Neurology

Difficulty falling asleep may be predictive of future cognitive impairment in older adults – and depressive symptoms and vascular disease may partially drive this association, new research suggests.

Trouble falling asleep “may be a modifiable risk factor for later-life cognitive impairment and dementia,” said lead author Afsara Zaheed, a PhD candidate in clinical science, department of psychology, University of Michigan, Ann Arbor.

“Patients should also be aware of the importance of insomnia on cognitive functioning so that they can bring up these concerns with their providers early,” she said.

The findings were presented at Virtual SLEEP 2021, the 35th Annual Meeting of the Associated Professional Sleep Societies.
 

Poor sleep common with age

As many as one-half of older adults report having poor sleep quality and insomnia, and growing evidence suggests that insomnia may be a unique risk factor for cognitive decline in later life, Ms. Zaheed explained.

To investigate further, the researchers analyzed data on 2,496 adults aged 51 years and older who were participants in the Health and Retirement Study, a longitudinal study of aging in a nationally representative population of older adults.

In 2002, participants were asked how often they had trouble falling asleep, woke up during the night, woke up too early, and were not able to fall asleep again and how often they felt really rested when they woke up in the morning.

In 2016, participants’ cognition was assessed using a battery of neuropsychological tests that gauged episodic memory, executive function, language, visuospatial/construction, and processing speed.

Analyses controlled for sociodemographics, baseline global cognitive performance, and the influence of depressive symptoms and vascular disease.

Compared with other insomnia symptoms, having difficulty falling asleep in 2002 was the main insomnia symptom that was predictive of cognitive impairment 14 years later, in 2016.

More frequent trouble falling asleep was predictive of poorer episodic memory, executive function, language, processing speed, and visuospatial performance.

The associations between sleep initiation and later cognitive impairment were partially explained by depressive symptoms and vascular disease burden for all domains except episodic memory, which was only partially explained by depressive symptoms.
 

Unclear mechanism

Ms. Zaheed said research is needed to uncover neurophysiologic mechanisms underlying the observed associations. “It may be that chronic difficulty with falling asleep is associated with inflammatory or metabolic processes that negatively affect brain structure and function over time,” she said.

“Insomnia has also been linked with higher accumulation of protein aggregates in the brain that disrupt cell communication and are characteristic of late-life disorders such as Alzheimer’s disease,” she added.

“While our project did not directly investigate these potential causal pathways between insomnia and cognition, our results suggest that investigating these potential mechanisms is an important area for future research,” Ms. Zaheed said.

“While additional intervention research is needed to determine whether targeting insomnia in older patients can have lasting cognitive benefits, results from this study suggest that discussing insomnia symptoms at the primary care level may be beneficial for both doctors and patients,” she added.

“By targeting insomnia – for example, through an evidence-based cognitive–behavioral therapy approach – individuals may improve various mental and physical health outcomes in addition to improving their sleep quality,” Ms. Zaheed said.

Reached for comment, Shaheen E. Lakhan, MD, PhD, neurologist in Newton, Massachusetts, said, “There is a strong link between chronic sleep disturbances and cognitive impairment, including dementia.”

“This study further supports this link and specifically calls out initiating sleep (as opposed to staying asleep) as the culprit. It also raises the hypothesis that the link is primarily mediated by depression and vascular disease; however, the verdict is still out,” said Dr. Lakhan.

The study was funded by the National Institute on Aging. Ms. Zaheed and Dr. Lakhan have disclosed no relevant financial relationships.

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

Difficulty falling asleep may be predictive of future cognitive impairment in older adults – and depressive symptoms and vascular disease may partially drive this association, new research suggests.

Trouble falling asleep “may be a modifiable risk factor for later-life cognitive impairment and dementia,” said lead author Afsara Zaheed, a PhD candidate in clinical science, department of psychology, University of Michigan, Ann Arbor.

“Patients should also be aware of the importance of insomnia on cognitive functioning so that they can bring up these concerns with their providers early,” she said.

The findings were presented at Virtual SLEEP 2021, the 35th Annual Meeting of the Associated Professional Sleep Societies.
 

Poor sleep common with age

As many as one-half of older adults report having poor sleep quality and insomnia, and growing evidence suggests that insomnia may be a unique risk factor for cognitive decline in later life, Ms. Zaheed explained.

To investigate further, the researchers analyzed data on 2,496 adults aged 51 years and older who were participants in the Health and Retirement Study, a longitudinal study of aging in a nationally representative population of older adults.

In 2002, participants were asked how often they had trouble falling asleep, woke up during the night, woke up too early, and were not able to fall asleep again and how often they felt really rested when they woke up in the morning.

In 2016, participants’ cognition was assessed using a battery of neuropsychological tests that gauged episodic memory, executive function, language, visuospatial/construction, and processing speed.

Analyses controlled for sociodemographics, baseline global cognitive performance, and the influence of depressive symptoms and vascular disease.

Compared with other insomnia symptoms, having difficulty falling asleep in 2002 was the main insomnia symptom that was predictive of cognitive impairment 14 years later, in 2016.

More frequent trouble falling asleep was predictive of poorer episodic memory, executive function, language, processing speed, and visuospatial performance.

The associations between sleep initiation and later cognitive impairment were partially explained by depressive symptoms and vascular disease burden for all domains except episodic memory, which was only partially explained by depressive symptoms.
 

Unclear mechanism

Ms. Zaheed said research is needed to uncover neurophysiologic mechanisms underlying the observed associations. “It may be that chronic difficulty with falling asleep is associated with inflammatory or metabolic processes that negatively affect brain structure and function over time,” she said.

“Insomnia has also been linked with higher accumulation of protein aggregates in the brain that disrupt cell communication and are characteristic of late-life disorders such as Alzheimer’s disease,” she added.

“While our project did not directly investigate these potential causal pathways between insomnia and cognition, our results suggest that investigating these potential mechanisms is an important area for future research,” Ms. Zaheed said.

“While additional intervention research is needed to determine whether targeting insomnia in older patients can have lasting cognitive benefits, results from this study suggest that discussing insomnia symptoms at the primary care level may be beneficial for both doctors and patients,” she added.

“By targeting insomnia – for example, through an evidence-based cognitive–behavioral therapy approach – individuals may improve various mental and physical health outcomes in addition to improving their sleep quality,” Ms. Zaheed said.

Reached for comment, Shaheen E. Lakhan, MD, PhD, neurologist in Newton, Massachusetts, said, “There is a strong link between chronic sleep disturbances and cognitive impairment, including dementia.”

“This study further supports this link and specifically calls out initiating sleep (as opposed to staying asleep) as the culprit. It also raises the hypothesis that the link is primarily mediated by depression and vascular disease; however, the verdict is still out,” said Dr. Lakhan.

The study was funded by the National Institute on Aging. Ms. Zaheed and Dr. Lakhan have disclosed no relevant financial relationships.

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

Difficulty falling asleep may be predictive of future cognitive impairment in older adults – and depressive symptoms and vascular disease may partially drive this association, new research suggests.

Trouble falling asleep “may be a modifiable risk factor for later-life cognitive impairment and dementia,” said lead author Afsara Zaheed, a PhD candidate in clinical science, department of psychology, University of Michigan, Ann Arbor.

“Patients should also be aware of the importance of insomnia on cognitive functioning so that they can bring up these concerns with their providers early,” she said.

The findings were presented at Virtual SLEEP 2021, the 35th Annual Meeting of the Associated Professional Sleep Societies.
 

Poor sleep common with age

As many as one-half of older adults report having poor sleep quality and insomnia, and growing evidence suggests that insomnia may be a unique risk factor for cognitive decline in later life, Ms. Zaheed explained.

To investigate further, the researchers analyzed data on 2,496 adults aged 51 years and older who were participants in the Health and Retirement Study, a longitudinal study of aging in a nationally representative population of older adults.

In 2002, participants were asked how often they had trouble falling asleep, woke up during the night, woke up too early, and were not able to fall asleep again and how often they felt really rested when they woke up in the morning.

In 2016, participants’ cognition was assessed using a battery of neuropsychological tests that gauged episodic memory, executive function, language, visuospatial/construction, and processing speed.

Analyses controlled for sociodemographics, baseline global cognitive performance, and the influence of depressive symptoms and vascular disease.

Compared with other insomnia symptoms, having difficulty falling asleep in 2002 was the main insomnia symptom that was predictive of cognitive impairment 14 years later, in 2016.

More frequent trouble falling asleep was predictive of poorer episodic memory, executive function, language, processing speed, and visuospatial performance.

The associations between sleep initiation and later cognitive impairment were partially explained by depressive symptoms and vascular disease burden for all domains except episodic memory, which was only partially explained by depressive symptoms.
 

Unclear mechanism

Ms. Zaheed said research is needed to uncover neurophysiologic mechanisms underlying the observed associations. “It may be that chronic difficulty with falling asleep is associated with inflammatory or metabolic processes that negatively affect brain structure and function over time,” she said.

“Insomnia has also been linked with higher accumulation of protein aggregates in the brain that disrupt cell communication and are characteristic of late-life disorders such as Alzheimer’s disease,” she added.

“While our project did not directly investigate these potential causal pathways between insomnia and cognition, our results suggest that investigating these potential mechanisms is an important area for future research,” Ms. Zaheed said.

“While additional intervention research is needed to determine whether targeting insomnia in older patients can have lasting cognitive benefits, results from this study suggest that discussing insomnia symptoms at the primary care level may be beneficial for both doctors and patients,” she added.

“By targeting insomnia – for example, through an evidence-based cognitive–behavioral therapy approach – individuals may improve various mental and physical health outcomes in addition to improving their sleep quality,” Ms. Zaheed said.

Reached for comment, Shaheen E. Lakhan, MD, PhD, neurologist in Newton, Massachusetts, said, “There is a strong link between chronic sleep disturbances and cognitive impairment, including dementia.”

“This study further supports this link and specifically calls out initiating sleep (as opposed to staying asleep) as the culprit. It also raises the hypothesis that the link is primarily mediated by depression and vascular disease; however, the verdict is still out,” said Dr. Lakhan.

The study was funded by the National Institute on Aging. Ms. Zaheed and Dr. Lakhan have disclosed no relevant financial relationships.

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

Insomnia in childhood persists into adulthood and may raise the risk for internalizing disorders in young adults, new research indicates. However, insomnia symptoms in childhood that remit in the transition to adolescence do not confer increased risk of mood or anxiety disorders later on, the study found.

“As insomnia symptoms may precipitate or maintain internalizing disorders, our findings further reinforce the need for early sleep interventions to prevent future mental health disorders,” said lead investigator Julio Fernandez-Mendoza, PhD, associate professor at Penn State University, Hershey.

He presented his research at Virtual SLEEP 2021, the 35th annual meeting of the Associated Professional Sleep Societies.
 

Results ‘very clear’

The findings are based on data from the Penn State Child Cohort, a longitudinal, population-based sample of 700 children with a median age of 9 years, including 421 who were followed up 8 years later as adolescents (median age, 16 years) and 502 who were followed up 15 years later as young adults (median age, 24 years).

The data are “very clear that the risk of having internalizing disorders in young adulthood associated with having persistent insomnia symptoms, since childhood through adolescence into young adulthood,” Dr. Fernandez-Mendoza said in his presentation.

A persistent developmental trajectory was associated with a threefold increased risk of adult internalizing disorder (hazard ratio, 3.19).

The risk of having an internalizing disorder in young adulthood associated with newly developing (incident) insomnia symptoms is about twofold higher (HR, 1.94), whereas the risk associated with the waxing and waning pattern of insomnia is 1.5-fold (HR, 1.53) higher and only marginally significant, he reported.

An equally important finding, said Dr. Fernandez-Mendoza, is that those who had remitted insomnia symptoms in the transition to adolescence and throughout young adulthood were not at increased risk of having an internalizing disorder in young adulthood.

“Insomnia symptoms in a persistent manner associated with long-term adverse mental health outcomes, but remission of those insomnia symptoms associated with a good prognosis,” he said.

It’s also important to note, he said, that about 40% of children do not outgrow their insomnia symptoms in the transition to adolescence and are at risk of developing mental health disorders later on during early adulthood.

Reached for comment, Nitun Verma, MD, a spokesperson for the American Academy of Sleep Medicine, said: “There is a connection with mood and anxiety disorders with sleep, especially insomnia. This is a good reminder that reviewing someone’s sleep habits should always be a part of assessing someone’s mental health.”

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

Insomnia in childhood persists into adulthood and may raise the risk for internalizing disorders in young adults, new research indicates. However, insomnia symptoms in childhood that remit in the transition to adolescence do not confer increased risk of mood or anxiety disorders later on, the study found.

“As insomnia symptoms may precipitate or maintain internalizing disorders, our findings further reinforce the need for early sleep interventions to prevent future mental health disorders,” said lead investigator Julio Fernandez-Mendoza, PhD, associate professor at Penn State University, Hershey.

He presented his research at Virtual SLEEP 2021, the 35th annual meeting of the Associated Professional Sleep Societies.
 

Results ‘very clear’

The findings are based on data from the Penn State Child Cohort, a longitudinal, population-based sample of 700 children with a median age of 9 years, including 421 who were followed up 8 years later as adolescents (median age, 16 years) and 502 who were followed up 15 years later as young adults (median age, 24 years).

The data are “very clear that the risk of having internalizing disorders in young adulthood associated with having persistent insomnia symptoms, since childhood through adolescence into young adulthood,” Dr. Fernandez-Mendoza said in his presentation.

A persistent developmental trajectory was associated with a threefold increased risk of adult internalizing disorder (hazard ratio, 3.19).

The risk of having an internalizing disorder in young adulthood associated with newly developing (incident) insomnia symptoms is about twofold higher (HR, 1.94), whereas the risk associated with the waxing and waning pattern of insomnia is 1.5-fold (HR, 1.53) higher and only marginally significant, he reported.

An equally important finding, said Dr. Fernandez-Mendoza, is that those who had remitted insomnia symptoms in the transition to adolescence and throughout young adulthood were not at increased risk of having an internalizing disorder in young adulthood.

“Insomnia symptoms in a persistent manner associated with long-term adverse mental health outcomes, but remission of those insomnia symptoms associated with a good prognosis,” he said.

It’s also important to note, he said, that about 40% of children do not outgrow their insomnia symptoms in the transition to adolescence and are at risk of developing mental health disorders later on during early adulthood.

Reached for comment, Nitun Verma, MD, a spokesperson for the American Academy of Sleep Medicine, said: “There is a connection with mood and anxiety disorders with sleep, especially insomnia. This is a good reminder that reviewing someone’s sleep habits should always be a part of assessing someone’s mental health.”

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

Insomnia in childhood persists into adulthood and may raise the risk for internalizing disorders in young adults, new research indicates. However, insomnia symptoms in childhood that remit in the transition to adolescence do not confer increased risk of mood or anxiety disorders later on, the study found.

“As insomnia symptoms may precipitate or maintain internalizing disorders, our findings further reinforce the need for early sleep interventions to prevent future mental health disorders,” said lead investigator Julio Fernandez-Mendoza, PhD, associate professor at Penn State University, Hershey.

He presented his research at Virtual SLEEP 2021, the 35th annual meeting of the Associated Professional Sleep Societies.
 

Results ‘very clear’

The findings are based on data from the Penn State Child Cohort, a longitudinal, population-based sample of 700 children with a median age of 9 years, including 421 who were followed up 8 years later as adolescents (median age, 16 years) and 502 who were followed up 15 years later as young adults (median age, 24 years).

The data are “very clear that the risk of having internalizing disorders in young adulthood associated with having persistent insomnia symptoms, since childhood through adolescence into young adulthood,” Dr. Fernandez-Mendoza said in his presentation.

A persistent developmental trajectory was associated with a threefold increased risk of adult internalizing disorder (hazard ratio, 3.19).

The risk of having an internalizing disorder in young adulthood associated with newly developing (incident) insomnia symptoms is about twofold higher (HR, 1.94), whereas the risk associated with the waxing and waning pattern of insomnia is 1.5-fold (HR, 1.53) higher and only marginally significant, he reported.

An equally important finding, said Dr. Fernandez-Mendoza, is that those who had remitted insomnia symptoms in the transition to adolescence and throughout young adulthood were not at increased risk of having an internalizing disorder in young adulthood.

“Insomnia symptoms in a persistent manner associated with long-term adverse mental health outcomes, but remission of those insomnia symptoms associated with a good prognosis,” he said.

It’s also important to note, he said, that about 40% of children do not outgrow their insomnia symptoms in the transition to adolescence and are at risk of developing mental health disorders later on during early adulthood.

Reached for comment, Nitun Verma, MD, a spokesperson for the American Academy of Sleep Medicine, said: “There is a connection with mood and anxiety disorders with sleep, especially insomnia. This is a good reminder that reviewing someone’s sleep habits should always be a part of assessing someone’s mental health.”

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

Managing depression and anxiety in Parkinson’s disease should start with a review of medications and involve multidisciplinary care, according to a recent summary of evidence.

“Depression and anxiety have a complex relationship with the disease and while the exact mechanism for this association is unknown, both disturbances occur with increased prevalence across the disease course and when present earlier in life, increase the risk of PD by about twofold,” wrote Gregory M. Pontone, MD, of Johns Hopkins University, Baltimore, and colleagues.

Randomized trials to guide treatment of anxiety and depression in patients with Parkinson’s disease (PD) are limited, the researchers noted. However, data from a longitudinal study showed that PD patients whose depression remitted spontaneously or responded to treatment were able to attain a level of function similar to that of never-depressed PD patients, Dr. Pontone and colleagues said.

The researchers offered a pair of treatment algorithms to help guide clinicians in managing depression and anxiety in PD. However, a caveat to keep in mind is that “the benefit of antidepressant medications, used for depression or anxiety, can be confounded when motor symptoms are not optimally treated,” the researchers emphasized.

For depression, the researchers advised starting with some lab work; “at a minimum we suggest checking a complete blood count, metabolic panel, TSH, B12, and folate,” they noted. They recommended an antidepressant, cognitive-behavioral therapy, or both, as a first-line treatment, such as monotherapy with selective norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors. They advised titrating the chosen monotherapy to a minimum effective dose over a 2- to 3-week period to assess response.

“We recommend continuing antidepressant therapy for at least 1 year based on literature in non-PD populations and anecdotal clinical experience. At 1 year, if not in remission, consider continuing treatment or augmenting to improve response,” the researchers said.

Based on the current DSM-5 criteria, up to one-third of PD patients have an unspecified anxiety disorder, the researchers said, and they recommended using anxiety rating scales to diagnose anxiety in PD. “Given the high prevalence of atypical anxiety syndromes in PD and their potential association with both motor and nonmotor symptoms of the disease, working with the neurologist to achieve optimal control of PD is an essential first step to alleviating anxiety,” they emphasized.

The researchers also advised addressing comorbidities, including cardiovascular disease, chronic pain, diabetes, gastrointestinal issues, hyperthyroidism, and lung disease, all of which can be associated with anxiety. Once comorbidities are addressed, they advised caution given the lack of evidence for efficacy of both pharmacologic and nonpharmacologic anxiety treatments for PD patients. However, first-tier treatment for anxiety could include monotherapy with serotonin-norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors, they said.

PD patients with depression and anxiety also may benefit from nonpharmacologic interventions, including exercise, mindfulness, relaxation therapy, and cognitive behavioral therapy the researchers said.

Although the algorithm may not differ significantly from current treatment protocols, it highlights aspects unique to PD patients, the researchers said. In particular, the algorithm shows “that interventions used for motor symptoms, for example, dopamine agonists, may be especially potent for mood in the PD population and that augmentation strategies, such as antipsychotics and lithium, may not be well tolerated given their outsized risk of adverse events in PD,” they said.

“While an article of this kind cannot hope to address the gap in knowledge on comparative efficacy between interventions, it can guide readers on the best strategies for implementation and risk mitigation in PD – essentially focusing more on effectiveness,” they concluded.

The study received no outside funding. Dr. Pontone disclosed serving as a consultant for Acadia Pharmaceuticals and Concert Pharmaceuticals.

Managing depression and anxiety in Parkinson’s disease should start with a review of medications and involve multidisciplinary care, according to a recent summary of evidence.

“Depression and anxiety have a complex relationship with the disease and while the exact mechanism for this association is unknown, both disturbances occur with increased prevalence across the disease course and when present earlier in life, increase the risk of PD by about twofold,” wrote Gregory M. Pontone, MD, of Johns Hopkins University, Baltimore, and colleagues.

Randomized trials to guide treatment of anxiety and depression in patients with Parkinson’s disease (PD) are limited, the researchers noted. However, data from a longitudinal study showed that PD patients whose depression remitted spontaneously or responded to treatment were able to attain a level of function similar to that of never-depressed PD patients, Dr. Pontone and colleagues said.

The researchers offered a pair of treatment algorithms to help guide clinicians in managing depression and anxiety in PD. However, a caveat to keep in mind is that “the benefit of antidepressant medications, used for depression or anxiety, can be confounded when motor symptoms are not optimally treated,” the researchers emphasized.

For depression, the researchers advised starting with some lab work; “at a minimum we suggest checking a complete blood count, metabolic panel, TSH, B12, and folate,” they noted. They recommended an antidepressant, cognitive-behavioral therapy, or both, as a first-line treatment, such as monotherapy with selective norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors. They advised titrating the chosen monotherapy to a minimum effective dose over a 2- to 3-week period to assess response.

“We recommend continuing antidepressant therapy for at least 1 year based on literature in non-PD populations and anecdotal clinical experience. At 1 year, if not in remission, consider continuing treatment or augmenting to improve response,” the researchers said.

Based on the current DSM-5 criteria, up to one-third of PD patients have an unspecified anxiety disorder, the researchers said, and they recommended using anxiety rating scales to diagnose anxiety in PD. “Given the high prevalence of atypical anxiety syndromes in PD and their potential association with both motor and nonmotor symptoms of the disease, working with the neurologist to achieve optimal control of PD is an essential first step to alleviating anxiety,” they emphasized.

The researchers also advised addressing comorbidities, including cardiovascular disease, chronic pain, diabetes, gastrointestinal issues, hyperthyroidism, and lung disease, all of which can be associated with anxiety. Once comorbidities are addressed, they advised caution given the lack of evidence for efficacy of both pharmacologic and nonpharmacologic anxiety treatments for PD patients. However, first-tier treatment for anxiety could include monotherapy with serotonin-norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors, they said.

PD patients with depression and anxiety also may benefit from nonpharmacologic interventions, including exercise, mindfulness, relaxation therapy, and cognitive behavioral therapy the researchers said.

Although the algorithm may not differ significantly from current treatment protocols, it highlights aspects unique to PD patients, the researchers said. In particular, the algorithm shows “that interventions used for motor symptoms, for example, dopamine agonists, may be especially potent for mood in the PD population and that augmentation strategies, such as antipsychotics and lithium, may not be well tolerated given their outsized risk of adverse events in PD,” they said.

“While an article of this kind cannot hope to address the gap in knowledge on comparative efficacy between interventions, it can guide readers on the best strategies for implementation and risk mitigation in PD – essentially focusing more on effectiveness,” they concluded.

The study received no outside funding. Dr. Pontone disclosed serving as a consultant for Acadia Pharmaceuticals and Concert Pharmaceuticals.

Managing depression and anxiety in Parkinson’s disease should start with a review of medications and involve multidisciplinary care, according to a recent summary of evidence.

“Depression and anxiety have a complex relationship with the disease and while the exact mechanism for this association is unknown, both disturbances occur with increased prevalence across the disease course and when present earlier in life, increase the risk of PD by about twofold,” wrote Gregory M. Pontone, MD, of Johns Hopkins University, Baltimore, and colleagues.

Randomized trials to guide treatment of anxiety and depression in patients with Parkinson’s disease (PD) are limited, the researchers noted. However, data from a longitudinal study showed that PD patients whose depression remitted spontaneously or responded to treatment were able to attain a level of function similar to that of never-depressed PD patients, Dr. Pontone and colleagues said.

The researchers offered a pair of treatment algorithms to help guide clinicians in managing depression and anxiety in PD. However, a caveat to keep in mind is that “the benefit of antidepressant medications, used for depression or anxiety, can be confounded when motor symptoms are not optimally treated,” the researchers emphasized.

For depression, the researchers advised starting with some lab work; “at a minimum we suggest checking a complete blood count, metabolic panel, TSH, B12, and folate,” they noted. They recommended an antidepressant, cognitive-behavioral therapy, or both, as a first-line treatment, such as monotherapy with selective norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors. They advised titrating the chosen monotherapy to a minimum effective dose over a 2- to 3-week period to assess response.

“We recommend continuing antidepressant therapy for at least 1 year based on literature in non-PD populations and anecdotal clinical experience. At 1 year, if not in remission, consider continuing treatment or augmenting to improve response,” the researchers said.

Based on the current DSM-5 criteria, up to one-third of PD patients have an unspecified anxiety disorder, the researchers said, and they recommended using anxiety rating scales to diagnose anxiety in PD. “Given the high prevalence of atypical anxiety syndromes in PD and their potential association with both motor and nonmotor symptoms of the disease, working with the neurologist to achieve optimal control of PD is an essential first step to alleviating anxiety,” they emphasized.

The researchers also advised addressing comorbidities, including cardiovascular disease, chronic pain, diabetes, gastrointestinal issues, hyperthyroidism, and lung disease, all of which can be associated with anxiety. Once comorbidities are addressed, they advised caution given the lack of evidence for efficacy of both pharmacologic and nonpharmacologic anxiety treatments for PD patients. However, first-tier treatment for anxiety could include monotherapy with serotonin-norepinephrine reuptake inhibitors or selective serotonin reuptake inhibitors, they said.

PD patients with depression and anxiety also may benefit from nonpharmacologic interventions, including exercise, mindfulness, relaxation therapy, and cognitive behavioral therapy the researchers said.

Although the algorithm may not differ significantly from current treatment protocols, it highlights aspects unique to PD patients, the researchers said. In particular, the algorithm shows “that interventions used for motor symptoms, for example, dopamine agonists, may be especially potent for mood in the PD population and that augmentation strategies, such as antipsychotics and lithium, may not be well tolerated given their outsized risk of adverse events in PD,” they said.

“While an article of this kind cannot hope to address the gap in knowledge on comparative efficacy between interventions, it can guide readers on the best strategies for implementation and risk mitigation in PD – essentially focusing more on effectiveness,” they concluded.

The study received no outside funding. Dr. Pontone disclosed serving as a consultant for Acadia Pharmaceuticals and Concert Pharmaceuticals.

Patients with obesity who underwent bariatric surgery had 46% lower odds of stroke 1 year later, similar odds of stroke 3 years later, and 22% lower odds of stroke 5 years later, compared with matched control patients, in new research.

purestock/Thinkstock

Michael D. Williams, MD, presented the study findings (abstract A002) at the annual meeting of the American Society for Metabolic & Bariatric Surgery.

The findings are “very good news,” even though the protection against stroke declined further out from the surgery, John D. Scott, MD, scientific program chair of the ASMBS meeting, told this news organization.

The investigators matched more than 56,000 patients with obesity who had bariatric surgery with an equal number of similar patients who did not have this surgery, from a large national insurance database, in what they believe is the largest study of this to date.

“Any intervention that decreases your risk of [cardiovascular] events is good news,” said Dr. Scott, a clinical professor of surgery at the University of South Carolina, Greenville, and metabolic and bariatric surgery director at Prisma Health in Greenville, S.C. “And having a 22%-45% chance of reduction in stroke risk is a very worthwhile intervention.”

Asked how this would change the way clinicians inform patients of what to expect from bariatric surgery, he said: “I would advise patients that studies like this show that surgery would not increase your risk of having a stroke.

“This is consistent with many studies that show that the risks of all macrovascular events decrease after the comorbidity reductions seen after surgery.”

According to Dr. Scott, “the next steps might include a prospective randomized trial of medical treatment versus surgery alone for [cardiovascular]/stroke outcomes, but this is unlikely.”

Similarly, Dr. Williams told this news organization that “I would tell [patients] that surgery is an effective and durable method for weight loss. It also can improve comorbid conditions, particularly diabetes and hypertension.”

Even with this study, “I’m not sure it’s appropriate to say that bariatric surgery will reduce the risk of stroke,” he cautioned.

“However, as we continue to investigate the effects of bariatric surgery, this study contributes to the greater body of knowledge that suggests that reduction in ischemic stroke risk is yet another benefit of bariatric surgery.”

The assigned discussant, Corrigan L. McBride, MD, MBA wanted to know if the lower odds ratio at 1 year might be because preoperative patient selection might eliminate patients at high risk of poor cardiovascular outcomes.

Dr. Williams, a resident at Rush Medical College, Chicago, replied that it is difficult to eliminate potential selection bias, despite best efforts, but this study shows that he can tell patients: “Having surgery is not going to increases your risk of stroke.”

“This is an important study,” Dr. McBride, professor and chief of minimally invasive surgery and bariatric surgery, University of Nebraska Medical Center, Omaha, told this news organization.

“It is the first large study to show a decreased [or no increased] risk of stroke 1, 3, and 5 years after bariatric surgery compared to matched patients, and it had enough data to look at stroke as a standalone endpoint,” Dr. McBride said. “It is important too, for patients and their physicians to understand that there is a lower chance of them having a stroke if they have surgery than if they do not.”
 

‘Important,’ ‘good news’ for stroke risk after bariatric surgery

The impact of bariatric surgery on remission of type 2 diabetes is well known, Dr. Williams noted, and other studies have reported how bariatric surgery affects the risk of major adverse cardiovascular events – a composite of stroke, myocardial infarction, coronary artery disease, and all-cause death – including a study presented in the same meeting session.

However, a very large sample size is needed to be able to demonstrate the effect of bariatric surgery on stroke, since stroke is a rare event.

The researchers analyzed data from the Mariner (PearlDiver.) all-payer insurance national claims database of patients in the United States.

They matched 56,514 patients with a body mass index over 35 kg/m² and comorbidities or a BMI of more than 40 who underwent sleeve gastrectomy or Roux-en-Y gastric bypass during 2010-2019 with 56,514 control patients who did not undergo bariatric surgery.

A year after bariatric surgery, patients in that group had a lower stroke rate than patients in the control group (0.6% vs. 1.2%), and they had close to 50% lower odds of having a stroke (odds ratio, 0.54; 95% CI, 0.47-0.61).

Three years after bariatric surgery, there were 44,948 patients in each group; the rate of stroke was 2.1% in the surgery group and 2.2% in the control group, and there was no significant difference in the odds of having a stroke (OR, 0.96; 95% CI, 0.91-1.00).

Five years after bariatric surgery, there were 27,619 patients in each group; the stroke rate was lower in the bariatric surgery group than in the control group (2.8% vs 3.6%), but reduced odds of stroke was not as great as after 1 year (OR, 0.78; 95% CI, 0.65-0.90).

Dr. Williams has no relevant financial disclosures. Dr. McBride and Dr. Scott disclosed that they are speakers/trainers/faculty advisers for Gore. Dr. Scott is also a consultant for C-SATS (part of Johnson & Johnson).

Patients with obesity who underwent bariatric surgery had 46% lower odds of stroke 1 year later, similar odds of stroke 3 years later, and 22% lower odds of stroke 5 years later, compared with matched control patients, in new research.

purestock/Thinkstock

Michael D. Williams, MD, presented the study findings (abstract A002) at the annual meeting of the American Society for Metabolic & Bariatric Surgery.

The findings are “very good news,” even though the protection against stroke declined further out from the surgery, John D. Scott, MD, scientific program chair of the ASMBS meeting, told this news organization.

The investigators matched more than 56,000 patients with obesity who had bariatric surgery with an equal number of similar patients who did not have this surgery, from a large national insurance database, in what they believe is the largest study of this to date.

“Any intervention that decreases your risk of [cardiovascular] events is good news,” said Dr. Scott, a clinical professor of surgery at the University of South Carolina, Greenville, and metabolic and bariatric surgery director at Prisma Health in Greenville, S.C. “And having a 22%-45% chance of reduction in stroke risk is a very worthwhile intervention.”

Asked how this would change the way clinicians inform patients of what to expect from bariatric surgery, he said: “I would advise patients that studies like this show that surgery would not increase your risk of having a stroke.

“This is consistent with many studies that show that the risks of all macrovascular events decrease after the comorbidity reductions seen after surgery.”

According to Dr. Scott, “the next steps might include a prospective randomized trial of medical treatment versus surgery alone for [cardiovascular]/stroke outcomes, but this is unlikely.”

Similarly, Dr. Williams told this news organization that “I would tell [patients] that surgery is an effective and durable method for weight loss. It also can improve comorbid conditions, particularly diabetes and hypertension.”

Even with this study, “I’m not sure it’s appropriate to say that bariatric surgery will reduce the risk of stroke,” he cautioned.

“However, as we continue to investigate the effects of bariatric surgery, this study contributes to the greater body of knowledge that suggests that reduction in ischemic stroke risk is yet another benefit of bariatric surgery.”

The assigned discussant, Corrigan L. McBride, MD, MBA wanted to know if the lower odds ratio at 1 year might be because preoperative patient selection might eliminate patients at high risk of poor cardiovascular outcomes.

Dr. Williams, a resident at Rush Medical College, Chicago, replied that it is difficult to eliminate potential selection bias, despite best efforts, but this study shows that he can tell patients: “Having surgery is not going to increases your risk of stroke.”

“This is an important study,” Dr. McBride, professor and chief of minimally invasive surgery and bariatric surgery, University of Nebraska Medical Center, Omaha, told this news organization.

“It is the first large study to show a decreased [or no increased] risk of stroke 1, 3, and 5 years after bariatric surgery compared to matched patients, and it had enough data to look at stroke as a standalone endpoint,” Dr. McBride said. “It is important too, for patients and their physicians to understand that there is a lower chance of them having a stroke if they have surgery than if they do not.”
 

‘Important,’ ‘good news’ for stroke risk after bariatric surgery

The impact of bariatric surgery on remission of type 2 diabetes is well known, Dr. Williams noted, and other studies have reported how bariatric surgery affects the risk of major adverse cardiovascular events – a composite of stroke, myocardial infarction, coronary artery disease, and all-cause death – including a study presented in the same meeting session.

However, a very large sample size is needed to be able to demonstrate the effect of bariatric surgery on stroke, since stroke is a rare event.

The researchers analyzed data from the Mariner (PearlDiver.) all-payer insurance national claims database of patients in the United States.

They matched 56,514 patients with a body mass index over 35 kg/m² and comorbidities or a BMI of more than 40 who underwent sleeve gastrectomy or Roux-en-Y gastric bypass during 2010-2019 with 56,514 control patients who did not undergo bariatric surgery.

A year after bariatric surgery, patients in that group had a lower stroke rate than patients in the control group (0.6% vs. 1.2%), and they had close to 50% lower odds of having a stroke (odds ratio, 0.54; 95% CI, 0.47-0.61).

Three years after bariatric surgery, there were 44,948 patients in each group; the rate of stroke was 2.1% in the surgery group and 2.2% in the control group, and there was no significant difference in the odds of having a stroke (OR, 0.96; 95% CI, 0.91-1.00).

Five years after bariatric surgery, there were 27,619 patients in each group; the stroke rate was lower in the bariatric surgery group than in the control group (2.8% vs 3.6%), but reduced odds of stroke was not as great as after 1 year (OR, 0.78; 95% CI, 0.65-0.90).

Dr. Williams has no relevant financial disclosures. Dr. McBride and Dr. Scott disclosed that they are speakers/trainers/faculty advisers for Gore. Dr. Scott is also a consultant for C-SATS (part of Johnson & Johnson).

Patients with obesity who underwent bariatric surgery had 46% lower odds of stroke 1 year later, similar odds of stroke 3 years later, and 22% lower odds of stroke 5 years later, compared with matched control patients, in new research.

purestock/Thinkstock

Michael D. Williams, MD, presented the study findings (abstract A002) at the annual meeting of the American Society for Metabolic & Bariatric Surgery.

The findings are “very good news,” even though the protection against stroke declined further out from the surgery, John D. Scott, MD, scientific program chair of the ASMBS meeting, told this news organization.

The investigators matched more than 56,000 patients with obesity who had bariatric surgery with an equal number of similar patients who did not have this surgery, from a large national insurance database, in what they believe is the largest study of this to date.

“Any intervention that decreases your risk of [cardiovascular] events is good news,” said Dr. Scott, a clinical professor of surgery at the University of South Carolina, Greenville, and metabolic and bariatric surgery director at Prisma Health in Greenville, S.C. “And having a 22%-45% chance of reduction in stroke risk is a very worthwhile intervention.”

Asked how this would change the way clinicians inform patients of what to expect from bariatric surgery, he said: “I would advise patients that studies like this show that surgery would not increase your risk of having a stroke.

“This is consistent with many studies that show that the risks of all macrovascular events decrease after the comorbidity reductions seen after surgery.”

According to Dr. Scott, “the next steps might include a prospective randomized trial of medical treatment versus surgery alone for [cardiovascular]/stroke outcomes, but this is unlikely.”

Similarly, Dr. Williams told this news organization that “I would tell [patients] that surgery is an effective and durable method for weight loss. It also can improve comorbid conditions, particularly diabetes and hypertension.”

Even with this study, “I’m not sure it’s appropriate to say that bariatric surgery will reduce the risk of stroke,” he cautioned.

“However, as we continue to investigate the effects of bariatric surgery, this study contributes to the greater body of knowledge that suggests that reduction in ischemic stroke risk is yet another benefit of bariatric surgery.”

The assigned discussant, Corrigan L. McBride, MD, MBA wanted to know if the lower odds ratio at 1 year might be because preoperative patient selection might eliminate patients at high risk of poor cardiovascular outcomes.

Dr. Williams, a resident at Rush Medical College, Chicago, replied that it is difficult to eliminate potential selection bias, despite best efforts, but this study shows that he can tell patients: “Having surgery is not going to increases your risk of stroke.”

“This is an important study,” Dr. McBride, professor and chief of minimally invasive surgery and bariatric surgery, University of Nebraska Medical Center, Omaha, told this news organization.

“It is the first large study to show a decreased [or no increased] risk of stroke 1, 3, and 5 years after bariatric surgery compared to matched patients, and it had enough data to look at stroke as a standalone endpoint,” Dr. McBride said. “It is important too, for patients and their physicians to understand that there is a lower chance of them having a stroke if they have surgery than if they do not.”
 

‘Important,’ ‘good news’ for stroke risk after bariatric surgery

The impact of bariatric surgery on remission of type 2 diabetes is well known, Dr. Williams noted, and other studies have reported how bariatric surgery affects the risk of major adverse cardiovascular events – a composite of stroke, myocardial infarction, coronary artery disease, and all-cause death – including a study presented in the same meeting session.

However, a very large sample size is needed to be able to demonstrate the effect of bariatric surgery on stroke, since stroke is a rare event.

The researchers analyzed data from the Mariner (PearlDiver.) all-payer insurance national claims database of patients in the United States.

They matched 56,514 patients with a body mass index over 35 kg/m² and comorbidities or a BMI of more than 40 who underwent sleeve gastrectomy or Roux-en-Y gastric bypass during 2010-2019 with 56,514 control patients who did not undergo bariatric surgery.

A year after bariatric surgery, patients in that group had a lower stroke rate than patients in the control group (0.6% vs. 1.2%), and they had close to 50% lower odds of having a stroke (odds ratio, 0.54; 95% CI, 0.47-0.61).

Three years after bariatric surgery, there were 44,948 patients in each group; the rate of stroke was 2.1% in the surgery group and 2.2% in the control group, and there was no significant difference in the odds of having a stroke (OR, 0.96; 95% CI, 0.91-1.00).

Five years after bariatric surgery, there were 27,619 patients in each group; the stroke rate was lower in the bariatric surgery group than in the control group (2.8% vs 3.6%), but reduced odds of stroke was not as great as after 1 year (OR, 0.78; 95% CI, 0.65-0.90).

Dr. Williams has no relevant financial disclosures. Dr. McBride and Dr. Scott disclosed that they are speakers/trainers/faculty advisers for Gore. Dr. Scott is also a consultant for C-SATS (part of Johnson & Johnson).

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

A high-profile, Washington-based consumer advocacy group is calling for the removal of the U.S. Food and Drug Administration’s acting commissioner and two other top officials, saying that the agency’s approval of the Alzheimer’s drug aducanumab (Aduhelm, Biogen) was “reckless.”

In a letter to the U.S. Department of Health and Human Services Secretary Xavier Becerra, Michael A. Carome, MD, director of Public Citizen’s Health Research Group, said: “The FDA’s decision to approve aducanumab for anyone with Alzheimer’s disease, regardless of severity, showed a stunning disregard for science, eviscerated the agency’s standards for approving new drugs, and ranks as one of the most irresponsible and egregious decisions in the history of the agency.”

Public Citizen urged Mr. Becerra to seek the resignations or the removal of the three FDA officials it said were most responsible for the approval – Acting FDA Commissioner Janet Woodcock, MD; Center for Drug Evaluation and Research (CDER) Director Patrizia Cavazzoni, MD; and CDER’s Office of Neuroscience Director Billy Dunn, MD.

“This decision is a disastrous blow to the agency’s credibility, public health, and the financial sustainability of the Medicare program,” writes Dr. Carome, noting that Biogen said it would charge $56,000 annually for the infusion.

Aaron Kesselheim, MD, one of three FDA Peripheral and Central Nervous System Drugs advisory committee members who resigned in the wake of the approval, agreed with Public Citizen that the agency’s credibility is suffering.

“The aducanumab decision is the worst example yet of the FDA’s movement away from its high standards,” Dr. Kesselheim, a professor of medicine at Harvard Medical School, Boston, and Harvard colleague Jerry Avorn, MD, wrote in the New York Times on June 15.

“As physicians, we know well that Alzheimer’s disease is a terrible condition,” they wrote. However, they added, “approving a drug that has such poor evidence that it works and causes such worrisome side effects is not the solution.”

In his resignation letter, Dr. Kesselheim said he had also been dismayed by the agency’s 2016 approval of eteplirsen (Exondys 51, Sarepta Therapeutics) for Duchenne muscular dystrophy. In both the eteplirsen and aducanumab approvals, the agency went against its advisers’ recommendations, Dr. Kesselheim said.
 

Advocates who backed approval decry cost

Aducanumab had a rocky road to approval but had unwavering backing from the Alzheimer’s Association and at least one other organization, UsAgainstAlzheimer’s.

The Alzheimer’s Association was particularly outspoken in its support and, in March, was accused of potential conflict of interest by Public Citizen and several neurologists because the association accepted at least $1.4 million from Biogen and its partner Eisai since fiscal year 2018.

The association applauded the FDA approval but, a few days later, expressed outrage over the $56,000-a-year price tag.

“This price is simply unacceptable,” the Alzheimer’s Association said in the statement. “For many, this price will pose an insurmountable barrier to access, it complicates and jeopardizes sustainable access to this treatment, and may further deepen issues of health equity,” the association said, adding, “We call on Biogen to change this price.”

UsAgainstAlzheimer’s also expressed concerns about access, even before it knew aducanumab’s price.  

“Shockingly, Medicare does not reimburse patients for the expensive PET scans important to determine whether someone is appropriate for this drug,” noted George Vradenburg, chairman and cofounder of the group, in a June 7 statement. “We intend to work with Biogen and Medicare to make access to this drug affordable for every American who needs it,” Mr. Vradenburg said.

Dr. Carome said the advocates’ complaints were hard to fathom.

“This should not have come as a surprise to anyone,” Dr. Carome said, adding that “it’s essentially the ballpark figure the company threw out weeks ago.”

“Fifty-six-thousand-dollars is particularly egregiously overpriced for a drug that doesn’t work,” Dr. Carome said. “If the [Alzheimer’s Association] truly finds this objectionable, hopefully they’ll stop accepting money from Biogen and its partner Eisai,” he added.

“The Alzheimer’s Association is recognizing that the genie is out of the bottle and that they are going to have trouble reining in the inevitable run-away costs,” said Mike Greicius, MD, MPH, associate professor of neurology at Stanford University’s Wu Tsai Neurosciences Institute, Stanford, California.

“In addition to the eye-popping annual cost that Biogen has invented, I hope the Alzheimer’s Association is also concerned about the dangerously loose and broad FDA labeling which does not require screening for amyloid-positivity and does not restrict use to the milder forms of disease studied in the Phase 3 trials,” Dr. Greicius said.

Another advocacy group, Patients For Affordable Drugs, commended the Alzheimer’s Association. Its statement “was nothing short of courageous, especially in light of the Alzheimer’s Association’s reliance on funding from drug corporations, including Biogen,” said David Mitchell, a cancer patient and founder of Patients For Affordable Drugs, in a statement.

Mr. Mitchell said his members “stand with the Alzheimer’s Association in its denunciation of the price set by Biogen” and called for a new law that would allow Medicare to negotiate drug prices.

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

A high-profile, Washington-based consumer advocacy group is calling for the removal of the U.S. Food and Drug Administration’s acting commissioner and two other top officials, saying that the agency’s approval of the Alzheimer’s drug aducanumab (Aduhelm, Biogen) was “reckless.”

In a letter to the U.S. Department of Health and Human Services Secretary Xavier Becerra, Michael A. Carome, MD, director of Public Citizen’s Health Research Group, said: “The FDA’s decision to approve aducanumab for anyone with Alzheimer’s disease, regardless of severity, showed a stunning disregard for science, eviscerated the agency’s standards for approving new drugs, and ranks as one of the most irresponsible and egregious decisions in the history of the agency.”

Public Citizen urged Mr. Becerra to seek the resignations or the removal of the three FDA officials it said were most responsible for the approval – Acting FDA Commissioner Janet Woodcock, MD; Center for Drug Evaluation and Research (CDER) Director Patrizia Cavazzoni, MD; and CDER’s Office of Neuroscience Director Billy Dunn, MD.

“This decision is a disastrous blow to the agency’s credibility, public health, and the financial sustainability of the Medicare program,” writes Dr. Carome, noting that Biogen said it would charge $56,000 annually for the infusion.

Aaron Kesselheim, MD, one of three FDA Peripheral and Central Nervous System Drugs advisory committee members who resigned in the wake of the approval, agreed with Public Citizen that the agency’s credibility is suffering.

“The aducanumab decision is the worst example yet of the FDA’s movement away from its high standards,” Dr. Kesselheim, a professor of medicine at Harvard Medical School, Boston, and Harvard colleague Jerry Avorn, MD, wrote in the New York Times on June 15.

“As physicians, we know well that Alzheimer’s disease is a terrible condition,” they wrote. However, they added, “approving a drug that has such poor evidence that it works and causes such worrisome side effects is not the solution.”

In his resignation letter, Dr. Kesselheim said he had also been dismayed by the agency’s 2016 approval of eteplirsen (Exondys 51, Sarepta Therapeutics) for Duchenne muscular dystrophy. In both the eteplirsen and aducanumab approvals, the agency went against its advisers’ recommendations, Dr. Kesselheim said.
 

Advocates who backed approval decry cost

Aducanumab had a rocky road to approval but had unwavering backing from the Alzheimer’s Association and at least one other organization, UsAgainstAlzheimer’s.

The Alzheimer’s Association was particularly outspoken in its support and, in March, was accused of potential conflict of interest by Public Citizen and several neurologists because the association accepted at least $1.4 million from Biogen and its partner Eisai since fiscal year 2018.

The association applauded the FDA approval but, a few days later, expressed outrage over the $56,000-a-year price tag.

“This price is simply unacceptable,” the Alzheimer’s Association said in the statement. “For many, this price will pose an insurmountable barrier to access, it complicates and jeopardizes sustainable access to this treatment, and may further deepen issues of health equity,” the association said, adding, “We call on Biogen to change this price.”

UsAgainstAlzheimer’s also expressed concerns about access, even before it knew aducanumab’s price.  

“Shockingly, Medicare does not reimburse patients for the expensive PET scans important to determine whether someone is appropriate for this drug,” noted George Vradenburg, chairman and cofounder of the group, in a June 7 statement. “We intend to work with Biogen and Medicare to make access to this drug affordable for every American who needs it,” Mr. Vradenburg said.

Dr. Carome said the advocates’ complaints were hard to fathom.

“This should not have come as a surprise to anyone,” Dr. Carome said, adding that “it’s essentially the ballpark figure the company threw out weeks ago.”

“Fifty-six-thousand-dollars is particularly egregiously overpriced for a drug that doesn’t work,” Dr. Carome said. “If the [Alzheimer’s Association] truly finds this objectionable, hopefully they’ll stop accepting money from Biogen and its partner Eisai,” he added.

“The Alzheimer’s Association is recognizing that the genie is out of the bottle and that they are going to have trouble reining in the inevitable run-away costs,” said Mike Greicius, MD, MPH, associate professor of neurology at Stanford University’s Wu Tsai Neurosciences Institute, Stanford, California.

“In addition to the eye-popping annual cost that Biogen has invented, I hope the Alzheimer’s Association is also concerned about the dangerously loose and broad FDA labeling which does not require screening for amyloid-positivity and does not restrict use to the milder forms of disease studied in the Phase 3 trials,” Dr. Greicius said.

Another advocacy group, Patients For Affordable Drugs, commended the Alzheimer’s Association. Its statement “was nothing short of courageous, especially in light of the Alzheimer’s Association’s reliance on funding from drug corporations, including Biogen,” said David Mitchell, a cancer patient and founder of Patients For Affordable Drugs, in a statement.

Mr. Mitchell said his members “stand with the Alzheimer’s Association in its denunciation of the price set by Biogen” and called for a new law that would allow Medicare to negotiate drug prices.

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

A high-profile, Washington-based consumer advocacy group is calling for the removal of the U.S. Food and Drug Administration’s acting commissioner and two other top officials, saying that the agency’s approval of the Alzheimer’s drug aducanumab (Aduhelm, Biogen) was “reckless.”

In a letter to the U.S. Department of Health and Human Services Secretary Xavier Becerra, Michael A. Carome, MD, director of Public Citizen’s Health Research Group, said: “The FDA’s decision to approve aducanumab for anyone with Alzheimer’s disease, regardless of severity, showed a stunning disregard for science, eviscerated the agency’s standards for approving new drugs, and ranks as one of the most irresponsible and egregious decisions in the history of the agency.”

Public Citizen urged Mr. Becerra to seek the resignations or the removal of the three FDA officials it said were most responsible for the approval – Acting FDA Commissioner Janet Woodcock, MD; Center for Drug Evaluation and Research (CDER) Director Patrizia Cavazzoni, MD; and CDER’s Office of Neuroscience Director Billy Dunn, MD.

“This decision is a disastrous blow to the agency’s credibility, public health, and the financial sustainability of the Medicare program,” writes Dr. Carome, noting that Biogen said it would charge $56,000 annually for the infusion.

Aaron Kesselheim, MD, one of three FDA Peripheral and Central Nervous System Drugs advisory committee members who resigned in the wake of the approval, agreed with Public Citizen that the agency’s credibility is suffering.

“The aducanumab decision is the worst example yet of the FDA’s movement away from its high standards,” Dr. Kesselheim, a professor of medicine at Harvard Medical School, Boston, and Harvard colleague Jerry Avorn, MD, wrote in the New York Times on June 15.

“As physicians, we know well that Alzheimer’s disease is a terrible condition,” they wrote. However, they added, “approving a drug that has such poor evidence that it works and causes such worrisome side effects is not the solution.”

In his resignation letter, Dr. Kesselheim said he had also been dismayed by the agency’s 2016 approval of eteplirsen (Exondys 51, Sarepta Therapeutics) for Duchenne muscular dystrophy. In both the eteplirsen and aducanumab approvals, the agency went against its advisers’ recommendations, Dr. Kesselheim said.
 

Advocates who backed approval decry cost

Aducanumab had a rocky road to approval but had unwavering backing from the Alzheimer’s Association and at least one other organization, UsAgainstAlzheimer’s.

The Alzheimer’s Association was particularly outspoken in its support and, in March, was accused of potential conflict of interest by Public Citizen and several neurologists because the association accepted at least $1.4 million from Biogen and its partner Eisai since fiscal year 2018.

The association applauded the FDA approval but, a few days later, expressed outrage over the $56,000-a-year price tag.

“This price is simply unacceptable,” the Alzheimer’s Association said in the statement. “For many, this price will pose an insurmountable barrier to access, it complicates and jeopardizes sustainable access to this treatment, and may further deepen issues of health equity,” the association said, adding, “We call on Biogen to change this price.”

UsAgainstAlzheimer’s also expressed concerns about access, even before it knew aducanumab’s price.  

“Shockingly, Medicare does not reimburse patients for the expensive PET scans important to determine whether someone is appropriate for this drug,” noted George Vradenburg, chairman and cofounder of the group, in a June 7 statement. “We intend to work with Biogen and Medicare to make access to this drug affordable for every American who needs it,” Mr. Vradenburg said.

Dr. Carome said the advocates’ complaints were hard to fathom.

“This should not have come as a surprise to anyone,” Dr. Carome said, adding that “it’s essentially the ballpark figure the company threw out weeks ago.”

“Fifty-six-thousand-dollars is particularly egregiously overpriced for a drug that doesn’t work,” Dr. Carome said. “If the [Alzheimer’s Association] truly finds this objectionable, hopefully they’ll stop accepting money from Biogen and its partner Eisai,” he added.

“The Alzheimer’s Association is recognizing that the genie is out of the bottle and that they are going to have trouble reining in the inevitable run-away costs,” said Mike Greicius, MD, MPH, associate professor of neurology at Stanford University’s Wu Tsai Neurosciences Institute, Stanford, California.

“In addition to the eye-popping annual cost that Biogen has invented, I hope the Alzheimer’s Association is also concerned about the dangerously loose and broad FDA labeling which does not require screening for amyloid-positivity and does not restrict use to the milder forms of disease studied in the Phase 3 trials,” Dr. Greicius said.

Another advocacy group, Patients For Affordable Drugs, commended the Alzheimer’s Association. Its statement “was nothing short of courageous, especially in light of the Alzheimer’s Association’s reliance on funding from drug corporations, including Biogen,” said David Mitchell, a cancer patient and founder of Patients For Affordable Drugs, in a statement.

Mr. Mitchell said his members “stand with the Alzheimer’s Association in its denunciation of the price set by Biogen” and called for a new law that would allow Medicare to negotiate drug prices.

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

Advances in photobiomodulation have propelled the use of therapeutic applications in a variety of medical specialties, according to Juanita J. Anders, PhD.

During the annual conference of the American Society for Laser Medicine and Surgery, Dr. Anders, professor of anatomy, physiology, and genetics at the Uniformed Services University of the Health Sciences, Bethesda, Md., defined photobiomodulation (PBM) as the mechanism by which nonionizing optical radiation in the visible and near-infrared spectral range is absorbed by endogenous chromophores to elicit photophysical and photochemical events at various biological scales. Photobiomodulation therapy (PBMT) involves the use of light sources including lasers, LEDs, and broadband light, that emit visible and/or near-infrared light to cause physiological changes in cells and tissues and result in therapeutic benefits.

In dermatology, LED light therapy devices are commonly used for PBMT in wavelengths that range from blue (415 nm) and red (633 nm) to near infrared (830 nm). “Often, when PBMT is referred to by dermatologists it’s called LED therapy or LED light therapy,” Dr. Anders noted. “Some people are under the impression that this is different from PBMT. But remember: It’s not the device that’s producing the photons that is clinically relevant, but it’s the photons themselves. In both cases, the same radiances and fluence ranges are being used and the mechanisms are the same, so it’s all PBMT.”

The therapy is used to treat a wide variety of medical and aesthetic disorders including acne vulgaris, psoriasis, burns, and wound healing. It has also been used in conjunction with surgical aesthetic and resurfacing procedures and has been reported to reduce erythema, edema, bruising, and days to healing. It’s been shown that PBMT stimulates fibroblast proliferation, collagen synthesis, and extracellular matrix resulting in lifting and tightening lax skin.

According to Dr. Anders, French dermatologists Linda Fouque, MD, and Michele Pelletier, MD, performed a series of in vivo and in vitro studies in which they tested the effects of yellow and red light for skin rejuvenation when used individually or in combination. “They found that fibroblasts and keratinocytes in vitro had great improvement in their morphology both with the yellow and red light, but the best improvement was seen with combination therapy,” Dr. Anders said. “This held true in their work looking at epidermal and dermal markers in the skin, where they found the best up-regulation in protein synthesis of such markers as collagens and fibronectin were produced when a combination wavelength light was used.”

Oral mucositis and pain

PBMT is also being used to treat oral mucositis (OM), a common adverse response to chemotherapy and/or radiation therapy, which causes pain, difficulty in swallowing and eating, and oral ulceration, and often interrupts the course of treatments. Authors of a recently published review on the risks and benefits of PBMT concluded that there is consistent evidence from a small number of high-quality studies that PBMT can help prevent the development of cancer therapy–induced OM, reduce pain intensity, as well as promote healing, and enhance patient quality of life.

“They also cautioned that, due to the limited long-term follow-up of patients, there is still concern for the potential long-term risks of PBMT in cancer cell mutation and amplification,” Dr. Anders said. “They advised that PBMT should be used carefully when the irradiation beam is in the direction of the tumor zone.”

Using PBMT for modulation of pain is another area of active research. Based on work from the laboratory of Dr. Anders and others, there are two methods to modulate pain. The first is to target tissue at irradiances below 100 mW/cm².

“In my laboratory, based on in vivo preclinical animal models of neuropathic pain, we used a 980-nm wavelength laser at 43.25 mW/cm² transcutaneously delivered to the level of the nerve for 20 seconds,” said Dr. Anders, who is a past president of the ASLMS. “Essentially, we found that the pain was modulated by reducing sensitivity to mechanical stimulation and also by causing an anti-inflammatory shift in microglial and macrophage phenotype in the dorsal root ganglion and spinal cord of affected segments.”

The second way to modulate pain, she continued, is to target tissue at irradiances above 250 mW/cm². She and her colleagues have conducted in vitro and in vivo studies, which indicate that treatment with an irradiance/fluence rate at 270 mW/cm² or higher at the nerve can rapidly block pain transmission.

“In vitro, we found that if we used an 810-nm wavelength light at 300 mW/cm², we got a disruption of microtubules in the DRG neurons in culture, specifically the small neurons, the nociceptive fibers, but we did not affect the proprioceptive fibers unless we increased the length of the treatment,” she said. “We essentially found the same thing in vivo in a rodent model of neuropathic pain.”

In a pilot study, Dr. Anders and coauthors examined the efficacy of laser irradiation of the dorsal root ganglion of the second lumbar spinal nerve for patients with chronic back pain.

They found that PBMT effectively reduced back pain equal to the effects of lidocaine.

Based on these two irradiation approaches of targeting tissue, Dr. Anders recommends that a combination therapy be used to modulate neuropathic pain going forward. “This approach would involve the initial use of a high-irradiance treatment [at least 250 mW/cm²] at the nerve to block the pain transmission,” she said. “That treatment would be followed by a series of low-irradiance treatments [10-100 mW/cm²] along the course of the involved nerve to alter chronic pathology and inflammation.”
 

Potential applications in neurology

Dr. Anders also discussed research efforts under way involving transcranial PBMT: the delivery of near-infrared light through the tissues of the scalp and skull to targeted brain regions to treat neurologic injuries and disorders. “There have been some exciting results in preclinical animal work and in small clinical pilot work that show that there could be possible beneficial effects in Parkinson’s disease, Alzheimer’s disease, depression, and improvement in cognition and memory after a brain injury, such as a TBI,” she said.

“Initially, though, there were a lot of questions about whether you could really deliver light to the brain through the scalp. In my laboratory, we used slices of nonfixed brain and found that the sulci within the human brain act as light-wave guides. We used an 808-nm near-infrared wavelength of light, so that the light could penetrate more deeply.” Using nonfixed cadaver heads, where the light was applied at the scalp surface, Dr. Anders and colleagues were able to measure photons down to the depth of 4 cm. “It’s generally agreed now, though, that it’s to a maximum depth of 2.5-3 cm that enough photons are delivered that would cause a beneficial therapeutic effect,” she said.

Dr. Anders disclosed that she has received equipment from LiteCure, grant funding from the Department of Defense, and that she holds advisory board roles with LiteCure and Neurothera. She has also served in leadership roles for the Optical Society and holds intellectual property rights for the Henry M. Jackson Foundation for the Advancement of Military Medicine.

dbrunk@mdedge.com

Advances in photobiomodulation have propelled the use of therapeutic applications in a variety of medical specialties, according to Juanita J. Anders, PhD.

During the annual conference of the American Society for Laser Medicine and Surgery, Dr. Anders, professor of anatomy, physiology, and genetics at the Uniformed Services University of the Health Sciences, Bethesda, Md., defined photobiomodulation (PBM) as the mechanism by which nonionizing optical radiation in the visible and near-infrared spectral range is absorbed by endogenous chromophores to elicit photophysical and photochemical events at various biological scales. Photobiomodulation therapy (PBMT) involves the use of light sources including lasers, LEDs, and broadband light, that emit visible and/or near-infrared light to cause physiological changes in cells and tissues and result in therapeutic benefits.

In dermatology, LED light therapy devices are commonly used for PBMT in wavelengths that range from blue (415 nm) and red (633 nm) to near infrared (830 nm). “Often, when PBMT is referred to by dermatologists it’s called LED therapy or LED light therapy,” Dr. Anders noted. “Some people are under the impression that this is different from PBMT. But remember: It’s not the device that’s producing the photons that is clinically relevant, but it’s the photons themselves. In both cases, the same radiances and fluence ranges are being used and the mechanisms are the same, so it’s all PBMT.”

The therapy is used to treat a wide variety of medical and aesthetic disorders including acne vulgaris, psoriasis, burns, and wound healing. It has also been used in conjunction with surgical aesthetic and resurfacing procedures and has been reported to reduce erythema, edema, bruising, and days to healing. It’s been shown that PBMT stimulates fibroblast proliferation, collagen synthesis, and extracellular matrix resulting in lifting and tightening lax skin.

According to Dr. Anders, French dermatologists Linda Fouque, MD, and Michele Pelletier, MD, performed a series of in vivo and in vitro studies in which they tested the effects of yellow and red light for skin rejuvenation when used individually or in combination. “They found that fibroblasts and keratinocytes in vitro had great improvement in their morphology both with the yellow and red light, but the best improvement was seen with combination therapy,” Dr. Anders said. “This held true in their work looking at epidermal and dermal markers in the skin, where they found the best up-regulation in protein synthesis of such markers as collagens and fibronectin were produced when a combination wavelength light was used.”

Oral mucositis and pain

PBMT is also being used to treat oral mucositis (OM), a common adverse response to chemotherapy and/or radiation therapy, which causes pain, difficulty in swallowing and eating, and oral ulceration, and often interrupts the course of treatments. Authors of a recently published review on the risks and benefits of PBMT concluded that there is consistent evidence from a small number of high-quality studies that PBMT can help prevent the development of cancer therapy–induced OM, reduce pain intensity, as well as promote healing, and enhance patient quality of life.

“They also cautioned that, due to the limited long-term follow-up of patients, there is still concern for the potential long-term risks of PBMT in cancer cell mutation and amplification,” Dr. Anders said. “They advised that PBMT should be used carefully when the irradiation beam is in the direction of the tumor zone.”

Using PBMT for modulation of pain is another area of active research. Based on work from the laboratory of Dr. Anders and others, there are two methods to modulate pain. The first is to target tissue at irradiances below 100 mW/cm².

“In my laboratory, based on in vivo preclinical animal models of neuropathic pain, we used a 980-nm wavelength laser at 43.25 mW/cm² transcutaneously delivered to the level of the nerve for 20 seconds,” said Dr. Anders, who is a past president of the ASLMS. “Essentially, we found that the pain was modulated by reducing sensitivity to mechanical stimulation and also by causing an anti-inflammatory shift in microglial and macrophage phenotype in the dorsal root ganglion and spinal cord of affected segments.”

The second way to modulate pain, she continued, is to target tissue at irradiances above 250 mW/cm². She and her colleagues have conducted in vitro and in vivo studies, which indicate that treatment with an irradiance/fluence rate at 270 mW/cm² or higher at the nerve can rapidly block pain transmission.

“In vitro, we found that if we used an 810-nm wavelength light at 300 mW/cm², we got a disruption of microtubules in the DRG neurons in culture, specifically the small neurons, the nociceptive fibers, but we did not affect the proprioceptive fibers unless we increased the length of the treatment,” she said. “We essentially found the same thing in vivo in a rodent model of neuropathic pain.”

In a pilot study, Dr. Anders and coauthors examined the efficacy of laser irradiation of the dorsal root ganglion of the second lumbar spinal nerve for patients with chronic back pain.

They found that PBMT effectively reduced back pain equal to the effects of lidocaine.

Based on these two irradiation approaches of targeting tissue, Dr. Anders recommends that a combination therapy be used to modulate neuropathic pain going forward. “This approach would involve the initial use of a high-irradiance treatment [at least 250 mW/cm²] at the nerve to block the pain transmission,” she said. “That treatment would be followed by a series of low-irradiance treatments [10-100 mW/cm²] along the course of the involved nerve to alter chronic pathology and inflammation.”
 

Potential applications in neurology

Dr. Anders also discussed research efforts under way involving transcranial PBMT: the delivery of near-infrared light through the tissues of the scalp and skull to targeted brain regions to treat neurologic injuries and disorders. “There have been some exciting results in preclinical animal work and in small clinical pilot work that show that there could be possible beneficial effects in Parkinson’s disease, Alzheimer’s disease, depression, and improvement in cognition and memory after a brain injury, such as a TBI,” she said.

“Initially, though, there were a lot of questions about whether you could really deliver light to the brain through the scalp. In my laboratory, we used slices of nonfixed brain and found that the sulci within the human brain act as light-wave guides. We used an 808-nm near-infrared wavelength of light, so that the light could penetrate more deeply.” Using nonfixed cadaver heads, where the light was applied at the scalp surface, Dr. Anders and colleagues were able to measure photons down to the depth of 4 cm. “It’s generally agreed now, though, that it’s to a maximum depth of 2.5-3 cm that enough photons are delivered that would cause a beneficial therapeutic effect,” she said.

Dr. Anders disclosed that she has received equipment from LiteCure, grant funding from the Department of Defense, and that she holds advisory board roles with LiteCure and Neurothera. She has also served in leadership roles for the Optical Society and holds intellectual property rights for the Henry M. Jackson Foundation for the Advancement of Military Medicine.

dbrunk@mdedge.com

Advances in photobiomodulation have propelled the use of therapeutic applications in a variety of medical specialties, according to Juanita J. Anders, PhD.

During the annual conference of the American Society for Laser Medicine and Surgery, Dr. Anders, professor of anatomy, physiology, and genetics at the Uniformed Services University of the Health Sciences, Bethesda, Md., defined photobiomodulation (PBM) as the mechanism by which nonionizing optical radiation in the visible and near-infrared spectral range is absorbed by endogenous chromophores to elicit photophysical and photochemical events at various biological scales. Photobiomodulation therapy (PBMT) involves the use of light sources including lasers, LEDs, and broadband light, that emit visible and/or near-infrared light to cause physiological changes in cells and tissues and result in therapeutic benefits.

In dermatology, LED light therapy devices are commonly used for PBMT in wavelengths that range from blue (415 nm) and red (633 nm) to near infrared (830 nm). “Often, when PBMT is referred to by dermatologists it’s called LED therapy or LED light therapy,” Dr. Anders noted. “Some people are under the impression that this is different from PBMT. But remember: It’s not the device that’s producing the photons that is clinically relevant, but it’s the photons themselves. In both cases, the same radiances and fluence ranges are being used and the mechanisms are the same, so it’s all PBMT.”

The therapy is used to treat a wide variety of medical and aesthetic disorders including acne vulgaris, psoriasis, burns, and wound healing. It has also been used in conjunction with surgical aesthetic and resurfacing procedures and has been reported to reduce erythema, edema, bruising, and days to healing. It’s been shown that PBMT stimulates fibroblast proliferation, collagen synthesis, and extracellular matrix resulting in lifting and tightening lax skin.

According to Dr. Anders, French dermatologists Linda Fouque, MD, and Michele Pelletier, MD, performed a series of in vivo and in vitro studies in which they tested the effects of yellow and red light for skin rejuvenation when used individually or in combination. “They found that fibroblasts and keratinocytes in vitro had great improvement in their morphology both with the yellow and red light, but the best improvement was seen with combination therapy,” Dr. Anders said. “This held true in their work looking at epidermal and dermal markers in the skin, where they found the best up-regulation in protein synthesis of such markers as collagens and fibronectin were produced when a combination wavelength light was used.”

Oral mucositis and pain

PBMT is also being used to treat oral mucositis (OM), a common adverse response to chemotherapy and/or radiation therapy, which causes pain, difficulty in swallowing and eating, and oral ulceration, and often interrupts the course of treatments. Authors of a recently published review on the risks and benefits of PBMT concluded that there is consistent evidence from a small number of high-quality studies that PBMT can help prevent the development of cancer therapy–induced OM, reduce pain intensity, as well as promote healing, and enhance patient quality of life.

“They also cautioned that, due to the limited long-term follow-up of patients, there is still concern for the potential long-term risks of PBMT in cancer cell mutation and amplification,” Dr. Anders said. “They advised that PBMT should be used carefully when the irradiation beam is in the direction of the tumor zone.”

Using PBMT for modulation of pain is another area of active research. Based on work from the laboratory of Dr. Anders and others, there are two methods to modulate pain. The first is to target tissue at irradiances below 100 mW/cm².

“In my laboratory, based on in vivo preclinical animal models of neuropathic pain, we used a 980-nm wavelength laser at 43.25 mW/cm² transcutaneously delivered to the level of the nerve for 20 seconds,” said Dr. Anders, who is a past president of the ASLMS. “Essentially, we found that the pain was modulated by reducing sensitivity to mechanical stimulation and also by causing an anti-inflammatory shift in microglial and macrophage phenotype in the dorsal root ganglion and spinal cord of affected segments.”

The second way to modulate pain, she continued, is to target tissue at irradiances above 250 mW/cm². She and her colleagues have conducted in vitro and in vivo studies, which indicate that treatment with an irradiance/fluence rate at 270 mW/cm² or higher at the nerve can rapidly block pain transmission.

“In vitro, we found that if we used an 810-nm wavelength light at 300 mW/cm², we got a disruption of microtubules in the DRG neurons in culture, specifically the small neurons, the nociceptive fibers, but we did not affect the proprioceptive fibers unless we increased the length of the treatment,” she said. “We essentially found the same thing in vivo in a rodent model of neuropathic pain.”

In a pilot study, Dr. Anders and coauthors examined the efficacy of laser irradiation of the dorsal root ganglion of the second lumbar spinal nerve for patients with chronic back pain.

They found that PBMT effectively reduced back pain equal to the effects of lidocaine.

Based on these two irradiation approaches of targeting tissue, Dr. Anders recommends that a combination therapy be used to modulate neuropathic pain going forward. “This approach would involve the initial use of a high-irradiance treatment [at least 250 mW/cm²] at the nerve to block the pain transmission,” she said. “That treatment would be followed by a series of low-irradiance treatments [10-100 mW/cm²] along the course of the involved nerve to alter chronic pathology and inflammation.”
 

Potential applications in neurology

Dr. Anders also discussed research efforts under way involving transcranial PBMT: the delivery of near-infrared light through the tissues of the scalp and skull to targeted brain regions to treat neurologic injuries and disorders. “There have been some exciting results in preclinical animal work and in small clinical pilot work that show that there could be possible beneficial effects in Parkinson’s disease, Alzheimer’s disease, depression, and improvement in cognition and memory after a brain injury, such as a TBI,” she said.

“Initially, though, there were a lot of questions about whether you could really deliver light to the brain through the scalp. In my laboratory, we used slices of nonfixed brain and found that the sulci within the human brain act as light-wave guides. We used an 808-nm near-infrared wavelength of light, so that the light could penetrate more deeply.” Using nonfixed cadaver heads, where the light was applied at the scalp surface, Dr. Anders and colleagues were able to measure photons down to the depth of 4 cm. “It’s generally agreed now, though, that it’s to a maximum depth of 2.5-3 cm that enough photons are delivered that would cause a beneficial therapeutic effect,” she said.

Dr. Anders disclosed that she has received equipment from LiteCure, grant funding from the Department of Defense, and that she holds advisory board roles with LiteCure and Neurothera. She has also served in leadership roles for the Optical Society and holds intellectual property rights for the Henry M. Jackson Foundation for the Advancement of Military Medicine.

dbrunk@mdedge.com

In early June the Food and Drug Administration – amid a storm of controversy – approved aducanumab, a monoclonal antibody developed to treat Alzheimer’s disease. The approval was hailed by advocacy groups and some practitioners as a victory for patients and families, as the drug – the first anti-Alzheimer’s agent to reach the market in 18 years – is a potentially disease-modifying therapy, which acts to clear amyloid plaques from the brain.

But several prominent Alzheimer’s researchers lambasted the agency’s decision, citing unclear evidence of benefit, trials that did not meet their primary endpoints, and reliance on a post hoc analysis of a high-dose subgroup of patients in a halted trial to argue that aducanumab (Aduhelm, Biogen, and Eisai), slowed cognitive and functional decline by 22% on one measure. In November 2020, 10 of 11 members of an independent FDA advisory committee voted against aducanumab’s approval, citing holes in the data and concerns about the quality of the evidence. After the agency went on to approve anyway, three members of that committee resigned in protest.

The FDA decision on aducanumab was made using the agency’s accelerated approval pathway, which allows for the use of a surrogate endpoint – in this case imaging that showed amyloid clearance from the brain – to predict clinical benefit. But amyloid clearance, which a number of experimental antiamyloid antibodies have been shown capable of, has not been definitively linked to clinical benefit. Aducanumab, which is delivered by monthly intravenous infusion, will be marketed pending results from a phase 4 clinical trial, which the manufacturer has nearly a decade to complete. The drug’s price was announced at $56,000 per year, underscoring concern over its modest-at-best benefits.

Clinicians prescribing aducanumab must obtain magnetic resonance imaging at baseline and repeatedly during the course of treatment to detect brain edema and microhemorrhages, which occurred in a third of high-dose patients in clinical trials. Beyond this, there are few restrictions. The FDA label allows for its use in any patient deemed to have Alzheimer’s disease, without stipulations as to disease stage or evidence of brain amyloid. Payers, of course, are likely to restrict use to certain patient groups, and to require evidence of amyloid positivity. The FDA offered no guidance on when treatment should be ceased, leaving payers to make that call as well. Whatever aducanumab’s value and role turns out to be, the first-in-class treatment for Alzheimer’s disease is likely to have a major impact on how patients are assessed and treated in the coming years, and embolden manufactures of similar agents to seek FDA approval.

This news organization reached out to researchers, advocates, and specialists in the community to learn how they see this change playing out.
 

Fielding broad interest

Maria C. Carrillo, PhD, chief science officer of the Alzheimer’s Association, which was a strong proponent of aducanumab’s approval, acknowledged in an interview that the months to come are likely to be confusing for practitioners and families alike as the drug makes its way into community practices.

“We understand that off the bat millions of Americans will not have access to this tomorrow, but over time that will build. And the physician community, the specialists most likely to be prescribing this, over the next few years will even expand further,” Dr. Carrillo said.

For now, those specialists are mostly just struggling to respond responsibly to a deluge of inquiries from patients and their families.

“I’ve gotten like 20 calls in the just the past 2 days,” said neurologist Philip R. Delio, MD, who practices in Santa Barbara, Calif. “This is a longstanding issue that physicians have with patients’ access to information. Patients are getting information about a drug which isn’t available yet. They don’t know that it’s not ready to be sold. They don’t necessarily realize that a biopharma company won’t go into production until the FDA approves the drug.”

The challenge of delivery

Intravenous infusions are new to Alzheimer’s disease and pose all sorts of logistical hurdles. The Alzheimer’s Association’s Dr. Carrillo described the situation as “manageable,” noting that infusions are standard of care for many diseases, and that neurologists now have more than 15 years’ experience with them for multiple sclerosis.

Still, most clinicians treating Alzheimer’s disease in the community – neurologists, geriatricians, psychiatrists, and primary care physicians – do not have infusion centers in their practices. Virtually none have experience with or access to PET-amyloid, or with screening for amyloid-related imaging abnormalities–edema (ARIA-e) on MRI, as required by the FDA.

“I contacted the hospital infusion center we use and said I could end up sending five or six patients a week, can you handle this? They only have so many chairs,” Dr. Delio said. “I am one neurologist in a local community, and I might have 50 candidates for this drug. That’s a lot for them.” Patients with cognitive impairment are also difficult to infuse and may need to be treated at home, he noted.

“MRIs are easy enough to do,” Dr. Delio said. “But do we know what ARIA-e looks like on imaging? You’d have to talk to the radiologists – this is another element of uncertainty. Do we even know what we’re looking for with these scans? Will we recognize this?”

Neurologist Jeffrey L. Cummings, MD, ScD, of the University of Nevada, Las Vegas, a vocal proponent of aducanumab and lead author of a May 2021 paper defending the evidence for it, acknowledged that the field was unprepared for a wide-scale adoption of infusions in dementia treatment, pointing to a Rand Corporation study from 2017 that warned that screening, diagnosis, and availability of infusion chairs would have to be drastically scaled up to meet demand.

“There are few clinicians who know how to identify MCI, too few imaging centers, too few radiologists who know how to identify ARIA-e on MRI, so all of these things will be required to be put into place. The label doesn’t specify any of this, but good clinical practice will require that, and getting this up and running will take 18 to 24 months,” Dr. Cummings said.

Neurologist David S. Knopman, MD, of the Mayo Clinic in Rochester, Minn., a leading critic of the evidence for aducanumab who recently resigned his position on the independent committee that advises the FDA on neurology drugs, said that for large research institutions like his that have served as trial sites, the transition to offering PET-amyloid, MRI, and infusions in clinical practice will be easier.

Uncertainty over costs

Aducanumab’s true costs, to patients and to taxpayers, remain unknown. The $56,000 per year currently cited by its manufacturer “doesn’t count the PET scans and MRIs,” Dr. Knopman noted. “We’re probably pushing $100,00 a year for the first year of treatment.”

Most of that expense will likely be borne by Medicare, he said, and if not, “that will exacerbate existing health care disparities. People who can pay out of pocket are a pretty limited group.”

Dr. Scharre agreed that the costs of treatment were concerning, and that “at least you should be able to narrow it down and hopefully just use health care dollars for people who might stand to benefit,” he said – namely patients in an earlier stage of disease.

The Alzheimer’s Association’s Dr. Carrillo declined to address the high price of aducanumab or its implications, saying only that the association is “very invested in all aspects of access including covering costs associated with the drug and the rest of treatment.”

Access also means “infrastructure, access to physicians to diagnose, access to diagnostics,” Dr. Carrillo said.

Dr. Cummings said aducanumab’s price would likely come down through negotiations with the Centers for Medicare & Medicaid Services, copayments, and bulk purchases.

The FDA has offered no guidance on how long treatment with aducanumab should last, or what should prompt withdrawal of treatment, meaning that patients could, in theory, stay on it to the end of their lives – raising costs further.

Critics have also noted that a built-in financial incentive under Medicare Part B, which covers infusion drugs, could result in overprescription of aducanumab. Under Medicare Part B, prescribing physicians are reimbursed 6% of a drug’s average sales price.
 

Geriatricians wary

On social media and in the lay press, geriatricians have been among the most outspoken opponents of the FDA decision and the Alzheimer’s Association’s advocacy of aducanumab.

Eric Widera, MD, a geriatrician at the University of California, San Francisco, said that the specialty might be less likely than others to embrace aducanumab. “I think part of the reasons geriatricians don’t make a lot of money is they have strong commitment to their values,” Dr. Widera said.

A fractured research community

Ever since October 2019, when Biogen and Eisai announced that despite two trials halted for futility, they would go ahead and seek FDA approval for aducanumab, the Alzheimer’s research community has been bitterly divided over the drug and the FDA’s accelerated approval process.

Top researchers published critical editorials in journals, with some eventually taking their case to major newspapers as well. The Alzheimer’s Association’s position on the drug has clashed with that of many researchers whose work it supports.

“The Alzheimer’s community has been wonderfully collegial – we all have a common purpose,” Dr. Cummings said. “Now we have people taking extreme positions and I’m hoping this will not result in a permanent fracturing of the community.”

Chief among the critics’ concerns is that the FDA decision ratified the use of antiamyloid therapies based on biomarker evidence, opening the door for makers of similar drugs – those still under development or even those whose development has been halted – to seek approval on weak evidence of clinical benefit.

Whether the approval will chill research into drugs targeting pathways other than amyloid is uncertain.

Dr. Cummings said he felt that while the aducanumab decision would spur other manufacturers of antiamyloid drugs to seek accelerated approval, other classes of Alzheimer’s therapies in development also stand to get a boost. Many Alzheimer’s experts believe that a combination of drugs targeting different elements of the disease pathway – not just amyloid – will be needed in the long run.

Dr. Scharre said that the buzz over aducanumab’s approval will have at least one concrete benefit: people getting into doctors’ offices sooner.

“The people who come into our memory centers represent only a fraction of people walking around with MCI – there are people out there who may have heard that it’s normal aging; they have decreased insight; there’s denial, there’s embarrassment – there’s hundreds of reasons people avoid getting seen,” he said.

“Perhaps they come in and learn that they don’t have any degenerative process but their thyroid is out of whack, or there’s something else causing cognitive impairment. And if they do have a degenerative process, they’ll have time to start [aducanumab], and hopefully get to see a reduction in the decline.”

Dr. Knopman was a site investigator for the Biogen aducanumab trials and has consulted for Samus Therapeutics, Third Rock, Roche, and Alzeca Biosciences. A former member of the FDA’s Peripheral and Central Nervous System Drugs Advisory Committee, he was recused from the Nov. 6, 2020, meeting that voted against aducanumab. Dr. Cummings has consulted for Biogen, Eisai, and other manufacturers. Dr. Scharre reports financial relationships with Biogen, Brain Test, Acadia, and Vascular Scientific. Dr. Widera has no disclosures. Dr. Delio is a speaker for Gore Medical, Allergan, and Biohaven Pharmaceuticals.

In early June the Food and Drug Administration – amid a storm of controversy – approved aducanumab, a monoclonal antibody developed to treat Alzheimer’s disease. The approval was hailed by advocacy groups and some practitioners as a victory for patients and families, as the drug – the first anti-Alzheimer’s agent to reach the market in 18 years – is a potentially disease-modifying therapy, which acts to clear amyloid plaques from the brain.

But several prominent Alzheimer’s researchers lambasted the agency’s decision, citing unclear evidence of benefit, trials that did not meet their primary endpoints, and reliance on a post hoc analysis of a high-dose subgroup of patients in a halted trial to argue that aducanumab (Aduhelm, Biogen, and Eisai), slowed cognitive and functional decline by 22% on one measure. In November 2020, 10 of 11 members of an independent FDA advisory committee voted against aducanumab’s approval, citing holes in the data and concerns about the quality of the evidence. After the agency went on to approve anyway, three members of that committee resigned in protest.

The FDA decision on aducanumab was made using the agency’s accelerated approval pathway, which allows for the use of a surrogate endpoint – in this case imaging that showed amyloid clearance from the brain – to predict clinical benefit. But amyloid clearance, which a number of experimental antiamyloid antibodies have been shown capable of, has not been definitively linked to clinical benefit. Aducanumab, which is delivered by monthly intravenous infusion, will be marketed pending results from a phase 4 clinical trial, which the manufacturer has nearly a decade to complete. The drug’s price was announced at $56,000 per year, underscoring concern over its modest-at-best benefits.

Clinicians prescribing aducanumab must obtain magnetic resonance imaging at baseline and repeatedly during the course of treatment to detect brain edema and microhemorrhages, which occurred in a third of high-dose patients in clinical trials. Beyond this, there are few restrictions. The FDA label allows for its use in any patient deemed to have Alzheimer’s disease, without stipulations as to disease stage or evidence of brain amyloid. Payers, of course, are likely to restrict use to certain patient groups, and to require evidence of amyloid positivity. The FDA offered no guidance on when treatment should be ceased, leaving payers to make that call as well. Whatever aducanumab’s value and role turns out to be, the first-in-class treatment for Alzheimer’s disease is likely to have a major impact on how patients are assessed and treated in the coming years, and embolden manufactures of similar agents to seek FDA approval.

This news organization reached out to researchers, advocates, and specialists in the community to learn how they see this change playing out.
 

Fielding broad interest

Maria C. Carrillo, PhD, chief science officer of the Alzheimer’s Association, which was a strong proponent of aducanumab’s approval, acknowledged in an interview that the months to come are likely to be confusing for practitioners and families alike as the drug makes its way into community practices.

“We understand that off the bat millions of Americans will not have access to this tomorrow, but over time that will build. And the physician community, the specialists most likely to be prescribing this, over the next few years will even expand further,” Dr. Carrillo said.

For now, those specialists are mostly just struggling to respond responsibly to a deluge of inquiries from patients and their families.

“I’ve gotten like 20 calls in the just the past 2 days,” said neurologist Philip R. Delio, MD, who practices in Santa Barbara, Calif. “This is a longstanding issue that physicians have with patients’ access to information. Patients are getting information about a drug which isn’t available yet. They don’t know that it’s not ready to be sold. They don’t necessarily realize that a biopharma company won’t go into production until the FDA approves the drug.”

The challenge of delivery

Intravenous infusions are new to Alzheimer’s disease and pose all sorts of logistical hurdles. The Alzheimer’s Association’s Dr. Carrillo described the situation as “manageable,” noting that infusions are standard of care for many diseases, and that neurologists now have more than 15 years’ experience with them for multiple sclerosis.

Still, most clinicians treating Alzheimer’s disease in the community – neurologists, geriatricians, psychiatrists, and primary care physicians – do not have infusion centers in their practices. Virtually none have experience with or access to PET-amyloid, or with screening for amyloid-related imaging abnormalities–edema (ARIA-e) on MRI, as required by the FDA.

“I contacted the hospital infusion center we use and said I could end up sending five or six patients a week, can you handle this? They only have so many chairs,” Dr. Delio said. “I am one neurologist in a local community, and I might have 50 candidates for this drug. That’s a lot for them.” Patients with cognitive impairment are also difficult to infuse and may need to be treated at home, he noted.

“MRIs are easy enough to do,” Dr. Delio said. “But do we know what ARIA-e looks like on imaging? You’d have to talk to the radiologists – this is another element of uncertainty. Do we even know what we’re looking for with these scans? Will we recognize this?”

Neurologist Jeffrey L. Cummings, MD, ScD, of the University of Nevada, Las Vegas, a vocal proponent of aducanumab and lead author of a May 2021 paper defending the evidence for it, acknowledged that the field was unprepared for a wide-scale adoption of infusions in dementia treatment, pointing to a Rand Corporation study from 2017 that warned that screening, diagnosis, and availability of infusion chairs would have to be drastically scaled up to meet demand.

“There are few clinicians who know how to identify MCI, too few imaging centers, too few radiologists who know how to identify ARIA-e on MRI, so all of these things will be required to be put into place. The label doesn’t specify any of this, but good clinical practice will require that, and getting this up and running will take 18 to 24 months,” Dr. Cummings said.

Neurologist David S. Knopman, MD, of the Mayo Clinic in Rochester, Minn., a leading critic of the evidence for aducanumab who recently resigned his position on the independent committee that advises the FDA on neurology drugs, said that for large research institutions like his that have served as trial sites, the transition to offering PET-amyloid, MRI, and infusions in clinical practice will be easier.

Uncertainty over costs

Aducanumab’s true costs, to patients and to taxpayers, remain unknown. The $56,000 per year currently cited by its manufacturer “doesn’t count the PET scans and MRIs,” Dr. Knopman noted. “We’re probably pushing $100,00 a year for the first year of treatment.”

Most of that expense will likely be borne by Medicare, he said, and if not, “that will exacerbate existing health care disparities. People who can pay out of pocket are a pretty limited group.”

Dr. Scharre agreed that the costs of treatment were concerning, and that “at least you should be able to narrow it down and hopefully just use health care dollars for people who might stand to benefit,” he said – namely patients in an earlier stage of disease.

The Alzheimer’s Association’s Dr. Carrillo declined to address the high price of aducanumab or its implications, saying only that the association is “very invested in all aspects of access including covering costs associated with the drug and the rest of treatment.”

Access also means “infrastructure, access to physicians to diagnose, access to diagnostics,” Dr. Carrillo said.

Dr. Cummings said aducanumab’s price would likely come down through negotiations with the Centers for Medicare & Medicaid Services, copayments, and bulk purchases.

The FDA has offered no guidance on how long treatment with aducanumab should last, or what should prompt withdrawal of treatment, meaning that patients could, in theory, stay on it to the end of their lives – raising costs further.

Critics have also noted that a built-in financial incentive under Medicare Part B, which covers infusion drugs, could result in overprescription of aducanumab. Under Medicare Part B, prescribing physicians are reimbursed 6% of a drug’s average sales price.
 

Geriatricians wary

On social media and in the lay press, geriatricians have been among the most outspoken opponents of the FDA decision and the Alzheimer’s Association’s advocacy of aducanumab.

Eric Widera, MD, a geriatrician at the University of California, San Francisco, said that the specialty might be less likely than others to embrace aducanumab. “I think part of the reasons geriatricians don’t make a lot of money is they have strong commitment to their values,” Dr. Widera said.

A fractured research community

Ever since October 2019, when Biogen and Eisai announced that despite two trials halted for futility, they would go ahead and seek FDA approval for aducanumab, the Alzheimer’s research community has been bitterly divided over the drug and the FDA’s accelerated approval process.

Top researchers published critical editorials in journals, with some eventually taking their case to major newspapers as well. The Alzheimer’s Association’s position on the drug has clashed with that of many researchers whose work it supports.

“The Alzheimer’s community has been wonderfully collegial – we all have a common purpose,” Dr. Cummings said. “Now we have people taking extreme positions and I’m hoping this will not result in a permanent fracturing of the community.”

Chief among the critics’ concerns is that the FDA decision ratified the use of antiamyloid therapies based on biomarker evidence, opening the door for makers of similar drugs – those still under development or even those whose development has been halted – to seek approval on weak evidence of clinical benefit.

Whether the approval will chill research into drugs targeting pathways other than amyloid is uncertain.

Dr. Cummings said he felt that while the aducanumab decision would spur other manufacturers of antiamyloid drugs to seek accelerated approval, other classes of Alzheimer’s therapies in development also stand to get a boost. Many Alzheimer’s experts believe that a combination of drugs targeting different elements of the disease pathway – not just amyloid – will be needed in the long run.

Dr. Scharre said that the buzz over aducanumab’s approval will have at least one concrete benefit: people getting into doctors’ offices sooner.

“The people who come into our memory centers represent only a fraction of people walking around with MCI – there are people out there who may have heard that it’s normal aging; they have decreased insight; there’s denial, there’s embarrassment – there’s hundreds of reasons people avoid getting seen,” he said.

“Perhaps they come in and learn that they don’t have any degenerative process but their thyroid is out of whack, or there’s something else causing cognitive impairment. And if they do have a degenerative process, they’ll have time to start [aducanumab], and hopefully get to see a reduction in the decline.”

Dr. Knopman was a site investigator for the Biogen aducanumab trials and has consulted for Samus Therapeutics, Third Rock, Roche, and Alzeca Biosciences. A former member of the FDA’s Peripheral and Central Nervous System Drugs Advisory Committee, he was recused from the Nov. 6, 2020, meeting that voted against aducanumab. Dr. Cummings has consulted for Biogen, Eisai, and other manufacturers. Dr. Scharre reports financial relationships with Biogen, Brain Test, Acadia, and Vascular Scientific. Dr. Widera has no disclosures. Dr. Delio is a speaker for Gore Medical, Allergan, and Biohaven Pharmaceuticals.

In early June the Food and Drug Administration – amid a storm of controversy – approved aducanumab, a monoclonal antibody developed to treat Alzheimer’s disease. The approval was hailed by advocacy groups and some practitioners as a victory for patients and families, as the drug – the first anti-Alzheimer’s agent to reach the market in 18 years – is a potentially disease-modifying therapy, which acts to clear amyloid plaques from the brain.

But several prominent Alzheimer’s researchers lambasted the agency’s decision, citing unclear evidence of benefit, trials that did not meet their primary endpoints, and reliance on a post hoc analysis of a high-dose subgroup of patients in a halted trial to argue that aducanumab (Aduhelm, Biogen, and Eisai), slowed cognitive and functional decline by 22% on one measure. In November 2020, 10 of 11 members of an independent FDA advisory committee voted against aducanumab’s approval, citing holes in the data and concerns about the quality of the evidence. After the agency went on to approve anyway, three members of that committee resigned in protest.

The FDA decision on aducanumab was made using the agency’s accelerated approval pathway, which allows for the use of a surrogate endpoint – in this case imaging that showed amyloid clearance from the brain – to predict clinical benefit. But amyloid clearance, which a number of experimental antiamyloid antibodies have been shown capable of, has not been definitively linked to clinical benefit. Aducanumab, which is delivered by monthly intravenous infusion, will be marketed pending results from a phase 4 clinical trial, which the manufacturer has nearly a decade to complete. The drug’s price was announced at $56,000 per year, underscoring concern over its modest-at-best benefits.

Clinicians prescribing aducanumab must obtain magnetic resonance imaging at baseline and repeatedly during the course of treatment to detect brain edema and microhemorrhages, which occurred in a third of high-dose patients in clinical trials. Beyond this, there are few restrictions. The FDA label allows for its use in any patient deemed to have Alzheimer’s disease, without stipulations as to disease stage or evidence of brain amyloid. Payers, of course, are likely to restrict use to certain patient groups, and to require evidence of amyloid positivity. The FDA offered no guidance on when treatment should be ceased, leaving payers to make that call as well. Whatever aducanumab’s value and role turns out to be, the first-in-class treatment for Alzheimer’s disease is likely to have a major impact on how patients are assessed and treated in the coming years, and embolden manufactures of similar agents to seek FDA approval.

This news organization reached out to researchers, advocates, and specialists in the community to learn how they see this change playing out.
 

Fielding broad interest

Maria C. Carrillo, PhD, chief science officer of the Alzheimer’s Association, which was a strong proponent of aducanumab’s approval, acknowledged in an interview that the months to come are likely to be confusing for practitioners and families alike as the drug makes its way into community practices.

“We understand that off the bat millions of Americans will not have access to this tomorrow, but over time that will build. And the physician community, the specialists most likely to be prescribing this, over the next few years will even expand further,” Dr. Carrillo said.

For now, those specialists are mostly just struggling to respond responsibly to a deluge of inquiries from patients and their families.

“I’ve gotten like 20 calls in the just the past 2 days,” said neurologist Philip R. Delio, MD, who practices in Santa Barbara, Calif. “This is a longstanding issue that physicians have with patients’ access to information. Patients are getting information about a drug which isn’t available yet. They don’t know that it’s not ready to be sold. They don’t necessarily realize that a biopharma company won’t go into production until the FDA approves the drug.”

The challenge of delivery

Intravenous infusions are new to Alzheimer’s disease and pose all sorts of logistical hurdles. The Alzheimer’s Association’s Dr. Carrillo described the situation as “manageable,” noting that infusions are standard of care for many diseases, and that neurologists now have more than 15 years’ experience with them for multiple sclerosis.

Still, most clinicians treating Alzheimer’s disease in the community – neurologists, geriatricians, psychiatrists, and primary care physicians – do not have infusion centers in their practices. Virtually none have experience with or access to PET-amyloid, or with screening for amyloid-related imaging abnormalities–edema (ARIA-e) on MRI, as required by the FDA.

“I contacted the hospital infusion center we use and said I could end up sending five or six patients a week, can you handle this? They only have so many chairs,” Dr. Delio said. “I am one neurologist in a local community, and I might have 50 candidates for this drug. That’s a lot for them.” Patients with cognitive impairment are also difficult to infuse and may need to be treated at home, he noted.

“MRIs are easy enough to do,” Dr. Delio said. “But do we know what ARIA-e looks like on imaging? You’d have to talk to the radiologists – this is another element of uncertainty. Do we even know what we’re looking for with these scans? Will we recognize this?”

Neurologist Jeffrey L. Cummings, MD, ScD, of the University of Nevada, Las Vegas, a vocal proponent of aducanumab and lead author of a May 2021 paper defending the evidence for it, acknowledged that the field was unprepared for a wide-scale adoption of infusions in dementia treatment, pointing to a Rand Corporation study from 2017 that warned that screening, diagnosis, and availability of infusion chairs would have to be drastically scaled up to meet demand.

“There are few clinicians who know how to identify MCI, too few imaging centers, too few radiologists who know how to identify ARIA-e on MRI, so all of these things will be required to be put into place. The label doesn’t specify any of this, but good clinical practice will require that, and getting this up and running will take 18 to 24 months,” Dr. Cummings said.

Neurologist David S. Knopman, MD, of the Mayo Clinic in Rochester, Minn., a leading critic of the evidence for aducanumab who recently resigned his position on the independent committee that advises the FDA on neurology drugs, said that for large research institutions like his that have served as trial sites, the transition to offering PET-amyloid, MRI, and infusions in clinical practice will be easier.

Uncertainty over costs

Aducanumab’s true costs, to patients and to taxpayers, remain unknown. The $56,000 per year currently cited by its manufacturer “doesn’t count the PET scans and MRIs,” Dr. Knopman noted. “We’re probably pushing $100,00 a year for the first year of treatment.”

Most of that expense will likely be borne by Medicare, he said, and if not, “that will exacerbate existing health care disparities. People who can pay out of pocket are a pretty limited group.”

Dr. Scharre agreed that the costs of treatment were concerning, and that “at least you should be able to narrow it down and hopefully just use health care dollars for people who might stand to benefit,” he said – namely patients in an earlier stage of disease.

The Alzheimer’s Association’s Dr. Carrillo declined to address the high price of aducanumab or its implications, saying only that the association is “very invested in all aspects of access including covering costs associated with the drug and the rest of treatment.”

Access also means “infrastructure, access to physicians to diagnose, access to diagnostics,” Dr. Carrillo said.

Dr. Cummings said aducanumab’s price would likely come down through negotiations with the Centers for Medicare & Medicaid Services, copayments, and bulk purchases.

The FDA has offered no guidance on how long treatment with aducanumab should last, or what should prompt withdrawal of treatment, meaning that patients could, in theory, stay on it to the end of their lives – raising costs further.

Critics have also noted that a built-in financial incentive under Medicare Part B, which covers infusion drugs, could result in overprescription of aducanumab. Under Medicare Part B, prescribing physicians are reimbursed 6% of a drug’s average sales price.
 

Geriatricians wary

On social media and in the lay press, geriatricians have been among the most outspoken opponents of the FDA decision and the Alzheimer’s Association’s advocacy of aducanumab.

Eric Widera, MD, a geriatrician at the University of California, San Francisco, said that the specialty might be less likely than others to embrace aducanumab. “I think part of the reasons geriatricians don’t make a lot of money is they have strong commitment to their values,” Dr. Widera said.

A fractured research community

Ever since October 2019, when Biogen and Eisai announced that despite two trials halted for futility, they would go ahead and seek FDA approval for aducanumab, the Alzheimer’s research community has been bitterly divided over the drug and the FDA’s accelerated approval process.

Top researchers published critical editorials in journals, with some eventually taking their case to major newspapers as well. The Alzheimer’s Association’s position on the drug has clashed with that of many researchers whose work it supports.

“The Alzheimer’s community has been wonderfully collegial – we all have a common purpose,” Dr. Cummings said. “Now we have people taking extreme positions and I’m hoping this will not result in a permanent fracturing of the community.”

Chief among the critics’ concerns is that the FDA decision ratified the use of antiamyloid therapies based on biomarker evidence, opening the door for makers of similar drugs – those still under development or even those whose development has been halted – to seek approval on weak evidence of clinical benefit.

Whether the approval will chill research into drugs targeting pathways other than amyloid is uncertain.

Dr. Cummings said he felt that while the aducanumab decision would spur other manufacturers of antiamyloid drugs to seek accelerated approval, other classes of Alzheimer’s therapies in development also stand to get a boost. Many Alzheimer’s experts believe that a combination of drugs targeting different elements of the disease pathway – not just amyloid – will be needed in the long run.

Dr. Scharre said that the buzz over aducanumab’s approval will have at least one concrete benefit: people getting into doctors’ offices sooner.

“The people who come into our memory centers represent only a fraction of people walking around with MCI – there are people out there who may have heard that it’s normal aging; they have decreased insight; there’s denial, there’s embarrassment – there’s hundreds of reasons people avoid getting seen,” he said.

“Perhaps they come in and learn that they don’t have any degenerative process but their thyroid is out of whack, or there’s something else causing cognitive impairment. And if they do have a degenerative process, they’ll have time to start [aducanumab], and hopefully get to see a reduction in the decline.”

Dr. Knopman was a site investigator for the Biogen aducanumab trials and has consulted for Samus Therapeutics, Third Rock, Roche, and Alzeca Biosciences. A former member of the FDA’s Peripheral and Central Nervous System Drugs Advisory Committee, he was recused from the Nov. 6, 2020, meeting that voted against aducanumab. Dr. Cummings has consulted for Biogen, Eisai, and other manufacturers. Dr. Scharre reports financial relationships with Biogen, Brain Test, Acadia, and Vascular Scientific. Dr. Widera has no disclosures. Dr. Delio is a speaker for Gore Medical, Allergan, and Biohaven Pharmaceuticals.

People with migraine tend to have lower levels of physical activity than those without migraine despite the beneficial effects of physical activity on reducing frequency of migraine, according to a presentation at the American Headache Society’s 2021 annual meeting.

Though reliable research is sparse overall on how much physical activity people with migraine get, enough exists to reveal the need for clinicians to help patients identify ways to increase their levels of physical activity and make it a habit, said Dale S. Bond, PhD, a professor of psychiatry and human behavior at the Miriam Hospital and Brown University, both in Providence, R.I.

He emphasized the need not only to replace sedentary time with physical activity but also to reduce sedentary time overall.

“It’s important to note that because active and sedentary represent different behavioral domains, people can still be active – that is, achieving recommended levels of moderate to vigorous physical activity [MVPA] – but still be highly sedentary because they sit for long hours throughout the day,” Dr. Bond said. “This is important because MVPA will not necessarily eliminate the health risks of long hours of sitting.”

Dr. Bond reviewed the existing literature on physical activity and sedentary behavior among patients with migraine. His presentation, “Move More, Sit Less,” aimed at finding ways to incorporate more physical activity into the daily lives of those with migraine. Dr. Bond began by briefly reviewing the well-established benefits of physical activity, including healthy sleep; cardiovascular, respiratory, musculoskeletal, mental, and cognitive health; and metabolic functioning.

“Physical activity and exercise in particular enhances the functioning of bodily systems, including those that have direct relevance to migraine in its comorbidities,” Dr. Bond said. “The positive systemic effects of exercise on bodily systems carries potential to reduce migraine severity and related disability and morbidity.”

He also explained the ways in which excessive sedentary time can exacerbate migraine triggers. “Long periods of interrupted sitting elevated levels of glucose and fat in the bloodstream, which in turn triggers the immune system to attack the body via inflammation,” Dr. Bond said. “Low grade chronic inflammation has long been hypothesized to play a role in migraine pathogenesis.”
 

Recommended levels of exercise

The World Health Organization and the U.S. Department of Health & Human Services recommends at least 150-300 minutes of moderate-intensity aerobic physical activity or 75-150 minutes of vigorous activity each week. An additional recommendation is at least 2 days per week of muscle strengthening activities that involve all major muscle groups.

While neither of those organizations has specific guidelines on how much reduction of sedentary time is recommended, the Canadian Society for Exercise Physiology recommends limiting sedentary time to 8 or fewer hours per day.
 

Exercise and migraine

“Unfortunately, at present, we have very few studies from which to draw conclusions about the extent to which individuals with migraine adhere to physical activity and sedentary guidelines,” Dr. Bond said. Existing studies vary widely in sample types, study design, physical activity measure and MVPA outcome, including the type or definition of MVPA. “This wide variability in measures and outcomes makes it challenging to draw any conclusions about adherence to guidelines among individuals with migraine,” he said.

Existing evidence suggests anywhere from 32% to 66% of migraine patients are at least moderately active, though it’s not clear what constitutes “moderately active” behavior. It appears that activity levels of patients with migraine are low overall, but it’s less clear the extent to which these levels are lower than in controls given the paucity of evidence.

In one of the few studies using objective measures to assess physical activity in migraine patients, the daily level of MVPA was significantly lower in 25 women with migraine than in 25 age- and body mass index–matched women without migraine (P <. 003). Both groups had obesity. The same study found that virtually no women with migraine adhered to the guidelines recommending less than 8 hours a day of sedentary time, compared with 30% of women without migraine.

“Also, low physical activity and high sedentary levels appear to be consistent across headache and nonheadache days,” Dr. Bond said. “This finding in particular raises an interesting question: If migraine severity is not related to physical activity and sedentary time, what is it about migraine that contributes to an inactive and sedentary lifestyle?”

Dr. Bond noted that future research needs to include reports of frequency, duration, and intensity of activities performed as well as the percentage of participants who meet guidelines for physical activity and sedentary time. Ideally, these studies should include not only self-report but also objective measures of activity as well as assess sleep and identify barriers and facilitators to physical activity in patients.
 

Exercise avoidance

Dr. Bond described findings from survey of 100 women he conducted to better understand potential barriers and reported that 78% of patients report intentionally avoiding physical activity. These patients typically avoided it an average of 4 days per week, regardless of intensity, and additional survey findings found “that participants who reported any avoidance had stronger beliefs that physical activity would both trigger and worsen a migraine attack, compared with participants who reported no avoidance,” he said.

That finding matches the clinical experience of Jennifer Robblee, MD, MSc, assistant professor of neurology at Barrow Neurological Institute in Phoenix, who viewed the presentation but was not involved with it.

“They often feel that it is a trigger for worsening an attack or, for some people, can actually trigger an attack, and that they feel worse in the midst of an attack when they’re exercising,” Dr. Robblee said in an interview regarding her patients who exercise less frequently. “Since so many of the patients I see have a daily and constant headache, it’s about how they can get themselves to start to exercise when something makes them feel worse, even if it makes them feel better in the long run.”

Yet, experimental research suggests that physical activity is not necessarily a reliable trigger of migraine attacks and only worsens migraine in a minority of attacks, Dr. Bond said, revealing an interesting paradox: “While engaging in regular physical activity is an important migraine management strategy, most individuals in the study reported doing the exact opposite – that is, avoiding physical activity as a management strategy – and this strategy was associated with higher frequency and duration of attacks. Research from our group and others also suggested individuals with migraine could be overestimating the role that physical activity hasn’t triggering or worsening of attacks.”
 

Encouraging patients to exercise

Since the benefits of physical activity and limiting sedentary time outweigh the potential harms, “some physical activity is better than none,” Dr. Bond said. To help patients begin increasing their physical activity, he recommended advising them to start with small amounts and then gradually increase frequency, intensity, and duration over time.

Dr. Robblee follows a similar approach, taking into account each patient’s particular circumstances and any medications they’re taking, including the side effects of those medications.

“It’s about starting where they are,” Dr. Robblee said. “Some patients, despite having severe migraine, have built themselves up so they’re doing exercise three or four times per week, or every day, and I have other people who never exercise,” she said. “For those patients who are very sedentary, if I can get them to start with 5 minutes per week so they have that sense of accomplishment, then that’s where I start. Then slowly build it up over time. Like most things in the migraine world, I individualize it for the person.”

Dr. Bond offered the following specific tips to clinicians in educating and encouraging patients to increase physical activity:

• Educate patients regarding the short-and long-term benefits of moving more and sitting less, both for their migraines and for overall health.
• Correct misconceptions about the negative effects of physical activity as it relates to migraines.
• Personalize the rationale for physical activity to that patient’s specific values and personal goals.
• Encourage patients to use an activity tracker, both for tracking physical activity and sedentary time, and to monitor migraine attacks, stress, energy levels, and fatigue on days they do and do not exercise.
• Help patients set goals for eventually meeting MVPA recommendations and interrupting prolonged periods of sitting with brief movement breaks.
• Help patients identify rewards for meeting goals that are tied to the activity, such as new exercise clothing.
• Encourage patients to identify a consistent time for physical activity each day to establish a habit, “ideally in the morning before barriers and life get in the way,” he said.

Eventually, physical activity itself should become intrinsically rewarding, Dr. Bond said.

“To limit sitting and encourage more movement throughout the day, we want to make the choice to engage in physical activity easier by adding environmental cues that encourage physical activity,” he said. “Conversely, we want to make the choice to engage in sedentary behavior more difficult by increasing the amount of effort that is required to engage in these behaviors.”

Dr. Robblee found Dr. Bond’s emphasis on sitting less – distinct from moving more – a helpful frame to consider with her patients. “I really like the approach of looking at it from that approach: in addition to how do we get you up and moving, how much time are you sitting, and how often can you break that up into smaller increments so that you’re up more often?” Dr. Robblee said. “That sometimes sounds less scary than ‘let’s get you exercising.’ So ‘let’s get you sitting a little bit less.’ I think that is something I might start to adopt.”

No external funding was noted. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem. Dr. Bond reported no disclosures.
 

People with migraine tend to have lower levels of physical activity than those without migraine despite the beneficial effects of physical activity on reducing frequency of migraine, according to a presentation at the American Headache Society’s 2021 annual meeting.

Though reliable research is sparse overall on how much physical activity people with migraine get, enough exists to reveal the need for clinicians to help patients identify ways to increase their levels of physical activity and make it a habit, said Dale S. Bond, PhD, a professor of psychiatry and human behavior at the Miriam Hospital and Brown University, both in Providence, R.I.

He emphasized the need not only to replace sedentary time with physical activity but also to reduce sedentary time overall.

“It’s important to note that because active and sedentary represent different behavioral domains, people can still be active – that is, achieving recommended levels of moderate to vigorous physical activity [MVPA] – but still be highly sedentary because they sit for long hours throughout the day,” Dr. Bond said. “This is important because MVPA will not necessarily eliminate the health risks of long hours of sitting.”

Dr. Bond reviewed the existing literature on physical activity and sedentary behavior among patients with migraine. His presentation, “Move More, Sit Less,” aimed at finding ways to incorporate more physical activity into the daily lives of those with migraine. Dr. Bond began by briefly reviewing the well-established benefits of physical activity, including healthy sleep; cardiovascular, respiratory, musculoskeletal, mental, and cognitive health; and metabolic functioning.

“Physical activity and exercise in particular enhances the functioning of bodily systems, including those that have direct relevance to migraine in its comorbidities,” Dr. Bond said. “The positive systemic effects of exercise on bodily systems carries potential to reduce migraine severity and related disability and morbidity.”

He also explained the ways in which excessive sedentary time can exacerbate migraine triggers. “Long periods of interrupted sitting elevated levels of glucose and fat in the bloodstream, which in turn triggers the immune system to attack the body via inflammation,” Dr. Bond said. “Low grade chronic inflammation has long been hypothesized to play a role in migraine pathogenesis.”
 

Recommended levels of exercise

The World Health Organization and the U.S. Department of Health & Human Services recommends at least 150-300 minutes of moderate-intensity aerobic physical activity or 75-150 minutes of vigorous activity each week. An additional recommendation is at least 2 days per week of muscle strengthening activities that involve all major muscle groups.

While neither of those organizations has specific guidelines on how much reduction of sedentary time is recommended, the Canadian Society for Exercise Physiology recommends limiting sedentary time to 8 or fewer hours per day.
 

Exercise and migraine

“Unfortunately, at present, we have very few studies from which to draw conclusions about the extent to which individuals with migraine adhere to physical activity and sedentary guidelines,” Dr. Bond said. Existing studies vary widely in sample types, study design, physical activity measure and MVPA outcome, including the type or definition of MVPA. “This wide variability in measures and outcomes makes it challenging to draw any conclusions about adherence to guidelines among individuals with migraine,” he said.

Existing evidence suggests anywhere from 32% to 66% of migraine patients are at least moderately active, though it’s not clear what constitutes “moderately active” behavior. It appears that activity levels of patients with migraine are low overall, but it’s less clear the extent to which these levels are lower than in controls given the paucity of evidence.

In one of the few studies using objective measures to assess physical activity in migraine patients, the daily level of MVPA was significantly lower in 25 women with migraine than in 25 age- and body mass index–matched women without migraine (P <. 003). Both groups had obesity. The same study found that virtually no women with migraine adhered to the guidelines recommending less than 8 hours a day of sedentary time, compared with 30% of women without migraine.

“Also, low physical activity and high sedentary levels appear to be consistent across headache and nonheadache days,” Dr. Bond said. “This finding in particular raises an interesting question: If migraine severity is not related to physical activity and sedentary time, what is it about migraine that contributes to an inactive and sedentary lifestyle?”

Dr. Bond noted that future research needs to include reports of frequency, duration, and intensity of activities performed as well as the percentage of participants who meet guidelines for physical activity and sedentary time. Ideally, these studies should include not only self-report but also objective measures of activity as well as assess sleep and identify barriers and facilitators to physical activity in patients.
 

Exercise avoidance

Dr. Bond described findings from survey of 100 women he conducted to better understand potential barriers and reported that 78% of patients report intentionally avoiding physical activity. These patients typically avoided it an average of 4 days per week, regardless of intensity, and additional survey findings found “that participants who reported any avoidance had stronger beliefs that physical activity would both trigger and worsen a migraine attack, compared with participants who reported no avoidance,” he said.

That finding matches the clinical experience of Jennifer Robblee, MD, MSc, assistant professor of neurology at Barrow Neurological Institute in Phoenix, who viewed the presentation but was not involved with it.

“They often feel that it is a trigger for worsening an attack or, for some people, can actually trigger an attack, and that they feel worse in the midst of an attack when they’re exercising,” Dr. Robblee said in an interview regarding her patients who exercise less frequently. “Since so many of the patients I see have a daily and constant headache, it’s about how they can get themselves to start to exercise when something makes them feel worse, even if it makes them feel better in the long run.”

Yet, experimental research suggests that physical activity is not necessarily a reliable trigger of migraine attacks and only worsens migraine in a minority of attacks, Dr. Bond said, revealing an interesting paradox: “While engaging in regular physical activity is an important migraine management strategy, most individuals in the study reported doing the exact opposite – that is, avoiding physical activity as a management strategy – and this strategy was associated with higher frequency and duration of attacks. Research from our group and others also suggested individuals with migraine could be overestimating the role that physical activity hasn’t triggering or worsening of attacks.”
 

Encouraging patients to exercise

Since the benefits of physical activity and limiting sedentary time outweigh the potential harms, “some physical activity is better than none,” Dr. Bond said. To help patients begin increasing their physical activity, he recommended advising them to start with small amounts and then gradually increase frequency, intensity, and duration over time.

Dr. Robblee follows a similar approach, taking into account each patient’s particular circumstances and any medications they’re taking, including the side effects of those medications.

“It’s about starting where they are,” Dr. Robblee said. “Some patients, despite having severe migraine, have built themselves up so they’re doing exercise three or four times per week, or every day, and I have other people who never exercise,” she said. “For those patients who are very sedentary, if I can get them to start with 5 minutes per week so they have that sense of accomplishment, then that’s where I start. Then slowly build it up over time. Like most things in the migraine world, I individualize it for the person.”

Dr. Bond offered the following specific tips to clinicians in educating and encouraging patients to increase physical activity:

• Educate patients regarding the short-and long-term benefits of moving more and sitting less, both for their migraines and for overall health.
• Correct misconceptions about the negative effects of physical activity as it relates to migraines.
• Personalize the rationale for physical activity to that patient’s specific values and personal goals.
• Encourage patients to use an activity tracker, both for tracking physical activity and sedentary time, and to monitor migraine attacks, stress, energy levels, and fatigue on days they do and do not exercise.
• Help patients set goals for eventually meeting MVPA recommendations and interrupting prolonged periods of sitting with brief movement breaks.
• Help patients identify rewards for meeting goals that are tied to the activity, such as new exercise clothing.
• Encourage patients to identify a consistent time for physical activity each day to establish a habit, “ideally in the morning before barriers and life get in the way,” he said.

Eventually, physical activity itself should become intrinsically rewarding, Dr. Bond said.

“To limit sitting and encourage more movement throughout the day, we want to make the choice to engage in physical activity easier by adding environmental cues that encourage physical activity,” he said. “Conversely, we want to make the choice to engage in sedentary behavior more difficult by increasing the amount of effort that is required to engage in these behaviors.”

Dr. Robblee found Dr. Bond’s emphasis on sitting less – distinct from moving more – a helpful frame to consider with her patients. “I really like the approach of looking at it from that approach: in addition to how do we get you up and moving, how much time are you sitting, and how often can you break that up into smaller increments so that you’re up more often?” Dr. Robblee said. “That sometimes sounds less scary than ‘let’s get you exercising.’ So ‘let’s get you sitting a little bit less.’ I think that is something I might start to adopt.”

No external funding was noted. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem. Dr. Bond reported no disclosures.
 

People with migraine tend to have lower levels of physical activity than those without migraine despite the beneficial effects of physical activity on reducing frequency of migraine, according to a presentation at the American Headache Society’s 2021 annual meeting.

Though reliable research is sparse overall on how much physical activity people with migraine get, enough exists to reveal the need for clinicians to help patients identify ways to increase their levels of physical activity and make it a habit, said Dale S. Bond, PhD, a professor of psychiatry and human behavior at the Miriam Hospital and Brown University, both in Providence, R.I.

He emphasized the need not only to replace sedentary time with physical activity but also to reduce sedentary time overall.

“It’s important to note that because active and sedentary represent different behavioral domains, people can still be active – that is, achieving recommended levels of moderate to vigorous physical activity [MVPA] – but still be highly sedentary because they sit for long hours throughout the day,” Dr. Bond said. “This is important because MVPA will not necessarily eliminate the health risks of long hours of sitting.”

Dr. Bond reviewed the existing literature on physical activity and sedentary behavior among patients with migraine. His presentation, “Move More, Sit Less,” aimed at finding ways to incorporate more physical activity into the daily lives of those with migraine. Dr. Bond began by briefly reviewing the well-established benefits of physical activity, including healthy sleep; cardiovascular, respiratory, musculoskeletal, mental, and cognitive health; and metabolic functioning.

“Physical activity and exercise in particular enhances the functioning of bodily systems, including those that have direct relevance to migraine in its comorbidities,” Dr. Bond said. “The positive systemic effects of exercise on bodily systems carries potential to reduce migraine severity and related disability and morbidity.”

He also explained the ways in which excessive sedentary time can exacerbate migraine triggers. “Long periods of interrupted sitting elevated levels of glucose and fat in the bloodstream, which in turn triggers the immune system to attack the body via inflammation,” Dr. Bond said. “Low grade chronic inflammation has long been hypothesized to play a role in migraine pathogenesis.”
 

Recommended levels of exercise

The World Health Organization and the U.S. Department of Health & Human Services recommends at least 150-300 minutes of moderate-intensity aerobic physical activity or 75-150 minutes of vigorous activity each week. An additional recommendation is at least 2 days per week of muscle strengthening activities that involve all major muscle groups.

While neither of those organizations has specific guidelines on how much reduction of sedentary time is recommended, the Canadian Society for Exercise Physiology recommends limiting sedentary time to 8 or fewer hours per day.
 

Exercise and migraine

“Unfortunately, at present, we have very few studies from which to draw conclusions about the extent to which individuals with migraine adhere to physical activity and sedentary guidelines,” Dr. Bond said. Existing studies vary widely in sample types, study design, physical activity measure and MVPA outcome, including the type or definition of MVPA. “This wide variability in measures and outcomes makes it challenging to draw any conclusions about adherence to guidelines among individuals with migraine,” he said.

Existing evidence suggests anywhere from 32% to 66% of migraine patients are at least moderately active, though it’s not clear what constitutes “moderately active” behavior. It appears that activity levels of patients with migraine are low overall, but it’s less clear the extent to which these levels are lower than in controls given the paucity of evidence.

In one of the few studies using objective measures to assess physical activity in migraine patients, the daily level of MVPA was significantly lower in 25 women with migraine than in 25 age- and body mass index–matched women without migraine (P <. 003). Both groups had obesity. The same study found that virtually no women with migraine adhered to the guidelines recommending less than 8 hours a day of sedentary time, compared with 30% of women without migraine.

“Also, low physical activity and high sedentary levels appear to be consistent across headache and nonheadache days,” Dr. Bond said. “This finding in particular raises an interesting question: If migraine severity is not related to physical activity and sedentary time, what is it about migraine that contributes to an inactive and sedentary lifestyle?”

Dr. Bond noted that future research needs to include reports of frequency, duration, and intensity of activities performed as well as the percentage of participants who meet guidelines for physical activity and sedentary time. Ideally, these studies should include not only self-report but also objective measures of activity as well as assess sleep and identify barriers and facilitators to physical activity in patients.
 

Exercise avoidance

Dr. Bond described findings from survey of 100 women he conducted to better understand potential barriers and reported that 78% of patients report intentionally avoiding physical activity. These patients typically avoided it an average of 4 days per week, regardless of intensity, and additional survey findings found “that participants who reported any avoidance had stronger beliefs that physical activity would both trigger and worsen a migraine attack, compared with participants who reported no avoidance,” he said.

That finding matches the clinical experience of Jennifer Robblee, MD, MSc, assistant professor of neurology at Barrow Neurological Institute in Phoenix, who viewed the presentation but was not involved with it.

“They often feel that it is a trigger for worsening an attack or, for some people, can actually trigger an attack, and that they feel worse in the midst of an attack when they’re exercising,” Dr. Robblee said in an interview regarding her patients who exercise less frequently. “Since so many of the patients I see have a daily and constant headache, it’s about how they can get themselves to start to exercise when something makes them feel worse, even if it makes them feel better in the long run.”

Yet, experimental research suggests that physical activity is not necessarily a reliable trigger of migraine attacks and only worsens migraine in a minority of attacks, Dr. Bond said, revealing an interesting paradox: “While engaging in regular physical activity is an important migraine management strategy, most individuals in the study reported doing the exact opposite – that is, avoiding physical activity as a management strategy – and this strategy was associated with higher frequency and duration of attacks. Research from our group and others also suggested individuals with migraine could be overestimating the role that physical activity hasn’t triggering or worsening of attacks.”
 

Encouraging patients to exercise

Since the benefits of physical activity and limiting sedentary time outweigh the potential harms, “some physical activity is better than none,” Dr. Bond said. To help patients begin increasing their physical activity, he recommended advising them to start with small amounts and then gradually increase frequency, intensity, and duration over time.

Dr. Robblee follows a similar approach, taking into account each patient’s particular circumstances and any medications they’re taking, including the side effects of those medications.

“It’s about starting where they are,” Dr. Robblee said. “Some patients, despite having severe migraine, have built themselves up so they’re doing exercise three or four times per week, or every day, and I have other people who never exercise,” she said. “For those patients who are very sedentary, if I can get them to start with 5 minutes per week so they have that sense of accomplishment, then that’s where I start. Then slowly build it up over time. Like most things in the migraine world, I individualize it for the person.”

Dr. Bond offered the following specific tips to clinicians in educating and encouraging patients to increase physical activity:

• Educate patients regarding the short-and long-term benefits of moving more and sitting less, both for their migraines and for overall health.
• Correct misconceptions about the negative effects of physical activity as it relates to migraines.
• Personalize the rationale for physical activity to that patient’s specific values and personal goals.
• Encourage patients to use an activity tracker, both for tracking physical activity and sedentary time, and to monitor migraine attacks, stress, energy levels, and fatigue on days they do and do not exercise.
• Help patients set goals for eventually meeting MVPA recommendations and interrupting prolonged periods of sitting with brief movement breaks.
• Help patients identify rewards for meeting goals that are tied to the activity, such as new exercise clothing.
• Encourage patients to identify a consistent time for physical activity each day to establish a habit, “ideally in the morning before barriers and life get in the way,” he said.

Eventually, physical activity itself should become intrinsically rewarding, Dr. Bond said.

“To limit sitting and encourage more movement throughout the day, we want to make the choice to engage in physical activity easier by adding environmental cues that encourage physical activity,” he said. “Conversely, we want to make the choice to engage in sedentary behavior more difficult by increasing the amount of effort that is required to engage in these behaviors.”

Dr. Robblee found Dr. Bond’s emphasis on sitting less – distinct from moving more – a helpful frame to consider with her patients. “I really like the approach of looking at it from that approach: in addition to how do we get you up and moving, how much time are you sitting, and how often can you break that up into smaller increments so that you’re up more often?” Dr. Robblee said. “That sometimes sounds less scary than ‘let’s get you exercising.’ So ‘let’s get you sitting a little bit less.’ I think that is something I might start to adopt.”

No external funding was noted. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem. Dr. Bond reported no disclosures.
 

Ubrogepant showed effectiveness for acute treatment of migraine when used with an anti–calcitonin gene-related peptide (CGRP) monoclonal antibody (mAb) preventive or with onabotulinumtoxinA (onabotA), or both, according to preliminary findings presented at the American Headache Society’s 2021 annual meeting.

“Because prevention [with mAbs] is rarely 100% effective, virtually everyone on preventive treatment needs to also take acute treatment,” presenter Richard B. Lipton, MD, a professor of neurology and director of the Montefiore Headache Center at Albert Einstein College of Medicine, New York, said in an interview after his presentation. He explained that ubrogepant, a small-molecule CGRP receptor blocker, is approved for acute treatment of migraine, while mAbs, which block the CGRP receptor or CGRP itself, are approved for prevention. “Many people predicted that gepants would not work in people on CGRP-targeted mAbs because of overlapping mechanisms.”

Dr. Lipton himself was not surprised by the findings, however. “For me, the surprise was that ubrogepant worked so well,” he said.  
 

Novel data collection

Uniquely, his study used an entirely remote design with mobile applications to safely evaluate the drug’s real-world effectiveness in the midst of the COVID-19 pandemic. The prospective, observational study used the mobile app Migraine Buddy to collect data and assess outcomes from the use of 50 mg or 100 mg of ubrogepant along with a mAb, onabotA, or both.

In most migraine trials, researchers ask patients to track their symptoms in electronic diaries they learn how to use in the clinic.

“One disadvantage of this approach is that people usually need to carry two devices, the study device and their smartphone,” Dr. Lipton said in an interview. “In this study, people download an app at home to their smartphone and only need to carry one device. Though remote studies are particularly valuable in the time of pandemic, I believe that apps like Migraine Buddy are and will remain a valuable tool for addressing many research questions.”

Jennifer Robblee, MD, MSc, an assistant professor of neurology at Barrow Neurological Institute in Phoenix, viewed the presentation and was also impressed with the novel use of a smartphone app to conduct the study. “I think that was a unique and cool demonstration of what can be done with the apps out there now,” Dr. Robblee said in an interview. “If you want to have really good tracking and more through tracking, apps like this are fabulous and are very patient forward and patient friendly.”
 

Combination therapy

The researchers invited 4,541 adults to participate in the study if they had previously reported at least three migraine attacks in the past 30 days and if they had treated at least three prior attacks with ubrogepant. The 483 participants who enrolled after consent and screening included 272 taking ubrogepant with mAb, 132 participants taking ubrogepant with onabotA, and 79 taking ubrogepant with both onabotA and mAb.

For 30 days, participants reported in the app’s diary their pain relief and the time elapsed since taking ubrogepant until they returned to normal functioning. Endpoints included meaningful pain relief – defined as “a level of pain relief that is meaningful to you” – and return to normal function at 2 and 4 hours.

During the study, 352 participants reported treating a migraine attack with a single dose of ubrogepant, and 78 participants treated migraine with two doses. The former group included 193 patients in the ubrogepant plus mAb group, 102 patients in the ubrogepant plus onabotA group, and 57 patients in the ubrogepant plus both group. Because of the limited enrollment in the second two arms, the data Dr. Lipton presented data only on the ubrogepant with mAb arm.

Most of this group (89.1%) was female, with an average age of 40 years and an average Migraine Disability Assessment score of 72.2. Most of the patients were taking erenumab (44.6%) or galcanezumab (34.2%) with the remaining patients taking fremanezumab (17.6%), eptinezumab (3.1%) or multiple mAbs (0.5%). Most participants (59.6%) were prescribed 100-mg ubrogepant dose while the remaining participants took 50 mg.

The analysis of the ubrogepant plus mAb group revealed that 64.2% of patients reported meaningful pain relief at 2 hours, and 84.5% had meaningful pain relief 4 hours after taking ubrogepant. The odds of achieving meaningful pain relief were statistically significant at both time points and remained significant after adjustment for participants’ age, Migraine Disability Assessment score and self-reported prescribed ubrogepant dose (P < .001).

“This study shows that in patients with migraine on CGRP-targeted monoclonal antibodies, ubrogepant is an acute treatment to consider for breakthrough headaches,” Dr. Lipton said. He added that they have now completed the study with more participants and begun analyzing all three groups.

“Full analyses will include data from multiple attacks, attacks treated with a second dose of ubrogepant, additional daily and 30-day effectiveness measures for use of ubrogepant with onabotA and use of ubrogepant with both onabotA and CGRP mAbs,” Dr. Lipton said.

While the findings did not surprise Dr. Robblee, she was happy to see a study that explicitly testing the combination of these treatments, especially given access challenges. “Right now, because treatments are new, we get a lot of insurance denials,” Dr. Robblee said in an interview. “It’s great to have a study out there that we can turn to and say, ‘hey, look, they had all these patients safely using these together.’ It’s going to help us improve access for patients.”

Though Dr. Robblee typically uses old-school pen-and-calendar diaries with her patients, she also sees potential for the use of apps going forward, just as she sees for virtual health care.

“I’ve found telemedicine in general to be a really great addition to the migraine world, and this plays into our ability to use telemedicine paired with tracking,” Dr. Robblee said. “In so many studies, we’re doing a diary anyway, so if there are standard diaries and programs we’re all using, that would be a nice way to do these.”

She notes that most symptom tracking for pain is subjective already, and these apps often include the options to print out the data or to export or transfer it electronically to physicians. “It’s giving us meaningful data,” she said.

The research was funded by AbbVie. Dr. Lipton has received honoraria or research support from AbbVie, Amgen, Biohaven, Dr. Reddy’s Laboratories, electroCore, Eli Lilly, eNeura Therapeutics, GlaxoSmithKline, Merck, Novartis, Teva, Vector and Vedanta Research. He holds stock options in Biohaven and Ctrl M. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem.

Ubrogepant showed effectiveness for acute treatment of migraine when used with an anti–calcitonin gene-related peptide (CGRP) monoclonal antibody (mAb) preventive or with onabotulinumtoxinA (onabotA), or both, according to preliminary findings presented at the American Headache Society’s 2021 annual meeting.

“Because prevention [with mAbs] is rarely 100% effective, virtually everyone on preventive treatment needs to also take acute treatment,” presenter Richard B. Lipton, MD, a professor of neurology and director of the Montefiore Headache Center at Albert Einstein College of Medicine, New York, said in an interview after his presentation. He explained that ubrogepant, a small-molecule CGRP receptor blocker, is approved for acute treatment of migraine, while mAbs, which block the CGRP receptor or CGRP itself, are approved for prevention. “Many people predicted that gepants would not work in people on CGRP-targeted mAbs because of overlapping mechanisms.”

Dr. Lipton himself was not surprised by the findings, however. “For me, the surprise was that ubrogepant worked so well,” he said.  
 

Novel data collection

Uniquely, his study used an entirely remote design with mobile applications to safely evaluate the drug’s real-world effectiveness in the midst of the COVID-19 pandemic. The prospective, observational study used the mobile app Migraine Buddy to collect data and assess outcomes from the use of 50 mg or 100 mg of ubrogepant along with a mAb, onabotA, or both.

In most migraine trials, researchers ask patients to track their symptoms in electronic diaries they learn how to use in the clinic.

“One disadvantage of this approach is that people usually need to carry two devices, the study device and their smartphone,” Dr. Lipton said in an interview. “In this study, people download an app at home to their smartphone and only need to carry one device. Though remote studies are particularly valuable in the time of pandemic, I believe that apps like Migraine Buddy are and will remain a valuable tool for addressing many research questions.”

Jennifer Robblee, MD, MSc, an assistant professor of neurology at Barrow Neurological Institute in Phoenix, viewed the presentation and was also impressed with the novel use of a smartphone app to conduct the study. “I think that was a unique and cool demonstration of what can be done with the apps out there now,” Dr. Robblee said in an interview. “If you want to have really good tracking and more through tracking, apps like this are fabulous and are very patient forward and patient friendly.”
 

Combination therapy

The researchers invited 4,541 adults to participate in the study if they had previously reported at least three migraine attacks in the past 30 days and if they had treated at least three prior attacks with ubrogepant. The 483 participants who enrolled after consent and screening included 272 taking ubrogepant with mAb, 132 participants taking ubrogepant with onabotA, and 79 taking ubrogepant with both onabotA and mAb.

For 30 days, participants reported in the app’s diary their pain relief and the time elapsed since taking ubrogepant until they returned to normal functioning. Endpoints included meaningful pain relief – defined as “a level of pain relief that is meaningful to you” – and return to normal function at 2 and 4 hours.

During the study, 352 participants reported treating a migraine attack with a single dose of ubrogepant, and 78 participants treated migraine with two doses. The former group included 193 patients in the ubrogepant plus mAb group, 102 patients in the ubrogepant plus onabotA group, and 57 patients in the ubrogepant plus both group. Because of the limited enrollment in the second two arms, the data Dr. Lipton presented data only on the ubrogepant with mAb arm.

Most of this group (89.1%) was female, with an average age of 40 years and an average Migraine Disability Assessment score of 72.2. Most of the patients were taking erenumab (44.6%) or galcanezumab (34.2%) with the remaining patients taking fremanezumab (17.6%), eptinezumab (3.1%) or multiple mAbs (0.5%). Most participants (59.6%) were prescribed 100-mg ubrogepant dose while the remaining participants took 50 mg.

The analysis of the ubrogepant plus mAb group revealed that 64.2% of patients reported meaningful pain relief at 2 hours, and 84.5% had meaningful pain relief 4 hours after taking ubrogepant. The odds of achieving meaningful pain relief were statistically significant at both time points and remained significant after adjustment for participants’ age, Migraine Disability Assessment score and self-reported prescribed ubrogepant dose (P < .001).

“This study shows that in patients with migraine on CGRP-targeted monoclonal antibodies, ubrogepant is an acute treatment to consider for breakthrough headaches,” Dr. Lipton said. He added that they have now completed the study with more participants and begun analyzing all three groups.

“Full analyses will include data from multiple attacks, attacks treated with a second dose of ubrogepant, additional daily and 30-day effectiveness measures for use of ubrogepant with onabotA and use of ubrogepant with both onabotA and CGRP mAbs,” Dr. Lipton said.

While the findings did not surprise Dr. Robblee, she was happy to see a study that explicitly testing the combination of these treatments, especially given access challenges. “Right now, because treatments are new, we get a lot of insurance denials,” Dr. Robblee said in an interview. “It’s great to have a study out there that we can turn to and say, ‘hey, look, they had all these patients safely using these together.’ It’s going to help us improve access for patients.”

Though Dr. Robblee typically uses old-school pen-and-calendar diaries with her patients, she also sees potential for the use of apps going forward, just as she sees for virtual health care.

“I’ve found telemedicine in general to be a really great addition to the migraine world, and this plays into our ability to use telemedicine paired with tracking,” Dr. Robblee said. “In so many studies, we’re doing a diary anyway, so if there are standard diaries and programs we’re all using, that would be a nice way to do these.”

She notes that most symptom tracking for pain is subjective already, and these apps often include the options to print out the data or to export or transfer it electronically to physicians. “It’s giving us meaningful data,” she said.

The research was funded by AbbVie. Dr. Lipton has received honoraria or research support from AbbVie, Amgen, Biohaven, Dr. Reddy’s Laboratories, electroCore, Eli Lilly, eNeura Therapeutics, GlaxoSmithKline, Merck, Novartis, Teva, Vector and Vedanta Research. He holds stock options in Biohaven and Ctrl M. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem.

Ubrogepant showed effectiveness for acute treatment of migraine when used with an anti–calcitonin gene-related peptide (CGRP) monoclonal antibody (mAb) preventive or with onabotulinumtoxinA (onabotA), or both, according to preliminary findings presented at the American Headache Society’s 2021 annual meeting.

“Because prevention [with mAbs] is rarely 100% effective, virtually everyone on preventive treatment needs to also take acute treatment,” presenter Richard B. Lipton, MD, a professor of neurology and director of the Montefiore Headache Center at Albert Einstein College of Medicine, New York, said in an interview after his presentation. He explained that ubrogepant, a small-molecule CGRP receptor blocker, is approved for acute treatment of migraine, while mAbs, which block the CGRP receptor or CGRP itself, are approved for prevention. “Many people predicted that gepants would not work in people on CGRP-targeted mAbs because of overlapping mechanisms.”

Dr. Lipton himself was not surprised by the findings, however. “For me, the surprise was that ubrogepant worked so well,” he said.  
 

Novel data collection

Uniquely, his study used an entirely remote design with mobile applications to safely evaluate the drug’s real-world effectiveness in the midst of the COVID-19 pandemic. The prospective, observational study used the mobile app Migraine Buddy to collect data and assess outcomes from the use of 50 mg or 100 mg of ubrogepant along with a mAb, onabotA, or both.

In most migraine trials, researchers ask patients to track their symptoms in electronic diaries they learn how to use in the clinic.

“One disadvantage of this approach is that people usually need to carry two devices, the study device and their smartphone,” Dr. Lipton said in an interview. “In this study, people download an app at home to their smartphone and only need to carry one device. Though remote studies are particularly valuable in the time of pandemic, I believe that apps like Migraine Buddy are and will remain a valuable tool for addressing many research questions.”

Jennifer Robblee, MD, MSc, an assistant professor of neurology at Barrow Neurological Institute in Phoenix, viewed the presentation and was also impressed with the novel use of a smartphone app to conduct the study. “I think that was a unique and cool demonstration of what can be done with the apps out there now,” Dr. Robblee said in an interview. “If you want to have really good tracking and more through tracking, apps like this are fabulous and are very patient forward and patient friendly.”
 

Combination therapy

The researchers invited 4,541 adults to participate in the study if they had previously reported at least three migraine attacks in the past 30 days and if they had treated at least three prior attacks with ubrogepant. The 483 participants who enrolled after consent and screening included 272 taking ubrogepant with mAb, 132 participants taking ubrogepant with onabotA, and 79 taking ubrogepant with both onabotA and mAb.

For 30 days, participants reported in the app’s diary their pain relief and the time elapsed since taking ubrogepant until they returned to normal functioning. Endpoints included meaningful pain relief – defined as “a level of pain relief that is meaningful to you” – and return to normal function at 2 and 4 hours.

During the study, 352 participants reported treating a migraine attack with a single dose of ubrogepant, and 78 participants treated migraine with two doses. The former group included 193 patients in the ubrogepant plus mAb group, 102 patients in the ubrogepant plus onabotA group, and 57 patients in the ubrogepant plus both group. Because of the limited enrollment in the second two arms, the data Dr. Lipton presented data only on the ubrogepant with mAb arm.

Most of this group (89.1%) was female, with an average age of 40 years and an average Migraine Disability Assessment score of 72.2. Most of the patients were taking erenumab (44.6%) or galcanezumab (34.2%) with the remaining patients taking fremanezumab (17.6%), eptinezumab (3.1%) or multiple mAbs (0.5%). Most participants (59.6%) were prescribed 100-mg ubrogepant dose while the remaining participants took 50 mg.

The analysis of the ubrogepant plus mAb group revealed that 64.2% of patients reported meaningful pain relief at 2 hours, and 84.5% had meaningful pain relief 4 hours after taking ubrogepant. The odds of achieving meaningful pain relief were statistically significant at both time points and remained significant after adjustment for participants’ age, Migraine Disability Assessment score and self-reported prescribed ubrogepant dose (P < .001).

“This study shows that in patients with migraine on CGRP-targeted monoclonal antibodies, ubrogepant is an acute treatment to consider for breakthrough headaches,” Dr. Lipton said. He added that they have now completed the study with more participants and begun analyzing all three groups.

“Full analyses will include data from multiple attacks, attacks treated with a second dose of ubrogepant, additional daily and 30-day effectiveness measures for use of ubrogepant with onabotA and use of ubrogepant with both onabotA and CGRP mAbs,” Dr. Lipton said.

While the findings did not surprise Dr. Robblee, she was happy to see a study that explicitly testing the combination of these treatments, especially given access challenges. “Right now, because treatments are new, we get a lot of insurance denials,” Dr. Robblee said in an interview. “It’s great to have a study out there that we can turn to and say, ‘hey, look, they had all these patients safely using these together.’ It’s going to help us improve access for patients.”

Though Dr. Robblee typically uses old-school pen-and-calendar diaries with her patients, she also sees potential for the use of apps going forward, just as she sees for virtual health care.

“I’ve found telemedicine in general to be a really great addition to the migraine world, and this plays into our ability to use telemedicine paired with tracking,” Dr. Robblee said. “In so many studies, we’re doing a diary anyway, so if there are standard diaries and programs we’re all using, that would be a nice way to do these.”

She notes that most symptom tracking for pain is subjective already, and these apps often include the options to print out the data or to export or transfer it electronically to physicians. “It’s giving us meaningful data,” she said.

The research was funded by AbbVie. Dr. Lipton has received honoraria or research support from AbbVie, Amgen, Biohaven, Dr. Reddy’s Laboratories, electroCore, Eli Lilly, eNeura Therapeutics, GlaxoSmithKline, Merck, Novartis, Teva, Vector and Vedanta Research. He holds stock options in Biohaven and Ctrl M. Dr. Robblee is a principal investigator for a study sponsored by Eli Lilly and receives stipends for MedLink Neurology and Neurodiem.