per day.

“Prone positioning for up to 16 hours is a therapy we use for patients with more severe forms of ARDS, and high-level evidence points to mortality benefit in patients with moderate to severe ARDS if [mechanical] ventilation occurs,” said study coauthor James McCauley Walter, MD, of the pulmonary division at Northwestern University, Chicago.

With a “significant number of COVID-19 patients flooding the ICU, we quickly started to prone a lot of them, but if you are in a specific position for multiple hours a day, coupled with the neurotoxic effects of the SARS-CoV-2 virus itself, you may be exposed to a unique type of nerve injury,” he said.

Dr. Walter said that the “incidence of asymmetric neuropathies seems out of proportion to what has been reported in non–COVID-19 settings, which is what caught our attention.”

Many of these patients are discharged to rehabilitation hospitals, and “what we noticed, which was unique about COVID-19 patients coming to our rehab hospital, was that, compared with other patients who had been critically ill with a long hospital stay, there was a significantly higher percentage of COVID-19 patients who had peripheral nerve damage,” Dr. Franz said.

The authors described 12 of these patients who were admitted between April 24 and June 30, 2020 (mean age, 60.3 years; range, 23-80 years). The sample included White, Black, and Hispanic individuals. Eleven of the 12 post–COVID-19 patients with peripheral nerve damage had experienced prone positioning during acute management.

The average number of days patients received mechanical ventilation was 33.6 (range, 12-62 days). The average number of proning sessions was 4.5 (range, 1-16) with an average of 81.2 hours (range, 16-252 hours) spent prone.
 

A major contributor

Dr. Franz suggested that prone positioning is likely not the only cause of peripheral nerve damage but “may play a big role in these patients who are vulnerable because of viral infection and the critical illness that causes damage and nerve injuries.”

“The first component of lifesaving care for the critically ill in the ICU is intravenous fluids, mechanical ventilation, steroids, and antibiotics for infection,” said Dr. Walter.

“We are trying to come up with ways to place patients in prone position in safer ways, to pay attention to pressure points and areas of injury that we have seen and try to offload them, to see if we can decrease the rate of these injuries,” he added.

The researchers’ article includes a heat map diagram as a “template for where to focus the most efforts, in terms of decreasing pressure,” Dr. Walter said.

“The nerves are accepting too much force for gravely ill COVID-19 patients to handle, so we suggest using the template to determine where extra padding might be needed, or a protocol that might include changes in positioning,” he added.

Dr. Franz described the interventions used for COVID-19 patients with prone positioning–related peripheral nerve damage. “The first step is trying to address the problems one by one, either trying to solve them through exercise or teaching new skills, new ways to compensate, beginning with basic activities, such as getting out of bed and self-care,” he said.

Long-term recovery of nerve injuries depends on how severe the injuries are. Some nerves can slowly regenerate – possibly at the rate of 1 inch per month – which can be a long process, taking between a year and 18 months.

Dr. Franz said that therapies for this condition are “extrapolated from clinical trial work” on promoting nerve regeneration after surgery using electrical stimulation to enable nerves to regrow at a faster rate.

“Regeneration is not only slow, but it may not happen completely, leaving the patient with permanent nerve damage – in fact, based on our experience and what has been reported, the percentage of patients with full recovery is only 10%,” he said.

The most common symptomatic complaint other than lack of movement or feeling is neuropathic pain, “which may require medication to take the edge off the pain,” Dr. Franz added.
 

Irreversible damage?

Commenting on the study, Tae Chung, MD, of the departments of physical medicine, rehabilitation, and neurology, Johns Hopkins University, Baltimore, said the study “provides one of the first and the largest description of peripheral nerve injury associated with prone positioning for management of ARDS from COVID-19.”

Dr. Chung, who was not involved in the research, noted that “various neurological complications from COVID-19 have been reported, and some of them may result in irreversible neurological damage or delay the recovery from COVID-19 infection,” so “accurate and timely diagnosis of such neurological complications is critical for rehabilitation of the COVID-19 survivors.”

The study received no funding. Dr. Franz, Dr. Walter, study coauthors, and Dr. Chung report no relevant financial relationships.

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

Among COVID-19 patients who undergo mechanical ventilation, lying in the prone position has been associated with lasting nerve damage. A new case series describes peripheral nerve injuries associated with this type of positioning and suggests ways to minimize the potential damage.

“Physicians should remain aware of increased susceptibility to peripheral nerve damage in patients with severe COVID-19 after prone positioning, since it is surprisingly common among these patients, and should refine standard protocols accordingly to reduce that risk,” said senior author Colin Franz, MD, PhD, director of the Electrodiagnostic Laboratory, Shirley Ryan AbilityLab, Chicago.

The article was published online Sept. 4 in the British Journal of Anaesthesiology.
 

Unique type of nerve injury

Many patients who are admitted to the intensive care unit with COVID-19 undergo invasive mechanical ventilation because of acute respiratory distress syndrome (ARDS). Clinical guidelines recommend that such patients lie in the prone position 12-16 hours per day.

“Prone positioning for up to 16 hours is a therapy we use for patients with more severe forms of ARDS, and high-level evidence points to mortality benefit in patients with moderate to severe ARDS if [mechanical] ventilation occurs,” said study coauthor James McCauley Walter, MD, of the pulmonary division at Northwestern University, Chicago.

With a “significant number of COVID-19 patients flooding the ICU, we quickly started to prone a lot of them, but if you are in a specific position for multiple hours a day, coupled with the neurotoxic effects of the SARS-CoV-2 virus itself, you may be exposed to a unique type of nerve injury,” he said.

Dr. Walter said that the “incidence of asymmetric neuropathies seems out of proportion to what has been reported in non–COVID-19 settings, which is what caught our attention.”

Many of these patients are discharged to rehabilitation hospitals, and “what we noticed, which was unique about COVID-19 patients coming to our rehab hospital, was that, compared with other patients who had been critically ill with a long hospital stay, there was a significantly higher percentage of COVID-19 patients who had peripheral nerve damage,” Dr. Franz said.

The authors described 12 of these patients who were admitted between April 24 and June 30, 2020 (mean age, 60.3 years; range, 23-80 years). The sample included White, Black, and Hispanic individuals. Eleven of the 12 post–COVID-19 patients with peripheral nerve damage had experienced prone positioning during acute management.

The average number of days patients received mechanical ventilation was 33.6 (range, 12-62 days). The average number of proning sessions was 4.5 (range, 1-16) with an average of 81.2 hours (range, 16-252 hours) spent prone.
 

A major contributor

Dr. Franz suggested that prone positioning is likely not the only cause of peripheral nerve damage but “may play a big role in these patients who are vulnerable because of viral infection and the critical illness that causes damage and nerve injuries.”

“The first component of lifesaving care for the critically ill in the ICU is intravenous fluids, mechanical ventilation, steroids, and antibiotics for infection,” said Dr. Walter.

“We are trying to come up with ways to place patients in prone position in safer ways, to pay attention to pressure points and areas of injury that we have seen and try to offload them, to see if we can decrease the rate of these injuries,” he added.

The researchers’ article includes a heat map diagram as a “template for where to focus the most efforts, in terms of decreasing pressure,” Dr. Walter said.

“The nerves are accepting too much force for gravely ill COVID-19 patients to handle, so we suggest using the template to determine where extra padding might be needed, or a protocol that might include changes in positioning,” he added.

Dr. Franz described the interventions used for COVID-19 patients with prone positioning–related peripheral nerve damage. “The first step is trying to address the problems one by one, either trying to solve them through exercise or teaching new skills, new ways to compensate, beginning with basic activities, such as getting out of bed and self-care,” he said.

Long-term recovery of nerve injuries depends on how severe the injuries are. Some nerves can slowly regenerate – possibly at the rate of 1 inch per month – which can be a long process, taking between a year and 18 months.

Dr. Franz said that therapies for this condition are “extrapolated from clinical trial work” on promoting nerve regeneration after surgery using electrical stimulation to enable nerves to regrow at a faster rate.

“Regeneration is not only slow, but it may not happen completely, leaving the patient with permanent nerve damage – in fact, based on our experience and what has been reported, the percentage of patients with full recovery is only 10%,” he said.

The most common symptomatic complaint other than lack of movement or feeling is neuropathic pain, “which may require medication to take the edge off the pain,” Dr. Franz added.
 

Irreversible damage?

Commenting on the study, Tae Chung, MD, of the departments of physical medicine, rehabilitation, and neurology, Johns Hopkins University, Baltimore, said the study “provides one of the first and the largest description of peripheral nerve injury associated with prone positioning for management of ARDS from COVID-19.”

Dr. Chung, who was not involved in the research, noted that “various neurological complications from COVID-19 have been reported, and some of them may result in irreversible neurological damage or delay the recovery from COVID-19 infection,” so “accurate and timely diagnosis of such neurological complications is critical for rehabilitation of the COVID-19 survivors.”

The study received no funding. Dr. Franz, Dr. Walter, study coauthors, and Dr. Chung report no relevant financial relationships.

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

Over-the-counter (OTC) supplements advertised to improve memory and cognitive function may contain unapproved pharmaceutical drugs in potentially dangerous combinations and dosages, new research shows.

“Americans spend more than $600 million on over-the-counter smart pills every year, but we know very little about what is actually in these products,” said Pieter A. Cohen, MD, of the department of medicine at Harvard Medical School, Boston.

“Finding new combinations of drugs [that have] never been tested in humans in over-the-counter brain-boosting supplements is alarming,” said Dr. Cohen.

The study was published online Sept. 23 in Neurology Clinical Practice, a journal of the American Academy of Neurology.
 

Buyer beware

In a search of the National Institutes of Health Dietary Supplement Label Database and the Natural Medicines Database, Dr. Cohen and colleagues identified 10 supplements labeled as containing omberacetam, aniracetam, phenylpiracetam, or oxiracetam – four analogues of piracetam that are not approved for human use in the United States. Piracetam is also not approved in the United States.

In these 10 products, five unapproved drugs were discovered – omberacetam and aniracetam along with three others (phenibut, vinpocetine and picamilon).

By consuming the recommended serving size of these products, consumers could be exposed to pharmaceutical-level dosages of drugs including a maximum of 40.6 mg omberacetam (typical pharmacologic dose 10 mg), 502 mg of aniracetam (typical pharmacologic dose 200-750 mg), 15.4 mg of phenibut (typical dose 250-500 mg), 4.3 mg of vinpocetine (typical dose 5-40 mg), and 90.1 mg of picamilon (typical  dose 50-200 mg), the study team reported.

Several drugs detected in these “smart” pills were not declared on the label, and several declared drugs were not detected in the products. For those products with drug quantities provided on the labels, three-quarters of declared quantities were inaccurate.

Consumers who use these cognitive enhancers could be exposed to amounts of these unapproved drugs that are fourfold greater than pharmaceutical dosages and combinations never tested in humans, the study team says. One product combined three different unapproved drugs and another product contained four different drugs.

“We have previously shown that these products may contain individual foreign drugs, but in our new study we found complex combinations of foreign drugs, up to four different drugs in a single product,” Dr. Cohen said.

The presence of these unapproved drugs in supplements, including at supratherapeutic dosages, suggests “serious risks to consumers and weaknesses in the regulatory framework under which supplements are permitted to be introduced in the U.S.,” Dr. Cohen and colleagues wrote.

“We should counsel our patients to avoid over-the-counter ‘smart pills’ until we can be assured as to the safety and efficacy of these products,” said Dr. Cohen.
 

Concerning findings

Glen R. Finney, MD, director of the Geisinger Memory and Cognition Program at the Neuroscience Institute, Geisinger Health System, Wilkes-Barre, Penn., said in an interview that two findings are very concerning: the lack of listed ingredients and especially the presence of unlisted drugs at active levels. “What if a person has a sensitivity or allergy to one of the unlisted drugs? This is a safety issue and a consumer issue,” Dr. Finney said.

Despite being widely promoted on television, “over-the-counter supplements are not regulated, so there is no guarantee that they contain what they claim, and there is very little evidence that they help memory and thinking even when they do have the ingredients they claim in the supplement,” said Dr. Finney,

“The best way to stay safe and help memory and thinking is to speak with your health providers about proven treatments that have good safety regulation, so you know what you’re getting, and what you’re getting from it,” Dr. Finney advised.

The study had no targeted funding. Dr. Cohen has collaborated in research with NSF International, received compensation from UptoDate, and received research support from Consumers Union and PEW Charitable Trusts. Dr. Finney has no relevant disclosures.

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

Over-the-counter (OTC) supplements advertised to improve memory and cognitive function may contain unapproved pharmaceutical drugs in potentially dangerous combinations and dosages, new research shows.

“Americans spend more than $600 million on over-the-counter smart pills every year, but we know very little about what is actually in these products,” said Pieter A. Cohen, MD, of the department of medicine at Harvard Medical School, Boston.

“Finding new combinations of drugs [that have] never been tested in humans in over-the-counter brain-boosting supplements is alarming,” said Dr. Cohen.

The study was published online Sept. 23 in Neurology Clinical Practice, a journal of the American Academy of Neurology.
 

Buyer beware

In a search of the National Institutes of Health Dietary Supplement Label Database and the Natural Medicines Database, Dr. Cohen and colleagues identified 10 supplements labeled as containing omberacetam, aniracetam, phenylpiracetam, or oxiracetam – four analogues of piracetam that are not approved for human use in the United States. Piracetam is also not approved in the United States.

In these 10 products, five unapproved drugs were discovered – omberacetam and aniracetam along with three others (phenibut, vinpocetine and picamilon).

By consuming the recommended serving size of these products, consumers could be exposed to pharmaceutical-level dosages of drugs including a maximum of 40.6 mg omberacetam (typical pharmacologic dose 10 mg), 502 mg of aniracetam (typical pharmacologic dose 200-750 mg), 15.4 mg of phenibut (typical dose 250-500 mg), 4.3 mg of vinpocetine (typical dose 5-40 mg), and 90.1 mg of picamilon (typical  dose 50-200 mg), the study team reported.

Several drugs detected in these “smart” pills were not declared on the label, and several declared drugs were not detected in the products. For those products with drug quantities provided on the labels, three-quarters of declared quantities were inaccurate.

Consumers who use these cognitive enhancers could be exposed to amounts of these unapproved drugs that are fourfold greater than pharmaceutical dosages and combinations never tested in humans, the study team says. One product combined three different unapproved drugs and another product contained four different drugs.

“We have previously shown that these products may contain individual foreign drugs, but in our new study we found complex combinations of foreign drugs, up to four different drugs in a single product,” Dr. Cohen said.

The presence of these unapproved drugs in supplements, including at supratherapeutic dosages, suggests “serious risks to consumers and weaknesses in the regulatory framework under which supplements are permitted to be introduced in the U.S.,” Dr. Cohen and colleagues wrote.

“We should counsel our patients to avoid over-the-counter ‘smart pills’ until we can be assured as to the safety and efficacy of these products,” said Dr. Cohen.
 

Concerning findings

Glen R. Finney, MD, director of the Geisinger Memory and Cognition Program at the Neuroscience Institute, Geisinger Health System, Wilkes-Barre, Penn., said in an interview that two findings are very concerning: the lack of listed ingredients and especially the presence of unlisted drugs at active levels. “What if a person has a sensitivity or allergy to one of the unlisted drugs? This is a safety issue and a consumer issue,” Dr. Finney said.

Despite being widely promoted on television, “over-the-counter supplements are not regulated, so there is no guarantee that they contain what they claim, and there is very little evidence that they help memory and thinking even when they do have the ingredients they claim in the supplement,” said Dr. Finney,

“The best way to stay safe and help memory and thinking is to speak with your health providers about proven treatments that have good safety regulation, so you know what you’re getting, and what you’re getting from it,” Dr. Finney advised.

The study had no targeted funding. Dr. Cohen has collaborated in research with NSF International, received compensation from UptoDate, and received research support from Consumers Union and PEW Charitable Trusts. Dr. Finney has no relevant disclosures.

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

Over-the-counter (OTC) supplements advertised to improve memory and cognitive function may contain unapproved pharmaceutical drugs in potentially dangerous combinations and dosages, new research shows.

“Americans spend more than $600 million on over-the-counter smart pills every year, but we know very little about what is actually in these products,” said Pieter A. Cohen, MD, of the department of medicine at Harvard Medical School, Boston.

“Finding new combinations of drugs [that have] never been tested in humans in over-the-counter brain-boosting supplements is alarming,” said Dr. Cohen.

The study was published online Sept. 23 in Neurology Clinical Practice, a journal of the American Academy of Neurology.
 

Buyer beware

In a search of the National Institutes of Health Dietary Supplement Label Database and the Natural Medicines Database, Dr. Cohen and colleagues identified 10 supplements labeled as containing omberacetam, aniracetam, phenylpiracetam, or oxiracetam – four analogues of piracetam that are not approved for human use in the United States. Piracetam is also not approved in the United States.

In these 10 products, five unapproved drugs were discovered – omberacetam and aniracetam along with three others (phenibut, vinpocetine and picamilon).

By consuming the recommended serving size of these products, consumers could be exposed to pharmaceutical-level dosages of drugs including a maximum of 40.6 mg omberacetam (typical pharmacologic dose 10 mg), 502 mg of aniracetam (typical pharmacologic dose 200-750 mg), 15.4 mg of phenibut (typical dose 250-500 mg), 4.3 mg of vinpocetine (typical dose 5-40 mg), and 90.1 mg of picamilon (typical  dose 50-200 mg), the study team reported.

Several drugs detected in these “smart” pills were not declared on the label, and several declared drugs were not detected in the products. For those products with drug quantities provided on the labels, three-quarters of declared quantities were inaccurate.

Consumers who use these cognitive enhancers could be exposed to amounts of these unapproved drugs that are fourfold greater than pharmaceutical dosages and combinations never tested in humans, the study team says. One product combined three different unapproved drugs and another product contained four different drugs.

“We have previously shown that these products may contain individual foreign drugs, but in our new study we found complex combinations of foreign drugs, up to four different drugs in a single product,” Dr. Cohen said.

The presence of these unapproved drugs in supplements, including at supratherapeutic dosages, suggests “serious risks to consumers and weaknesses in the regulatory framework under which supplements are permitted to be introduced in the U.S.,” Dr. Cohen and colleagues wrote.

“We should counsel our patients to avoid over-the-counter ‘smart pills’ until we can be assured as to the safety and efficacy of these products,” said Dr. Cohen.
 

Concerning findings

Glen R. Finney, MD, director of the Geisinger Memory and Cognition Program at the Neuroscience Institute, Geisinger Health System, Wilkes-Barre, Penn., said in an interview that two findings are very concerning: the lack of listed ingredients and especially the presence of unlisted drugs at active levels. “What if a person has a sensitivity or allergy to one of the unlisted drugs? This is a safety issue and a consumer issue,” Dr. Finney said.

Despite being widely promoted on television, “over-the-counter supplements are not regulated, so there is no guarantee that they contain what they claim, and there is very little evidence that they help memory and thinking even when they do have the ingredients they claim in the supplement,” said Dr. Finney,

“The best way to stay safe and help memory and thinking is to speak with your health providers about proven treatments that have good safety regulation, so you know what you’re getting, and what you’re getting from it,” Dr. Finney advised.

The study had no targeted funding. Dr. Cohen has collaborated in research with NSF International, received compensation from UptoDate, and received research support from Consumers Union and PEW Charitable Trusts. Dr. Finney has no relevant disclosures.

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

Serious side effects make up the majority of adverse effects of rituximab and ocrelizumab in patients with multiple sclerosis (MS), a new postmarketing analysis finds, and AE-related deaths were not unusual. Serious AEs, and those linked to death, were more common in the rituximab group, although the reported infection rate was higher in the ocrelizumab group.

The analysis, published Aug. 21 in the Multiple Sclerosis Journal, highlights the importance of monitoring patients for infections and encouraging them to do the same, the authors said.

“This report points out the impact of treatments in terms of unrecognized or underappreciated complications,” said Mark Gudesblatt, MD, medical director of the Comprehensive MS Care Center at South Shore Neurologic Associates in Patchogue, N.Y., who reviewed the study findings. “These medications have a significant downside.”

Lead author Natalia Gonzalez Caldito, MD, of the University of Texas Southwestern Medical Center, Dallas, and colleagues analyzed AEs for the drugs in the Food and Drug Administration’s Adverse Event Reporting System. They only included cases in which the drugs were solely used to treat MS and were indicated as the cause of the AEs.

Rituximab (Rituxan) and ocrelizumab (Ocrevus) are both monoclonal antibodies. Rituximab is not FDA approved for MS but is used off label; ocrelizumab is approved for the relapsing forms of MS and primary progressive MS.

The researchers found 623 AE reports and 1,466 total AEs for rituximab and 7,948 and 23,613, respectively, for ocrelizumab. The average ages for the groups were 48.76 versus 43.89, respectively, (P < .001), and 71% in each group were women.

Among total AEs, serious AEs were more common in the rituximab group versus the ocrelizumab group (64.8% vs. 56.3%, respectively, P < .001). Adverse events that caused death were also more common in the rituximab group versus the ocrelizumab group (5.75% vs. 2.11%, P < .001).

Infections and infestations were more common in the ocrelizumab group than the rituximab group (21.93% vs. 11.05%, respectively, P < .001). However, certain AEs were more common in the rituximab group than the ocrelizumab group: Those in the blood and lymphatic system category (2.86% vs. 0.91%, respectively, P < .001), and those in the neoplasms category (4.02% vs. 1.28%, P < .001, respectively).

Researchers found a highly strong association between rituximab and a rare side effects – ear pruritus (itching, 0.8%). They also identified signals for infusion-related reaction (4.82%), throat irritation (4.01%) and throat tightness (1.44%), malignant melanoma (0.8%), breast cancer (1.77%) and neutropenia (2.57%).

Among the ocrelizumab AEs, researchers found the strongest association with oral herpes (2.21%), and they found other signals for herpes zoster (2.89%), urinary tract infection (10.52%), nasopharyngitis (9.79%), infusion-related reaction (4.76%), throat irritation (3.08%), and notably MS relapses (4.1%).

“Additional pharmacovigilance studies are needed to explore and further characterize these findings,” the researchers wrote. “Furthermore, these observations suggest that the AE profile of other second-generation anti-CD20 [monoclonal antibodies] may also differ from those of rituximab and ocrelizumab.”

Dr. Gudesblatt praised the analysis and said the findings make sense. “Use of B-cell–depleting agents lead to accumulative immune deficiency in routine care, which leads to higher rates of infection,” he said. He added that, “in the clinical trials for ocrelizumab, patients with IgG and IgM deficiency were excluded, but there is no advisement to exclude such patients in real care. The rates of infection in those patients with MS who have preexisting immune deficiencies and who are treated with these agents are unknown.”

The prospect of AEs is especially worrisome, he said, since “this information is only short term. Who knows what effect the prolonged use of unopposed B-cell depletion will have on infections in the long run?”

Neurologist Mitchell Wallin, MD, MPH, of George Washington University, Washington, and the University of Maryland, Baltimore County, said in an interview that the analysis is rigorous and especially useful because it includes a wider array of subjects – including those who are older and sicker – than took part in earlier clinical trials. “It’s really important to look at this real-world evidence,” he said, “and basically put this in the back of your head when you follow up with your patients.”

No study funding was reported. The corresponding author reported various disclosures. Dr. Gudesblatt and Dr. Wallin reported no disclosures.

SOURCE: Gonzalez Caldito N et al. Mult Scler J. 2020 Aug 21. doi: 10.1177/1352458520949986.

Serious side effects make up the majority of adverse effects of rituximab and ocrelizumab in patients with multiple sclerosis (MS), a new postmarketing analysis finds, and AE-related deaths were not unusual. Serious AEs, and those linked to death, were more common in the rituximab group, although the reported infection rate was higher in the ocrelizumab group.

The analysis, published Aug. 21 in the Multiple Sclerosis Journal, highlights the importance of monitoring patients for infections and encouraging them to do the same, the authors said.

“This report points out the impact of treatments in terms of unrecognized or underappreciated complications,” said Mark Gudesblatt, MD, medical director of the Comprehensive MS Care Center at South Shore Neurologic Associates in Patchogue, N.Y., who reviewed the study findings. “These medications have a significant downside.”

Lead author Natalia Gonzalez Caldito, MD, of the University of Texas Southwestern Medical Center, Dallas, and colleagues analyzed AEs for the drugs in the Food and Drug Administration’s Adverse Event Reporting System. They only included cases in which the drugs were solely used to treat MS and were indicated as the cause of the AEs.

Rituximab (Rituxan) and ocrelizumab (Ocrevus) are both monoclonal antibodies. Rituximab is not FDA approved for MS but is used off label; ocrelizumab is approved for the relapsing forms of MS and primary progressive MS.

The researchers found 623 AE reports and 1,466 total AEs for rituximab and 7,948 and 23,613, respectively, for ocrelizumab. The average ages for the groups were 48.76 versus 43.89, respectively, (P < .001), and 71% in each group were women.

Among total AEs, serious AEs were more common in the rituximab group versus the ocrelizumab group (64.8% vs. 56.3%, respectively, P < .001). Adverse events that caused death were also more common in the rituximab group versus the ocrelizumab group (5.75% vs. 2.11%, P < .001).

Infections and infestations were more common in the ocrelizumab group than the rituximab group (21.93% vs. 11.05%, respectively, P < .001). However, certain AEs were more common in the rituximab group than the ocrelizumab group: Those in the blood and lymphatic system category (2.86% vs. 0.91%, respectively, P < .001), and those in the neoplasms category (4.02% vs. 1.28%, P < .001, respectively).

Researchers found a highly strong association between rituximab and a rare side effects – ear pruritus (itching, 0.8%). They also identified signals for infusion-related reaction (4.82%), throat irritation (4.01%) and throat tightness (1.44%), malignant melanoma (0.8%), breast cancer (1.77%) and neutropenia (2.57%).

Among the ocrelizumab AEs, researchers found the strongest association with oral herpes (2.21%), and they found other signals for herpes zoster (2.89%), urinary tract infection (10.52%), nasopharyngitis (9.79%), infusion-related reaction (4.76%), throat irritation (3.08%), and notably MS relapses (4.1%).

“Additional pharmacovigilance studies are needed to explore and further characterize these findings,” the researchers wrote. “Furthermore, these observations suggest that the AE profile of other second-generation anti-CD20 [monoclonal antibodies] may also differ from those of rituximab and ocrelizumab.”

Dr. Gudesblatt praised the analysis and said the findings make sense. “Use of B-cell–depleting agents lead to accumulative immune deficiency in routine care, which leads to higher rates of infection,” he said. He added that, “in the clinical trials for ocrelizumab, patients with IgG and IgM deficiency were excluded, but there is no advisement to exclude such patients in real care. The rates of infection in those patients with MS who have preexisting immune deficiencies and who are treated with these agents are unknown.”

The prospect of AEs is especially worrisome, he said, since “this information is only short term. Who knows what effect the prolonged use of unopposed B-cell depletion will have on infections in the long run?”

Neurologist Mitchell Wallin, MD, MPH, of George Washington University, Washington, and the University of Maryland, Baltimore County, said in an interview that the analysis is rigorous and especially useful because it includes a wider array of subjects – including those who are older and sicker – than took part in earlier clinical trials. “It’s really important to look at this real-world evidence,” he said, “and basically put this in the back of your head when you follow up with your patients.”

No study funding was reported. The corresponding author reported various disclosures. Dr. Gudesblatt and Dr. Wallin reported no disclosures.

SOURCE: Gonzalez Caldito N et al. Mult Scler J. 2020 Aug 21. doi: 10.1177/1352458520949986.

Serious side effects make up the majority of adverse effects of rituximab and ocrelizumab in patients with multiple sclerosis (MS), a new postmarketing analysis finds, and AE-related deaths were not unusual. Serious AEs, and those linked to death, were more common in the rituximab group, although the reported infection rate was higher in the ocrelizumab group.

The analysis, published Aug. 21 in the Multiple Sclerosis Journal, highlights the importance of monitoring patients for infections and encouraging them to do the same, the authors said.

“This report points out the impact of treatments in terms of unrecognized or underappreciated complications,” said Mark Gudesblatt, MD, medical director of the Comprehensive MS Care Center at South Shore Neurologic Associates in Patchogue, N.Y., who reviewed the study findings. “These medications have a significant downside.”

Lead author Natalia Gonzalez Caldito, MD, of the University of Texas Southwestern Medical Center, Dallas, and colleagues analyzed AEs for the drugs in the Food and Drug Administration’s Adverse Event Reporting System. They only included cases in which the drugs were solely used to treat MS and were indicated as the cause of the AEs.

Rituximab (Rituxan) and ocrelizumab (Ocrevus) are both monoclonal antibodies. Rituximab is not FDA approved for MS but is used off label; ocrelizumab is approved for the relapsing forms of MS and primary progressive MS.

The researchers found 623 AE reports and 1,466 total AEs for rituximab and 7,948 and 23,613, respectively, for ocrelizumab. The average ages for the groups were 48.76 versus 43.89, respectively, (P < .001), and 71% in each group were women.

Among total AEs, serious AEs were more common in the rituximab group versus the ocrelizumab group (64.8% vs. 56.3%, respectively, P < .001). Adverse events that caused death were also more common in the rituximab group versus the ocrelizumab group (5.75% vs. 2.11%, P < .001).

Infections and infestations were more common in the ocrelizumab group than the rituximab group (21.93% vs. 11.05%, respectively, P < .001). However, certain AEs were more common in the rituximab group than the ocrelizumab group: Those in the blood and lymphatic system category (2.86% vs. 0.91%, respectively, P < .001), and those in the neoplasms category (4.02% vs. 1.28%, P < .001, respectively).

Researchers found a highly strong association between rituximab and a rare side effects – ear pruritus (itching, 0.8%). They also identified signals for infusion-related reaction (4.82%), throat irritation (4.01%) and throat tightness (1.44%), malignant melanoma (0.8%), breast cancer (1.77%) and neutropenia (2.57%).

Among the ocrelizumab AEs, researchers found the strongest association with oral herpes (2.21%), and they found other signals for herpes zoster (2.89%), urinary tract infection (10.52%), nasopharyngitis (9.79%), infusion-related reaction (4.76%), throat irritation (3.08%), and notably MS relapses (4.1%).

“Additional pharmacovigilance studies are needed to explore and further characterize these findings,” the researchers wrote. “Furthermore, these observations suggest that the AE profile of other second-generation anti-CD20 [monoclonal antibodies] may also differ from those of rituximab and ocrelizumab.”

Dr. Gudesblatt praised the analysis and said the findings make sense. “Use of B-cell–depleting agents lead to accumulative immune deficiency in routine care, which leads to higher rates of infection,” he said. He added that, “in the clinical trials for ocrelizumab, patients with IgG and IgM deficiency were excluded, but there is no advisement to exclude such patients in real care. The rates of infection in those patients with MS who have preexisting immune deficiencies and who are treated with these agents are unknown.”

The prospect of AEs is especially worrisome, he said, since “this information is only short term. Who knows what effect the prolonged use of unopposed B-cell depletion will have on infections in the long run?”

Neurologist Mitchell Wallin, MD, MPH, of George Washington University, Washington, and the University of Maryland, Baltimore County, said in an interview that the analysis is rigorous and especially useful because it includes a wider array of subjects – including those who are older and sicker – than took part in earlier clinical trials. “It’s really important to look at this real-world evidence,” he said, “and basically put this in the back of your head when you follow up with your patients.”

No study funding was reported. The corresponding author reported various disclosures. Dr. Gudesblatt and Dr. Wallin reported no disclosures.

SOURCE: Gonzalez Caldito N et al. Mult Scler J. 2020 Aug 21. doi: 10.1177/1352458520949986.

A novel biomarker could help identify progression in Parkinson’s disease, distinguish it from other neurodegenerative disorders, and monitor response to treatments. Although the biomarker, neurofilament light chain (NfL), is not especially specific, it is the first blood-based biomarker for Parkinson’s disease.

Neurofilaments are components of the neural cytoskeleton, where they maintain structure along with other functions. Following axonal damage, NfL gets released into extracellular fluids. Previously, NfL has been detected in cerebrospinal fluid (CSF) in patients with multiple sclerosis and neurodegenerative dementias. NfL in the CSF can distinguish Parkinson’s disease (PD) from multiple system atrophy and progressive supranuclear palsy.

That’s useful, but a serum marker would open new doors. “An easily accessible biomarker that will serve as an indicator of diagnosis, disease state, and progression, as well as a marker of response to therapeutic intervention is needed. A biomarker will strengthen the ability to select patients for inclusion or stratification within clinical trials,” commented Okeanis Vaou, MD, director of the movement disorders program at St. Elizabeth’s Medical Center in Brighton, Mass. Dr. Vaou was not involved in the study, which was published Aug. 15 in Movement Disorders.
 

A potential biomarker?

To determine if serum NfL levels would correlate with CSF values and had potential as a biomarker, a large, multi-institutional team of researchers led by Brit Mollenhauer, MD, of the University Medical Center Goettingen (Germany), and Danielle Graham, MD, of Biogen, drew data from a prospective, longitudinal, single-center project called the De Novo Parkinson’s disease (DeNoPa) cohort.

The researchers analyzed data from 176 subjects, including drug-naive patients with newly diagnosed PD; age, sex, and education matched healthy controls; and patients who were initially diagnosed with Parkinson’s disease but had their diagnoses changed to a cognate or neurodegenerative disorder (OND). The researchers also drew 514 serum samples from the prospective longitudinal, observational, international multicenter study Parkinson’s Progression Marker Initiative (PPMI) cohort.

In the DeNoPa cohort, OND patients had the highest median CSF NfL levels at baseline (839 pg/mL) followed by PD patients (562 pg/mL) and healthy controls (494 pg/mL; P = .01). There was a strong correlation between CSF and serum NfL levels in a cross-sectional exploratory study with the PPMI cohort.

Age and sex covariates in the PPMI cohort explained 51% of NfL variability. After adjustment for age and sex, baseline median blood NfL levels were highest in the OND group (16.23 pg/mL), followed by the genetic PD group (13.36 pg/mL), prodromal participants (12.20 pg/mL), PD patients (11.73 pg/mL), unaffected mutation carriers (11.63 pg/mL), and healthy controls (11.05 pg/mL; F test P < .0001). Median serum NfL increased by 3.35% per year of age (P < .0001), and median serum NfL was 6.79% higher in women (P = .0002).

Doubling of adjusted serum NfL levels were associated with a median increase in the Movement Disorder Society Unified Parkinson’s Disease Rating Scale total score of 3.45 points (false-discovery rate–adjusted P = .0115), a median decrease in Symbol Digit Modality Test total score of 1.39 (FDR P = .026), a median decrease in Hopkins Verbal Learning Tests with discrimination recognition score of 0.3 (FDR P = .03), and a median decrease in Hopkins Verbal Learning Tests with retention score of 0.029 (FDR P = .04).
 

More specific markers needed

The findings are intriguing, said Dr Vaou, but “we need to acknowledge that increased NfL levels are not specific enough to Parkinson’s disease and reflect neuronal and axonal damage. Therefore, there is a need for more specific markers to support diagnostic accuracy, rate of progression, and ultimate prognosis. A serum NfL assay may be useful to clinicians evaluating patients with PD or OND diagnosis and mitigate the misdiagnosis of atypical PD. NfL may be particularly useful in differentiating PD from cognate disorders such as multiple system atrophy, progressive supranuclear palsy, and dementia with Lewy bodies.”

The current success is the result of large patient databases containing phenotypic data, imaging, and tests of tissue, blood, and cerebrospinal fluid, along with collaborations between advocacy groups, academia, and industry, according to Dr. Vaou. As that work continues, it could uncover more specific biomarkers “that will allow us not only to help with diagnosis and treatment but with disease progression, inclusion, recruitment and stratification in clinical studies, as well as (be an) indicator of response to therapeutic intervention of an investigational drug.”

The study was funded by the Michael J. Fox Foundation for Parkinson’s Research. Dr. Vaou had no relevant financial disclosures.

SOURCE: Mollenhauer B et al. Mov Disord. 2020 Aug 15. doi: 10.1002/mds.28206.

A novel biomarker could help identify progression in Parkinson’s disease, distinguish it from other neurodegenerative disorders, and monitor response to treatments. Although the biomarker, neurofilament light chain (NfL), is not especially specific, it is the first blood-based biomarker for Parkinson’s disease.

Neurofilaments are components of the neural cytoskeleton, where they maintain structure along with other functions. Following axonal damage, NfL gets released into extracellular fluids. Previously, NfL has been detected in cerebrospinal fluid (CSF) in patients with multiple sclerosis and neurodegenerative dementias. NfL in the CSF can distinguish Parkinson’s disease (PD) from multiple system atrophy and progressive supranuclear palsy.

That’s useful, but a serum marker would open new doors. “An easily accessible biomarker that will serve as an indicator of diagnosis, disease state, and progression, as well as a marker of response to therapeutic intervention is needed. A biomarker will strengthen the ability to select patients for inclusion or stratification within clinical trials,” commented Okeanis Vaou, MD, director of the movement disorders program at St. Elizabeth’s Medical Center in Brighton, Mass. Dr. Vaou was not involved in the study, which was published Aug. 15 in Movement Disorders.
 

A potential biomarker?

To determine if serum NfL levels would correlate with CSF values and had potential as a biomarker, a large, multi-institutional team of researchers led by Brit Mollenhauer, MD, of the University Medical Center Goettingen (Germany), and Danielle Graham, MD, of Biogen, drew data from a prospective, longitudinal, single-center project called the De Novo Parkinson’s disease (DeNoPa) cohort.

The researchers analyzed data from 176 subjects, including drug-naive patients with newly diagnosed PD; age, sex, and education matched healthy controls; and patients who were initially diagnosed with Parkinson’s disease but had their diagnoses changed to a cognate or neurodegenerative disorder (OND). The researchers also drew 514 serum samples from the prospective longitudinal, observational, international multicenter study Parkinson’s Progression Marker Initiative (PPMI) cohort.

In the DeNoPa cohort, OND patients had the highest median CSF NfL levels at baseline (839 pg/mL) followed by PD patients (562 pg/mL) and healthy controls (494 pg/mL; P = .01). There was a strong correlation between CSF and serum NfL levels in a cross-sectional exploratory study with the PPMI cohort.

Age and sex covariates in the PPMI cohort explained 51% of NfL variability. After adjustment for age and sex, baseline median blood NfL levels were highest in the OND group (16.23 pg/mL), followed by the genetic PD group (13.36 pg/mL), prodromal participants (12.20 pg/mL), PD patients (11.73 pg/mL), unaffected mutation carriers (11.63 pg/mL), and healthy controls (11.05 pg/mL; F test P < .0001). Median serum NfL increased by 3.35% per year of age (P < .0001), and median serum NfL was 6.79% higher in women (P = .0002).

Doubling of adjusted serum NfL levels were associated with a median increase in the Movement Disorder Society Unified Parkinson’s Disease Rating Scale total score of 3.45 points (false-discovery rate–adjusted P = .0115), a median decrease in Symbol Digit Modality Test total score of 1.39 (FDR P = .026), a median decrease in Hopkins Verbal Learning Tests with discrimination recognition score of 0.3 (FDR P = .03), and a median decrease in Hopkins Verbal Learning Tests with retention score of 0.029 (FDR P = .04).
 

More specific markers needed

The findings are intriguing, said Dr Vaou, but “we need to acknowledge that increased NfL levels are not specific enough to Parkinson’s disease and reflect neuronal and axonal damage. Therefore, there is a need for more specific markers to support diagnostic accuracy, rate of progression, and ultimate prognosis. A serum NfL assay may be useful to clinicians evaluating patients with PD or OND diagnosis and mitigate the misdiagnosis of atypical PD. NfL may be particularly useful in differentiating PD from cognate disorders such as multiple system atrophy, progressive supranuclear palsy, and dementia with Lewy bodies.”

The current success is the result of large patient databases containing phenotypic data, imaging, and tests of tissue, blood, and cerebrospinal fluid, along with collaborations between advocacy groups, academia, and industry, according to Dr. Vaou. As that work continues, it could uncover more specific biomarkers “that will allow us not only to help with diagnosis and treatment but with disease progression, inclusion, recruitment and stratification in clinical studies, as well as (be an) indicator of response to therapeutic intervention of an investigational drug.”

The study was funded by the Michael J. Fox Foundation for Parkinson’s Research. Dr. Vaou had no relevant financial disclosures.

SOURCE: Mollenhauer B et al. Mov Disord. 2020 Aug 15. doi: 10.1002/mds.28206.

A novel biomarker could help identify progression in Parkinson’s disease, distinguish it from other neurodegenerative disorders, and monitor response to treatments. Although the biomarker, neurofilament light chain (NfL), is not especially specific, it is the first blood-based biomarker for Parkinson’s disease.

Neurofilaments are components of the neural cytoskeleton, where they maintain structure along with other functions. Following axonal damage, NfL gets released into extracellular fluids. Previously, NfL has been detected in cerebrospinal fluid (CSF) in patients with multiple sclerosis and neurodegenerative dementias. NfL in the CSF can distinguish Parkinson’s disease (PD) from multiple system atrophy and progressive supranuclear palsy.

That’s useful, but a serum marker would open new doors. “An easily accessible biomarker that will serve as an indicator of diagnosis, disease state, and progression, as well as a marker of response to therapeutic intervention is needed. A biomarker will strengthen the ability to select patients for inclusion or stratification within clinical trials,” commented Okeanis Vaou, MD, director of the movement disorders program at St. Elizabeth’s Medical Center in Brighton, Mass. Dr. Vaou was not involved in the study, which was published Aug. 15 in Movement Disorders.
 

A potential biomarker?

To determine if serum NfL levels would correlate with CSF values and had potential as a biomarker, a large, multi-institutional team of researchers led by Brit Mollenhauer, MD, of the University Medical Center Goettingen (Germany), and Danielle Graham, MD, of Biogen, drew data from a prospective, longitudinal, single-center project called the De Novo Parkinson’s disease (DeNoPa) cohort.

The researchers analyzed data from 176 subjects, including drug-naive patients with newly diagnosed PD; age, sex, and education matched healthy controls; and patients who were initially diagnosed with Parkinson’s disease but had their diagnoses changed to a cognate or neurodegenerative disorder (OND). The researchers also drew 514 serum samples from the prospective longitudinal, observational, international multicenter study Parkinson’s Progression Marker Initiative (PPMI) cohort.

In the DeNoPa cohort, OND patients had the highest median CSF NfL levels at baseline (839 pg/mL) followed by PD patients (562 pg/mL) and healthy controls (494 pg/mL; P = .01). There was a strong correlation between CSF and serum NfL levels in a cross-sectional exploratory study with the PPMI cohort.

Age and sex covariates in the PPMI cohort explained 51% of NfL variability. After adjustment for age and sex, baseline median blood NfL levels were highest in the OND group (16.23 pg/mL), followed by the genetic PD group (13.36 pg/mL), prodromal participants (12.20 pg/mL), PD patients (11.73 pg/mL), unaffected mutation carriers (11.63 pg/mL), and healthy controls (11.05 pg/mL; F test P < .0001). Median serum NfL increased by 3.35% per year of age (P < .0001), and median serum NfL was 6.79% higher in women (P = .0002).

Doubling of adjusted serum NfL levels were associated with a median increase in the Movement Disorder Society Unified Parkinson’s Disease Rating Scale total score of 3.45 points (false-discovery rate–adjusted P = .0115), a median decrease in Symbol Digit Modality Test total score of 1.39 (FDR P = .026), a median decrease in Hopkins Verbal Learning Tests with discrimination recognition score of 0.3 (FDR P = .03), and a median decrease in Hopkins Verbal Learning Tests with retention score of 0.029 (FDR P = .04).
 

More specific markers needed

The findings are intriguing, said Dr Vaou, but “we need to acknowledge that increased NfL levels are not specific enough to Parkinson’s disease and reflect neuronal and axonal damage. Therefore, there is a need for more specific markers to support diagnostic accuracy, rate of progression, and ultimate prognosis. A serum NfL assay may be useful to clinicians evaluating patients with PD or OND diagnosis and mitigate the misdiagnosis of atypical PD. NfL may be particularly useful in differentiating PD from cognate disorders such as multiple system atrophy, progressive supranuclear palsy, and dementia with Lewy bodies.”

The current success is the result of large patient databases containing phenotypic data, imaging, and tests of tissue, blood, and cerebrospinal fluid, along with collaborations between advocacy groups, academia, and industry, according to Dr. Vaou. As that work continues, it could uncover more specific biomarkers “that will allow us not only to help with diagnosis and treatment but with disease progression, inclusion, recruitment and stratification in clinical studies, as well as (be an) indicator of response to therapeutic intervention of an investigational drug.”

The study was funded by the Michael J. Fox Foundation for Parkinson’s Research. Dr. Vaou had no relevant financial disclosures.

SOURCE: Mollenhauer B et al. Mov Disord. 2020 Aug 15. doi: 10.1002/mds.28206.

A new study has found that reducing rituximab dosage from 1,000 mg/6 months to 500 mg/6 months is a safe and stable choice for patients with multiple sclerosis (MS).

“Given its favorable cost-effectiveness profile, [rituximab] remains a valuable treatment option in the current landscape of MS treatments, even at the reduced dose,” wrote Giulio Disanto, MD, PhD, of the Neurocenter of Southern Switzerland in Lugano, and coauthors. The study was published in Multiple Sclerosis Journal.

To determine the clinical and radiologic effectiveness of deescalating rituximab dosage – along with assessing any adverse outcomes – this observational, single-center study examined 59 patients with MS who had been treated with rituximab at 1,000 mg for at least 1 year before the study began. Roughly 63% (n = 37) of the patients had relapsing remitting MS (RRMS), while the rest (n = 22) had secondary progressive disease (SPD). Their median age was 51, and nearly 75% were women.

All patients underwent neurologic examinations at baseline and then every 3 months for 1 year, with new symptoms, infections, or adverse events being assessed via the Expanded Disability Status Scale (EDSS). They also underwent brain and spinal MRI at baseline and at 12 months while blood samples were taken at baseline and then every 3 months for 1 year, with previous data for both collected when available.
 

Study results

All 59 patients completed 12-month follow-up, and no relapses occurred in the year after lowering rituximab dosage to 500 mg. No significant differences were observed when comparing EDSS scores at the start of the 1,000-mg dose with the start of the 500-mg dose (Wilcoxon P = .131) as well as from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .284). Analyzing RRMS and SPD patients separately also led to no differences in EDSS scores from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .531; Wilcoxon P = .408).

During the 1,000-mg treatment period the number of patients who developed at least one new T2 lesion on their brain or spine was 9 and 4, respectively. During the 500-mg period, just one patient developed a new T2 brain lesion and two patients developed new T2 spine lesions. IgG and IgM levels did not change from the start of 500-mg treatment, although total dose of rituximab was inversely associated with IgG concentrations when previous treatment with 1,000 mg was factored in (coefficient, −0.439; P = 0.041).

A total of 33 patients reported at least one adverse event during the 500-mg treatment period, with only three events being classified as serious: one pancreatitis, one coronary stenting, and one neutropenia.
 

Validating clinical experience

“This randomized trial is an important step,” said Timothy Vollmer, MD, of the Rocky Mountain MS Center in Westminster, Colo., in an interview. “It clearly supports that you can lessen the dose, which will allow us to use this revolutionary drug for a longer period of time in patients.”

Dr. Vollmer noted that, at his center, they have been using 500 mg of rituximab over a 6-month period since 2010 without a formal clinical trial and with no notable difference in adverse outcomes on MRIs or disability scales. “This validates what we’ve been doing, which we appreciate,” he said.

“The next thing you have to do is determine whether you really have to give it every 6 months,” he added, “because the treatment effect in most patients will last, in terms of B-cell depletion, about a year or more. What we should be testing next is giving the 500 mg and waiting until patients begin to recover B cells before we give them the next cycle, to see if that helps decrease the major side effect, which is a drop in IgG levels.”

The authors acknowledged their study’s limitations, including a moderate sample size, a short follow-up period after 500-mg dosage, and an inability to confirm consistency among 1,000-mg dose administration among all patients, which “may well influence efficacy and safety measures.”

The study was supported by the Neurocenter of Southern Switzerland. One author declared numerous potential conflicts of interest, including receiving speaker fees, research fees, and travel support, and serving on advisory boards for various foundations, universities, and pharmaceutical companies.

SOURCE: Disanto G et al. Mult Scler J. 2020 Aug 25. doi: 10.1177/1352458520952036.

A new study has found that reducing rituximab dosage from 1,000 mg/6 months to 500 mg/6 months is a safe and stable choice for patients with multiple sclerosis (MS).

“Given its favorable cost-effectiveness profile, [rituximab] remains a valuable treatment option in the current landscape of MS treatments, even at the reduced dose,” wrote Giulio Disanto, MD, PhD, of the Neurocenter of Southern Switzerland in Lugano, and coauthors. The study was published in Multiple Sclerosis Journal.

To determine the clinical and radiologic effectiveness of deescalating rituximab dosage – along with assessing any adverse outcomes – this observational, single-center study examined 59 patients with MS who had been treated with rituximab at 1,000 mg for at least 1 year before the study began. Roughly 63% (n = 37) of the patients had relapsing remitting MS (RRMS), while the rest (n = 22) had secondary progressive disease (SPD). Their median age was 51, and nearly 75% were women.

All patients underwent neurologic examinations at baseline and then every 3 months for 1 year, with new symptoms, infections, or adverse events being assessed via the Expanded Disability Status Scale (EDSS). They also underwent brain and spinal MRI at baseline and at 12 months while blood samples were taken at baseline and then every 3 months for 1 year, with previous data for both collected when available.
 

Study results

All 59 patients completed 12-month follow-up, and no relapses occurred in the year after lowering rituximab dosage to 500 mg. No significant differences were observed when comparing EDSS scores at the start of the 1,000-mg dose with the start of the 500-mg dose (Wilcoxon P = .131) as well as from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .284). Analyzing RRMS and SPD patients separately also led to no differences in EDSS scores from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .531; Wilcoxon P = .408).

During the 1,000-mg treatment period the number of patients who developed at least one new T2 lesion on their brain or spine was 9 and 4, respectively. During the 500-mg period, just one patient developed a new T2 brain lesion and two patients developed new T2 spine lesions. IgG and IgM levels did not change from the start of 500-mg treatment, although total dose of rituximab was inversely associated with IgG concentrations when previous treatment with 1,000 mg was factored in (coefficient, −0.439; P = 0.041).

A total of 33 patients reported at least one adverse event during the 500-mg treatment period, with only three events being classified as serious: one pancreatitis, one coronary stenting, and one neutropenia.
 

Validating clinical experience

“This randomized trial is an important step,” said Timothy Vollmer, MD, of the Rocky Mountain MS Center in Westminster, Colo., in an interview. “It clearly supports that you can lessen the dose, which will allow us to use this revolutionary drug for a longer period of time in patients.”

Dr. Vollmer noted that, at his center, they have been using 500 mg of rituximab over a 6-month period since 2010 without a formal clinical trial and with no notable difference in adverse outcomes on MRIs or disability scales. “This validates what we’ve been doing, which we appreciate,” he said.

“The next thing you have to do is determine whether you really have to give it every 6 months,” he added, “because the treatment effect in most patients will last, in terms of B-cell depletion, about a year or more. What we should be testing next is giving the 500 mg and waiting until patients begin to recover B cells before we give them the next cycle, to see if that helps decrease the major side effect, which is a drop in IgG levels.”

The authors acknowledged their study’s limitations, including a moderate sample size, a short follow-up period after 500-mg dosage, and an inability to confirm consistency among 1,000-mg dose administration among all patients, which “may well influence efficacy and safety measures.”

The study was supported by the Neurocenter of Southern Switzerland. One author declared numerous potential conflicts of interest, including receiving speaker fees, research fees, and travel support, and serving on advisory boards for various foundations, universities, and pharmaceutical companies.

SOURCE: Disanto G et al. Mult Scler J. 2020 Aug 25. doi: 10.1177/1352458520952036.

A new study has found that reducing rituximab dosage from 1,000 mg/6 months to 500 mg/6 months is a safe and stable choice for patients with multiple sclerosis (MS).

“Given its favorable cost-effectiveness profile, [rituximab] remains a valuable treatment option in the current landscape of MS treatments, even at the reduced dose,” wrote Giulio Disanto, MD, PhD, of the Neurocenter of Southern Switzerland in Lugano, and coauthors. The study was published in Multiple Sclerosis Journal.

To determine the clinical and radiologic effectiveness of deescalating rituximab dosage – along with assessing any adverse outcomes – this observational, single-center study examined 59 patients with MS who had been treated with rituximab at 1,000 mg for at least 1 year before the study began. Roughly 63% (n = 37) of the patients had relapsing remitting MS (RRMS), while the rest (n = 22) had secondary progressive disease (SPD). Their median age was 51, and nearly 75% were women.

All patients underwent neurologic examinations at baseline and then every 3 months for 1 year, with new symptoms, infections, or adverse events being assessed via the Expanded Disability Status Scale (EDSS). They also underwent brain and spinal MRI at baseline and at 12 months while blood samples were taken at baseline and then every 3 months for 1 year, with previous data for both collected when available.
 

Study results

All 59 patients completed 12-month follow-up, and no relapses occurred in the year after lowering rituximab dosage to 500 mg. No significant differences were observed when comparing EDSS scores at the start of the 1,000-mg dose with the start of the 500-mg dose (Wilcoxon P = .131) as well as from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .284). Analyzing RRMS and SPD patients separately also led to no differences in EDSS scores from the start of the 500-mg dose to the end of follow-up (Wilcoxon P = .531; Wilcoxon P = .408).

During the 1,000-mg treatment period the number of patients who developed at least one new T2 lesion on their brain or spine was 9 and 4, respectively. During the 500-mg period, just one patient developed a new T2 brain lesion and two patients developed new T2 spine lesions. IgG and IgM levels did not change from the start of 500-mg treatment, although total dose of rituximab was inversely associated with IgG concentrations when previous treatment with 1,000 mg was factored in (coefficient, −0.439; P = 0.041).

A total of 33 patients reported at least one adverse event during the 500-mg treatment period, with only three events being classified as serious: one pancreatitis, one coronary stenting, and one neutropenia.
 

Validating clinical experience

“This randomized trial is an important step,” said Timothy Vollmer, MD, of the Rocky Mountain MS Center in Westminster, Colo., in an interview. “It clearly supports that you can lessen the dose, which will allow us to use this revolutionary drug for a longer period of time in patients.”

Dr. Vollmer noted that, at his center, they have been using 500 mg of rituximab over a 6-month period since 2010 without a formal clinical trial and with no notable difference in adverse outcomes on MRIs or disability scales. “This validates what we’ve been doing, which we appreciate,” he said.

“The next thing you have to do is determine whether you really have to give it every 6 months,” he added, “because the treatment effect in most patients will last, in terms of B-cell depletion, about a year or more. What we should be testing next is giving the 500 mg and waiting until patients begin to recover B cells before we give them the next cycle, to see if that helps decrease the major side effect, which is a drop in IgG levels.”

The authors acknowledged their study’s limitations, including a moderate sample size, a short follow-up period after 500-mg dosage, and an inability to confirm consistency among 1,000-mg dose administration among all patients, which “may well influence efficacy and safety measures.”

The study was supported by the Neurocenter of Southern Switzerland. One author declared numerous potential conflicts of interest, including receiving speaker fees, research fees, and travel support, and serving on advisory boards for various foundations, universities, and pharmaceutical companies.

SOURCE: Disanto G et al. Mult Scler J. 2020 Aug 25. doi: 10.1177/1352458520952036.

Treatment with a fixed-dose combination of sodium phenylbutyrate and taurursodiol (AMX0035, Amylyx Pharmaceuticals) slows the rate of decline in physical function in patients with amyotrophic lateral sclerosis (ALS), according to results of the phase 2/3 CENTAUR study.

Patients with a fast-progressing form of ALS who were treated with AMX0035 “retained higher levels of physical function over 6 months compared with those who received placebo,” reported principal investigator Sabrina Paganoni, MD, PhD, of the Sean M. Healey and AMG Center for ALS at Massachusetts General Hospital, Boston.

“This is very hopeful news for people affected by ALS, especially because we were able to see a treatment effect in a relatively short period of time,” Dr. Paganoni said.

The study was published online Sept. 3 in the New England Journal of Medicine.

In this study, AMX0035 demonstrated a “clinically meaningful benefit and a favorable safety profile for people living with ALS,” Josh Cohen, co-CEO, chairman, and cofounder at Amylyx, said in a news release. The company is “working collaboratively and expeditiously with agencies worldwide to bring this potential new treatment option forward.”

“The data ... makes a clear and compelling case that AMX0035 should be made available to people with ALS as soon as possible,” Calaneet Balas, president and CEO of The ALS Association, said in the release.

The CENTAUR trial

Sodium phenylbutyrate and taurursodiol have been found to reduce neuronal death in experimental models. AMX0035 combines 3 g sodium phenylbutyrate and 1 g of taurursodiol.

The CENTAUR trial tested AMX0035 against placebo in 137 ALS patients with symptom onset within the prior 18 months, with 89 patients in the AMX0035 group and 48 in the placebo group. AMX0035 or matching placebo were administered once daily for 3 weeks and then twice daily for a planned duration of 24 weeks.

In a modified intention-to-treat analysis, the mean rate of change in the Amyotrophic Lateral Sclerosis Functional Rating Scale–Revised (ALSFRS-R) score was −1.24 points per month with AMX0035 and −1.66 points per month with placebo (difference, 0.42 points per month; 95% CI, 0.03 - 0.81; P = .03). After 24 weeks, patients treated with AMX0035 scored on average 2.32 points higher on the ALSFRS-R than their peers on placebo group (P = .03).

“The score, consisting of four subdomains, showed a change that was most prominent for the fine-motor subscale and less apparent for the other subscales,” the investigators said.

Treatment with AMX0035 led to slowing of disease progression in a population in which many participants were receiving riluzole (Tiglutik), edaravone (Radicava) or both, they pointed out.

The secondary outcomes were rate of decline in isometric muscle strength and breathing function; change in plasma phosphorylated axonal neurofilament H subunit (pNF-H) levels; and the time to composite events of death, tracheostomy, permanent ventilation, and hospitalization. These outcomes did not differ significantly between the two groups.

Open-label extension ongoing

AMX0035 was generally well tolerated. Nearly all patients in both groups had one or more adverse events. Events occurring at 2% or greater frequency in the AMX0035 group were primarily gastrointestinal (diarrhea, nausea, salivary hypersecretion, and abdominal discomfort). Serious adverse events were more common in the placebo group (19% vs. 12%). The incidence of respiratory serious adverse events was 8% in the placebo group and 3% in the AMX0035 group.

More patients on active treatment than placebo (19% vs. 8%) stopped the trial regimen early owing to adverse events. The most common adverse events leading to discontinuation of the trial regimen were diarrhea and respiratory failure.

The trial was “too short for us to detect an effect on survival,” Dr. Paganoni said in an interview. Most of the participants who completed the trial elected to enroll in an open-label extension study and receive AMX0035 long-term. “This is important because it will teach us about the impact of AMX0035 on survival,” said Dr. Paganoni.

Interim data from the ongoing open-label extension study are being submitted to a peer-reviewed journal shortly and will be published in the coming months.
 

A cause for hope

“There has been understandable frustration with the slow pace of development of therapy for ALS,” Michael Benatar, MD, PhD, University of Miami, and Michael McDermott, PhD, University of Rochester (N.Y.), said in an accompanying editorial.

“Despite dozens of trials, few pharmacologic agents have emerged that affect functional decline or survival – and all only modestly so. Although the effects of sodium phenylbutyrate–taurursodiol are similarly modest, the incremental gains that they provide in the battle against ALS are a cause for hope,” they wrote.

They caution, however, that this study was enriched for patients with more rapidly progressive disease, which “raises questions about generalizability to the broader population of patients with ALS.

“Although the patients who were enrolled in the trial may not be biologically different from the broader population of patients with ALS, the magnitude of therapeutic effect may be smaller in the latter,” Dr. Benatar and Dr. McDermott noted.

They said that in light of “residual questions about efficacy and the ability of patients to continue taking the drug,” they agree with the authors’ conclusion that “longer and larger trials are needed to evaluate the efficacy and safety of sodium phenylbutyrate–taurursodiol in persons with ALS.”

Given these “tantalizing preliminary data,” Dr. Benatar and Dr. McDermott said they look forward to “a confirmatory phase 3 trial.” 

The study was supported by Amylyx Pharmaceuticals, the ALS Finding a Cure Foundation, and the ALS Association. Dr. Paganoni has received grants from Revalesio, Ra Pharma, Biohaven, Clene, and Prilenia. A complete list of disclosures for authors and editorialists is available with the original article.

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

Treatment with a fixed-dose combination of sodium phenylbutyrate and taurursodiol (AMX0035, Amylyx Pharmaceuticals) slows the rate of decline in physical function in patients with amyotrophic lateral sclerosis (ALS), according to results of the phase 2/3 CENTAUR study.

Patients with a fast-progressing form of ALS who were treated with AMX0035 “retained higher levels of physical function over 6 months compared with those who received placebo,” reported principal investigator Sabrina Paganoni, MD, PhD, of the Sean M. Healey and AMG Center for ALS at Massachusetts General Hospital, Boston.

“This is very hopeful news for people affected by ALS, especially because we were able to see a treatment effect in a relatively short period of time,” Dr. Paganoni said.

The study was published online Sept. 3 in the New England Journal of Medicine.

In this study, AMX0035 demonstrated a “clinically meaningful benefit and a favorable safety profile for people living with ALS,” Josh Cohen, co-CEO, chairman, and cofounder at Amylyx, said in a news release. The company is “working collaboratively and expeditiously with agencies worldwide to bring this potential new treatment option forward.”

“The data ... makes a clear and compelling case that AMX0035 should be made available to people with ALS as soon as possible,” Calaneet Balas, president and CEO of The ALS Association, said in the release.

The CENTAUR trial

Sodium phenylbutyrate and taurursodiol have been found to reduce neuronal death in experimental models. AMX0035 combines 3 g sodium phenylbutyrate and 1 g of taurursodiol.

The CENTAUR trial tested AMX0035 against placebo in 137 ALS patients with symptom onset within the prior 18 months, with 89 patients in the AMX0035 group and 48 in the placebo group. AMX0035 or matching placebo were administered once daily for 3 weeks and then twice daily for a planned duration of 24 weeks.

In a modified intention-to-treat analysis, the mean rate of change in the Amyotrophic Lateral Sclerosis Functional Rating Scale–Revised (ALSFRS-R) score was −1.24 points per month with AMX0035 and −1.66 points per month with placebo (difference, 0.42 points per month; 95% CI, 0.03 - 0.81; P = .03). After 24 weeks, patients treated with AMX0035 scored on average 2.32 points higher on the ALSFRS-R than their peers on placebo group (P = .03).

“The score, consisting of four subdomains, showed a change that was most prominent for the fine-motor subscale and less apparent for the other subscales,” the investigators said.

Treatment with AMX0035 led to slowing of disease progression in a population in which many participants were receiving riluzole (Tiglutik), edaravone (Radicava) or both, they pointed out.

The secondary outcomes were rate of decline in isometric muscle strength and breathing function; change in plasma phosphorylated axonal neurofilament H subunit (pNF-H) levels; and the time to composite events of death, tracheostomy, permanent ventilation, and hospitalization. These outcomes did not differ significantly between the two groups.

Open-label extension ongoing

AMX0035 was generally well tolerated. Nearly all patients in both groups had one or more adverse events. Events occurring at 2% or greater frequency in the AMX0035 group were primarily gastrointestinal (diarrhea, nausea, salivary hypersecretion, and abdominal discomfort). Serious adverse events were more common in the placebo group (19% vs. 12%). The incidence of respiratory serious adverse events was 8% in the placebo group and 3% in the AMX0035 group.

More patients on active treatment than placebo (19% vs. 8%) stopped the trial regimen early owing to adverse events. The most common adverse events leading to discontinuation of the trial regimen were diarrhea and respiratory failure.

The trial was “too short for us to detect an effect on survival,” Dr. Paganoni said in an interview. Most of the participants who completed the trial elected to enroll in an open-label extension study and receive AMX0035 long-term. “This is important because it will teach us about the impact of AMX0035 on survival,” said Dr. Paganoni.

Interim data from the ongoing open-label extension study are being submitted to a peer-reviewed journal shortly and will be published in the coming months.
 

A cause for hope

“There has been understandable frustration with the slow pace of development of therapy for ALS,” Michael Benatar, MD, PhD, University of Miami, and Michael McDermott, PhD, University of Rochester (N.Y.), said in an accompanying editorial.

“Despite dozens of trials, few pharmacologic agents have emerged that affect functional decline or survival – and all only modestly so. Although the effects of sodium phenylbutyrate–taurursodiol are similarly modest, the incremental gains that they provide in the battle against ALS are a cause for hope,” they wrote.

They caution, however, that this study was enriched for patients with more rapidly progressive disease, which “raises questions about generalizability to the broader population of patients with ALS.

“Although the patients who were enrolled in the trial may not be biologically different from the broader population of patients with ALS, the magnitude of therapeutic effect may be smaller in the latter,” Dr. Benatar and Dr. McDermott noted.

They said that in light of “residual questions about efficacy and the ability of patients to continue taking the drug,” they agree with the authors’ conclusion that “longer and larger trials are needed to evaluate the efficacy and safety of sodium phenylbutyrate–taurursodiol in persons with ALS.”

Given these “tantalizing preliminary data,” Dr. Benatar and Dr. McDermott said they look forward to “a confirmatory phase 3 trial.” 

The study was supported by Amylyx Pharmaceuticals, the ALS Finding a Cure Foundation, and the ALS Association. Dr. Paganoni has received grants from Revalesio, Ra Pharma, Biohaven, Clene, and Prilenia. A complete list of disclosures for authors and editorialists is available with the original article.

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

Treatment with a fixed-dose combination of sodium phenylbutyrate and taurursodiol (AMX0035, Amylyx Pharmaceuticals) slows the rate of decline in physical function in patients with amyotrophic lateral sclerosis (ALS), according to results of the phase 2/3 CENTAUR study.

Patients with a fast-progressing form of ALS who were treated with AMX0035 “retained higher levels of physical function over 6 months compared with those who received placebo,” reported principal investigator Sabrina Paganoni, MD, PhD, of the Sean M. Healey and AMG Center for ALS at Massachusetts General Hospital, Boston.

“This is very hopeful news for people affected by ALS, especially because we were able to see a treatment effect in a relatively short period of time,” Dr. Paganoni said.

The study was published online Sept. 3 in the New England Journal of Medicine.

In this study, AMX0035 demonstrated a “clinically meaningful benefit and a favorable safety profile for people living with ALS,” Josh Cohen, co-CEO, chairman, and cofounder at Amylyx, said in a news release. The company is “working collaboratively and expeditiously with agencies worldwide to bring this potential new treatment option forward.”

“The data ... makes a clear and compelling case that AMX0035 should be made available to people with ALS as soon as possible,” Calaneet Balas, president and CEO of The ALS Association, said in the release.

The CENTAUR trial

Sodium phenylbutyrate and taurursodiol have been found to reduce neuronal death in experimental models. AMX0035 combines 3 g sodium phenylbutyrate and 1 g of taurursodiol.

The CENTAUR trial tested AMX0035 against placebo in 137 ALS patients with symptom onset within the prior 18 months, with 89 patients in the AMX0035 group and 48 in the placebo group. AMX0035 or matching placebo were administered once daily for 3 weeks and then twice daily for a planned duration of 24 weeks.

In a modified intention-to-treat analysis, the mean rate of change in the Amyotrophic Lateral Sclerosis Functional Rating Scale–Revised (ALSFRS-R) score was −1.24 points per month with AMX0035 and −1.66 points per month with placebo (difference, 0.42 points per month; 95% CI, 0.03 - 0.81; P = .03). After 24 weeks, patients treated with AMX0035 scored on average 2.32 points higher on the ALSFRS-R than their peers on placebo group (P = .03).

“The score, consisting of four subdomains, showed a change that was most prominent for the fine-motor subscale and less apparent for the other subscales,” the investigators said.

Treatment with AMX0035 led to slowing of disease progression in a population in which many participants were receiving riluzole (Tiglutik), edaravone (Radicava) or both, they pointed out.

The secondary outcomes were rate of decline in isometric muscle strength and breathing function; change in plasma phosphorylated axonal neurofilament H subunit (pNF-H) levels; and the time to composite events of death, tracheostomy, permanent ventilation, and hospitalization. These outcomes did not differ significantly between the two groups.

Open-label extension ongoing

AMX0035 was generally well tolerated. Nearly all patients in both groups had one or more adverse events. Events occurring at 2% or greater frequency in the AMX0035 group were primarily gastrointestinal (diarrhea, nausea, salivary hypersecretion, and abdominal discomfort). Serious adverse events were more common in the placebo group (19% vs. 12%). The incidence of respiratory serious adverse events was 8% in the placebo group and 3% in the AMX0035 group.

More patients on active treatment than placebo (19% vs. 8%) stopped the trial regimen early owing to adverse events. The most common adverse events leading to discontinuation of the trial regimen were diarrhea and respiratory failure.

The trial was “too short for us to detect an effect on survival,” Dr. Paganoni said in an interview. Most of the participants who completed the trial elected to enroll in an open-label extension study and receive AMX0035 long-term. “This is important because it will teach us about the impact of AMX0035 on survival,” said Dr. Paganoni.

Interim data from the ongoing open-label extension study are being submitted to a peer-reviewed journal shortly and will be published in the coming months.
 

A cause for hope

“There has been understandable frustration with the slow pace of development of therapy for ALS,” Michael Benatar, MD, PhD, University of Miami, and Michael McDermott, PhD, University of Rochester (N.Y.), said in an accompanying editorial.

“Despite dozens of trials, few pharmacologic agents have emerged that affect functional decline or survival – and all only modestly so. Although the effects of sodium phenylbutyrate–taurursodiol are similarly modest, the incremental gains that they provide in the battle against ALS are a cause for hope,” they wrote.

They caution, however, that this study was enriched for patients with more rapidly progressive disease, which “raises questions about generalizability to the broader population of patients with ALS.

“Although the patients who were enrolled in the trial may not be biologically different from the broader population of patients with ALS, the magnitude of therapeutic effect may be smaller in the latter,” Dr. Benatar and Dr. McDermott noted.

They said that in light of “residual questions about efficacy and the ability of patients to continue taking the drug,” they agree with the authors’ conclusion that “longer and larger trials are needed to evaluate the efficacy and safety of sodium phenylbutyrate–taurursodiol in persons with ALS.”

Given these “tantalizing preliminary data,” Dr. Benatar and Dr. McDermott said they look forward to “a confirmatory phase 3 trial.” 

The study was supported by Amylyx Pharmaceuticals, the ALS Finding a Cure Foundation, and the ALS Association. Dr. Paganoni has received grants from Revalesio, Ra Pharma, Biohaven, Clene, and Prilenia. A complete list of disclosures for authors and editorialists is available with the original article.

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