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Intranasal third-generation CGRP effective for acute migraine
, new research shows. In a randomized dose-ranging, placebo-controlled, phase 2/3 trial, investigators found both the 10- and 20-mg doses of the drug were associated with pain freedom in more than 20% of patients and alleviated the most bothersome symptom, defined as photophobia, phonophobia, or nausea, in more than 40% of patients.
Most adverse events associated with zavegepant were mild or moderate. The drug is not associated with liver toxicity.
“The intranasal formulation demonstrated some separation on pain relief as early as 15 minutes, though in terms of the statistical hierarchy, those differences were not significant,” said study investigator Richard B. Lipton, MD, professor and vice chair of neurology at Albert Einstein College of Medicine, New York, who presented the findings at the American Academy of Neurology’s 2021 annual meeting.
“Sustained pain freedom was observed from 2 to 48 hours post-dose,” Dr. Lipton added. A phase 3 clinical trial has been initiated to compare the efficacy of the 10-mg dose with that of placebo for the acute treatment of migraine.
Three doses
Zavegepant is the only intranasal CGRP receptor antagonist undergoing late-stage development for the acute treatment of migraine. A previous single ascending dose study suggested the drug provided systemic exposure and had potentially therapeutic effects.
The study included participants age 18 years or older who had a diagnosis of migraine for at least 1 year, had two to eight migraine attacks of moderate or severe intensity and fewer than 15 monthly headache days over the previous 3 months.
The investigators randomly assigned participants in this phase 2/3 trial to placebo or a 5-mg, 10-mg, or 20-mg dose of intranasal zavegepant. Participants treated a single attack of moderate to severe pain with their assigned treatment.
The study’s two primary endpoints were freedom from pain and freedom from the most bothersome symptom at 2 hours after dosing.
The investigators randomly assigned 1,673 participants to treatment. Of this group, 1,588 treated an attack with study medication. The researchers also included 1,581 participants in the modified intention-to-treat population. Of this group, 387 received the 5-mg dose, 391 received the 10-mg dose, 402 received the 20-mg dose, and 401 received placebo.
Pain freedom
The population’s median age was approximately 41 years, 86% of participants were female, and 14% were taking preventive migraine medication. Participants’ mean number of moderate or severe attacks per month was 4.9 overall. The most common most bothersome symptom was photophobia.
The researchers observed a difference in outcome between the active and placebo arms as early as 15 minutes post-dose, but this difference was not statistically significant. At 2 hours, the rate of pain freedom was 15.5% in the placebo group, 22.5% in the 10-mg group (P = .0113), and 23.1% in the 20-mg group (P = .0055). The result for the 5-mg group (19.6%) was not significantly different from that of the placebo group.
The rate of freedom from the most bothersome symptom was 33.7% in the placebo group, 41.9% in the 10-mg group (P = .0155), and 42.5% in the 20-mg group (P = .0094). For this endpoint as well, the result of the 5-mg group (39%) was not significantly different from that among controls.
The most common adverse events were dysgeusia (impaired sense of taste) and nasal discomfort. The rate of dysgeusia ranged from 13.5% to 16.1% in the zavegepant groups, compared with 3.5% among controls. The rate of nasal discomfort ranged from 1.3% to 5.2% in the zavegepant groups, compared with 0.2% among controls. The investigators concluded that intranasal zavegepant had a favorable safety profile.
‘Exciting potential addition’
Commenting on the findings, Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, said: “Zavegepant is an exciting potential addition to rimegepant for the acute care of migraine.”
Many patients like the orally dissolving tablet formulation of rimegepant (Nurtec), but some have nausea and do not absorb oral preparations well, said Dr. Rapoport, who is editor-in-chief of Neurology Reviews and a past president of the International Headache Society. “So, it makes sense to have a gepant, which is not a vasoconstrictor and has few adverse events, developed as a nasal spray.” Nasal preparations often work more quickly than oral preparations, he added.
Other intranasal treatments available for migraine include dihydroergotamine (Migranal), zolmitriptan (Zomig), sumatriptan (Imitrex), and ketorolac (Sprix). It is not possible to compare zavegepant with these medications, or with other CGRP receptor antagonists, because they have not been studied in head-to-head trials, said Dr. Rapoport, who was not involved in the study but has previously consulted for Biohaven Pharmaceuticals, the drug’s manufacturer.
“I would predict a nasal spray would work somewhat faster and better in some patients with nausea or poor absorption, so I would be happy to have it approved and available.”
The current study uses endpoints typically prescribed by the U.S. Food and Drug Administration and includes a large sample size, said Dr. Rapoport.
“During the informed consent [stage], the patients in this trial would be told that there is a 3-in-4 chance that they would be getting an active drug versus placebo, and that often increases the placebo response,” he added. “In this trial, a placebo response of 15.5% is slightly high, but not atypical,” he added.
This study raises the question of whether other acute-care migraine medications should be studied as nasal preparations. “I think the answer is yes,” said Dr. Rapoport. “Fast-acting, effective nasal preparations that are easy to use and cause few adverse events [are] what we need.”
Biohaven Pharmaceuticals sponsored the study. Dr. Lipton has been a consultant for Biohaven, has conducted studies funded by the company, and has stock in the company. Dr. Rapoport has consulted and spoken for Biohaven, but did not participate in the current study.
A version of this article first appeared on Medscape.com.
, new research shows. In a randomized dose-ranging, placebo-controlled, phase 2/3 trial, investigators found both the 10- and 20-mg doses of the drug were associated with pain freedom in more than 20% of patients and alleviated the most bothersome symptom, defined as photophobia, phonophobia, or nausea, in more than 40% of patients.
Most adverse events associated with zavegepant were mild or moderate. The drug is not associated with liver toxicity.
“The intranasal formulation demonstrated some separation on pain relief as early as 15 minutes, though in terms of the statistical hierarchy, those differences were not significant,” said study investigator Richard B. Lipton, MD, professor and vice chair of neurology at Albert Einstein College of Medicine, New York, who presented the findings at the American Academy of Neurology’s 2021 annual meeting.
“Sustained pain freedom was observed from 2 to 48 hours post-dose,” Dr. Lipton added. A phase 3 clinical trial has been initiated to compare the efficacy of the 10-mg dose with that of placebo for the acute treatment of migraine.
Three doses
Zavegepant is the only intranasal CGRP receptor antagonist undergoing late-stage development for the acute treatment of migraine. A previous single ascending dose study suggested the drug provided systemic exposure and had potentially therapeutic effects.
The study included participants age 18 years or older who had a diagnosis of migraine for at least 1 year, had two to eight migraine attacks of moderate or severe intensity and fewer than 15 monthly headache days over the previous 3 months.
The investigators randomly assigned participants in this phase 2/3 trial to placebo or a 5-mg, 10-mg, or 20-mg dose of intranasal zavegepant. Participants treated a single attack of moderate to severe pain with their assigned treatment.
The study’s two primary endpoints were freedom from pain and freedom from the most bothersome symptom at 2 hours after dosing.
The investigators randomly assigned 1,673 participants to treatment. Of this group, 1,588 treated an attack with study medication. The researchers also included 1,581 participants in the modified intention-to-treat population. Of this group, 387 received the 5-mg dose, 391 received the 10-mg dose, 402 received the 20-mg dose, and 401 received placebo.
Pain freedom
The population’s median age was approximately 41 years, 86% of participants were female, and 14% were taking preventive migraine medication. Participants’ mean number of moderate or severe attacks per month was 4.9 overall. The most common most bothersome symptom was photophobia.
The researchers observed a difference in outcome between the active and placebo arms as early as 15 minutes post-dose, but this difference was not statistically significant. At 2 hours, the rate of pain freedom was 15.5% in the placebo group, 22.5% in the 10-mg group (P = .0113), and 23.1% in the 20-mg group (P = .0055). The result for the 5-mg group (19.6%) was not significantly different from that of the placebo group.
The rate of freedom from the most bothersome symptom was 33.7% in the placebo group, 41.9% in the 10-mg group (P = .0155), and 42.5% in the 20-mg group (P = .0094). For this endpoint as well, the result of the 5-mg group (39%) was not significantly different from that among controls.
The most common adverse events were dysgeusia (impaired sense of taste) and nasal discomfort. The rate of dysgeusia ranged from 13.5% to 16.1% in the zavegepant groups, compared with 3.5% among controls. The rate of nasal discomfort ranged from 1.3% to 5.2% in the zavegepant groups, compared with 0.2% among controls. The investigators concluded that intranasal zavegepant had a favorable safety profile.
‘Exciting potential addition’
Commenting on the findings, Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, said: “Zavegepant is an exciting potential addition to rimegepant for the acute care of migraine.”
Many patients like the orally dissolving tablet formulation of rimegepant (Nurtec), but some have nausea and do not absorb oral preparations well, said Dr. Rapoport, who is editor-in-chief of Neurology Reviews and a past president of the International Headache Society. “So, it makes sense to have a gepant, which is not a vasoconstrictor and has few adverse events, developed as a nasal spray.” Nasal preparations often work more quickly than oral preparations, he added.
Other intranasal treatments available for migraine include dihydroergotamine (Migranal), zolmitriptan (Zomig), sumatriptan (Imitrex), and ketorolac (Sprix). It is not possible to compare zavegepant with these medications, or with other CGRP receptor antagonists, because they have not been studied in head-to-head trials, said Dr. Rapoport, who was not involved in the study but has previously consulted for Biohaven Pharmaceuticals, the drug’s manufacturer.
“I would predict a nasal spray would work somewhat faster and better in some patients with nausea or poor absorption, so I would be happy to have it approved and available.”
The current study uses endpoints typically prescribed by the U.S. Food and Drug Administration and includes a large sample size, said Dr. Rapoport.
“During the informed consent [stage], the patients in this trial would be told that there is a 3-in-4 chance that they would be getting an active drug versus placebo, and that often increases the placebo response,” he added. “In this trial, a placebo response of 15.5% is slightly high, but not atypical,” he added.
This study raises the question of whether other acute-care migraine medications should be studied as nasal preparations. “I think the answer is yes,” said Dr. Rapoport. “Fast-acting, effective nasal preparations that are easy to use and cause few adverse events [are] what we need.”
Biohaven Pharmaceuticals sponsored the study. Dr. Lipton has been a consultant for Biohaven, has conducted studies funded by the company, and has stock in the company. Dr. Rapoport has consulted and spoken for Biohaven, but did not participate in the current study.
A version of this article first appeared on Medscape.com.
, new research shows. In a randomized dose-ranging, placebo-controlled, phase 2/3 trial, investigators found both the 10- and 20-mg doses of the drug were associated with pain freedom in more than 20% of patients and alleviated the most bothersome symptom, defined as photophobia, phonophobia, or nausea, in more than 40% of patients.
Most adverse events associated with zavegepant were mild or moderate. The drug is not associated with liver toxicity.
“The intranasal formulation demonstrated some separation on pain relief as early as 15 minutes, though in terms of the statistical hierarchy, those differences were not significant,” said study investigator Richard B. Lipton, MD, professor and vice chair of neurology at Albert Einstein College of Medicine, New York, who presented the findings at the American Academy of Neurology’s 2021 annual meeting.
“Sustained pain freedom was observed from 2 to 48 hours post-dose,” Dr. Lipton added. A phase 3 clinical trial has been initiated to compare the efficacy of the 10-mg dose with that of placebo for the acute treatment of migraine.
Three doses
Zavegepant is the only intranasal CGRP receptor antagonist undergoing late-stage development for the acute treatment of migraine. A previous single ascending dose study suggested the drug provided systemic exposure and had potentially therapeutic effects.
The study included participants age 18 years or older who had a diagnosis of migraine for at least 1 year, had two to eight migraine attacks of moderate or severe intensity and fewer than 15 monthly headache days over the previous 3 months.
The investigators randomly assigned participants in this phase 2/3 trial to placebo or a 5-mg, 10-mg, or 20-mg dose of intranasal zavegepant. Participants treated a single attack of moderate to severe pain with their assigned treatment.
The study’s two primary endpoints were freedom from pain and freedom from the most bothersome symptom at 2 hours after dosing.
The investigators randomly assigned 1,673 participants to treatment. Of this group, 1,588 treated an attack with study medication. The researchers also included 1,581 participants in the modified intention-to-treat population. Of this group, 387 received the 5-mg dose, 391 received the 10-mg dose, 402 received the 20-mg dose, and 401 received placebo.
Pain freedom
The population’s median age was approximately 41 years, 86% of participants were female, and 14% were taking preventive migraine medication. Participants’ mean number of moderate or severe attacks per month was 4.9 overall. The most common most bothersome symptom was photophobia.
The researchers observed a difference in outcome between the active and placebo arms as early as 15 minutes post-dose, but this difference was not statistically significant. At 2 hours, the rate of pain freedom was 15.5% in the placebo group, 22.5% in the 10-mg group (P = .0113), and 23.1% in the 20-mg group (P = .0055). The result for the 5-mg group (19.6%) was not significantly different from that of the placebo group.
The rate of freedom from the most bothersome symptom was 33.7% in the placebo group, 41.9% in the 10-mg group (P = .0155), and 42.5% in the 20-mg group (P = .0094). For this endpoint as well, the result of the 5-mg group (39%) was not significantly different from that among controls.
The most common adverse events were dysgeusia (impaired sense of taste) and nasal discomfort. The rate of dysgeusia ranged from 13.5% to 16.1% in the zavegepant groups, compared with 3.5% among controls. The rate of nasal discomfort ranged from 1.3% to 5.2% in the zavegepant groups, compared with 0.2% among controls. The investigators concluded that intranasal zavegepant had a favorable safety profile.
‘Exciting potential addition’
Commenting on the findings, Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, said: “Zavegepant is an exciting potential addition to rimegepant for the acute care of migraine.”
Many patients like the orally dissolving tablet formulation of rimegepant (Nurtec), but some have nausea and do not absorb oral preparations well, said Dr. Rapoport, who is editor-in-chief of Neurology Reviews and a past president of the International Headache Society. “So, it makes sense to have a gepant, which is not a vasoconstrictor and has few adverse events, developed as a nasal spray.” Nasal preparations often work more quickly than oral preparations, he added.
Other intranasal treatments available for migraine include dihydroergotamine (Migranal), zolmitriptan (Zomig), sumatriptan (Imitrex), and ketorolac (Sprix). It is not possible to compare zavegepant with these medications, or with other CGRP receptor antagonists, because they have not been studied in head-to-head trials, said Dr. Rapoport, who was not involved in the study but has previously consulted for Biohaven Pharmaceuticals, the drug’s manufacturer.
“I would predict a nasal spray would work somewhat faster and better in some patients with nausea or poor absorption, so I would be happy to have it approved and available.”
The current study uses endpoints typically prescribed by the U.S. Food and Drug Administration and includes a large sample size, said Dr. Rapoport.
“During the informed consent [stage], the patients in this trial would be told that there is a 3-in-4 chance that they would be getting an active drug versus placebo, and that often increases the placebo response,” he added. “In this trial, a placebo response of 15.5% is slightly high, but not atypical,” he added.
This study raises the question of whether other acute-care migraine medications should be studied as nasal preparations. “I think the answer is yes,” said Dr. Rapoport. “Fast-acting, effective nasal preparations that are easy to use and cause few adverse events [are] what we need.”
Biohaven Pharmaceuticals sponsored the study. Dr. Lipton has been a consultant for Biohaven, has conducted studies funded by the company, and has stock in the company. Dr. Rapoport has consulted and spoken for Biohaven, but did not participate in the current study.
A version of this article first appeared on Medscape.com.
From AAN 2021
Evobrutinib may lower nerve damage biomarker levels
(MS), based on how it’s been found to lower levels of a key blood biomarker, according to a post hoc analysis of a placebo-controlled clinical trial reported at the American Academy of Neurology’s 2021 annual meeting.
Jens Kuhle, MD, of the department of biomedicine at University Hospital Basel, Switzerland, said the conclusion was based on reductions in blood levels of neurofilament light chain (NfL), a biomarker of neuroaxonal damage, in treated patients. “These data on the effect of evobrutinib on NfL dynamics are the first to be reported for a BTK inhibitor investigated for MS,” Dr. Kuhle said. Evobrutinib targets beta cells and myeloid cells, including macrophages and microglia, to disrupt NfL production.
The analysis consisted of three treatment arms in addition to the placebo arm: 25 and 75 mg daily, and 75 mg twice daily. The post hoc analysis included 166 patients across all arms, with 148 being evaluated at week 24.
Dr. Kuhle said the 75-mg twice-daily group exhibited significantly lower blood NfL levels as early as week 12 with lowered levels maintained to week 24, the last time point the study evaluated – specifically reductions of 18.9% (P = .01) and 16.8% (P = .040) compared with placebo, respectively.
However, the 75-mg once daily dose also showed meaningful reductions when compared with placebo: 15.4% (P = .043) and 14.1% (P = .10) at 12 and 24 weeks, respectively, Dr. Kuhle said. “There were no significant differences seen with the 25-mg once-daily group,” he said.
“These results are promising and indicate evobrutinib at an efficacious dose of 75 mg twice daily has a beneficial effect on reducing neuroaxonal damage in MS,” he said.
In an interview, Dr. Kuhle explained the importance of lower NfL levels. “The hope is that detecting subclinical disease activity in a sensitive and comprehensive way will lead to more effective treatment of the individual MS patient,” he said.
The findings may also inform future studies of evobrutinib in MS, he said. “Neurofilaments and neurons are the key substrate of permanent disability in MS and other neurodegenerative diseases,” Dr. Kuhle said. “It is anticipated that normalization of NfL to levels in same-age healthy controls should be the adequate treatment target for individual patients.”
NfL could be an “easily accessible and modifiable biomarker” for use in clinical trials of relapsing and progressive MS, he said. The researchers plan to use NfL measurements in the extension phase of the trial.
“An important next step is the development of reliable and age-adjusted reference values for NfL measurements in blood to move this biomarker further toward individual application in clinical practice,” he added, noting that his group has already collected more than 10,000 serum samples from more than 5,000 healthy controls to do that.
The analysis adds to the growing body of evidence supporting the use of blood NfL levels to gauge the effectiveness of disease-modifying therapies on neuroaxonal degeneration in MS, said Fredrik Piehl, MD, PhD, a professor at Karolinska University Hospital in Stockholm.
“However,” he added, “this is a short-term phase 2 trial lacking an active comparator. Inhibitors of BTK have been suggested to have a dual action, acting both in the periphery on the adaptive immune response, but also ameliorating local brain tissue inflammation.”
Additional studies with longer duration, active comparators and advanced neuroimaging will be needed to validate the effect of BTKs on NfL levels in MS, Dr. Piehl said.
The study was sponsored by EMD Serono Research and Development Institute, a Merck affiliate. Dr. Kuhle has no relevant financial relationships to disclose. Dr. Piehl reported financial relationships with Biogen, Novartis, Sanofi, Merck, Actelion, Alexion, Argenx, Roche/Genentech, Genzyme, UCB and Parexel.
(MS), based on how it’s been found to lower levels of a key blood biomarker, according to a post hoc analysis of a placebo-controlled clinical trial reported at the American Academy of Neurology’s 2021 annual meeting.
Jens Kuhle, MD, of the department of biomedicine at University Hospital Basel, Switzerland, said the conclusion was based on reductions in blood levels of neurofilament light chain (NfL), a biomarker of neuroaxonal damage, in treated patients. “These data on the effect of evobrutinib on NfL dynamics are the first to be reported for a BTK inhibitor investigated for MS,” Dr. Kuhle said. Evobrutinib targets beta cells and myeloid cells, including macrophages and microglia, to disrupt NfL production.
The analysis consisted of three treatment arms in addition to the placebo arm: 25 and 75 mg daily, and 75 mg twice daily. The post hoc analysis included 166 patients across all arms, with 148 being evaluated at week 24.
Dr. Kuhle said the 75-mg twice-daily group exhibited significantly lower blood NfL levels as early as week 12 with lowered levels maintained to week 24, the last time point the study evaluated – specifically reductions of 18.9% (P = .01) and 16.8% (P = .040) compared with placebo, respectively.
However, the 75-mg once daily dose also showed meaningful reductions when compared with placebo: 15.4% (P = .043) and 14.1% (P = .10) at 12 and 24 weeks, respectively, Dr. Kuhle said. “There were no significant differences seen with the 25-mg once-daily group,” he said.
“These results are promising and indicate evobrutinib at an efficacious dose of 75 mg twice daily has a beneficial effect on reducing neuroaxonal damage in MS,” he said.
In an interview, Dr. Kuhle explained the importance of lower NfL levels. “The hope is that detecting subclinical disease activity in a sensitive and comprehensive way will lead to more effective treatment of the individual MS patient,” he said.
The findings may also inform future studies of evobrutinib in MS, he said. “Neurofilaments and neurons are the key substrate of permanent disability in MS and other neurodegenerative diseases,” Dr. Kuhle said. “It is anticipated that normalization of NfL to levels in same-age healthy controls should be the adequate treatment target for individual patients.”
NfL could be an “easily accessible and modifiable biomarker” for use in clinical trials of relapsing and progressive MS, he said. The researchers plan to use NfL measurements in the extension phase of the trial.
“An important next step is the development of reliable and age-adjusted reference values for NfL measurements in blood to move this biomarker further toward individual application in clinical practice,” he added, noting that his group has already collected more than 10,000 serum samples from more than 5,000 healthy controls to do that.
The analysis adds to the growing body of evidence supporting the use of blood NfL levels to gauge the effectiveness of disease-modifying therapies on neuroaxonal degeneration in MS, said Fredrik Piehl, MD, PhD, a professor at Karolinska University Hospital in Stockholm.
“However,” he added, “this is a short-term phase 2 trial lacking an active comparator. Inhibitors of BTK have been suggested to have a dual action, acting both in the periphery on the adaptive immune response, but also ameliorating local brain tissue inflammation.”
Additional studies with longer duration, active comparators and advanced neuroimaging will be needed to validate the effect of BTKs on NfL levels in MS, Dr. Piehl said.
The study was sponsored by EMD Serono Research and Development Institute, a Merck affiliate. Dr. Kuhle has no relevant financial relationships to disclose. Dr. Piehl reported financial relationships with Biogen, Novartis, Sanofi, Merck, Actelion, Alexion, Argenx, Roche/Genentech, Genzyme, UCB and Parexel.
(MS), based on how it’s been found to lower levels of a key blood biomarker, according to a post hoc analysis of a placebo-controlled clinical trial reported at the American Academy of Neurology’s 2021 annual meeting.
Jens Kuhle, MD, of the department of biomedicine at University Hospital Basel, Switzerland, said the conclusion was based on reductions in blood levels of neurofilament light chain (NfL), a biomarker of neuroaxonal damage, in treated patients. “These data on the effect of evobrutinib on NfL dynamics are the first to be reported for a BTK inhibitor investigated for MS,” Dr. Kuhle said. Evobrutinib targets beta cells and myeloid cells, including macrophages and microglia, to disrupt NfL production.
The analysis consisted of three treatment arms in addition to the placebo arm: 25 and 75 mg daily, and 75 mg twice daily. The post hoc analysis included 166 patients across all arms, with 148 being evaluated at week 24.
Dr. Kuhle said the 75-mg twice-daily group exhibited significantly lower blood NfL levels as early as week 12 with lowered levels maintained to week 24, the last time point the study evaluated – specifically reductions of 18.9% (P = .01) and 16.8% (P = .040) compared with placebo, respectively.
However, the 75-mg once daily dose also showed meaningful reductions when compared with placebo: 15.4% (P = .043) and 14.1% (P = .10) at 12 and 24 weeks, respectively, Dr. Kuhle said. “There were no significant differences seen with the 25-mg once-daily group,” he said.
“These results are promising and indicate evobrutinib at an efficacious dose of 75 mg twice daily has a beneficial effect on reducing neuroaxonal damage in MS,” he said.
In an interview, Dr. Kuhle explained the importance of lower NfL levels. “The hope is that detecting subclinical disease activity in a sensitive and comprehensive way will lead to more effective treatment of the individual MS patient,” he said.
The findings may also inform future studies of evobrutinib in MS, he said. “Neurofilaments and neurons are the key substrate of permanent disability in MS and other neurodegenerative diseases,” Dr. Kuhle said. “It is anticipated that normalization of NfL to levels in same-age healthy controls should be the adequate treatment target for individual patients.”
NfL could be an “easily accessible and modifiable biomarker” for use in clinical trials of relapsing and progressive MS, he said. The researchers plan to use NfL measurements in the extension phase of the trial.
“An important next step is the development of reliable and age-adjusted reference values for NfL measurements in blood to move this biomarker further toward individual application in clinical practice,” he added, noting that his group has already collected more than 10,000 serum samples from more than 5,000 healthy controls to do that.
The analysis adds to the growing body of evidence supporting the use of blood NfL levels to gauge the effectiveness of disease-modifying therapies on neuroaxonal degeneration in MS, said Fredrik Piehl, MD, PhD, a professor at Karolinska University Hospital in Stockholm.
“However,” he added, “this is a short-term phase 2 trial lacking an active comparator. Inhibitors of BTK have been suggested to have a dual action, acting both in the periphery on the adaptive immune response, but also ameliorating local brain tissue inflammation.”
Additional studies with longer duration, active comparators and advanced neuroimaging will be needed to validate the effect of BTKs on NfL levels in MS, Dr. Piehl said.
The study was sponsored by EMD Serono Research and Development Institute, a Merck affiliate. Dr. Kuhle has no relevant financial relationships to disclose. Dr. Piehl reported financial relationships with Biogen, Novartis, Sanofi, Merck, Actelion, Alexion, Argenx, Roche/Genentech, Genzyme, UCB and Parexel.
FROM AAN 2021
Cannabis for migraine strongly linked to rebound headache
, preliminary research suggests, although the direction of the relationship is unclear. Researchers at Stanford (Calif.) University found a significant increase in the likelihood of medication overuse headache (rebound headache) in chronic migraine patients who use cannabis.
“This study shows that there is some kind of association between cannabis use and medication overuse headache in people with chronic migraine,” said lead investigator Niushen Zhang, MD, a clinical assistant professor at Stanford.
“But it is unclear at this time whether patients are using cannabis to treat medication overuse headache or if cannabis is contributing to the development medication overuse headache, or both,” she said.
The findings were presented at the American Academy of Neurology’s 2021 annual meeting.
Sixfold increase
“Medication overuse occurs in about 1% to 3% of the general population. It affects nearly one-third of the patients (mostly patients with chronic migraine) seen at tertiary care centers such as the Stanford Headache Center,” Dr. Zhang said.
From clinical observations, patients with chronic migraine and medication overuse headache appear to be concomitantly using cannabis products, yet there is currently very little research on this topic, she added.
To investigate, the researchers reviewed the records of 368 adults who experienced chronic migraine (15 or more migraine days per month) for at least 1 year. Of the 368 patients, 150 were using cannabis, and 218 were not. In addition, 212 had medication overuse headache, and 156 did not.
Results showed that patients who used cannabis were nearly six times more likely to have medication overuse headache than those who did not use cannabis (odds ratio, 5.99; 95% confidence interval, 3.45-10.43; P < .0001).
There were significant bidirectional relationships between current cannabis use, opioid use, and medication overuse headache.
Jury out on cannabis for migraine
Commenting on the findings, Teshamae Monteith, MD, of the University of Miami, noted, “With increased legalization, greater access, and less stigmatization, there are more individuals using cannabis for migraine, but there is no solid evidence to suggest that cannabis is effective for acute or preventive treatment of migraine.”
The study is “interesting,” Dr. Monteith said, but, owing to methodologic limitations, it is not clear that cannabis contributes to medication overuse headache. “Patients with medication overuse headaches may have more comorbidities, such as anxiety, depression, and sleep disorders, that are driving the cannabis use. The patients on cannabis also had higher rates of opiate use, which itself is a stronger contributor to medication overuse headache and may indicate the presence of other pain disorders,” Dr. Monteith said.
“It is not clear if these patients were appropriately treated with migraine prevention; patients that use cannabis sometimes report that they prefer to avoid pharmaceutical treatments, such as antidepressants, etc., used for migraine,” Dr. Monteith noted.
She said that at this point, she would advise clinicians to ask about cannabis use “and let patients know that we do not know enough about the long-term effects of cannabis on the migraine brain.”
Most importantly, Dr. Monteith said, she would “encourage clinicians to be sensitive to the high prevalence of migraine, chronic migraine, and medication overuse. If we can treat more effectively and prevent migraine progression, which includes addressing comorbidities, there would be a lot less medication overuse headache.”
Also weighing in on the study, Jessica Ailani, MD, director, Medstar Georgetown Headache Center, Washington, D.C., noted that there is no conclusive evidence that cannabis is an effective acute or preventive treatment for migraine. “There is a suggestion that cannabis can help treat a migraine attack, but there is uncertainty about concentration of cannabidiol (CBD) to tetrahydrocannabinol (THC) needed to achieve pain freedom,” Dr. Ailani said.
“There has also been some concern about interactions between CBD and other medications used to treat migraine and that CBD can cause a condition known as reversible cerebral vasoconstrictive syndrome. These are reasons to be cautious with CBD,” Dr. Ailani added.
“At this time there is limited advice we can give our patients except that more studies need to be done. If cannabis is used, it should be reported, and medications that may interact with cannabis should be avoided. A headache calendar should be kept to ensure frequency of migraine and headache attacks do not go up,” said Dr. Ailani.
The study had no specific funding. Dr. Zhang, Dr. Monteith, and Dr. Ailani have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
, preliminary research suggests, although the direction of the relationship is unclear. Researchers at Stanford (Calif.) University found a significant increase in the likelihood of medication overuse headache (rebound headache) in chronic migraine patients who use cannabis.
“This study shows that there is some kind of association between cannabis use and medication overuse headache in people with chronic migraine,” said lead investigator Niushen Zhang, MD, a clinical assistant professor at Stanford.
“But it is unclear at this time whether patients are using cannabis to treat medication overuse headache or if cannabis is contributing to the development medication overuse headache, or both,” she said.
The findings were presented at the American Academy of Neurology’s 2021 annual meeting.
Sixfold increase
“Medication overuse occurs in about 1% to 3% of the general population. It affects nearly one-third of the patients (mostly patients with chronic migraine) seen at tertiary care centers such as the Stanford Headache Center,” Dr. Zhang said.
From clinical observations, patients with chronic migraine and medication overuse headache appear to be concomitantly using cannabis products, yet there is currently very little research on this topic, she added.
To investigate, the researchers reviewed the records of 368 adults who experienced chronic migraine (15 or more migraine days per month) for at least 1 year. Of the 368 patients, 150 were using cannabis, and 218 were not. In addition, 212 had medication overuse headache, and 156 did not.
Results showed that patients who used cannabis were nearly six times more likely to have medication overuse headache than those who did not use cannabis (odds ratio, 5.99; 95% confidence interval, 3.45-10.43; P < .0001).
There were significant bidirectional relationships between current cannabis use, opioid use, and medication overuse headache.
Jury out on cannabis for migraine
Commenting on the findings, Teshamae Monteith, MD, of the University of Miami, noted, “With increased legalization, greater access, and less stigmatization, there are more individuals using cannabis for migraine, but there is no solid evidence to suggest that cannabis is effective for acute or preventive treatment of migraine.”
The study is “interesting,” Dr. Monteith said, but, owing to methodologic limitations, it is not clear that cannabis contributes to medication overuse headache. “Patients with medication overuse headaches may have more comorbidities, such as anxiety, depression, and sleep disorders, that are driving the cannabis use. The patients on cannabis also had higher rates of opiate use, which itself is a stronger contributor to medication overuse headache and may indicate the presence of other pain disorders,” Dr. Monteith said.
“It is not clear if these patients were appropriately treated with migraine prevention; patients that use cannabis sometimes report that they prefer to avoid pharmaceutical treatments, such as antidepressants, etc., used for migraine,” Dr. Monteith noted.
She said that at this point, she would advise clinicians to ask about cannabis use “and let patients know that we do not know enough about the long-term effects of cannabis on the migraine brain.”
Most importantly, Dr. Monteith said, she would “encourage clinicians to be sensitive to the high prevalence of migraine, chronic migraine, and medication overuse. If we can treat more effectively and prevent migraine progression, which includes addressing comorbidities, there would be a lot less medication overuse headache.”
Also weighing in on the study, Jessica Ailani, MD, director, Medstar Georgetown Headache Center, Washington, D.C., noted that there is no conclusive evidence that cannabis is an effective acute or preventive treatment for migraine. “There is a suggestion that cannabis can help treat a migraine attack, but there is uncertainty about concentration of cannabidiol (CBD) to tetrahydrocannabinol (THC) needed to achieve pain freedom,” Dr. Ailani said.
“There has also been some concern about interactions between CBD and other medications used to treat migraine and that CBD can cause a condition known as reversible cerebral vasoconstrictive syndrome. These are reasons to be cautious with CBD,” Dr. Ailani added.
“At this time there is limited advice we can give our patients except that more studies need to be done. If cannabis is used, it should be reported, and medications that may interact with cannabis should be avoided. A headache calendar should be kept to ensure frequency of migraine and headache attacks do not go up,” said Dr. Ailani.
The study had no specific funding. Dr. Zhang, Dr. Monteith, and Dr. Ailani have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
, preliminary research suggests, although the direction of the relationship is unclear. Researchers at Stanford (Calif.) University found a significant increase in the likelihood of medication overuse headache (rebound headache) in chronic migraine patients who use cannabis.
“This study shows that there is some kind of association between cannabis use and medication overuse headache in people with chronic migraine,” said lead investigator Niushen Zhang, MD, a clinical assistant professor at Stanford.
“But it is unclear at this time whether patients are using cannabis to treat medication overuse headache or if cannabis is contributing to the development medication overuse headache, or both,” she said.
The findings were presented at the American Academy of Neurology’s 2021 annual meeting.
Sixfold increase
“Medication overuse occurs in about 1% to 3% of the general population. It affects nearly one-third of the patients (mostly patients with chronic migraine) seen at tertiary care centers such as the Stanford Headache Center,” Dr. Zhang said.
From clinical observations, patients with chronic migraine and medication overuse headache appear to be concomitantly using cannabis products, yet there is currently very little research on this topic, she added.
To investigate, the researchers reviewed the records of 368 adults who experienced chronic migraine (15 or more migraine days per month) for at least 1 year. Of the 368 patients, 150 were using cannabis, and 218 were not. In addition, 212 had medication overuse headache, and 156 did not.
Results showed that patients who used cannabis were nearly six times more likely to have medication overuse headache than those who did not use cannabis (odds ratio, 5.99; 95% confidence interval, 3.45-10.43; P < .0001).
There were significant bidirectional relationships between current cannabis use, opioid use, and medication overuse headache.
Jury out on cannabis for migraine
Commenting on the findings, Teshamae Monteith, MD, of the University of Miami, noted, “With increased legalization, greater access, and less stigmatization, there are more individuals using cannabis for migraine, but there is no solid evidence to suggest that cannabis is effective for acute or preventive treatment of migraine.”
The study is “interesting,” Dr. Monteith said, but, owing to methodologic limitations, it is not clear that cannabis contributes to medication overuse headache. “Patients with medication overuse headaches may have more comorbidities, such as anxiety, depression, and sleep disorders, that are driving the cannabis use. The patients on cannabis also had higher rates of opiate use, which itself is a stronger contributor to medication overuse headache and may indicate the presence of other pain disorders,” Dr. Monteith said.
“It is not clear if these patients were appropriately treated with migraine prevention; patients that use cannabis sometimes report that they prefer to avoid pharmaceutical treatments, such as antidepressants, etc., used for migraine,” Dr. Monteith noted.
She said that at this point, she would advise clinicians to ask about cannabis use “and let patients know that we do not know enough about the long-term effects of cannabis on the migraine brain.”
Most importantly, Dr. Monteith said, she would “encourage clinicians to be sensitive to the high prevalence of migraine, chronic migraine, and medication overuse. If we can treat more effectively and prevent migraine progression, which includes addressing comorbidities, there would be a lot less medication overuse headache.”
Also weighing in on the study, Jessica Ailani, MD, director, Medstar Georgetown Headache Center, Washington, D.C., noted that there is no conclusive evidence that cannabis is an effective acute or preventive treatment for migraine. “There is a suggestion that cannabis can help treat a migraine attack, but there is uncertainty about concentration of cannabidiol (CBD) to tetrahydrocannabinol (THC) needed to achieve pain freedom,” Dr. Ailani said.
“There has also been some concern about interactions between CBD and other medications used to treat migraine and that CBD can cause a condition known as reversible cerebral vasoconstrictive syndrome. These are reasons to be cautious with CBD,” Dr. Ailani added.
“At this time there is limited advice we can give our patients except that more studies need to be done. If cannabis is used, it should be reported, and medications that may interact with cannabis should be avoided. A headache calendar should be kept to ensure frequency of migraine and headache attacks do not go up,” said Dr. Ailani.
The study had no specific funding. Dr. Zhang, Dr. Monteith, and Dr. Ailani have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
From AAN 2021
Nondopamine antipsychotic shows clinical signal in Parkinson’s disease psychosis
according to results of a proof-of-principle study presented at the 2021 annual meeting of the American Academy of Neurology.
In presenting study results, Stuart H. Isaacson, MD, of the Parkinson’s Disease and Movement Disorders Center in Boca Raton, Fla., noted the one potential advantage of SEP-363856 is that it does not require blood monitoring, unlike clozapine, often used as an alternative to pimavanserin, the only Food and Drug Administration–approved treatment for Parkinson’s disease psychosis.* Quetiapine has also been used off label for Parkinson’s disease psychosis, but Dr. Isaacson said this lacks the evidence supporting the other two options and has side effects including sedation and orthostatic hypotension.
“Other non–FDA-approved treatment options are limited due to their lack of efficacy, safety concerns, and exacerbation of motor symptoms,” he said.
The study involved 38 patients, 24 of whom received SEP-363856 and the rest placebo, and evaluated total scores for the novel Scale for the Assessment of Positive Symptoms for Parkinson’s Disease Psychosis (SAPS-PD) after 6 weeks of treatment. The treatment group was given one of three doses: 25 mg (n = 11), 50 mg (n = 9), and 75 mg (n = 10).
Dr. Isaacson described SEP-363856 as a novel molecule that has agonist activity at TARR1, which regulates dopamine, norepinephrine, and serotonin, as well as serotonin receptor 5-HT1A, but has no activity at the dopamine receptor D2.
“There did appear to be improvement with this medication in patients’ psychosis symptoms, using the SAPS-PD subscale to identify the frequency and severity of hallucinations and delusions, but there was also improvement in the placebo group in this small study,” Dr. Isaacson said. “That did not demonstrate significance.” The improvement was maintained through the study period.
But the gap between the treatment and placebo groups widened as the degree of response increased. The rates were identical for the 30% or above response and the 50% or above response subgroups: 27.3% and 37.5% for placebo and treatment groups, respectively. However, 25% of patients taking SEP-363856 had a 100% response in terms of SAPS-PD score versus 0% in the placebo group, Dr. Isaacson said.
The study also found Mini-Mental State Examination (MMSE) scores improved more in the treatment group, with the gap wider in those with baseline MMSE scores below 24 versus scores above 24: –5.2 (standard deviation, 2.81) versus –2.1 (SD, 3.00; P = .460).
“The scope of daytime and nighttime sleep both showed improvement, with the score for daytime sleep being significant,” Dr. Isaacson said of the treatment group. “Importantly, UPDRS [Unified Parkinson’s Disease Rating Scale] Part III motor scores showed no difference from placebo. Indeed, there was a trend toward improvement, but this again was not significant.” That’s noteworthy, he said, because other antipsychotics, with the exception of clozapine – which requires blood monitoring – are contraindicated in PDP because of their effect on motor function.
During question-and-answer, Dr. Isaacson noted that the complete response rate of 25% with SEP-363856 compared favorably with the 14% complete response rate reported with pimavanserin in the pivotal trial.
“Hopefully greater-powered studies will be performed to further identify and determine the safety and efficacy and tolerably of SEP-363856 in Parkinson’s psychosis, aiming to minimize the placebo effect and to try to hopefully identify its efficacy in relationship to other treatments,” Dr. Isaacson said.
“Right now with only one approved treatment, one that has efficacy but requires blood monitoring, and another treatment that may be fraught sometimes with sleepiness and other side effects, we need other alternatives for our patients as many of them resort to lowering and lowering their dopaminergic therapies with the consequence [of] worsening motor activity,” Dr. Isaacson said.
“This study further supports the concept that Parkinson’s disease psychosis involves much more than simply dopamine,” said Daniel E. Kremens, MD, codirector of the Parkinson’s disease and movement disorders division at Thomas Jefferson University, Philadelphia. “Targeting nondopaminergic targets allows us to treat the psychosis without worsening motor symptoms. By targeting TAAR-1 along with 5HT1A, SEP-363856 is a novel compound that appears to be well tolerated and may treat PDP without worsening motor symptoms,”
Sunovion Pharmaceuticals provided funding for the study. Dr. Isaacson has no financial relationships to disclose. Three study coauthors are employees of Sunovion. Dr. Kremens reported serving as a consultant to Sunovion.
*Correction, 5/17/21: An earlier version of this article misstated the blood monitoring requirements for pimavanserin.
according to results of a proof-of-principle study presented at the 2021 annual meeting of the American Academy of Neurology.
In presenting study results, Stuart H. Isaacson, MD, of the Parkinson’s Disease and Movement Disorders Center in Boca Raton, Fla., noted the one potential advantage of SEP-363856 is that it does not require blood monitoring, unlike clozapine, often used as an alternative to pimavanserin, the only Food and Drug Administration–approved treatment for Parkinson’s disease psychosis.* Quetiapine has also been used off label for Parkinson’s disease psychosis, but Dr. Isaacson said this lacks the evidence supporting the other two options and has side effects including sedation and orthostatic hypotension.
“Other non–FDA-approved treatment options are limited due to their lack of efficacy, safety concerns, and exacerbation of motor symptoms,” he said.
The study involved 38 patients, 24 of whom received SEP-363856 and the rest placebo, and evaluated total scores for the novel Scale for the Assessment of Positive Symptoms for Parkinson’s Disease Psychosis (SAPS-PD) after 6 weeks of treatment. The treatment group was given one of three doses: 25 mg (n = 11), 50 mg (n = 9), and 75 mg (n = 10).
Dr. Isaacson described SEP-363856 as a novel molecule that has agonist activity at TARR1, which regulates dopamine, norepinephrine, and serotonin, as well as serotonin receptor 5-HT1A, but has no activity at the dopamine receptor D2.
“There did appear to be improvement with this medication in patients’ psychosis symptoms, using the SAPS-PD subscale to identify the frequency and severity of hallucinations and delusions, but there was also improvement in the placebo group in this small study,” Dr. Isaacson said. “That did not demonstrate significance.” The improvement was maintained through the study period.
But the gap between the treatment and placebo groups widened as the degree of response increased. The rates were identical for the 30% or above response and the 50% or above response subgroups: 27.3% and 37.5% for placebo and treatment groups, respectively. However, 25% of patients taking SEP-363856 had a 100% response in terms of SAPS-PD score versus 0% in the placebo group, Dr. Isaacson said.
The study also found Mini-Mental State Examination (MMSE) scores improved more in the treatment group, with the gap wider in those with baseline MMSE scores below 24 versus scores above 24: –5.2 (standard deviation, 2.81) versus –2.1 (SD, 3.00; P = .460).
“The scope of daytime and nighttime sleep both showed improvement, with the score for daytime sleep being significant,” Dr. Isaacson said of the treatment group. “Importantly, UPDRS [Unified Parkinson’s Disease Rating Scale] Part III motor scores showed no difference from placebo. Indeed, there was a trend toward improvement, but this again was not significant.” That’s noteworthy, he said, because other antipsychotics, with the exception of clozapine – which requires blood monitoring – are contraindicated in PDP because of their effect on motor function.
During question-and-answer, Dr. Isaacson noted that the complete response rate of 25% with SEP-363856 compared favorably with the 14% complete response rate reported with pimavanserin in the pivotal trial.
“Hopefully greater-powered studies will be performed to further identify and determine the safety and efficacy and tolerably of SEP-363856 in Parkinson’s psychosis, aiming to minimize the placebo effect and to try to hopefully identify its efficacy in relationship to other treatments,” Dr. Isaacson said.
“Right now with only one approved treatment, one that has efficacy but requires blood monitoring, and another treatment that may be fraught sometimes with sleepiness and other side effects, we need other alternatives for our patients as many of them resort to lowering and lowering their dopaminergic therapies with the consequence [of] worsening motor activity,” Dr. Isaacson said.
“This study further supports the concept that Parkinson’s disease psychosis involves much more than simply dopamine,” said Daniel E. Kremens, MD, codirector of the Parkinson’s disease and movement disorders division at Thomas Jefferson University, Philadelphia. “Targeting nondopaminergic targets allows us to treat the psychosis without worsening motor symptoms. By targeting TAAR-1 along with 5HT1A, SEP-363856 is a novel compound that appears to be well tolerated and may treat PDP without worsening motor symptoms,”
Sunovion Pharmaceuticals provided funding for the study. Dr. Isaacson has no financial relationships to disclose. Three study coauthors are employees of Sunovion. Dr. Kremens reported serving as a consultant to Sunovion.
*Correction, 5/17/21: An earlier version of this article misstated the blood monitoring requirements for pimavanserin.
according to results of a proof-of-principle study presented at the 2021 annual meeting of the American Academy of Neurology.
In presenting study results, Stuart H. Isaacson, MD, of the Parkinson’s Disease and Movement Disorders Center in Boca Raton, Fla., noted the one potential advantage of SEP-363856 is that it does not require blood monitoring, unlike clozapine, often used as an alternative to pimavanserin, the only Food and Drug Administration–approved treatment for Parkinson’s disease psychosis.* Quetiapine has also been used off label for Parkinson’s disease psychosis, but Dr. Isaacson said this lacks the evidence supporting the other two options and has side effects including sedation and orthostatic hypotension.
“Other non–FDA-approved treatment options are limited due to their lack of efficacy, safety concerns, and exacerbation of motor symptoms,” he said.
The study involved 38 patients, 24 of whom received SEP-363856 and the rest placebo, and evaluated total scores for the novel Scale for the Assessment of Positive Symptoms for Parkinson’s Disease Psychosis (SAPS-PD) after 6 weeks of treatment. The treatment group was given one of three doses: 25 mg (n = 11), 50 mg (n = 9), and 75 mg (n = 10).
Dr. Isaacson described SEP-363856 as a novel molecule that has agonist activity at TARR1, which regulates dopamine, norepinephrine, and serotonin, as well as serotonin receptor 5-HT1A, but has no activity at the dopamine receptor D2.
“There did appear to be improvement with this medication in patients’ psychosis symptoms, using the SAPS-PD subscale to identify the frequency and severity of hallucinations and delusions, but there was also improvement in the placebo group in this small study,” Dr. Isaacson said. “That did not demonstrate significance.” The improvement was maintained through the study period.
But the gap between the treatment and placebo groups widened as the degree of response increased. The rates were identical for the 30% or above response and the 50% or above response subgroups: 27.3% and 37.5% for placebo and treatment groups, respectively. However, 25% of patients taking SEP-363856 had a 100% response in terms of SAPS-PD score versus 0% in the placebo group, Dr. Isaacson said.
The study also found Mini-Mental State Examination (MMSE) scores improved more in the treatment group, with the gap wider in those with baseline MMSE scores below 24 versus scores above 24: –5.2 (standard deviation, 2.81) versus –2.1 (SD, 3.00; P = .460).
“The scope of daytime and nighttime sleep both showed improvement, with the score for daytime sleep being significant,” Dr. Isaacson said of the treatment group. “Importantly, UPDRS [Unified Parkinson’s Disease Rating Scale] Part III motor scores showed no difference from placebo. Indeed, there was a trend toward improvement, but this again was not significant.” That’s noteworthy, he said, because other antipsychotics, with the exception of clozapine – which requires blood monitoring – are contraindicated in PDP because of their effect on motor function.
During question-and-answer, Dr. Isaacson noted that the complete response rate of 25% with SEP-363856 compared favorably with the 14% complete response rate reported with pimavanserin in the pivotal trial.
“Hopefully greater-powered studies will be performed to further identify and determine the safety and efficacy and tolerably of SEP-363856 in Parkinson’s psychosis, aiming to minimize the placebo effect and to try to hopefully identify its efficacy in relationship to other treatments,” Dr. Isaacson said.
“Right now with only one approved treatment, one that has efficacy but requires blood monitoring, and another treatment that may be fraught sometimes with sleepiness and other side effects, we need other alternatives for our patients as many of them resort to lowering and lowering their dopaminergic therapies with the consequence [of] worsening motor activity,” Dr. Isaacson said.
“This study further supports the concept that Parkinson’s disease psychosis involves much more than simply dopamine,” said Daniel E. Kremens, MD, codirector of the Parkinson’s disease and movement disorders division at Thomas Jefferson University, Philadelphia. “Targeting nondopaminergic targets allows us to treat the psychosis without worsening motor symptoms. By targeting TAAR-1 along with 5HT1A, SEP-363856 is a novel compound that appears to be well tolerated and may treat PDP without worsening motor symptoms,”
Sunovion Pharmaceuticals provided funding for the study. Dr. Isaacson has no financial relationships to disclose. Three study coauthors are employees of Sunovion. Dr. Kremens reported serving as a consultant to Sunovion.
*Correction, 5/17/21: An earlier version of this article misstated the blood monitoring requirements for pimavanserin.
FROM AAN 2021
Gene therapy shows promise for Sanfilippo syndrome
. Most of the benefit from the treatment came in patients who began treatment at younger age, but comparisons to natural history controls showed profound improvement among many recipients, some of whom attained normal developmental trajectories.
The study was presented at the American Academy of Neurology’s 2021 annual meeting by Kevin Flanigan, MD, an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. He highlighted the improved developmental outcomes. “There’s been nothing shown to change the cognitive pathway of the disease. This is the first time it’s been seen as a treatment effect,” Dr. Flanigan said during a follow-up Q&A session.
The therapy was delivered using an adeno-associated virus-9 (AAV-9) vector, which led one questioner to ask about potential safety concerns, since AAV-associated risks date back to the death of Jesse Gelsinger in 1999. “There is concern about AAV therapies related to immune responses to potentially complement-mediated activation and thrombocytopenic syndrome, which has led to clinical holds on some other AAV-9 products related to muscular dystrophies. We’ve not seen signals of anything reminiscent of that, and we’re at AAV-9 dosages that are quite similar to what’s been used elsewhere in the field,” said Dr. Flanigan.
The results have him optimistic about the therapy. “I do think if it continues to be increasing divergent from the natural history, it will be questionable as to whether a subsequent trial will be necessary for this. That’s a decision for the [Food and Drug Administration] and the company to decide. Each observation point that goes by, each patient treated, and each time we get more data, I get more and more confident. It’s really gratifying to watch,” said Dr. Flanigan.
The study confirms the potential of gene replacement therapy autosomal recessive conditions, according to Nicholas Johnson, MD, associate professor of neurology at Virginia Commonwealth University, Richmond, as well as a fellow of the American Academy of Neurology. “Where the genetic problem is loss of gene function, the ability to replace that gene using a viral approach is going to be transformative across the board for many of these different conditions, including Sanfilippo syndrome,” said Dr. Johnson, who attended the session but was not involved in the research.
Toxicity could remain an issue, even in the absence of AAV-based safety concerns. “The rate limiting step in terms of gene replacement therapy development likely relates to the ability to provide those therapies to larger adults, because many approaches are weight based and it’s unclear what the upper limit of toxicity would be for adults,” said Dr. Johnson.
Transpher A study results
Dr. Flanigan presented results from Transpher A, a phase 1/2 clinical trial that has enrolled 20 patients to date in three cohorts: Cohort 1, with 3 patients, received 5 x 1,012 vg/kg, and had a mean follow-up of 58 months; cohort 2, with 3 patients, received 1 x 1,013 vg/kg, and had a mean follow-up of 49 months; and cohort 3, with 14 patients, received 3 x 1,013 vg/kg, with a mean follow-up of 24 months. Included patients ranged from birth to age 2, or older than age 2 with a development quotient of 60 or higher on the Bayley Scale.
Dr. Flanigan showed a plot of developmental progress compared with natural history controls, which showed that patients treated before age 2 or with a developmental quotient of 60 or higher had improved outcomes compared to other patients in the high dose cohort. They continued to show normal developmental progression at 30-36 months post treatment, at a time when the natural history data suggested they would suffer cognitive decline. Two years after administration, this group had cerebral spinal fluid levels of heparan sulfate that fell below the lower limit of detection. Patients in the high-dose cohort had normalized CSF levels of GM2 and GM3 gangliosides, and there were reductions in plasma heparan sulfate and urinary glycosaminoglycans. There was also a sustained decrease in liver volume.
The highest dose group was originally given to older patients, and most were similar to the natural history cohort, though some did stabilize. “More compellingly, patients (in the high-dose group) who were treated younger actually showed continued increase in development. One individual follows the normal development quotient line, and we would say that these are really quite distinct from what we typically see in patients,” said Dr. Flanigan.
The treatment was well tolerated. There were no deaths or treatment-related serious adverse events, and no clinically-significant adverse events within the first 5 years of follow-up.
The study was funded by Abeona Therapeutics. Dr. Flanigan has been on advisory boards for Apic Bio and 4D Molecular Therapeutics, consulted for Encoded Therapeutics, and has received royalties from Audentes Therapeutics. Dr. Flanigan has received funding from and been a consultant for Avidity.
. Most of the benefit from the treatment came in patients who began treatment at younger age, but comparisons to natural history controls showed profound improvement among many recipients, some of whom attained normal developmental trajectories.
The study was presented at the American Academy of Neurology’s 2021 annual meeting by Kevin Flanigan, MD, an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. He highlighted the improved developmental outcomes. “There’s been nothing shown to change the cognitive pathway of the disease. This is the first time it’s been seen as a treatment effect,” Dr. Flanigan said during a follow-up Q&A session.
The therapy was delivered using an adeno-associated virus-9 (AAV-9) vector, which led one questioner to ask about potential safety concerns, since AAV-associated risks date back to the death of Jesse Gelsinger in 1999. “There is concern about AAV therapies related to immune responses to potentially complement-mediated activation and thrombocytopenic syndrome, which has led to clinical holds on some other AAV-9 products related to muscular dystrophies. We’ve not seen signals of anything reminiscent of that, and we’re at AAV-9 dosages that are quite similar to what’s been used elsewhere in the field,” said Dr. Flanigan.
The results have him optimistic about the therapy. “I do think if it continues to be increasing divergent from the natural history, it will be questionable as to whether a subsequent trial will be necessary for this. That’s a decision for the [Food and Drug Administration] and the company to decide. Each observation point that goes by, each patient treated, and each time we get more data, I get more and more confident. It’s really gratifying to watch,” said Dr. Flanigan.
The study confirms the potential of gene replacement therapy autosomal recessive conditions, according to Nicholas Johnson, MD, associate professor of neurology at Virginia Commonwealth University, Richmond, as well as a fellow of the American Academy of Neurology. “Where the genetic problem is loss of gene function, the ability to replace that gene using a viral approach is going to be transformative across the board for many of these different conditions, including Sanfilippo syndrome,” said Dr. Johnson, who attended the session but was not involved in the research.
Toxicity could remain an issue, even in the absence of AAV-based safety concerns. “The rate limiting step in terms of gene replacement therapy development likely relates to the ability to provide those therapies to larger adults, because many approaches are weight based and it’s unclear what the upper limit of toxicity would be for adults,” said Dr. Johnson.
Transpher A study results
Dr. Flanigan presented results from Transpher A, a phase 1/2 clinical trial that has enrolled 20 patients to date in three cohorts: Cohort 1, with 3 patients, received 5 x 1,012 vg/kg, and had a mean follow-up of 58 months; cohort 2, with 3 patients, received 1 x 1,013 vg/kg, and had a mean follow-up of 49 months; and cohort 3, with 14 patients, received 3 x 1,013 vg/kg, with a mean follow-up of 24 months. Included patients ranged from birth to age 2, or older than age 2 with a development quotient of 60 or higher on the Bayley Scale.
Dr. Flanigan showed a plot of developmental progress compared with natural history controls, which showed that patients treated before age 2 or with a developmental quotient of 60 or higher had improved outcomes compared to other patients in the high dose cohort. They continued to show normal developmental progression at 30-36 months post treatment, at a time when the natural history data suggested they would suffer cognitive decline. Two years after administration, this group had cerebral spinal fluid levels of heparan sulfate that fell below the lower limit of detection. Patients in the high-dose cohort had normalized CSF levels of GM2 and GM3 gangliosides, and there were reductions in plasma heparan sulfate and urinary glycosaminoglycans. There was also a sustained decrease in liver volume.
The highest dose group was originally given to older patients, and most were similar to the natural history cohort, though some did stabilize. “More compellingly, patients (in the high-dose group) who were treated younger actually showed continued increase in development. One individual follows the normal development quotient line, and we would say that these are really quite distinct from what we typically see in patients,” said Dr. Flanigan.
The treatment was well tolerated. There were no deaths or treatment-related serious adverse events, and no clinically-significant adverse events within the first 5 years of follow-up.
The study was funded by Abeona Therapeutics. Dr. Flanigan has been on advisory boards for Apic Bio and 4D Molecular Therapeutics, consulted for Encoded Therapeutics, and has received royalties from Audentes Therapeutics. Dr. Flanigan has received funding from and been a consultant for Avidity.
. Most of the benefit from the treatment came in patients who began treatment at younger age, but comparisons to natural history controls showed profound improvement among many recipients, some of whom attained normal developmental trajectories.
The study was presented at the American Academy of Neurology’s 2021 annual meeting by Kevin Flanigan, MD, an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. He highlighted the improved developmental outcomes. “There’s been nothing shown to change the cognitive pathway of the disease. This is the first time it’s been seen as a treatment effect,” Dr. Flanigan said during a follow-up Q&A session.
The therapy was delivered using an adeno-associated virus-9 (AAV-9) vector, which led one questioner to ask about potential safety concerns, since AAV-associated risks date back to the death of Jesse Gelsinger in 1999. “There is concern about AAV therapies related to immune responses to potentially complement-mediated activation and thrombocytopenic syndrome, which has led to clinical holds on some other AAV-9 products related to muscular dystrophies. We’ve not seen signals of anything reminiscent of that, and we’re at AAV-9 dosages that are quite similar to what’s been used elsewhere in the field,” said Dr. Flanigan.
The results have him optimistic about the therapy. “I do think if it continues to be increasing divergent from the natural history, it will be questionable as to whether a subsequent trial will be necessary for this. That’s a decision for the [Food and Drug Administration] and the company to decide. Each observation point that goes by, each patient treated, and each time we get more data, I get more and more confident. It’s really gratifying to watch,” said Dr. Flanigan.
The study confirms the potential of gene replacement therapy autosomal recessive conditions, according to Nicholas Johnson, MD, associate professor of neurology at Virginia Commonwealth University, Richmond, as well as a fellow of the American Academy of Neurology. “Where the genetic problem is loss of gene function, the ability to replace that gene using a viral approach is going to be transformative across the board for many of these different conditions, including Sanfilippo syndrome,” said Dr. Johnson, who attended the session but was not involved in the research.
Toxicity could remain an issue, even in the absence of AAV-based safety concerns. “The rate limiting step in terms of gene replacement therapy development likely relates to the ability to provide those therapies to larger adults, because many approaches are weight based and it’s unclear what the upper limit of toxicity would be for adults,” said Dr. Johnson.
Transpher A study results
Dr. Flanigan presented results from Transpher A, a phase 1/2 clinical trial that has enrolled 20 patients to date in three cohorts: Cohort 1, with 3 patients, received 5 x 1,012 vg/kg, and had a mean follow-up of 58 months; cohort 2, with 3 patients, received 1 x 1,013 vg/kg, and had a mean follow-up of 49 months; and cohort 3, with 14 patients, received 3 x 1,013 vg/kg, with a mean follow-up of 24 months. Included patients ranged from birth to age 2, or older than age 2 with a development quotient of 60 or higher on the Bayley Scale.
Dr. Flanigan showed a plot of developmental progress compared with natural history controls, which showed that patients treated before age 2 or with a developmental quotient of 60 or higher had improved outcomes compared to other patients in the high dose cohort. They continued to show normal developmental progression at 30-36 months post treatment, at a time when the natural history data suggested they would suffer cognitive decline. Two years after administration, this group had cerebral spinal fluid levels of heparan sulfate that fell below the lower limit of detection. Patients in the high-dose cohort had normalized CSF levels of GM2 and GM3 gangliosides, and there were reductions in plasma heparan sulfate and urinary glycosaminoglycans. There was also a sustained decrease in liver volume.
The highest dose group was originally given to older patients, and most were similar to the natural history cohort, though some did stabilize. “More compellingly, patients (in the high-dose group) who were treated younger actually showed continued increase in development. One individual follows the normal development quotient line, and we would say that these are really quite distinct from what we typically see in patients,” said Dr. Flanigan.
The treatment was well tolerated. There were no deaths or treatment-related serious adverse events, and no clinically-significant adverse events within the first 5 years of follow-up.
The study was funded by Abeona Therapeutics. Dr. Flanigan has been on advisory boards for Apic Bio and 4D Molecular Therapeutics, consulted for Encoded Therapeutics, and has received royalties from Audentes Therapeutics. Dr. Flanigan has received funding from and been a consultant for Avidity.
FROM AAN 2021
Investigative gepant liver profile comparable with standard of care
according to results of a multicenter, open-label trial presented at the 2021 annual meeting of the American Academy of Neurology.
The trial included 739 patients, 543 of whom were randomized to daily oral atogepant with the remainder assigned to the existing standard of care oral migraine prevention medication, said Messoud Ashina, MD, PhD, of the Danish Headache Center at the University of Copenhagen. Initially, 67% (n = 364) of the atogepant patients reported treatment-emergent adverse events (TEAEs). However, he noted, the rate of TEAEs related to treatment was actually 18% (n = 98), and the rate of serious AEs was 4.4% (n = 24); 31 patients (5.7%) discontinued therapy because of TEAEs.
Those rates compared favorably with the standard of care group, Dr. Ashina said. In that group, the rate of TEAEs was 78.6% (154/196), and the rate of treatment-related TEAEs was 36.2% (n = 71).
In the atogepant group, the most common TEAEs were upper respiratory tract infection (10.3%, n = 56), constipation (7.2%, n = 39) and nausea (6.3%, n = 34). “With constipation in particular most cases were mild to moderate,” Dr. Ashina said. “Only one case was considered severe and it resolved before the end of the trial.” One patient discontinued treatment because of constipation.
Most significantly, said Dr. Ashina, “No hepatic safety issues were identified.” In the atogepant group, 2.4% of patients (n = 13) had ALT/AST levels at three times the upper limit of normal versus 3.2% (n = 6) in the standard of care group.
During question-and-answer, Dr. Ashina was pressed on the rate or urinary tract infections in the atogepant patients – 5.2% (n = 28), a measure not reported in the standard of care group – but he said there was no indication the UTIs resulted from atogepant itself. “I assume if there was some problems with urinary tract infections because of the kidneys then you would expect to see the lab data showing that,” he added in an interview. “There were no differences in lab abnormalities between the two groups.”
While Dr. Ashina said “I don’t think it’s something of concern” with regard to the UTI risk, he added: “It doesn’t mean that we don’t have to be careful. As physicians, we have to exhibit pharmacovigilance all the time, especially with the new drugs coming out over the next 5 years. But don’t panic.”
Stephen D. Silberstein, MD, director of the headache center at Thomas Jefferson University, Philadelphia, agreed that the hepatic values reported in the open-label trial are important. “What’s really nice about this study is the fact that we now know that this particular gepant when given on a regular basis for 1 year has no problem with liver or kidney function,” he said in an interview.
Dr. Ashina said once-daily oral atogepant could potentially be a desirable alternative migraine preventive treatment to monoclonal antibodies and their quarterly injections and a second-line therapy when other treatments don’t work. However, Dr. Silverstein noted that patients typically aren’t as compliant with self-administered oral medications as they are with periodic injections.
Allergan/AbbVie sponsored the trial. Dr. Ashina reported financial relationships with Allergan/AbbVie, Amgen, Eli Lilly, Lundbeck, Novartis, and Teva. Dr. Silberstein is a trial investigator.
according to results of a multicenter, open-label trial presented at the 2021 annual meeting of the American Academy of Neurology.
The trial included 739 patients, 543 of whom were randomized to daily oral atogepant with the remainder assigned to the existing standard of care oral migraine prevention medication, said Messoud Ashina, MD, PhD, of the Danish Headache Center at the University of Copenhagen. Initially, 67% (n = 364) of the atogepant patients reported treatment-emergent adverse events (TEAEs). However, he noted, the rate of TEAEs related to treatment was actually 18% (n = 98), and the rate of serious AEs was 4.4% (n = 24); 31 patients (5.7%) discontinued therapy because of TEAEs.
Those rates compared favorably with the standard of care group, Dr. Ashina said. In that group, the rate of TEAEs was 78.6% (154/196), and the rate of treatment-related TEAEs was 36.2% (n = 71).
In the atogepant group, the most common TEAEs were upper respiratory tract infection (10.3%, n = 56), constipation (7.2%, n = 39) and nausea (6.3%, n = 34). “With constipation in particular most cases were mild to moderate,” Dr. Ashina said. “Only one case was considered severe and it resolved before the end of the trial.” One patient discontinued treatment because of constipation.
Most significantly, said Dr. Ashina, “No hepatic safety issues were identified.” In the atogepant group, 2.4% of patients (n = 13) had ALT/AST levels at three times the upper limit of normal versus 3.2% (n = 6) in the standard of care group.
During question-and-answer, Dr. Ashina was pressed on the rate or urinary tract infections in the atogepant patients – 5.2% (n = 28), a measure not reported in the standard of care group – but he said there was no indication the UTIs resulted from atogepant itself. “I assume if there was some problems with urinary tract infections because of the kidneys then you would expect to see the lab data showing that,” he added in an interview. “There were no differences in lab abnormalities between the two groups.”
While Dr. Ashina said “I don’t think it’s something of concern” with regard to the UTI risk, he added: “It doesn’t mean that we don’t have to be careful. As physicians, we have to exhibit pharmacovigilance all the time, especially with the new drugs coming out over the next 5 years. But don’t panic.”
Stephen D. Silberstein, MD, director of the headache center at Thomas Jefferson University, Philadelphia, agreed that the hepatic values reported in the open-label trial are important. “What’s really nice about this study is the fact that we now know that this particular gepant when given on a regular basis for 1 year has no problem with liver or kidney function,” he said in an interview.
Dr. Ashina said once-daily oral atogepant could potentially be a desirable alternative migraine preventive treatment to monoclonal antibodies and their quarterly injections and a second-line therapy when other treatments don’t work. However, Dr. Silverstein noted that patients typically aren’t as compliant with self-administered oral medications as they are with periodic injections.
Allergan/AbbVie sponsored the trial. Dr. Ashina reported financial relationships with Allergan/AbbVie, Amgen, Eli Lilly, Lundbeck, Novartis, and Teva. Dr. Silberstein is a trial investigator.
according to results of a multicenter, open-label trial presented at the 2021 annual meeting of the American Academy of Neurology.
The trial included 739 patients, 543 of whom were randomized to daily oral atogepant with the remainder assigned to the existing standard of care oral migraine prevention medication, said Messoud Ashina, MD, PhD, of the Danish Headache Center at the University of Copenhagen. Initially, 67% (n = 364) of the atogepant patients reported treatment-emergent adverse events (TEAEs). However, he noted, the rate of TEAEs related to treatment was actually 18% (n = 98), and the rate of serious AEs was 4.4% (n = 24); 31 patients (5.7%) discontinued therapy because of TEAEs.
Those rates compared favorably with the standard of care group, Dr. Ashina said. In that group, the rate of TEAEs was 78.6% (154/196), and the rate of treatment-related TEAEs was 36.2% (n = 71).
In the atogepant group, the most common TEAEs were upper respiratory tract infection (10.3%, n = 56), constipation (7.2%, n = 39) and nausea (6.3%, n = 34). “With constipation in particular most cases were mild to moderate,” Dr. Ashina said. “Only one case was considered severe and it resolved before the end of the trial.” One patient discontinued treatment because of constipation.
Most significantly, said Dr. Ashina, “No hepatic safety issues were identified.” In the atogepant group, 2.4% of patients (n = 13) had ALT/AST levels at three times the upper limit of normal versus 3.2% (n = 6) in the standard of care group.
During question-and-answer, Dr. Ashina was pressed on the rate or urinary tract infections in the atogepant patients – 5.2% (n = 28), a measure not reported in the standard of care group – but he said there was no indication the UTIs resulted from atogepant itself. “I assume if there was some problems with urinary tract infections because of the kidneys then you would expect to see the lab data showing that,” he added in an interview. “There were no differences in lab abnormalities between the two groups.”
While Dr. Ashina said “I don’t think it’s something of concern” with regard to the UTI risk, he added: “It doesn’t mean that we don’t have to be careful. As physicians, we have to exhibit pharmacovigilance all the time, especially with the new drugs coming out over the next 5 years. But don’t panic.”
Stephen D. Silberstein, MD, director of the headache center at Thomas Jefferson University, Philadelphia, agreed that the hepatic values reported in the open-label trial are important. “What’s really nice about this study is the fact that we now know that this particular gepant when given on a regular basis for 1 year has no problem with liver or kidney function,” he said in an interview.
Dr. Ashina said once-daily oral atogepant could potentially be a desirable alternative migraine preventive treatment to monoclonal antibodies and their quarterly injections and a second-line therapy when other treatments don’t work. However, Dr. Silverstein noted that patients typically aren’t as compliant with self-administered oral medications as they are with periodic injections.
Allergan/AbbVie sponsored the trial. Dr. Ashina reported financial relationships with Allergan/AbbVie, Amgen, Eli Lilly, Lundbeck, Novartis, and Teva. Dr. Silberstein is a trial investigator.
FROM AAN 2021
The neurology of long-haul COVID-19
Long-haul neurologic symptoms of COVID-19 seem to be distinct from neurologic conditions found in acute disease.
Much work remains to be done to understand the biological mechanisms behind these problems, but inflammation and autoimmune responses may play a role in some cases.Those were some of the takeaways from a talk by Serena Spudich, MD, who presented her research at the 2021 annual meeting of the American Academy of Neurology. Dr. Spudich is the division chief of neurologic infections and global neurology and codirector of the Center for Neuroepidemiology and Clinical Neurological Research at Yale University, New Haven, Conn.
Examining the nervous system’s involvement in COVID-19
Even early on in the pandemic, it became clear that there were lingering complaints of neuromuscular problems, cognitive dysfunction, and mood and psychiatric issues. Breathing and heart rate problems also can arise. “There seems to be a preponderance of syndromes that reflect involvement of the nervous system,” said Dr. Spudich.
To try to understand the etiology of these persistent problems, Dr. Spudich said it’s important to examine the nervous system’s involvement in acute COVID-19. She has been involved in these efforts since early in the pandemic, when she ran an inpatient consult service at Yale dedicated to neurologic effects of acute COVID-19. She witnessed complications including stroke, encephalopathy, and seizures, among others.
Stroke during acute COVID-19 seemed to be associated with inflammation and endothelial activation or endotheliopathy. SARS-CoV-2 has been undetectable in the cerebrospinal fluid (CSF) of patients with acute COVID-19 and neurologic symptoms, but inflammatory cytokines can be present along with increased frequency of B cells. Anti–SARS-CoV-2 antibodies have also been found in CSF, some of which were auto reactive to brain tissue. The immune response was altered, compared with healthy controls, and in the CNS, compared with in the blood, “raising the question of whether inflammation and autoimmunity may be underlying causes of these syndromes,” said Dr. Spudich.
She also pointed to an MRI study of autopsied brain tissue of patients with COVID-19 and neurologic complications, which showed indications of both hemorrhagic and ischemic microvascular injury. “It’s just a reminder that, during acute COVID-19, there may be inflammation in the brain, there may be autoimmune reactions, and there may be vascular changes that underlie some of the neurologic syndromes that are seen,” said Dr. Spudich.
A panoply of different syndromes
In October, Yale set up a post-COVID neurologic clinic that brought together pulmonary, cardiology, and psychiatric specialists, many of whom saw the same patients, about 60% of whom had cognitive impairment, more than 40% had neuromuscular problems, and over 30% headache. “There’s not a single entity of a post-COVID neurologic syndrome. There’s a panoply of different syndromes that may have similar or distinct etiologies,” said Dr. Spudich.
Most patients were in their 30s, 40s, or 50s. That doesn’t necessarily mean this is the most common age range for these issues, though. There could be some bias if these individuals are seeking specialty care because they expected to recover from COVID-19 quickly. But it could be that there is something biologically unique among this age group that predisposes them to complications. Regardless, two out of three patients were never hospitalized, “suggesting that even mild COVID-19 can lead to some long-term sequelae,” said Dr. Spudich.
One potential explanation for long-term neurologic syndromes is that they are an extension of the inflammation, autoimmunity, and immune perturbation occurring during acute disease. One study looked at 18 cancer patients who had neurologic complications with COVID-19. Two months after onset, they had elevated markers of neuroinflammation and neuronal injury in the cerebral spinal fluid compared to cancer patients with no history of COVID-19.
Looking for biologic markers
An Italian study looked at patients who were evaluated during acute hospitalization and again 3 months later, and found that some markers of inflation in the blood were associated with later cognitive impairment. The patients were more severely ill, so it’s not clear what the findings mean for patients who present with neurologic symptoms after milder illness.
A PET scan study of 35 patients with persistent neurologic symptoms found patterns of reduced fluorodeoxyglucose uptake in some regions of the brain that are believed to be associated with some symptoms. Lower values were associated with greater severity for symptoms like memory dysfunction, and anosmia. “Why there might be hypometabolism in these regions I think needs to be assessed and used as a biomarker to associate hypometabolism with other kinds of processes in blood and spinal fluid,” said Dr. Spudich.
Along with colleagues at Yale, Dr. Spudich is conducting the MIND study, which is using PET and MRI imaging along with blood and CSF biomarkers to track the progress of patients after COVID-19. There are few results to discuss since only 20 patients have been recruited so far, except that brain imaging and blood values are generally normal despite neurologic complaints. Most were not hospitalized for COVID-19. Dr. Spudich highlighted one man in his 30s who developed new-onset psychosis, despite no previous history. Although clinical tests were all negative, a novel autoantibody detection method revealed a previously unknown autoreactive antibody in his spinal fluid. “This may suggest that there is autoantibody production in some individuals with post–COVID-19 psychosis, and potentially other syndromes,” said Dr. Spudich.
The research task ahead
The case illustrates the task ahead for neurology. “There’s a real research mandate to understand the biological substrates of these diverse disorders, not only to address the emergent public health concern and reduce the stigma in our patients, but to develop targeted therapeutic interventions,” said Dr. Spudich.
Anna Cervantes-Arslanian, MD, an associate professor of neurology at Boston University who also treats and studies patients with post-COVID neurologic symptoms, agreed with that assessment. “It’s not like every patient that has muscle aches and fatigue also has brain fog. It’s really hard to parse them out into specific phenotypes that are pretty classic. Some people will have all of those things, some will have very few of them,” said Dr. Cervantes-Arslanian. “We need to be able to identify them sand see if there is clustering of symptoms so we can better look into what the biological underpinnings are. That’s the first step to thinking about a therapeutic target.”
Dr. Spudich and Dr. Cervantes-Arslanian had no relevant financial disclosures.
Long-haul neurologic symptoms of COVID-19 seem to be distinct from neurologic conditions found in acute disease.
Much work remains to be done to understand the biological mechanisms behind these problems, but inflammation and autoimmune responses may play a role in some cases.Those were some of the takeaways from a talk by Serena Spudich, MD, who presented her research at the 2021 annual meeting of the American Academy of Neurology. Dr. Spudich is the division chief of neurologic infections and global neurology and codirector of the Center for Neuroepidemiology and Clinical Neurological Research at Yale University, New Haven, Conn.
Examining the nervous system’s involvement in COVID-19
Even early on in the pandemic, it became clear that there were lingering complaints of neuromuscular problems, cognitive dysfunction, and mood and psychiatric issues. Breathing and heart rate problems also can arise. “There seems to be a preponderance of syndromes that reflect involvement of the nervous system,” said Dr. Spudich.
To try to understand the etiology of these persistent problems, Dr. Spudich said it’s important to examine the nervous system’s involvement in acute COVID-19. She has been involved in these efforts since early in the pandemic, when she ran an inpatient consult service at Yale dedicated to neurologic effects of acute COVID-19. She witnessed complications including stroke, encephalopathy, and seizures, among others.
Stroke during acute COVID-19 seemed to be associated with inflammation and endothelial activation or endotheliopathy. SARS-CoV-2 has been undetectable in the cerebrospinal fluid (CSF) of patients with acute COVID-19 and neurologic symptoms, but inflammatory cytokines can be present along with increased frequency of B cells. Anti–SARS-CoV-2 antibodies have also been found in CSF, some of which were auto reactive to brain tissue. The immune response was altered, compared with healthy controls, and in the CNS, compared with in the blood, “raising the question of whether inflammation and autoimmunity may be underlying causes of these syndromes,” said Dr. Spudich.
She also pointed to an MRI study of autopsied brain tissue of patients with COVID-19 and neurologic complications, which showed indications of both hemorrhagic and ischemic microvascular injury. “It’s just a reminder that, during acute COVID-19, there may be inflammation in the brain, there may be autoimmune reactions, and there may be vascular changes that underlie some of the neurologic syndromes that are seen,” said Dr. Spudich.
A panoply of different syndromes
In October, Yale set up a post-COVID neurologic clinic that brought together pulmonary, cardiology, and psychiatric specialists, many of whom saw the same patients, about 60% of whom had cognitive impairment, more than 40% had neuromuscular problems, and over 30% headache. “There’s not a single entity of a post-COVID neurologic syndrome. There’s a panoply of different syndromes that may have similar or distinct etiologies,” said Dr. Spudich.
Most patients were in their 30s, 40s, or 50s. That doesn’t necessarily mean this is the most common age range for these issues, though. There could be some bias if these individuals are seeking specialty care because they expected to recover from COVID-19 quickly. But it could be that there is something biologically unique among this age group that predisposes them to complications. Regardless, two out of three patients were never hospitalized, “suggesting that even mild COVID-19 can lead to some long-term sequelae,” said Dr. Spudich.
One potential explanation for long-term neurologic syndromes is that they are an extension of the inflammation, autoimmunity, and immune perturbation occurring during acute disease. One study looked at 18 cancer patients who had neurologic complications with COVID-19. Two months after onset, they had elevated markers of neuroinflammation and neuronal injury in the cerebral spinal fluid compared to cancer patients with no history of COVID-19.
Looking for biologic markers
An Italian study looked at patients who were evaluated during acute hospitalization and again 3 months later, and found that some markers of inflation in the blood were associated with later cognitive impairment. The patients were more severely ill, so it’s not clear what the findings mean for patients who present with neurologic symptoms after milder illness.
A PET scan study of 35 patients with persistent neurologic symptoms found patterns of reduced fluorodeoxyglucose uptake in some regions of the brain that are believed to be associated with some symptoms. Lower values were associated with greater severity for symptoms like memory dysfunction, and anosmia. “Why there might be hypometabolism in these regions I think needs to be assessed and used as a biomarker to associate hypometabolism with other kinds of processes in blood and spinal fluid,” said Dr. Spudich.
Along with colleagues at Yale, Dr. Spudich is conducting the MIND study, which is using PET and MRI imaging along with blood and CSF biomarkers to track the progress of patients after COVID-19. There are few results to discuss since only 20 patients have been recruited so far, except that brain imaging and blood values are generally normal despite neurologic complaints. Most were not hospitalized for COVID-19. Dr. Spudich highlighted one man in his 30s who developed new-onset psychosis, despite no previous history. Although clinical tests were all negative, a novel autoantibody detection method revealed a previously unknown autoreactive antibody in his spinal fluid. “This may suggest that there is autoantibody production in some individuals with post–COVID-19 psychosis, and potentially other syndromes,” said Dr. Spudich.
The research task ahead
The case illustrates the task ahead for neurology. “There’s a real research mandate to understand the biological substrates of these diverse disorders, not only to address the emergent public health concern and reduce the stigma in our patients, but to develop targeted therapeutic interventions,” said Dr. Spudich.
Anna Cervantes-Arslanian, MD, an associate professor of neurology at Boston University who also treats and studies patients with post-COVID neurologic symptoms, agreed with that assessment. “It’s not like every patient that has muscle aches and fatigue also has brain fog. It’s really hard to parse them out into specific phenotypes that are pretty classic. Some people will have all of those things, some will have very few of them,” said Dr. Cervantes-Arslanian. “We need to be able to identify them sand see if there is clustering of symptoms so we can better look into what the biological underpinnings are. That’s the first step to thinking about a therapeutic target.”
Dr. Spudich and Dr. Cervantes-Arslanian had no relevant financial disclosures.
Long-haul neurologic symptoms of COVID-19 seem to be distinct from neurologic conditions found in acute disease.
Much work remains to be done to understand the biological mechanisms behind these problems, but inflammation and autoimmune responses may play a role in some cases.Those were some of the takeaways from a talk by Serena Spudich, MD, who presented her research at the 2021 annual meeting of the American Academy of Neurology. Dr. Spudich is the division chief of neurologic infections and global neurology and codirector of the Center for Neuroepidemiology and Clinical Neurological Research at Yale University, New Haven, Conn.
Examining the nervous system’s involvement in COVID-19
Even early on in the pandemic, it became clear that there were lingering complaints of neuromuscular problems, cognitive dysfunction, and mood and psychiatric issues. Breathing and heart rate problems also can arise. “There seems to be a preponderance of syndromes that reflect involvement of the nervous system,” said Dr. Spudich.
To try to understand the etiology of these persistent problems, Dr. Spudich said it’s important to examine the nervous system’s involvement in acute COVID-19. She has been involved in these efforts since early in the pandemic, when she ran an inpatient consult service at Yale dedicated to neurologic effects of acute COVID-19. She witnessed complications including stroke, encephalopathy, and seizures, among others.
Stroke during acute COVID-19 seemed to be associated with inflammation and endothelial activation or endotheliopathy. SARS-CoV-2 has been undetectable in the cerebrospinal fluid (CSF) of patients with acute COVID-19 and neurologic symptoms, but inflammatory cytokines can be present along with increased frequency of B cells. Anti–SARS-CoV-2 antibodies have also been found in CSF, some of which were auto reactive to brain tissue. The immune response was altered, compared with healthy controls, and in the CNS, compared with in the blood, “raising the question of whether inflammation and autoimmunity may be underlying causes of these syndromes,” said Dr. Spudich.
She also pointed to an MRI study of autopsied brain tissue of patients with COVID-19 and neurologic complications, which showed indications of both hemorrhagic and ischemic microvascular injury. “It’s just a reminder that, during acute COVID-19, there may be inflammation in the brain, there may be autoimmune reactions, and there may be vascular changes that underlie some of the neurologic syndromes that are seen,” said Dr. Spudich.
A panoply of different syndromes
In October, Yale set up a post-COVID neurologic clinic that brought together pulmonary, cardiology, and psychiatric specialists, many of whom saw the same patients, about 60% of whom had cognitive impairment, more than 40% had neuromuscular problems, and over 30% headache. “There’s not a single entity of a post-COVID neurologic syndrome. There’s a panoply of different syndromes that may have similar or distinct etiologies,” said Dr. Spudich.
Most patients were in their 30s, 40s, or 50s. That doesn’t necessarily mean this is the most common age range for these issues, though. There could be some bias if these individuals are seeking specialty care because they expected to recover from COVID-19 quickly. But it could be that there is something biologically unique among this age group that predisposes them to complications. Regardless, two out of three patients were never hospitalized, “suggesting that even mild COVID-19 can lead to some long-term sequelae,” said Dr. Spudich.
One potential explanation for long-term neurologic syndromes is that they are an extension of the inflammation, autoimmunity, and immune perturbation occurring during acute disease. One study looked at 18 cancer patients who had neurologic complications with COVID-19. Two months after onset, they had elevated markers of neuroinflammation and neuronal injury in the cerebral spinal fluid compared to cancer patients with no history of COVID-19.
Looking for biologic markers
An Italian study looked at patients who were evaluated during acute hospitalization and again 3 months later, and found that some markers of inflation in the blood were associated with later cognitive impairment. The patients were more severely ill, so it’s not clear what the findings mean for patients who present with neurologic symptoms after milder illness.
A PET scan study of 35 patients with persistent neurologic symptoms found patterns of reduced fluorodeoxyglucose uptake in some regions of the brain that are believed to be associated with some symptoms. Lower values were associated with greater severity for symptoms like memory dysfunction, and anosmia. “Why there might be hypometabolism in these regions I think needs to be assessed and used as a biomarker to associate hypometabolism with other kinds of processes in blood and spinal fluid,” said Dr. Spudich.
Along with colleagues at Yale, Dr. Spudich is conducting the MIND study, which is using PET and MRI imaging along with blood and CSF biomarkers to track the progress of patients after COVID-19. There are few results to discuss since only 20 patients have been recruited so far, except that brain imaging and blood values are generally normal despite neurologic complaints. Most were not hospitalized for COVID-19. Dr. Spudich highlighted one man in his 30s who developed new-onset psychosis, despite no previous history. Although clinical tests were all negative, a novel autoantibody detection method revealed a previously unknown autoreactive antibody in his spinal fluid. “This may suggest that there is autoantibody production in some individuals with post–COVID-19 psychosis, and potentially other syndromes,” said Dr. Spudich.
The research task ahead
The case illustrates the task ahead for neurology. “There’s a real research mandate to understand the biological substrates of these diverse disorders, not only to address the emergent public health concern and reduce the stigma in our patients, but to develop targeted therapeutic interventions,” said Dr. Spudich.
Anna Cervantes-Arslanian, MD, an associate professor of neurology at Boston University who also treats and studies patients with post-COVID neurologic symptoms, agreed with that assessment. “It’s not like every patient that has muscle aches and fatigue also has brain fog. It’s really hard to parse them out into specific phenotypes that are pretty classic. Some people will have all of those things, some will have very few of them,” said Dr. Cervantes-Arslanian. “We need to be able to identify them sand see if there is clustering of symptoms so we can better look into what the biological underpinnings are. That’s the first step to thinking about a therapeutic target.”
Dr. Spudich and Dr. Cervantes-Arslanian had no relevant financial disclosures.
FROM AAN 2021
Stroke is ‘not a common complication’ in COVID-19
One study showed a stroke rate of 2.2% among patients with COVID-19 admitted to intensive care in 52 different countries. Another found a stroke rate of 1.48% in patients hospitalized with COVID-19 from 70 different countries. These researchers also found a reduction in stroke presentations and stroke care during the pandemic.
Both studies will be presented at the American Academy of Neurology’s 2021 annual meeting.
“Stroke has been a known serious complication of COVID-19, with some studies reporting a higher-than-expected occurrence, especially in young people,” said coauthor of the intensive care study, Jonathon Fanning, MBBS, PhD, University of Queensland, Brisbane, Australia.
“However, among the sickest of COVID patients – those admitted to an ICU – our research found that stroke was not a common complication and that ischemic stroke did not increase the risk of death,” he added.
Hemorrhagic stroke more common?
In this study, researchers analyzed a database of 2,699 patients who were admitted to the intensive care unit with COVID-19 in 52 countries and found that 59 of these patients (2.2%) subsequently sustained a stroke.
Most of the strokes identified in this cohort were hemorrhagic (46%), with 32% being ischemic and 22% unspecified. Hemorrhagic stroke was associated with a fivefold increased risk for death compared with patients who did not have a stroke. Of those with a hemorrhagic stroke, 72% died, but only 15% died of the stroke. Rather, multiorgan failure was the leading cause of death.
There was no association between ischemic stroke and mortality.
“There is scarce research on new-onset stroke complicating ICU admissions, and many of the limitations of assessing stroke in ICU populations confound the true values and result in variability in reported incidence anywhere from a 1%-4% incidence,” Dr. Fanning said.
He noted that a large Korean study had shown a 1.2% rate of stroke in patients without COVID admitted to non-neurologic ICUs. “In light of this, I think this 2% is higher than we would expect in a general ICU population, but in the context of earlier reports of COVID-19–associated risk for stroke, this figure is actually somewhat reassuring,” Dr. Fanning said.
Asked how this study compared with the large American Heart Association study recently reported that showed an overall rate of ischemic stroke of 0.75%, Dr. Fanning said the two studies reported on different populations, which makes them difficult to compare.
“Our study specifically reports on new-onset stroke complicating ICU admission,” he noted. “The AHA study is a large study of all patients admitted to hospital, but both studies identified less than previous estimates of COVID-related stroke.”
Largest sample to date
The other study, which includes 119,967 COVID-19 hospitalizations and represents the largest sample reporting the concomitant diagnoses of stroke and SARS-CoV-2 infection to date, was presented at the AAN meeting by Thanh N. Nguyen, MD, a professor at Boston University.
This study has also been published online in Neurology, with first author Raul G. Nogueira, MD, Emory University, Atlanta.
In this international observational, retrospective study across 6 continents, 70 countries, and 457 stroke centers, there was a 1.48% stroke rate across 119,967 COVID-19 hospitalizations. SARS-CoV-2 infection was noted in 3.3% (1,722) of all stroke admissions, which numbered 52,026.
The researchers identified stroke diagnoses by the International Classification of Diseases, 10th revision, codes and/or classifications in stroke center databases, and rates of stroke hospitalizations and numbers of patients receiving thrombolysis were compared between the first 4 months of the pandemic (March to June 2020) compared with two control 4-month periods.
Global decline in stroke care during pandemic
Results showed a global decline in the number of stroke patients admitted to the hospital as well as acute stroke treatments, such as thrombolysis, during the first wave of the COVID-19 pandemic. The researchers found that there were 91,373 stroke admissions in the 4 months immediately before the pandemic, compared with 80,894 admissions during the first 4 pandemic months, representing an 11.5% decline.
They also report that 13,334 stroke patients received intravenous thrombolysis in the 4 months preceding the pandemic, compared with 11,570 during the first 4 pandemic months, representing a 13.2% drop.
Interhospital transfers after thrombolysis for a higher level of stroke care decreased from 1,337 before the pandemic to 1,178 during the pandemic, a reduction of 11.9%.
There were greater declines in primary compared with comprehensive stroke centers for stroke hospitalizations (change, –17.3% vs. –10.3%) and for the number of patients receiving thrombolysis (change, –15.5% vs. –12.6%).
The volume of stroke hospitalizations increased by 9.5% in the two later pandemic months (May, June) versus the two earlier months (March, April), with greater recovery in hospitals with lower COVID-19 hospitalization volume, high-volume stroke centers, and comprehensive stroke centers.
Dr. Nguyen suggested that reasons for the reductions in these stroke numbers at the beginning of the pandemic could include a reduction in stroke risk due to a reduction of exposure to other viral infections or patients not presenting to the hospital for fear of contracting the coronavirus.
The higher recovery of stroke volume in high-volume stroke centers and comprehensive stroke centers may represent patients with higher needs – those having more severe strokes – seeking care more frequently than those with milder symptoms, she noted.
“Preserving access to stroke care and emergency stroke care amidst a pandemic is as important as educating patients on the importance of presenting to the hospital in the event of stroke-like symptoms,” Dr. Nguyen concluded.
“We continue to advocate that if a patient has stroke-like symptoms, such as loss of speech, strength, vision, or balance, it is important for the patient to seek medical care as an emergency, as there are treatments that can improve a patient’s ability to recover from disabling stroke in earlier rather than later time windows,” she added.
In the publication, the authors wrote, “Our results concur with other recent reports on the collateral effects of the COVID-19 pandemic on stroke systems of care,” but added that “this is among the first descriptions of the change at a global level, including primary and comprehensive stroke centers.”
They said that hospital access related to high COVID-19 burden was unlikely a factor because the decline was seen in centers with a few or no patients with COVID-19. They suggested that patient fear of contracting coronavirus may have played a role, along with a decrease in presentation of transient ischemic attacks, mild strokes, or moderate strokes, and physical distancing measures may have prevented the timely witnessing of a stroke.
A version of this article first appeared on Medscape.com.
One study showed a stroke rate of 2.2% among patients with COVID-19 admitted to intensive care in 52 different countries. Another found a stroke rate of 1.48% in patients hospitalized with COVID-19 from 70 different countries. These researchers also found a reduction in stroke presentations and stroke care during the pandemic.
Both studies will be presented at the American Academy of Neurology’s 2021 annual meeting.
“Stroke has been a known serious complication of COVID-19, with some studies reporting a higher-than-expected occurrence, especially in young people,” said coauthor of the intensive care study, Jonathon Fanning, MBBS, PhD, University of Queensland, Brisbane, Australia.
“However, among the sickest of COVID patients – those admitted to an ICU – our research found that stroke was not a common complication and that ischemic stroke did not increase the risk of death,” he added.
Hemorrhagic stroke more common?
In this study, researchers analyzed a database of 2,699 patients who were admitted to the intensive care unit with COVID-19 in 52 countries and found that 59 of these patients (2.2%) subsequently sustained a stroke.
Most of the strokes identified in this cohort were hemorrhagic (46%), with 32% being ischemic and 22% unspecified. Hemorrhagic stroke was associated with a fivefold increased risk for death compared with patients who did not have a stroke. Of those with a hemorrhagic stroke, 72% died, but only 15% died of the stroke. Rather, multiorgan failure was the leading cause of death.
There was no association between ischemic stroke and mortality.
“There is scarce research on new-onset stroke complicating ICU admissions, and many of the limitations of assessing stroke in ICU populations confound the true values and result in variability in reported incidence anywhere from a 1%-4% incidence,” Dr. Fanning said.
He noted that a large Korean study had shown a 1.2% rate of stroke in patients without COVID admitted to non-neurologic ICUs. “In light of this, I think this 2% is higher than we would expect in a general ICU population, but in the context of earlier reports of COVID-19–associated risk for stroke, this figure is actually somewhat reassuring,” Dr. Fanning said.
Asked how this study compared with the large American Heart Association study recently reported that showed an overall rate of ischemic stroke of 0.75%, Dr. Fanning said the two studies reported on different populations, which makes them difficult to compare.
“Our study specifically reports on new-onset stroke complicating ICU admission,” he noted. “The AHA study is a large study of all patients admitted to hospital, but both studies identified less than previous estimates of COVID-related stroke.”
Largest sample to date
The other study, which includes 119,967 COVID-19 hospitalizations and represents the largest sample reporting the concomitant diagnoses of stroke and SARS-CoV-2 infection to date, was presented at the AAN meeting by Thanh N. Nguyen, MD, a professor at Boston University.
This study has also been published online in Neurology, with first author Raul G. Nogueira, MD, Emory University, Atlanta.
In this international observational, retrospective study across 6 continents, 70 countries, and 457 stroke centers, there was a 1.48% stroke rate across 119,967 COVID-19 hospitalizations. SARS-CoV-2 infection was noted in 3.3% (1,722) of all stroke admissions, which numbered 52,026.
The researchers identified stroke diagnoses by the International Classification of Diseases, 10th revision, codes and/or classifications in stroke center databases, and rates of stroke hospitalizations and numbers of patients receiving thrombolysis were compared between the first 4 months of the pandemic (March to June 2020) compared with two control 4-month periods.
Global decline in stroke care during pandemic
Results showed a global decline in the number of stroke patients admitted to the hospital as well as acute stroke treatments, such as thrombolysis, during the first wave of the COVID-19 pandemic. The researchers found that there were 91,373 stroke admissions in the 4 months immediately before the pandemic, compared with 80,894 admissions during the first 4 pandemic months, representing an 11.5% decline.
They also report that 13,334 stroke patients received intravenous thrombolysis in the 4 months preceding the pandemic, compared with 11,570 during the first 4 pandemic months, representing a 13.2% drop.
Interhospital transfers after thrombolysis for a higher level of stroke care decreased from 1,337 before the pandemic to 1,178 during the pandemic, a reduction of 11.9%.
There were greater declines in primary compared with comprehensive stroke centers for stroke hospitalizations (change, –17.3% vs. –10.3%) and for the number of patients receiving thrombolysis (change, –15.5% vs. –12.6%).
The volume of stroke hospitalizations increased by 9.5% in the two later pandemic months (May, June) versus the two earlier months (March, April), with greater recovery in hospitals with lower COVID-19 hospitalization volume, high-volume stroke centers, and comprehensive stroke centers.
Dr. Nguyen suggested that reasons for the reductions in these stroke numbers at the beginning of the pandemic could include a reduction in stroke risk due to a reduction of exposure to other viral infections or patients not presenting to the hospital for fear of contracting the coronavirus.
The higher recovery of stroke volume in high-volume stroke centers and comprehensive stroke centers may represent patients with higher needs – those having more severe strokes – seeking care more frequently than those with milder symptoms, she noted.
“Preserving access to stroke care and emergency stroke care amidst a pandemic is as important as educating patients on the importance of presenting to the hospital in the event of stroke-like symptoms,” Dr. Nguyen concluded.
“We continue to advocate that if a patient has stroke-like symptoms, such as loss of speech, strength, vision, or balance, it is important for the patient to seek medical care as an emergency, as there are treatments that can improve a patient’s ability to recover from disabling stroke in earlier rather than later time windows,” she added.
In the publication, the authors wrote, “Our results concur with other recent reports on the collateral effects of the COVID-19 pandemic on stroke systems of care,” but added that “this is among the first descriptions of the change at a global level, including primary and comprehensive stroke centers.”
They said that hospital access related to high COVID-19 burden was unlikely a factor because the decline was seen in centers with a few or no patients with COVID-19. They suggested that patient fear of contracting coronavirus may have played a role, along with a decrease in presentation of transient ischemic attacks, mild strokes, or moderate strokes, and physical distancing measures may have prevented the timely witnessing of a stroke.
A version of this article first appeared on Medscape.com.
One study showed a stroke rate of 2.2% among patients with COVID-19 admitted to intensive care in 52 different countries. Another found a stroke rate of 1.48% in patients hospitalized with COVID-19 from 70 different countries. These researchers also found a reduction in stroke presentations and stroke care during the pandemic.
Both studies will be presented at the American Academy of Neurology’s 2021 annual meeting.
“Stroke has been a known serious complication of COVID-19, with some studies reporting a higher-than-expected occurrence, especially in young people,” said coauthor of the intensive care study, Jonathon Fanning, MBBS, PhD, University of Queensland, Brisbane, Australia.
“However, among the sickest of COVID patients – those admitted to an ICU – our research found that stroke was not a common complication and that ischemic stroke did not increase the risk of death,” he added.
Hemorrhagic stroke more common?
In this study, researchers analyzed a database of 2,699 patients who were admitted to the intensive care unit with COVID-19 in 52 countries and found that 59 of these patients (2.2%) subsequently sustained a stroke.
Most of the strokes identified in this cohort were hemorrhagic (46%), with 32% being ischemic and 22% unspecified. Hemorrhagic stroke was associated with a fivefold increased risk for death compared with patients who did not have a stroke. Of those with a hemorrhagic stroke, 72% died, but only 15% died of the stroke. Rather, multiorgan failure was the leading cause of death.
There was no association between ischemic stroke and mortality.
“There is scarce research on new-onset stroke complicating ICU admissions, and many of the limitations of assessing stroke in ICU populations confound the true values and result in variability in reported incidence anywhere from a 1%-4% incidence,” Dr. Fanning said.
He noted that a large Korean study had shown a 1.2% rate of stroke in patients without COVID admitted to non-neurologic ICUs. “In light of this, I think this 2% is higher than we would expect in a general ICU population, but in the context of earlier reports of COVID-19–associated risk for stroke, this figure is actually somewhat reassuring,” Dr. Fanning said.
Asked how this study compared with the large American Heart Association study recently reported that showed an overall rate of ischemic stroke of 0.75%, Dr. Fanning said the two studies reported on different populations, which makes them difficult to compare.
“Our study specifically reports on new-onset stroke complicating ICU admission,” he noted. “The AHA study is a large study of all patients admitted to hospital, but both studies identified less than previous estimates of COVID-related stroke.”
Largest sample to date
The other study, which includes 119,967 COVID-19 hospitalizations and represents the largest sample reporting the concomitant diagnoses of stroke and SARS-CoV-2 infection to date, was presented at the AAN meeting by Thanh N. Nguyen, MD, a professor at Boston University.
This study has also been published online in Neurology, with first author Raul G. Nogueira, MD, Emory University, Atlanta.
In this international observational, retrospective study across 6 continents, 70 countries, and 457 stroke centers, there was a 1.48% stroke rate across 119,967 COVID-19 hospitalizations. SARS-CoV-2 infection was noted in 3.3% (1,722) of all stroke admissions, which numbered 52,026.
The researchers identified stroke diagnoses by the International Classification of Diseases, 10th revision, codes and/or classifications in stroke center databases, and rates of stroke hospitalizations and numbers of patients receiving thrombolysis were compared between the first 4 months of the pandemic (March to June 2020) compared with two control 4-month periods.
Global decline in stroke care during pandemic
Results showed a global decline in the number of stroke patients admitted to the hospital as well as acute stroke treatments, such as thrombolysis, during the first wave of the COVID-19 pandemic. The researchers found that there were 91,373 stroke admissions in the 4 months immediately before the pandemic, compared with 80,894 admissions during the first 4 pandemic months, representing an 11.5% decline.
They also report that 13,334 stroke patients received intravenous thrombolysis in the 4 months preceding the pandemic, compared with 11,570 during the first 4 pandemic months, representing a 13.2% drop.
Interhospital transfers after thrombolysis for a higher level of stroke care decreased from 1,337 before the pandemic to 1,178 during the pandemic, a reduction of 11.9%.
There were greater declines in primary compared with comprehensive stroke centers for stroke hospitalizations (change, –17.3% vs. –10.3%) and for the number of patients receiving thrombolysis (change, –15.5% vs. –12.6%).
The volume of stroke hospitalizations increased by 9.5% in the two later pandemic months (May, June) versus the two earlier months (March, April), with greater recovery in hospitals with lower COVID-19 hospitalization volume, high-volume stroke centers, and comprehensive stroke centers.
Dr. Nguyen suggested that reasons for the reductions in these stroke numbers at the beginning of the pandemic could include a reduction in stroke risk due to a reduction of exposure to other viral infections or patients not presenting to the hospital for fear of contracting the coronavirus.
The higher recovery of stroke volume in high-volume stroke centers and comprehensive stroke centers may represent patients with higher needs – those having more severe strokes – seeking care more frequently than those with milder symptoms, she noted.
“Preserving access to stroke care and emergency stroke care amidst a pandemic is as important as educating patients on the importance of presenting to the hospital in the event of stroke-like symptoms,” Dr. Nguyen concluded.
“We continue to advocate that if a patient has stroke-like symptoms, such as loss of speech, strength, vision, or balance, it is important for the patient to seek medical care as an emergency, as there are treatments that can improve a patient’s ability to recover from disabling stroke in earlier rather than later time windows,” she added.
In the publication, the authors wrote, “Our results concur with other recent reports on the collateral effects of the COVID-19 pandemic on stroke systems of care,” but added that “this is among the first descriptions of the change at a global level, including primary and comprehensive stroke centers.”
They said that hospital access related to high COVID-19 burden was unlikely a factor because the decline was seen in centers with a few or no patients with COVID-19. They suggested that patient fear of contracting coronavirus may have played a role, along with a decrease in presentation of transient ischemic attacks, mild strokes, or moderate strokes, and physical distancing measures may have prevented the timely witnessing of a stroke.
A version of this article first appeared on Medscape.com.
From AAN 2021
Study shows potential of remote Parkinson’s disease genotyping
according to a pilot study sponsored by the Parkinson’s Foundation.
“Overall we found high levels of participant satisfaction with Parkinson’s testing and genetic counseling and no significant difference in outcomes concerning satisfaction, knowledge, and impact of genetic testing between disclosure of results and genetic counseling in-person by either a neurologist or a genetic counselor or via telephone by a remove genetic counselor at a centralized center,” said Jennifer L. Verbrugge, MS, a genetic counselor at Indiana University, Indianapolis, in reporting results of the PD GENEration pilot study, presented at the 2021 annual meeting of the American Academy of Neurology.
COVID complication
The study launched in the summer of 2019 with the goal of enrolling 600 participants. However, because of the COVID-19 pandemic, enrollment was truncated. The pilot study eventually enrolled 289 patients, 205 of whom returned their postgenetic counseling surveys, Ms. Verbrugge said. The pilot study goal was to evaluate the feasibility and impact of in-person versus remote genetic testing and counseling for people with Parkinson’s disease.
“The study hopes to reach its ultimate goal, which is to deliver Parkinson’s disease–related genetic testing and counseling to upward of 15,000 people with Parkinson’s,” Ms. Verbrugge said. The program is also planning to expand to include Spanish speakers.
In the pilot study, genetic results were positive in 17% of patients, with 15% (n = 42) having positive heterozygous variants and 8% having variants of uncertain significance. “We did not see significant differences in these outcomes when we compared the mode and genetic counselors involved,” Ms. Verbrugge said.
The study did find that in-person testing and counseling “was associated with increased participant feelings that they were partners in care,” Ms. Verbrugge added. “This is something we are going to continue to evaluate as time goes on.”
However, as the COVID-19 pandemic pushed clinicians to develop virtual platforms, it resulted in a function through which participants can complete all genetic study activities remotely, she said. The study organizers anticipate that as pandemic restrictions ease, they will be able to reach their original goal of 600 participants along with those recruited in an expansion phase.
“As restrictions related to the pandemic ease, we anticipate that more Parkinson’s disease gene-targeted clinical trials will emerge, with aims to recruit people who carry certain gene variants,” Ms. Verbrugge said in an interview. “Many people with Parkinson’s disease may therefore benefit from genetic testing and learning if they carry a Parkinson’s disease related gene variant from participation in the PD GENEration study.”
Increasing patient access
To scale up to the 15,000-population goal for the program, PD GENEration has launched a new protocol designed to increase patient access at new study sites, Ms. Verbrugge said. “This protocol includes an abbreviate version of the clinical data collected, while it maintains the critical component of genetic counseling in the testing process.”
Going forward, the PD GENEration study will focus on improving access to genetic testing and counseling in underrepresented and rural populations, Ms. Verbrugge said. “These efforts will also generate valuable genomic data, allowing researchers to learn more about the causes of Parkinson’s disease in diverse and underrepresented populations. The study will be expanding research efforts concerning the genomic data to gain insights about the seven key genes studied as well as new genes linked to Parkinson’s disease.”
The work of the PD GENEration study is timely, said David K. Simon, MD, PhD, of Harvard Medical School and director of the Parkinson’s Disease & Movement Disorders Center at Beth Israel Deaconess Medical Center, both in Boston. “This is very important to identify such patients now, as clinical trials targeting people with specific genetic mutations or variants are coming soon, and in some cases already are underway. The feasibility and speed of enrollment for those trials will be greatly facilitate if we know in advance who are the people with Parkinson’s disease who have mutations that would make them eligible for the particular trials.”
The fact that the study provides free genetic testing to people with Parkinson’s disease isn’t to be overlooked. “This was an important study to address the question of whether or not remote genetic counseling was feasible and effective, and the results are meaningful given the randomized prospective design,” Dr. Simon said.
Ms. Verbrugge has no relevant relationships to disclose. Dr. Simon reports receiving research funding from the Parkinson’s Foundation.
according to a pilot study sponsored by the Parkinson’s Foundation.
“Overall we found high levels of participant satisfaction with Parkinson’s testing and genetic counseling and no significant difference in outcomes concerning satisfaction, knowledge, and impact of genetic testing between disclosure of results and genetic counseling in-person by either a neurologist or a genetic counselor or via telephone by a remove genetic counselor at a centralized center,” said Jennifer L. Verbrugge, MS, a genetic counselor at Indiana University, Indianapolis, in reporting results of the PD GENEration pilot study, presented at the 2021 annual meeting of the American Academy of Neurology.
COVID complication
The study launched in the summer of 2019 with the goal of enrolling 600 participants. However, because of the COVID-19 pandemic, enrollment was truncated. The pilot study eventually enrolled 289 patients, 205 of whom returned their postgenetic counseling surveys, Ms. Verbrugge said. The pilot study goal was to evaluate the feasibility and impact of in-person versus remote genetic testing and counseling for people with Parkinson’s disease.
“The study hopes to reach its ultimate goal, which is to deliver Parkinson’s disease–related genetic testing and counseling to upward of 15,000 people with Parkinson’s,” Ms. Verbrugge said. The program is also planning to expand to include Spanish speakers.
In the pilot study, genetic results were positive in 17% of patients, with 15% (n = 42) having positive heterozygous variants and 8% having variants of uncertain significance. “We did not see significant differences in these outcomes when we compared the mode and genetic counselors involved,” Ms. Verbrugge said.
The study did find that in-person testing and counseling “was associated with increased participant feelings that they were partners in care,” Ms. Verbrugge added. “This is something we are going to continue to evaluate as time goes on.”
However, as the COVID-19 pandemic pushed clinicians to develop virtual platforms, it resulted in a function through which participants can complete all genetic study activities remotely, she said. The study organizers anticipate that as pandemic restrictions ease, they will be able to reach their original goal of 600 participants along with those recruited in an expansion phase.
“As restrictions related to the pandemic ease, we anticipate that more Parkinson’s disease gene-targeted clinical trials will emerge, with aims to recruit people who carry certain gene variants,” Ms. Verbrugge said in an interview. “Many people with Parkinson’s disease may therefore benefit from genetic testing and learning if they carry a Parkinson’s disease related gene variant from participation in the PD GENEration study.”
Increasing patient access
To scale up to the 15,000-population goal for the program, PD GENEration has launched a new protocol designed to increase patient access at new study sites, Ms. Verbrugge said. “This protocol includes an abbreviate version of the clinical data collected, while it maintains the critical component of genetic counseling in the testing process.”
Going forward, the PD GENEration study will focus on improving access to genetic testing and counseling in underrepresented and rural populations, Ms. Verbrugge said. “These efforts will also generate valuable genomic data, allowing researchers to learn more about the causes of Parkinson’s disease in diverse and underrepresented populations. The study will be expanding research efforts concerning the genomic data to gain insights about the seven key genes studied as well as new genes linked to Parkinson’s disease.”
The work of the PD GENEration study is timely, said David K. Simon, MD, PhD, of Harvard Medical School and director of the Parkinson’s Disease & Movement Disorders Center at Beth Israel Deaconess Medical Center, both in Boston. “This is very important to identify such patients now, as clinical trials targeting people with specific genetic mutations or variants are coming soon, and in some cases already are underway. The feasibility and speed of enrollment for those trials will be greatly facilitate if we know in advance who are the people with Parkinson’s disease who have mutations that would make them eligible for the particular trials.”
The fact that the study provides free genetic testing to people with Parkinson’s disease isn’t to be overlooked. “This was an important study to address the question of whether or not remote genetic counseling was feasible and effective, and the results are meaningful given the randomized prospective design,” Dr. Simon said.
Ms. Verbrugge has no relevant relationships to disclose. Dr. Simon reports receiving research funding from the Parkinson’s Foundation.
according to a pilot study sponsored by the Parkinson’s Foundation.
“Overall we found high levels of participant satisfaction with Parkinson’s testing and genetic counseling and no significant difference in outcomes concerning satisfaction, knowledge, and impact of genetic testing between disclosure of results and genetic counseling in-person by either a neurologist or a genetic counselor or via telephone by a remove genetic counselor at a centralized center,” said Jennifer L. Verbrugge, MS, a genetic counselor at Indiana University, Indianapolis, in reporting results of the PD GENEration pilot study, presented at the 2021 annual meeting of the American Academy of Neurology.
COVID complication
The study launched in the summer of 2019 with the goal of enrolling 600 participants. However, because of the COVID-19 pandemic, enrollment was truncated. The pilot study eventually enrolled 289 patients, 205 of whom returned their postgenetic counseling surveys, Ms. Verbrugge said. The pilot study goal was to evaluate the feasibility and impact of in-person versus remote genetic testing and counseling for people with Parkinson’s disease.
“The study hopes to reach its ultimate goal, which is to deliver Parkinson’s disease–related genetic testing and counseling to upward of 15,000 people with Parkinson’s,” Ms. Verbrugge said. The program is also planning to expand to include Spanish speakers.
In the pilot study, genetic results were positive in 17% of patients, with 15% (n = 42) having positive heterozygous variants and 8% having variants of uncertain significance. “We did not see significant differences in these outcomes when we compared the mode and genetic counselors involved,” Ms. Verbrugge said.
The study did find that in-person testing and counseling “was associated with increased participant feelings that they were partners in care,” Ms. Verbrugge added. “This is something we are going to continue to evaluate as time goes on.”
However, as the COVID-19 pandemic pushed clinicians to develop virtual platforms, it resulted in a function through which participants can complete all genetic study activities remotely, she said. The study organizers anticipate that as pandemic restrictions ease, they will be able to reach their original goal of 600 participants along with those recruited in an expansion phase.
“As restrictions related to the pandemic ease, we anticipate that more Parkinson’s disease gene-targeted clinical trials will emerge, with aims to recruit people who carry certain gene variants,” Ms. Verbrugge said in an interview. “Many people with Parkinson’s disease may therefore benefit from genetic testing and learning if they carry a Parkinson’s disease related gene variant from participation in the PD GENEration study.”
Increasing patient access
To scale up to the 15,000-population goal for the program, PD GENEration has launched a new protocol designed to increase patient access at new study sites, Ms. Verbrugge said. “This protocol includes an abbreviate version of the clinical data collected, while it maintains the critical component of genetic counseling in the testing process.”
Going forward, the PD GENEration study will focus on improving access to genetic testing and counseling in underrepresented and rural populations, Ms. Verbrugge said. “These efforts will also generate valuable genomic data, allowing researchers to learn more about the causes of Parkinson’s disease in diverse and underrepresented populations. The study will be expanding research efforts concerning the genomic data to gain insights about the seven key genes studied as well as new genes linked to Parkinson’s disease.”
The work of the PD GENEration study is timely, said David K. Simon, MD, PhD, of Harvard Medical School and director of the Parkinson’s Disease & Movement Disorders Center at Beth Israel Deaconess Medical Center, both in Boston. “This is very important to identify such patients now, as clinical trials targeting people with specific genetic mutations or variants are coming soon, and in some cases already are underway. The feasibility and speed of enrollment for those trials will be greatly facilitate if we know in advance who are the people with Parkinson’s disease who have mutations that would make them eligible for the particular trials.”
The fact that the study provides free genetic testing to people with Parkinson’s disease isn’t to be overlooked. “This was an important study to address the question of whether or not remote genetic counseling was feasible and effective, and the results are meaningful given the randomized prospective design,” Dr. Simon said.
Ms. Verbrugge has no relevant relationships to disclose. Dr. Simon reports receiving research funding from the Parkinson’s Foundation.
FROM AAN 2021
Rimegepant looks safe in migraine patients with cardiovascular risk
Results from a 1-year, open-label safety study suggest that
Patients who fall into this category may be ineligible for treatment with triptans.There are mechanistic concerns with rimegepant and related CGRP receptor antagonists. They block CGRP’s effect in the central nervous system, but CGRP is also active in blood vessels and the heart, leading to the possibility that countering its vasodilating effect could expose organs to risk of ischemia.
The Food and Drug Administration approved rimegepant in 2020 for treatment of acute migraine attacks. Sponsor Biohaven is also seeking approval for migraine prevention after a successful phase 3 study published January 2021 in The Lancet.
Susan Hutchinson, MD, who is a headache specialist at Orange County Migraine & Headache Center in Irvine, Calif., presented the results at the American Academy of Neurology’s 2021 annual meeting. The open-label study suggested that rimegepant is generally safe. “The proportion of subjects reporting at least one adverse event was similar among subjects whether they had zero, one, or two or more cardiovascular disease risk factors, and also among those with low and moderate to high 10-year cardiovascular risk, as determined by the Framingham Risk Score,” said Dr. Hutchinson during her presentation.
Still, there was one concerning case: A 53-year-old man experienced an attack of angina. But he already had angina prior to the study, was being treated for hypercholesterolemia, and had current or former exposure to statins. “This adverse event was deemed by the investigator to not be related to rimegepant,” said Dr. Hutchinson.
During the following question-and-answer session, an attendee pressed Dr. Hutchinson about the case, and she admitted to some initial doubts. “That was my concern when I saw those slides. I’m like, ‘oh, my goodness.’ ” She clarified that the man’s angina history dated to 2016, which was several years before the trial, and the episode of angina occurred 7 months after the first dose of rimegepant. “He was treated with nitroglycerin and taken out of the trial,” said Dr. Hutchinson.
Proper patient selection is key
The research adds to the literature on rimegepant by providing data on multiple uses, as opposed to the phase 3 study, which only looked at single use, according to Olivia Begasse de Dhaem, MD, who is a neurology attending physician at Stamford (Conn.) Health and was the session moderator. Rimegepant and other oral CGRP receptor antagonists, including the FDA-approved ubrogepant and the investigative drug atogepant, will help fill the gap of patients who don’t tolerate or are ineligible for triptans, she said.
Dr. Begasse de Dhaem pointed out that patient selection remains important. “I think the main thing for patient care is to look at whether the patient we are treating would fit within the inclusion criteria, or would have been excluded from this study,” said Dr. Begasse de Dhaem. Specifically, according to its clinicaltrials.gov page, the trial excluded patients with hemiplegic and basilar migraine, as well as patients with uncontrolled, unstable, or recently diagnosed cardiovascular disease, those with a body mass index of 30 kg/m2 or higher, and hemoglobin A1c levels of 6.5% or higher. “This also looked at people with less than 15 migraine days per month, so it’s limited in how much we can extrapolate to people with chronic migraine who may take more than 7.7 rimegepant [doses, the mean value taken by trial participants] per month,” Dr. Begasse de Dhaem added.
She also applauded the inclusion of older patients in the study, noting that most migraine studies have an upper age limit.
The study included subjects who experienced 2-14 moderate or severe migraine attacks per month, and they were allowed to take other migraine medications. Cardiovascular risk factors did not prevent entry to the trial and, like the previous pivotal trial, the long-term safety study admitted subjects older than 65. Among the study cohort, 1,514 participants were told to treat migraine pain of any intensity with 75 mg rimegepant up to once per day on an as-needed basis (PRN), and a second group of 286 were told to take 75 mg rimegepant every other day for 12 weeks, along with PRN dosing on nonscheduled treatment days.
Nearly 90% of subjects were female, the mean age was 43.1 years, and 3.7% were age 65 or older. Among the study participants, 40.8% had cardiovascular risk factors, including 28.8% with one risk factor, and 12.1% with two or more. About 7% had a moderate to high (≥10%) 10-year cardiovascular risk by Framingham Risk Score, 23.6% had a family history of coronary artery disease, 11.7% were being treated for hypertension, 10.4% smoked, 8.3% were being treated with a statin, and 3.0% had a history of diabetes.
In total, subjects were exposed to 112,014 doses of rimegepant, a mean of 7.7 doses per 4-week period. The exposure was similar across all risk groups, which included zero risk factors, one risk factor, and two or more risk factors; FRS of less than 10%; and FRS of 10% or greater. The most common adverse events were upper respiratory tract infection (8.8%), nasopharyngitis (6.8%), and sinusitis (5.1%). The frequency of one or more adverse events was similar among those with zero cardiovascular risk factors (59.6%), one risk factor (61.4%), two or more risk factors (62.2%), FRS less than 10% (59.9%), and FRS of 10% or greater (59.9%).
The study was funded by Biohaven Pharmaceuticals. Dr. Hutchinson has been a consultant or advisory board member for Biohaven, Alder, Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. She has been on the speaker’s bureau for Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. Dr. Begasse de Dhaem has no relevant financial disclosures.
Results from a 1-year, open-label safety study suggest that
Patients who fall into this category may be ineligible for treatment with triptans.There are mechanistic concerns with rimegepant and related CGRP receptor antagonists. They block CGRP’s effect in the central nervous system, but CGRP is also active in blood vessels and the heart, leading to the possibility that countering its vasodilating effect could expose organs to risk of ischemia.
The Food and Drug Administration approved rimegepant in 2020 for treatment of acute migraine attacks. Sponsor Biohaven is also seeking approval for migraine prevention after a successful phase 3 study published January 2021 in The Lancet.
Susan Hutchinson, MD, who is a headache specialist at Orange County Migraine & Headache Center in Irvine, Calif., presented the results at the American Academy of Neurology’s 2021 annual meeting. The open-label study suggested that rimegepant is generally safe. “The proportion of subjects reporting at least one adverse event was similar among subjects whether they had zero, one, or two or more cardiovascular disease risk factors, and also among those with low and moderate to high 10-year cardiovascular risk, as determined by the Framingham Risk Score,” said Dr. Hutchinson during her presentation.
Still, there was one concerning case: A 53-year-old man experienced an attack of angina. But he already had angina prior to the study, was being treated for hypercholesterolemia, and had current or former exposure to statins. “This adverse event was deemed by the investigator to not be related to rimegepant,” said Dr. Hutchinson.
During the following question-and-answer session, an attendee pressed Dr. Hutchinson about the case, and she admitted to some initial doubts. “That was my concern when I saw those slides. I’m like, ‘oh, my goodness.’ ” She clarified that the man’s angina history dated to 2016, which was several years before the trial, and the episode of angina occurred 7 months after the first dose of rimegepant. “He was treated with nitroglycerin and taken out of the trial,” said Dr. Hutchinson.
Proper patient selection is key
The research adds to the literature on rimegepant by providing data on multiple uses, as opposed to the phase 3 study, which only looked at single use, according to Olivia Begasse de Dhaem, MD, who is a neurology attending physician at Stamford (Conn.) Health and was the session moderator. Rimegepant and other oral CGRP receptor antagonists, including the FDA-approved ubrogepant and the investigative drug atogepant, will help fill the gap of patients who don’t tolerate or are ineligible for triptans, she said.
Dr. Begasse de Dhaem pointed out that patient selection remains important. “I think the main thing for patient care is to look at whether the patient we are treating would fit within the inclusion criteria, or would have been excluded from this study,” said Dr. Begasse de Dhaem. Specifically, according to its clinicaltrials.gov page, the trial excluded patients with hemiplegic and basilar migraine, as well as patients with uncontrolled, unstable, or recently diagnosed cardiovascular disease, those with a body mass index of 30 kg/m2 or higher, and hemoglobin A1c levels of 6.5% or higher. “This also looked at people with less than 15 migraine days per month, so it’s limited in how much we can extrapolate to people with chronic migraine who may take more than 7.7 rimegepant [doses, the mean value taken by trial participants] per month,” Dr. Begasse de Dhaem added.
She also applauded the inclusion of older patients in the study, noting that most migraine studies have an upper age limit.
The study included subjects who experienced 2-14 moderate or severe migraine attacks per month, and they were allowed to take other migraine medications. Cardiovascular risk factors did not prevent entry to the trial and, like the previous pivotal trial, the long-term safety study admitted subjects older than 65. Among the study cohort, 1,514 participants were told to treat migraine pain of any intensity with 75 mg rimegepant up to once per day on an as-needed basis (PRN), and a second group of 286 were told to take 75 mg rimegepant every other day for 12 weeks, along with PRN dosing on nonscheduled treatment days.
Nearly 90% of subjects were female, the mean age was 43.1 years, and 3.7% were age 65 or older. Among the study participants, 40.8% had cardiovascular risk factors, including 28.8% with one risk factor, and 12.1% with two or more. About 7% had a moderate to high (≥10%) 10-year cardiovascular risk by Framingham Risk Score, 23.6% had a family history of coronary artery disease, 11.7% were being treated for hypertension, 10.4% smoked, 8.3% were being treated with a statin, and 3.0% had a history of diabetes.
In total, subjects were exposed to 112,014 doses of rimegepant, a mean of 7.7 doses per 4-week period. The exposure was similar across all risk groups, which included zero risk factors, one risk factor, and two or more risk factors; FRS of less than 10%; and FRS of 10% or greater. The most common adverse events were upper respiratory tract infection (8.8%), nasopharyngitis (6.8%), and sinusitis (5.1%). The frequency of one or more adverse events was similar among those with zero cardiovascular risk factors (59.6%), one risk factor (61.4%), two or more risk factors (62.2%), FRS less than 10% (59.9%), and FRS of 10% or greater (59.9%).
The study was funded by Biohaven Pharmaceuticals. Dr. Hutchinson has been a consultant or advisory board member for Biohaven, Alder, Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. She has been on the speaker’s bureau for Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. Dr. Begasse de Dhaem has no relevant financial disclosures.
Results from a 1-year, open-label safety study suggest that
Patients who fall into this category may be ineligible for treatment with triptans.There are mechanistic concerns with rimegepant and related CGRP receptor antagonists. They block CGRP’s effect in the central nervous system, but CGRP is also active in blood vessels and the heart, leading to the possibility that countering its vasodilating effect could expose organs to risk of ischemia.
The Food and Drug Administration approved rimegepant in 2020 for treatment of acute migraine attacks. Sponsor Biohaven is also seeking approval for migraine prevention after a successful phase 3 study published January 2021 in The Lancet.
Susan Hutchinson, MD, who is a headache specialist at Orange County Migraine & Headache Center in Irvine, Calif., presented the results at the American Academy of Neurology’s 2021 annual meeting. The open-label study suggested that rimegepant is generally safe. “The proportion of subjects reporting at least one adverse event was similar among subjects whether they had zero, one, or two or more cardiovascular disease risk factors, and also among those with low and moderate to high 10-year cardiovascular risk, as determined by the Framingham Risk Score,” said Dr. Hutchinson during her presentation.
Still, there was one concerning case: A 53-year-old man experienced an attack of angina. But he already had angina prior to the study, was being treated for hypercholesterolemia, and had current or former exposure to statins. “This adverse event was deemed by the investigator to not be related to rimegepant,” said Dr. Hutchinson.
During the following question-and-answer session, an attendee pressed Dr. Hutchinson about the case, and she admitted to some initial doubts. “That was my concern when I saw those slides. I’m like, ‘oh, my goodness.’ ” She clarified that the man’s angina history dated to 2016, which was several years before the trial, and the episode of angina occurred 7 months after the first dose of rimegepant. “He was treated with nitroglycerin and taken out of the trial,” said Dr. Hutchinson.
Proper patient selection is key
The research adds to the literature on rimegepant by providing data on multiple uses, as opposed to the phase 3 study, which only looked at single use, according to Olivia Begasse de Dhaem, MD, who is a neurology attending physician at Stamford (Conn.) Health and was the session moderator. Rimegepant and other oral CGRP receptor antagonists, including the FDA-approved ubrogepant and the investigative drug atogepant, will help fill the gap of patients who don’t tolerate or are ineligible for triptans, she said.
Dr. Begasse de Dhaem pointed out that patient selection remains important. “I think the main thing for patient care is to look at whether the patient we are treating would fit within the inclusion criteria, or would have been excluded from this study,” said Dr. Begasse de Dhaem. Specifically, according to its clinicaltrials.gov page, the trial excluded patients with hemiplegic and basilar migraine, as well as patients with uncontrolled, unstable, or recently diagnosed cardiovascular disease, those with a body mass index of 30 kg/m2 or higher, and hemoglobin A1c levels of 6.5% or higher. “This also looked at people with less than 15 migraine days per month, so it’s limited in how much we can extrapolate to people with chronic migraine who may take more than 7.7 rimegepant [doses, the mean value taken by trial participants] per month,” Dr. Begasse de Dhaem added.
She also applauded the inclusion of older patients in the study, noting that most migraine studies have an upper age limit.
The study included subjects who experienced 2-14 moderate or severe migraine attacks per month, and they were allowed to take other migraine medications. Cardiovascular risk factors did not prevent entry to the trial and, like the previous pivotal trial, the long-term safety study admitted subjects older than 65. Among the study cohort, 1,514 participants were told to treat migraine pain of any intensity with 75 mg rimegepant up to once per day on an as-needed basis (PRN), and a second group of 286 were told to take 75 mg rimegepant every other day for 12 weeks, along with PRN dosing on nonscheduled treatment days.
Nearly 90% of subjects were female, the mean age was 43.1 years, and 3.7% were age 65 or older. Among the study participants, 40.8% had cardiovascular risk factors, including 28.8% with one risk factor, and 12.1% with two or more. About 7% had a moderate to high (≥10%) 10-year cardiovascular risk by Framingham Risk Score, 23.6% had a family history of coronary artery disease, 11.7% were being treated for hypertension, 10.4% smoked, 8.3% were being treated with a statin, and 3.0% had a history of diabetes.
In total, subjects were exposed to 112,014 doses of rimegepant, a mean of 7.7 doses per 4-week period. The exposure was similar across all risk groups, which included zero risk factors, one risk factor, and two or more risk factors; FRS of less than 10%; and FRS of 10% or greater. The most common adverse events were upper respiratory tract infection (8.8%), nasopharyngitis (6.8%), and sinusitis (5.1%). The frequency of one or more adverse events was similar among those with zero cardiovascular risk factors (59.6%), one risk factor (61.4%), two or more risk factors (62.2%), FRS less than 10% (59.9%), and FRS of 10% or greater (59.9%).
The study was funded by Biohaven Pharmaceuticals. Dr. Hutchinson has been a consultant or advisory board member for Biohaven, Alder, Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. She has been on the speaker’s bureau for Allergan, Amgen, Avanir, electroCore, Lilly, Novartis, Promius, Supernus, and Teva. Dr. Begasse de Dhaem has no relevant financial disclosures.
FROM AAN 2021