Literature Review

Though primary efficacy results have yet to be published, new safety findings from two large, randomized trials of aducanumab offer details on which patients are more likely to experience complications associated with the controversial Alzheimer’s drug.

Courtesy of Memory and Aging Program at Butler Hospital

Amyloid-related imaging abnormalities, or ARIA, have been seen linked to a variety of experimental amyloid-lowering treatments for Alzheimer’s disease. The abnormalities include brain bleeding (ARIA-H) and brain edema (ARIA-E), detected on magnetic resonance imaging.
 

Safety findings

In a study published Nov. 22 in JAMA Neurology, Stephen Salloway, MD, director of neurology and the memory and aging program at Butler Hospital and the Martin M. Zucker Professor of Psychiatry and Human Behavior and Professor of Neurology at the Warren Alpert Medical School of Brown University in Providence, R.I., and his colleagues, reported that 41% of 1,029 patients in the high-dose (10 mg/kg) treatment groups of aducanumab (Aduhelm, Biogen) developed ARIA.

Thirty-five percent of the high-dose patients (n = 362) developed ARIA-E, and 94 had symptoms, with headache the most commonly reported, followed by confusion. ARIA-E occurred only sporadically in the placebo groups, while ARIA-H was more common. Microbleeds were seen in 19% of the high-dose patients compared with 6.6% in the placebo group, while superficial siderosis occurred in about 15%, versus 2.2% on placebo. Most of the ARIA-E events occurred during the first eight doses of the infusion treatment. People with one or more copies of the APOE4 genetic variant saw higher risk of ARIA-E associated with treatment compared with noncarriers (hazard ratio [HR] 2.5; 95% confidence interval [CI], 1.90-3.20). Evidence of brain micro-hemorrhages at baseline was associated with higher risk of ARIA-E (HR 1.7; 95% CI, 1.31-2.27) compared with patients without MRI evidence of brain bleeds in the year before treatment began.

Older age independently increased risk of ARIA-H, with a risk that was seen increasing 6% with each additional year of age.

The identically designed EMERGE and ENGAGE trials of aducanumab enrolled nearly 3,300 patients worldwide (mean age 70.4, 52% female). Participants were screened to include only those with amyloid-positive mild cognitive impairment (81% of the cohort) or mild Alzheimer’s dementia. Both trials were halted early after a futility analysis concluded that treatment was unlikely to result in benefit.

A post hoc analysis later determined that patients in one trial, EMERGE, showed slight clinical benefit on follow-up in the high-dose group only. The Food and Drug Administration approved the drug in July 2021 on the basis of that finding, overriding the consensus of its independent advisory committee, which was not persuaded. Since then the drug has become synonymous with controversy, not aided by its high list price of more than $50,000 per year, with many insurers and large health care systems refusing to deliver it. The recent reported death of a woman participating in an open-label extension trial of aducanumab, who was admitted to the hospital with brain swelling, has added to safety concerns.
 

Brain bleeds and age affect risk

In an interview with MDedge Neurology, neurologist Madhav Thambisetty, MD, PhD, a senior investigator with the National Institute on Aging in Baltimore, and a member of the FDA advisory committee that recommended against approval for aducanumab, said that while physicians are aware that APOE4 carriers face higher risks of treatment-related complications, the new safety findings offer additional guidance on patient selection.

“The older you are the greater your risk of ARIA, and the more micro-hemorrhages you have at baseline the greater your risk. Those are important findings that were not previously well publicized before,” Dr. Thambisetty said.

In the EMERGE and ENGAGE trials, Dr. Thambisetty pointed out, patients with four or more micro-hemorrhages at baseline were excluded. The new findings reveal that even a small number of bleeds at baseline can contribute to ARIA risk.

“Patients in real-world clinical practice are going to be very different from the tightly controlled, well-screened participants who were enrolled in these trials. Microbleeds are very common in Alzheimer’s patients, occurring in 18-32%. Now that these findings are available, it’s important for a practicing physician to obtain a baseline MRI scan and really pay attention to microbleeds, because that will affect treatment decisions.”
 

Additional concerns

Dr. Thambisetty cautioned that the new results made no mention of another important safety outcome: loss of brain volume associated with treatment.

Changes in brain volume have been seen associated with other amyloid-lowering treatments, though the reasons for this are poorly understood. Participants in EMERGE and ENGAGE “received numerous MRI scans,” Dr. Thambisetty said. “This was one of the strengths of the trials. Thanks to an open-label extension we now have more than 2 years of MRI data from meticulously monitored patients, and there has been no mention of brain volume changes despite this being a prespecified outcome. This, for me, is one of the glaring omissions of this paper, and the fact that it’s not even mentioned is really worrisome.”

The sponsor of the aducanumab trials, Biogen, has yet to publish efficacy findings in a peer-reviewed journal, instead presenting them piecemeal at conferences.

“The current paper was a secondary analysis,” Dr. Thambisetty said. “The authors say the primary analysis will be published elsewhere. I think it’s important to reflect upon the fact that these clinical trials enrolled more than 3,000 participants at more than 300 trial centers in 20 countries. We now have an approved drug that’s commercially available. And yet we don’t have a single peer-reviewed publication discussing the efficacy data. None of this is in the interest of our patients, or in advancing the science.”

The EMERGE and ENGAGE trials were funded by Biogen. Eight of the current paper’s 14 authors are Biogen employees. Dr. Salloway, the lead author, disclosed financial support from Biogen and other manufacturers, as did two of his coauthors. Dr. Thambisetty disclosed no financial conflicts of interest.

Though primary efficacy results have yet to be published, new safety findings from two large, randomized trials of aducanumab offer details on which patients are more likely to experience complications associated with the controversial Alzheimer’s drug.

Courtesy of Memory and Aging Program at Butler Hospital

Amyloid-related imaging abnormalities, or ARIA, have been seen linked to a variety of experimental amyloid-lowering treatments for Alzheimer’s disease. The abnormalities include brain bleeding (ARIA-H) and brain edema (ARIA-E), detected on magnetic resonance imaging.
 

Safety findings

In a study published Nov. 22 in JAMA Neurology, Stephen Salloway, MD, director of neurology and the memory and aging program at Butler Hospital and the Martin M. Zucker Professor of Psychiatry and Human Behavior and Professor of Neurology at the Warren Alpert Medical School of Brown University in Providence, R.I., and his colleagues, reported that 41% of 1,029 patients in the high-dose (10 mg/kg) treatment groups of aducanumab (Aduhelm, Biogen) developed ARIA.

Thirty-five percent of the high-dose patients (n = 362) developed ARIA-E, and 94 had symptoms, with headache the most commonly reported, followed by confusion. ARIA-E occurred only sporadically in the placebo groups, while ARIA-H was more common. Microbleeds were seen in 19% of the high-dose patients compared with 6.6% in the placebo group, while superficial siderosis occurred in about 15%, versus 2.2% on placebo. Most of the ARIA-E events occurred during the first eight doses of the infusion treatment. People with one or more copies of the APOE4 genetic variant saw higher risk of ARIA-E associated with treatment compared with noncarriers (hazard ratio [HR] 2.5; 95% confidence interval [CI], 1.90-3.20). Evidence of brain micro-hemorrhages at baseline was associated with higher risk of ARIA-E (HR 1.7; 95% CI, 1.31-2.27) compared with patients without MRI evidence of brain bleeds in the year before treatment began.

Older age independently increased risk of ARIA-H, with a risk that was seen increasing 6% with each additional year of age.

The identically designed EMERGE and ENGAGE trials of aducanumab enrolled nearly 3,300 patients worldwide (mean age 70.4, 52% female). Participants were screened to include only those with amyloid-positive mild cognitive impairment (81% of the cohort) or mild Alzheimer’s dementia. Both trials were halted early after a futility analysis concluded that treatment was unlikely to result in benefit.

A post hoc analysis later determined that patients in one trial, EMERGE, showed slight clinical benefit on follow-up in the high-dose group only. The Food and Drug Administration approved the drug in July 2021 on the basis of that finding, overriding the consensus of its independent advisory committee, which was not persuaded. Since then the drug has become synonymous with controversy, not aided by its high list price of more than $50,000 per year, with many insurers and large health care systems refusing to deliver it. The recent reported death of a woman participating in an open-label extension trial of aducanumab, who was admitted to the hospital with brain swelling, has added to safety concerns.
 

Brain bleeds and age affect risk

In an interview with MDedge Neurology, neurologist Madhav Thambisetty, MD, PhD, a senior investigator with the National Institute on Aging in Baltimore, and a member of the FDA advisory committee that recommended against approval for aducanumab, said that while physicians are aware that APOE4 carriers face higher risks of treatment-related complications, the new safety findings offer additional guidance on patient selection.

“The older you are the greater your risk of ARIA, and the more micro-hemorrhages you have at baseline the greater your risk. Those are important findings that were not previously well publicized before,” Dr. Thambisetty said.

In the EMERGE and ENGAGE trials, Dr. Thambisetty pointed out, patients with four or more micro-hemorrhages at baseline were excluded. The new findings reveal that even a small number of bleeds at baseline can contribute to ARIA risk.

“Patients in real-world clinical practice are going to be very different from the tightly controlled, well-screened participants who were enrolled in these trials. Microbleeds are very common in Alzheimer’s patients, occurring in 18-32%. Now that these findings are available, it’s important for a practicing physician to obtain a baseline MRI scan and really pay attention to microbleeds, because that will affect treatment decisions.”
 

Additional concerns

Dr. Thambisetty cautioned that the new results made no mention of another important safety outcome: loss of brain volume associated with treatment.

Changes in brain volume have been seen associated with other amyloid-lowering treatments, though the reasons for this are poorly understood. Participants in EMERGE and ENGAGE “received numerous MRI scans,” Dr. Thambisetty said. “This was one of the strengths of the trials. Thanks to an open-label extension we now have more than 2 years of MRI data from meticulously monitored patients, and there has been no mention of brain volume changes despite this being a prespecified outcome. This, for me, is one of the glaring omissions of this paper, and the fact that it’s not even mentioned is really worrisome.”

The sponsor of the aducanumab trials, Biogen, has yet to publish efficacy findings in a peer-reviewed journal, instead presenting them piecemeal at conferences.

“The current paper was a secondary analysis,” Dr. Thambisetty said. “The authors say the primary analysis will be published elsewhere. I think it’s important to reflect upon the fact that these clinical trials enrolled more than 3,000 participants at more than 300 trial centers in 20 countries. We now have an approved drug that’s commercially available. And yet we don’t have a single peer-reviewed publication discussing the efficacy data. None of this is in the interest of our patients, or in advancing the science.”

The EMERGE and ENGAGE trials were funded by Biogen. Eight of the current paper’s 14 authors are Biogen employees. Dr. Salloway, the lead author, disclosed financial support from Biogen and other manufacturers, as did two of his coauthors. Dr. Thambisetty disclosed no financial conflicts of interest.

Though primary efficacy results have yet to be published, new safety findings from two large, randomized trials of aducanumab offer details on which patients are more likely to experience complications associated with the controversial Alzheimer’s drug.

Courtesy of Memory and Aging Program at Butler Hospital

Amyloid-related imaging abnormalities, or ARIA, have been seen linked to a variety of experimental amyloid-lowering treatments for Alzheimer’s disease. The abnormalities include brain bleeding (ARIA-H) and brain edema (ARIA-E), detected on magnetic resonance imaging.
 

Safety findings

In a study published Nov. 22 in JAMA Neurology, Stephen Salloway, MD, director of neurology and the memory and aging program at Butler Hospital and the Martin M. Zucker Professor of Psychiatry and Human Behavior and Professor of Neurology at the Warren Alpert Medical School of Brown University in Providence, R.I., and his colleagues, reported that 41% of 1,029 patients in the high-dose (10 mg/kg) treatment groups of aducanumab (Aduhelm, Biogen) developed ARIA.

Thirty-five percent of the high-dose patients (n = 362) developed ARIA-E, and 94 had symptoms, with headache the most commonly reported, followed by confusion. ARIA-E occurred only sporadically in the placebo groups, while ARIA-H was more common. Microbleeds were seen in 19% of the high-dose patients compared with 6.6% in the placebo group, while superficial siderosis occurred in about 15%, versus 2.2% on placebo. Most of the ARIA-E events occurred during the first eight doses of the infusion treatment. People with one or more copies of the APOE4 genetic variant saw higher risk of ARIA-E associated with treatment compared with noncarriers (hazard ratio [HR] 2.5; 95% confidence interval [CI], 1.90-3.20). Evidence of brain micro-hemorrhages at baseline was associated with higher risk of ARIA-E (HR 1.7; 95% CI, 1.31-2.27) compared with patients without MRI evidence of brain bleeds in the year before treatment began.

Older age independently increased risk of ARIA-H, with a risk that was seen increasing 6% with each additional year of age.

The identically designed EMERGE and ENGAGE trials of aducanumab enrolled nearly 3,300 patients worldwide (mean age 70.4, 52% female). Participants were screened to include only those with amyloid-positive mild cognitive impairment (81% of the cohort) or mild Alzheimer’s dementia. Both trials were halted early after a futility analysis concluded that treatment was unlikely to result in benefit.

A post hoc analysis later determined that patients in one trial, EMERGE, showed slight clinical benefit on follow-up in the high-dose group only. The Food and Drug Administration approved the drug in July 2021 on the basis of that finding, overriding the consensus of its independent advisory committee, which was not persuaded. Since then the drug has become synonymous with controversy, not aided by its high list price of more than $50,000 per year, with many insurers and large health care systems refusing to deliver it. The recent reported death of a woman participating in an open-label extension trial of aducanumab, who was admitted to the hospital with brain swelling, has added to safety concerns.
 

Brain bleeds and age affect risk

In an interview with MDedge Neurology, neurologist Madhav Thambisetty, MD, PhD, a senior investigator with the National Institute on Aging in Baltimore, and a member of the FDA advisory committee that recommended against approval for aducanumab, said that while physicians are aware that APOE4 carriers face higher risks of treatment-related complications, the new safety findings offer additional guidance on patient selection.

“The older you are the greater your risk of ARIA, and the more micro-hemorrhages you have at baseline the greater your risk. Those are important findings that were not previously well publicized before,” Dr. Thambisetty said.

In the EMERGE and ENGAGE trials, Dr. Thambisetty pointed out, patients with four or more micro-hemorrhages at baseline were excluded. The new findings reveal that even a small number of bleeds at baseline can contribute to ARIA risk.

“Patients in real-world clinical practice are going to be very different from the tightly controlled, well-screened participants who were enrolled in these trials. Microbleeds are very common in Alzheimer’s patients, occurring in 18-32%. Now that these findings are available, it’s important for a practicing physician to obtain a baseline MRI scan and really pay attention to microbleeds, because that will affect treatment decisions.”
 

Additional concerns

Dr. Thambisetty cautioned that the new results made no mention of another important safety outcome: loss of brain volume associated with treatment.

Changes in brain volume have been seen associated with other amyloid-lowering treatments, though the reasons for this are poorly understood. Participants in EMERGE and ENGAGE “received numerous MRI scans,” Dr. Thambisetty said. “This was one of the strengths of the trials. Thanks to an open-label extension we now have more than 2 years of MRI data from meticulously monitored patients, and there has been no mention of brain volume changes despite this being a prespecified outcome. This, for me, is one of the glaring omissions of this paper, and the fact that it’s not even mentioned is really worrisome.”

The sponsor of the aducanumab trials, Biogen, has yet to publish efficacy findings in a peer-reviewed journal, instead presenting them piecemeal at conferences.

“The current paper was a secondary analysis,” Dr. Thambisetty said. “The authors say the primary analysis will be published elsewhere. I think it’s important to reflect upon the fact that these clinical trials enrolled more than 3,000 participants at more than 300 trial centers in 20 countries. We now have an approved drug that’s commercially available. And yet we don’t have a single peer-reviewed publication discussing the efficacy data. None of this is in the interest of our patients, or in advancing the science.”

The EMERGE and ENGAGE trials were funded by Biogen. Eight of the current paper’s 14 authors are Biogen employees. Dr. Salloway, the lead author, disclosed financial support from Biogen and other manufacturers, as did two of his coauthors. Dr. Thambisetty disclosed no financial conflicts of interest.

Hypertension is associated with more than a twofold increased risk of developing late-onset epilepsy even in patients who have not had a previous stroke, new research suggests.

After excluding individuals with normal blood pressure who were taking antihypertensive medication, investigators found hypertension was linked to an almost 2.5-fold higher risk of epilepsy.

“Our findings further expand upon our knowledge of the negative effects hypertension has on brain health and, regarding epilepsy, that effect may be starting even in midlife,” said co–lead author Maria Stefanidou, MD, MSc, of Boston University.

“Practicing clinicians should be vigilant to diagnose hypertension, discuss with patients all potential long-term brain health outcomes, and need for treatment. Furthermore, in those presenting with new-onset epilepsy later in life, screening for potentially undiagnosed hypertension should be included in the initial workup,” she said.

The study was published online Nov. 17, 2021, in Epilepsia.
 

Unknown etiology

“New-onset epilepsy risk increases with increasing age over the age of 65 and can affect 15-20 per 1,000 older individuals. Although the most common causes for seizures in this age group are prior history of stroke and presence of dementia, for about 30%-40% of patients, the etiology of seizures remains unknown,” Dr. Stefanidou said.

“We wanted to study if modifiable vascular risk factors that are known to contribute both to vascular brain aging and to neurodegeneration may directly predict the development of epilepsy, even in the absence of clinical stroke or dementia,” she added.

To investigate, the researchers turned to data from participants in the Offspring Cohort of the Framingham Health Study (FHS). The original FHS was an ongoing longitudinal community-based study that first began in 1948. Offspring of the original cohort and their spouses (n = 5,124) were enrolled in the Offspring Cohort in 1971, with surveillance of these second-generation participants based on exam visits occurring every 4 years.

The study included participants who had attended exam 5 (1991-1995), were age 45 years or older, had available vascular risk factor (VRF) data, and available follow-up data on epilepsy status (n = 2,986; mean age, 58 years; 48% male).

The investigators conducted two statistical analyses. In the primary model, they adjusted for age and gender, while in a secondary model they also adjusted for prevalent and interim stroke. They also conducted an analysis that excluded participants treated with antihypertensive medication and had normal blood pressure.
 

Plausible mechanisms

During a mean follow-up of 19.2 years, 55 incident epilepsy cases were identified. The mean age of these patients was 73.8 years.

In the primary model, hypertension was associated with an almost twofold higher risk of developing epilepsy (hazard ratio, 1.97; 95% confidence interval, 1.13-3.45; P = .017).

Interestingly, the Framingham Stroke Risk Profile – a calculation based on an array of factors, including age/sex, systolic blood pressure, antihypertensive therapy, diabetes, history of cardiovascular disease, atrial fibrillation, and cigarette smoking – was not associated with incident epilepsy, and there was no other significant associated between any of the other VRFs when looked at independently.

When the researchers adjusted for prevalent and interim stroke, they continued to find an almost twofold higher risk of developing epilepsy (HR 1.93; 95% CI, 1.10-3.37; P = .022). An analysis that adjusted for competing risk of death obtained similar findings (HR, 1.98; 95% CI, 1.03-3.81; P = .042).

The model that excluded patients receiving antihypertensive treatment, whose blood pressure readings were normal (n = 2,162; 50 incident epilepsy cases) showed an even stronger association (HR, 2.44; 95% CI, 1.36-4.35; P = .003).

“Our results are based on an epidemiological, observational study, therefore our findings point to an association between hypertension and new-onset epilepsy later in life,” said Dr. Stefanidou.

She noted that because it was an observational study, “a cause-effect relationship cannot be established based on these results, but there is growing evidence from our, as well as other, similar cohorts that hypertension, a modifiable vascular risk factor, may indeed be an independent predictor of late-onset epilepsy.”

There are “plausible mechanisms” that support both a direct, and indirect, role of hypertension – for example, through accumulation of small vessel disease in the brain – but further research will be necessary to elucidate the exact mechanisms involved in the process,” she added.
 

‘Welcome addition’

In a joint comment, Hedley C.A. Emsley, PhD, professor of clinical neuroscience, Lancaster (England) University, and Jasmine Wall, MBBChir, academic clinical fellow in neurology, Lancaster University, described the study as a “welcome addition to this field,” noting that the Framingham Heart Study “lends itself well to an embedded observational study of this nature of late-onset epilepsy.”

Dr. Emsley and Dr. Wall, who were not involved in the research, said that the “apparent magnitude of increased late-onset epilepsy risk association with hypertension in the Stefanidou et al study is quite striking,” even allowing for the “relatively small sample size,” since their analysis and findings appear to “withstand exclusion of individuals who became normotensive on antihypertensive treatment.”

They noted that in recent years there has been a growing body of evidence highlighting the importance of hypertension in late-onset epilepsy epileptogenesis with subclinical cerebrovascular diseases, including “otherwise occult cerebral small vessel disease believed to be a frequent cause.”

The mechanisms “remain unclear,” but they could potentially include diffuse cerebral microangiopathy, structural and physiological changes, and/or blood-brain barrier dysfunction and leakage, they suggested.

“Although there is no current consensus over an age threshold that defines ‘late onset,’ we would argue that age thresholds used in such studies of late-onset epilepsy should be lower, to avoid missing younger adults at risk through vascular mechanisms,” Dr. Emsley and Dr. Wall added.

The study authors suggest that “potential pathophysiologic mechanisms can further be explored in future experimental studies and clinical trials.”

This study was funded by grants from the National Institutes of Health and Finding a Cure for Epilepsy/Seizures. Dr. Stefanidou disclosed relevant financial relationships. Dr. Emsley and Dr. Wall disclosed no relevant financial relationships.

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

Hypertension is associated with more than a twofold increased risk of developing late-onset epilepsy even in patients who have not had a previous stroke, new research suggests.

After excluding individuals with normal blood pressure who were taking antihypertensive medication, investigators found hypertension was linked to an almost 2.5-fold higher risk of epilepsy.

“Our findings further expand upon our knowledge of the negative effects hypertension has on brain health and, regarding epilepsy, that effect may be starting even in midlife,” said co–lead author Maria Stefanidou, MD, MSc, of Boston University.

“Practicing clinicians should be vigilant to diagnose hypertension, discuss with patients all potential long-term brain health outcomes, and need for treatment. Furthermore, in those presenting with new-onset epilepsy later in life, screening for potentially undiagnosed hypertension should be included in the initial workup,” she said.

The study was published online Nov. 17, 2021, in Epilepsia.
 

Unknown etiology

“New-onset epilepsy risk increases with increasing age over the age of 65 and can affect 15-20 per 1,000 older individuals. Although the most common causes for seizures in this age group are prior history of stroke and presence of dementia, for about 30%-40% of patients, the etiology of seizures remains unknown,” Dr. Stefanidou said.

“We wanted to study if modifiable vascular risk factors that are known to contribute both to vascular brain aging and to neurodegeneration may directly predict the development of epilepsy, even in the absence of clinical stroke or dementia,” she added.

To investigate, the researchers turned to data from participants in the Offspring Cohort of the Framingham Health Study (FHS). The original FHS was an ongoing longitudinal community-based study that first began in 1948. Offspring of the original cohort and their spouses (n = 5,124) were enrolled in the Offspring Cohort in 1971, with surveillance of these second-generation participants based on exam visits occurring every 4 years.

The study included participants who had attended exam 5 (1991-1995), were age 45 years or older, had available vascular risk factor (VRF) data, and available follow-up data on epilepsy status (n = 2,986; mean age, 58 years; 48% male).

The investigators conducted two statistical analyses. In the primary model, they adjusted for age and gender, while in a secondary model they also adjusted for prevalent and interim stroke. They also conducted an analysis that excluded participants treated with antihypertensive medication and had normal blood pressure.
 

Plausible mechanisms

During a mean follow-up of 19.2 years, 55 incident epilepsy cases were identified. The mean age of these patients was 73.8 years.

In the primary model, hypertension was associated with an almost twofold higher risk of developing epilepsy (hazard ratio, 1.97; 95% confidence interval, 1.13-3.45; P = .017).

Interestingly, the Framingham Stroke Risk Profile – a calculation based on an array of factors, including age/sex, systolic blood pressure, antihypertensive therapy, diabetes, history of cardiovascular disease, atrial fibrillation, and cigarette smoking – was not associated with incident epilepsy, and there was no other significant associated between any of the other VRFs when looked at independently.

When the researchers adjusted for prevalent and interim stroke, they continued to find an almost twofold higher risk of developing epilepsy (HR 1.93; 95% CI, 1.10-3.37; P = .022). An analysis that adjusted for competing risk of death obtained similar findings (HR, 1.98; 95% CI, 1.03-3.81; P = .042).

The model that excluded patients receiving antihypertensive treatment, whose blood pressure readings were normal (n = 2,162; 50 incident epilepsy cases) showed an even stronger association (HR, 2.44; 95% CI, 1.36-4.35; P = .003).

“Our results are based on an epidemiological, observational study, therefore our findings point to an association between hypertension and new-onset epilepsy later in life,” said Dr. Stefanidou.

She noted that because it was an observational study, “a cause-effect relationship cannot be established based on these results, but there is growing evidence from our, as well as other, similar cohorts that hypertension, a modifiable vascular risk factor, may indeed be an independent predictor of late-onset epilepsy.”

There are “plausible mechanisms” that support both a direct, and indirect, role of hypertension – for example, through accumulation of small vessel disease in the brain – but further research will be necessary to elucidate the exact mechanisms involved in the process,” she added.
 

‘Welcome addition’

In a joint comment, Hedley C.A. Emsley, PhD, professor of clinical neuroscience, Lancaster (England) University, and Jasmine Wall, MBBChir, academic clinical fellow in neurology, Lancaster University, described the study as a “welcome addition to this field,” noting that the Framingham Heart Study “lends itself well to an embedded observational study of this nature of late-onset epilepsy.”

Dr. Emsley and Dr. Wall, who were not involved in the research, said that the “apparent magnitude of increased late-onset epilepsy risk association with hypertension in the Stefanidou et al study is quite striking,” even allowing for the “relatively small sample size,” since their analysis and findings appear to “withstand exclusion of individuals who became normotensive on antihypertensive treatment.”

They noted that in recent years there has been a growing body of evidence highlighting the importance of hypertension in late-onset epilepsy epileptogenesis with subclinical cerebrovascular diseases, including “otherwise occult cerebral small vessel disease believed to be a frequent cause.”

The mechanisms “remain unclear,” but they could potentially include diffuse cerebral microangiopathy, structural and physiological changes, and/or blood-brain barrier dysfunction and leakage, they suggested.

“Although there is no current consensus over an age threshold that defines ‘late onset,’ we would argue that age thresholds used in such studies of late-onset epilepsy should be lower, to avoid missing younger adults at risk through vascular mechanisms,” Dr. Emsley and Dr. Wall added.

The study authors suggest that “potential pathophysiologic mechanisms can further be explored in future experimental studies and clinical trials.”

This study was funded by grants from the National Institutes of Health and Finding a Cure for Epilepsy/Seizures. Dr. Stefanidou disclosed relevant financial relationships. Dr. Emsley and Dr. Wall disclosed no relevant financial relationships.

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

Hypertension is associated with more than a twofold increased risk of developing late-onset epilepsy even in patients who have not had a previous stroke, new research suggests.

After excluding individuals with normal blood pressure who were taking antihypertensive medication, investigators found hypertension was linked to an almost 2.5-fold higher risk of epilepsy.

“Our findings further expand upon our knowledge of the negative effects hypertension has on brain health and, regarding epilepsy, that effect may be starting even in midlife,” said co–lead author Maria Stefanidou, MD, MSc, of Boston University.

“Practicing clinicians should be vigilant to diagnose hypertension, discuss with patients all potential long-term brain health outcomes, and need for treatment. Furthermore, in those presenting with new-onset epilepsy later in life, screening for potentially undiagnosed hypertension should be included in the initial workup,” she said.

The study was published online Nov. 17, 2021, in Epilepsia.
 

Unknown etiology

“New-onset epilepsy risk increases with increasing age over the age of 65 and can affect 15-20 per 1,000 older individuals. Although the most common causes for seizures in this age group are prior history of stroke and presence of dementia, for about 30%-40% of patients, the etiology of seizures remains unknown,” Dr. Stefanidou said.

“We wanted to study if modifiable vascular risk factors that are known to contribute both to vascular brain aging and to neurodegeneration may directly predict the development of epilepsy, even in the absence of clinical stroke or dementia,” she added.

To investigate, the researchers turned to data from participants in the Offspring Cohort of the Framingham Health Study (FHS). The original FHS was an ongoing longitudinal community-based study that first began in 1948. Offspring of the original cohort and their spouses (n = 5,124) were enrolled in the Offspring Cohort in 1971, with surveillance of these second-generation participants based on exam visits occurring every 4 years.

The study included participants who had attended exam 5 (1991-1995), were age 45 years or older, had available vascular risk factor (VRF) data, and available follow-up data on epilepsy status (n = 2,986; mean age, 58 years; 48% male).

The investigators conducted two statistical analyses. In the primary model, they adjusted for age and gender, while in a secondary model they also adjusted for prevalent and interim stroke. They also conducted an analysis that excluded participants treated with antihypertensive medication and had normal blood pressure.
 

Plausible mechanisms

During a mean follow-up of 19.2 years, 55 incident epilepsy cases were identified. The mean age of these patients was 73.8 years.

In the primary model, hypertension was associated with an almost twofold higher risk of developing epilepsy (hazard ratio, 1.97; 95% confidence interval, 1.13-3.45; P = .017).

Interestingly, the Framingham Stroke Risk Profile – a calculation based on an array of factors, including age/sex, systolic blood pressure, antihypertensive therapy, diabetes, history of cardiovascular disease, atrial fibrillation, and cigarette smoking – was not associated with incident epilepsy, and there was no other significant associated between any of the other VRFs when looked at independently.

When the researchers adjusted for prevalent and interim stroke, they continued to find an almost twofold higher risk of developing epilepsy (HR 1.93; 95% CI, 1.10-3.37; P = .022). An analysis that adjusted for competing risk of death obtained similar findings (HR, 1.98; 95% CI, 1.03-3.81; P = .042).

The model that excluded patients receiving antihypertensive treatment, whose blood pressure readings were normal (n = 2,162; 50 incident epilepsy cases) showed an even stronger association (HR, 2.44; 95% CI, 1.36-4.35; P = .003).

“Our results are based on an epidemiological, observational study, therefore our findings point to an association between hypertension and new-onset epilepsy later in life,” said Dr. Stefanidou.

She noted that because it was an observational study, “a cause-effect relationship cannot be established based on these results, but there is growing evidence from our, as well as other, similar cohorts that hypertension, a modifiable vascular risk factor, may indeed be an independent predictor of late-onset epilepsy.”

There are “plausible mechanisms” that support both a direct, and indirect, role of hypertension – for example, through accumulation of small vessel disease in the brain – but further research will be necessary to elucidate the exact mechanisms involved in the process,” she added.
 

‘Welcome addition’

In a joint comment, Hedley C.A. Emsley, PhD, professor of clinical neuroscience, Lancaster (England) University, and Jasmine Wall, MBBChir, academic clinical fellow in neurology, Lancaster University, described the study as a “welcome addition to this field,” noting that the Framingham Heart Study “lends itself well to an embedded observational study of this nature of late-onset epilepsy.”

Dr. Emsley and Dr. Wall, who were not involved in the research, said that the “apparent magnitude of increased late-onset epilepsy risk association with hypertension in the Stefanidou et al study is quite striking,” even allowing for the “relatively small sample size,” since their analysis and findings appear to “withstand exclusion of individuals who became normotensive on antihypertensive treatment.”

They noted that in recent years there has been a growing body of evidence highlighting the importance of hypertension in late-onset epilepsy epileptogenesis with subclinical cerebrovascular diseases, including “otherwise occult cerebral small vessel disease believed to be a frequent cause.”

The mechanisms “remain unclear,” but they could potentially include diffuse cerebral microangiopathy, structural and physiological changes, and/or blood-brain barrier dysfunction and leakage, they suggested.

“Although there is no current consensus over an age threshold that defines ‘late onset,’ we would argue that age thresholds used in such studies of late-onset epilepsy should be lower, to avoid missing younger adults at risk through vascular mechanisms,” Dr. Emsley and Dr. Wall added.

The study authors suggest that “potential pathophysiologic mechanisms can further be explored in future experimental studies and clinical trials.”

This study was funded by grants from the National Institutes of Health and Finding a Cure for Epilepsy/Seizures. Dr. Stefanidou disclosed relevant financial relationships. Dr. Emsley and Dr. Wall disclosed no relevant financial relationships.

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

A newly released position statement from the American Academy of Neurology (AAN) provides guidance to neurologists about counseling  patients with Alzheimer’s disease and their families about the controversial drug aducanumab (Aduhelm).

The statement includes ethical considerations and recommendations for informed consent, and the AAN notes that neurologists should ensure that patients understand all of the issues and uncertainties surrounding the use of aducanumab.

“Neurologists and other clinicians want to provide the best care to patients and families, particularly for a disease that is as challenging as Alzheimer’s. We hope that this statement can be a guide for clinicians in communicating with patients and families in order to carefully consider decisions about the use of aducanumab,” said lead author Winston Chiong, MD, PhD, University of California San Francisco Memory and Aging Center, and a member of the AAN’s Ethics, Law, and Humanities Committee.

The statement was published online Nov. 17 in Neurology.
 

Open, honest communication

The Food and Drug Administration approved the antiamyloid agent aducanumab based on two studies that were both stopped prematurely for futility. In subsequent post hoc analyses of the available data, one of those studies indicated a statistically significant, albeit small, benefit with high-dose aducanumab, while the other study continued to show no benefit.

The clinical importance of the small statistical benefit in the single trial for daily function is unclear, and aducanumab was also associated with brain inflammation and brain bleeds in more than one-third of patients who received the FDA-approved dose, which requires regular brain MRI monitoring.

All of this should be communicated to patients, the AAN advises.

Patients should know that while aducanumab reduces beta-amyloid plaques in the brain that are markers of Alzheimer’s disease, it remains unclear whether this provides any meaningful benefit.

The AAN adds that it is equally important to tell patients and families that aducanumab does not restore cognitive function and that there is insufficient data to offer it to people with moderate or advanced dementia or to those without evidence of beta-amyloid plaques.

It’s important to note that very few participants in the aducanumab trials were Hispanic, Black, or Indigenous. 

“Informed consent conversations with patients of populations underrepresented in clinical trials should include disclosure about the absence of safety and efficacy data in these groups,” the authors noted.
 

‘New territory’ for neurologists

“There are two aspects of aducanumab that are relatively new territory for us as neurologists,” Dr. Chiong said. One is the controversy about the evidence for the drug. “In the statement, we’ve tried to help clinicians communicate the uncertainty over aducanumab’s risks and potential benefits,” Dr. Chiong said. The other is the high cost of the drug and how it will be covered.

Aducanumab has a price tag of $56,000 per year, which does not include the cost of infusing the drug, required repeat imaging, and medical management.

The AAN estimates annual costs of prescribing aducanumab may top $100,000 per year. With Medicare generally covering 80%, patients and families must be told that the full costs of treatment may not be covered.

“Regarding cost, we probably don’t think often enough about what prescribing a drug means for an individual patient’s finances and for the health system,” said Dr. Chiong. “In particular, when patients are in Medicare we might assume their health care costs will be sufficiently covered, but because aducanumab is so expensive its use is likely to impose very significant costs on individual patients as well as to the Medicare program,” Dr. Chiong said.

“It is understandable why a new drug for Alzheimer’s disease generates so much interest, because while its approval has been controversial, it still offers a glimmer of hope to patients and their families,” AAN President Orly Avitzur, MD, said in a news release. “By using ethical principles to create this position statement, the American Academy of Neurology aims to help neurologists and other physicians transparently counsel patients and their families with a goal of providing the highest quality patient-centered care,” Dr. Avitzur said.

This statement was approved by the Ethics, Law, and Humanities Committee, a joint committee of the AAN, American Neurological Association, and Child Neurology Society.

This research had no targeted funding. Dr. Chiong has received personal compensation for serving on the Neuroethics Working Group of the National Institutes of Health BRAIN Initiative, and his institution has received research support from the National Institutes of Health. A complete list of author disclosures is available with the original article.

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

A newly released position statement from the American Academy of Neurology (AAN) provides guidance to neurologists about counseling  patients with Alzheimer’s disease and their families about the controversial drug aducanumab (Aduhelm).

The statement includes ethical considerations and recommendations for informed consent, and the AAN notes that neurologists should ensure that patients understand all of the issues and uncertainties surrounding the use of aducanumab.

“Neurologists and other clinicians want to provide the best care to patients and families, particularly for a disease that is as challenging as Alzheimer’s. We hope that this statement can be a guide for clinicians in communicating with patients and families in order to carefully consider decisions about the use of aducanumab,” said lead author Winston Chiong, MD, PhD, University of California San Francisco Memory and Aging Center, and a member of the AAN’s Ethics, Law, and Humanities Committee.

The statement was published online Nov. 17 in Neurology.
 

Open, honest communication

The Food and Drug Administration approved the antiamyloid agent aducanumab based on two studies that were both stopped prematurely for futility. In subsequent post hoc analyses of the available data, one of those studies indicated a statistically significant, albeit small, benefit with high-dose aducanumab, while the other study continued to show no benefit.

The clinical importance of the small statistical benefit in the single trial for daily function is unclear, and aducanumab was also associated with brain inflammation and brain bleeds in more than one-third of patients who received the FDA-approved dose, which requires regular brain MRI monitoring.

All of this should be communicated to patients, the AAN advises.

Patients should know that while aducanumab reduces beta-amyloid plaques in the brain that are markers of Alzheimer’s disease, it remains unclear whether this provides any meaningful benefit.

The AAN adds that it is equally important to tell patients and families that aducanumab does not restore cognitive function and that there is insufficient data to offer it to people with moderate or advanced dementia or to those without evidence of beta-amyloid plaques.

It’s important to note that very few participants in the aducanumab trials were Hispanic, Black, or Indigenous. 

“Informed consent conversations with patients of populations underrepresented in clinical trials should include disclosure about the absence of safety and efficacy data in these groups,” the authors noted.
 

‘New territory’ for neurologists

“There are two aspects of aducanumab that are relatively new territory for us as neurologists,” Dr. Chiong said. One is the controversy about the evidence for the drug. “In the statement, we’ve tried to help clinicians communicate the uncertainty over aducanumab’s risks and potential benefits,” Dr. Chiong said. The other is the high cost of the drug and how it will be covered.

Aducanumab has a price tag of $56,000 per year, which does not include the cost of infusing the drug, required repeat imaging, and medical management.

The AAN estimates annual costs of prescribing aducanumab may top $100,000 per year. With Medicare generally covering 80%, patients and families must be told that the full costs of treatment may not be covered.

“Regarding cost, we probably don’t think often enough about what prescribing a drug means for an individual patient’s finances and for the health system,” said Dr. Chiong. “In particular, when patients are in Medicare we might assume their health care costs will be sufficiently covered, but because aducanumab is so expensive its use is likely to impose very significant costs on individual patients as well as to the Medicare program,” Dr. Chiong said.

“It is understandable why a new drug for Alzheimer’s disease generates so much interest, because while its approval has been controversial, it still offers a glimmer of hope to patients and their families,” AAN President Orly Avitzur, MD, said in a news release. “By using ethical principles to create this position statement, the American Academy of Neurology aims to help neurologists and other physicians transparently counsel patients and their families with a goal of providing the highest quality patient-centered care,” Dr. Avitzur said.

This statement was approved by the Ethics, Law, and Humanities Committee, a joint committee of the AAN, American Neurological Association, and Child Neurology Society.

This research had no targeted funding. Dr. Chiong has received personal compensation for serving on the Neuroethics Working Group of the National Institutes of Health BRAIN Initiative, and his institution has received research support from the National Institutes of Health. A complete list of author disclosures is available with the original article.

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

A newly released position statement from the American Academy of Neurology (AAN) provides guidance to neurologists about counseling  patients with Alzheimer’s disease and their families about the controversial drug aducanumab (Aduhelm).

The statement includes ethical considerations and recommendations for informed consent, and the AAN notes that neurologists should ensure that patients understand all of the issues and uncertainties surrounding the use of aducanumab.

“Neurologists and other clinicians want to provide the best care to patients and families, particularly for a disease that is as challenging as Alzheimer’s. We hope that this statement can be a guide for clinicians in communicating with patients and families in order to carefully consider decisions about the use of aducanumab,” said lead author Winston Chiong, MD, PhD, University of California San Francisco Memory and Aging Center, and a member of the AAN’s Ethics, Law, and Humanities Committee.

The statement was published online Nov. 17 in Neurology.
 

Open, honest communication

The Food and Drug Administration approved the antiamyloid agent aducanumab based on two studies that were both stopped prematurely for futility. In subsequent post hoc analyses of the available data, one of those studies indicated a statistically significant, albeit small, benefit with high-dose aducanumab, while the other study continued to show no benefit.

The clinical importance of the small statistical benefit in the single trial for daily function is unclear, and aducanumab was also associated with brain inflammation and brain bleeds in more than one-third of patients who received the FDA-approved dose, which requires regular brain MRI monitoring.

All of this should be communicated to patients, the AAN advises.

Patients should know that while aducanumab reduces beta-amyloid plaques in the brain that are markers of Alzheimer’s disease, it remains unclear whether this provides any meaningful benefit.

The AAN adds that it is equally important to tell patients and families that aducanumab does not restore cognitive function and that there is insufficient data to offer it to people with moderate or advanced dementia or to those without evidence of beta-amyloid plaques.

It’s important to note that very few participants in the aducanumab trials were Hispanic, Black, or Indigenous. 

“Informed consent conversations with patients of populations underrepresented in clinical trials should include disclosure about the absence of safety and efficacy data in these groups,” the authors noted.
 

‘New territory’ for neurologists

“There are two aspects of aducanumab that are relatively new territory for us as neurologists,” Dr. Chiong said. One is the controversy about the evidence for the drug. “In the statement, we’ve tried to help clinicians communicate the uncertainty over aducanumab’s risks and potential benefits,” Dr. Chiong said. The other is the high cost of the drug and how it will be covered.

Aducanumab has a price tag of $56,000 per year, which does not include the cost of infusing the drug, required repeat imaging, and medical management.

The AAN estimates annual costs of prescribing aducanumab may top $100,000 per year. With Medicare generally covering 80%, patients and families must be told that the full costs of treatment may not be covered.

“Regarding cost, we probably don’t think often enough about what prescribing a drug means for an individual patient’s finances and for the health system,” said Dr. Chiong. “In particular, when patients are in Medicare we might assume their health care costs will be sufficiently covered, but because aducanumab is so expensive its use is likely to impose very significant costs on individual patients as well as to the Medicare program,” Dr. Chiong said.

“It is understandable why a new drug for Alzheimer’s disease generates so much interest, because while its approval has been controversial, it still offers a glimmer of hope to patients and their families,” AAN President Orly Avitzur, MD, said in a news release. “By using ethical principles to create this position statement, the American Academy of Neurology aims to help neurologists and other physicians transparently counsel patients and their families with a goal of providing the highest quality patient-centered care,” Dr. Avitzur said.

This statement was approved by the Ethics, Law, and Humanities Committee, a joint committee of the AAN, American Neurological Association, and Child Neurology Society.

This research had no targeted funding. Dr. Chiong has received personal compensation for serving on the Neuroethics Working Group of the National Institutes of Health BRAIN Initiative, and his institution has received research support from the National Institutes of Health. A complete list of author disclosures is available with the original article.

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

Erenumab, a calcitonin-gene related peptide receptor (CGRP) inhibitor, is more tolerable and effective than topiramate for treating patients with migraine, according to data from almost 800 patients in the first head-to-head trial of its kind.

The findings suggest that erenumab may help overcome longstanding issues with migraine medication adherence, and additional supportive data may alter treatment sequencing, reported lead author Uwe Reuter, MD, professor at Charité Universitätsmedizin Berlin, and colleagues.

“So far, no study has been done in order to compare the efficacy of a monoclonal antibody targeting the CGRP pathway to that of a standard of care oral preventive drug,” the investigators wrote in Cephalalgia.

The phase 4 HER-MES trial aimed to address this knowledge gap by enrolling 777 adult patients with a history of migraine. All patients reported migraine with or without aura for at least 1 year prior to screening. At baseline, most patients (65%) reported 8-14 migraine days per months, followed by 4-7 days (24.0%), and at least 15 days (11.0%). No patients had previously received topiramate or a CGRP-targeting agent.

“HER-MES includes a broad migraine population with two-thirds of the patients in the high-frequency migraine spectrum,” the investigators noted. “Despite a mean disease duration of about 20 years, almost 60% of the patients had not received previous prophylactic treatment, which underlines the long-standing problem of undertreatment in migraine.”

The trial had a double-dummy design; patients were randomized in a 1:1 ratio to receive either subcutaneous erenumab (70 or 140 mg/month) plus oral placebo, or oral topiramate (50-100 mg/day) plus subcutaneous placebo. The topiramate dose was uptitrated over the first 6 weeks. Treatments were given for a total of 24 weeks or until discontinuation due to adverse events, which was the primary endpoint. The secondary endpoint was efficacy over months 4-6, defined as at least 50% reduction in monthly migraine days, compared with baseline. Other patient-reported outcomes were also evaluated.

After 24 weeks, 95.1% of patients were still enrolled in the trial. Discontinuations due to adverse events were almost four times as common in the topiramate group than the erenumab group (38.9% vs. 10.6%; odds ratio [OR], 0.19; confidence interval, 0.13-0.27; P less than .001). Efficacy findings followed suit, with 55.4% of patients in the erenumab group reporting at least 50% reduction in monthly migraine days, compared with 31.2% of patients in the topiramate group (OR, 2.76; 95% CI, 2.06-3.71; P less than.001).

Erenumab significantly improved monthly migraine days, headache impact test (HIT-6) scores, and short form health survey version (SF-35v2) scores, including physical and mental components (P less than .001 for all).

Safety profiles aligned with previous findings.

“Compared to topiramate, treatment with erenumab has a superior tolerability profile and a significantly higher efficacy,” the investigators concluded. “HER-MES supports the potential of erenumab in overcoming issues of low adherence in clinical practice observed with topiramate, lessening migraine burden, and improving quality of life in a broad migraine population.”
 

Superior tolerability

Commenting on the study, Alan Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, said this is “a very important, very well conducted trial that documents what many of us already suspected; erenumab clearly has better tolerability than topiramate as well as better efficacy.”

Dr. Rapoport, a past president of the International Headache Society, said the study highlights an area of unmet need in neurology practice.

“Despite most patients in the trial having chronic headaches for 20 years, 60% of them had never received preventive treatment,” he said, noting that this reflects current practice in the United States.

Dr. Rapoport said primary care providers in the United States prescribe preventive migraine medications to 10%-15% of eligible patients. Prescribing rates for general neurologists are slightly higher, he said, ranging from 35% to 40%, while headache specialists prescribe 70%-90% of the time.

“How can we improve this situation?” Dr. Rapoport asked. “For years we have tried to improve it with education, but we need to do a better job. We need to educate our primary care physicians in more practical ways. We have to teach them how to make a diagnosis of high frequency migraine and chronic migraine and strongly suggest that those patients be put on appropriate preventive medications.”

Barriers to care may be systemic, according to Dr. Rapoport.

“One issue in the U.S. is that patients with commercial insurance are almost always required to fail two or three categories of older oral preventive migraine medications before they can get a monoclonal antibody or gepants for prevention,” he said. “It would be good if we could change that system so that patients that absolutely need the better tolerated, more effective preventive medications could get them sooner rather than later. This will help them feel and function better, with less pain, and eventually bring down the cost of migraine therapy.”

While Dr. Reuter and colleagues concluded that revised treatment sequencing may be warranted after more trials show similar results, Dr. Rapoport suggested that “this was such a large, well-performed, 6-month study with few dropouts, that further trials to confirm these findings are unnecessary, in my opinion.”

The HER-MES trial was funded by Novartis. Dr. Reuter and colleagues disclosed additional relationships with Eli Lilly, Teva Pharmaceutical, Allergan, and others. Dr. Rapoport was involved in early topiramate trials for prevention and migraine, and is a speaker for Amgen.

Erenumab, a calcitonin-gene related peptide receptor (CGRP) inhibitor, is more tolerable and effective than topiramate for treating patients with migraine, according to data from almost 800 patients in the first head-to-head trial of its kind.

The findings suggest that erenumab may help overcome longstanding issues with migraine medication adherence, and additional supportive data may alter treatment sequencing, reported lead author Uwe Reuter, MD, professor at Charité Universitätsmedizin Berlin, and colleagues.

“So far, no study has been done in order to compare the efficacy of a monoclonal antibody targeting the CGRP pathway to that of a standard of care oral preventive drug,” the investigators wrote in Cephalalgia.

The phase 4 HER-MES trial aimed to address this knowledge gap by enrolling 777 adult patients with a history of migraine. All patients reported migraine with or without aura for at least 1 year prior to screening. At baseline, most patients (65%) reported 8-14 migraine days per months, followed by 4-7 days (24.0%), and at least 15 days (11.0%). No patients had previously received topiramate or a CGRP-targeting agent.

“HER-MES includes a broad migraine population with two-thirds of the patients in the high-frequency migraine spectrum,” the investigators noted. “Despite a mean disease duration of about 20 years, almost 60% of the patients had not received previous prophylactic treatment, which underlines the long-standing problem of undertreatment in migraine.”

The trial had a double-dummy design; patients were randomized in a 1:1 ratio to receive either subcutaneous erenumab (70 or 140 mg/month) plus oral placebo, or oral topiramate (50-100 mg/day) plus subcutaneous placebo. The topiramate dose was uptitrated over the first 6 weeks. Treatments were given for a total of 24 weeks or until discontinuation due to adverse events, which was the primary endpoint. The secondary endpoint was efficacy over months 4-6, defined as at least 50% reduction in monthly migraine days, compared with baseline. Other patient-reported outcomes were also evaluated.

After 24 weeks, 95.1% of patients were still enrolled in the trial. Discontinuations due to adverse events were almost four times as common in the topiramate group than the erenumab group (38.9% vs. 10.6%; odds ratio [OR], 0.19; confidence interval, 0.13-0.27; P less than .001). Efficacy findings followed suit, with 55.4% of patients in the erenumab group reporting at least 50% reduction in monthly migraine days, compared with 31.2% of patients in the topiramate group (OR, 2.76; 95% CI, 2.06-3.71; P less than.001).

Erenumab significantly improved monthly migraine days, headache impact test (HIT-6) scores, and short form health survey version (SF-35v2) scores, including physical and mental components (P less than .001 for all).

Safety profiles aligned with previous findings.

“Compared to topiramate, treatment with erenumab has a superior tolerability profile and a significantly higher efficacy,” the investigators concluded. “HER-MES supports the potential of erenumab in overcoming issues of low adherence in clinical practice observed with topiramate, lessening migraine burden, and improving quality of life in a broad migraine population.”
 

Superior tolerability

Commenting on the study, Alan Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, said this is “a very important, very well conducted trial that documents what many of us already suspected; erenumab clearly has better tolerability than topiramate as well as better efficacy.”

Dr. Rapoport, a past president of the International Headache Society, said the study highlights an area of unmet need in neurology practice.

“Despite most patients in the trial having chronic headaches for 20 years, 60% of them had never received preventive treatment,” he said, noting that this reflects current practice in the United States.

Dr. Rapoport said primary care providers in the United States prescribe preventive migraine medications to 10%-15% of eligible patients. Prescribing rates for general neurologists are slightly higher, he said, ranging from 35% to 40%, while headache specialists prescribe 70%-90% of the time.

“How can we improve this situation?” Dr. Rapoport asked. “For years we have tried to improve it with education, but we need to do a better job. We need to educate our primary care physicians in more practical ways. We have to teach them how to make a diagnosis of high frequency migraine and chronic migraine and strongly suggest that those patients be put on appropriate preventive medications.”

Barriers to care may be systemic, according to Dr. Rapoport.

“One issue in the U.S. is that patients with commercial insurance are almost always required to fail two or three categories of older oral preventive migraine medications before they can get a monoclonal antibody or gepants for prevention,” he said. “It would be good if we could change that system so that patients that absolutely need the better tolerated, more effective preventive medications could get them sooner rather than later. This will help them feel and function better, with less pain, and eventually bring down the cost of migraine therapy.”

While Dr. Reuter and colleagues concluded that revised treatment sequencing may be warranted after more trials show similar results, Dr. Rapoport suggested that “this was such a large, well-performed, 6-month study with few dropouts, that further trials to confirm these findings are unnecessary, in my opinion.”

The HER-MES trial was funded by Novartis. Dr. Reuter and colleagues disclosed additional relationships with Eli Lilly, Teva Pharmaceutical, Allergan, and others. Dr. Rapoport was involved in early topiramate trials for prevention and migraine, and is a speaker for Amgen.

Erenumab, a calcitonin-gene related peptide receptor (CGRP) inhibitor, is more tolerable and effective than topiramate for treating patients with migraine, according to data from almost 800 patients in the first head-to-head trial of its kind.

The findings suggest that erenumab may help overcome longstanding issues with migraine medication adherence, and additional supportive data may alter treatment sequencing, reported lead author Uwe Reuter, MD, professor at Charité Universitätsmedizin Berlin, and colleagues.

“So far, no study has been done in order to compare the efficacy of a monoclonal antibody targeting the CGRP pathway to that of a standard of care oral preventive drug,” the investigators wrote in Cephalalgia.

The phase 4 HER-MES trial aimed to address this knowledge gap by enrolling 777 adult patients with a history of migraine. All patients reported migraine with or without aura for at least 1 year prior to screening. At baseline, most patients (65%) reported 8-14 migraine days per months, followed by 4-7 days (24.0%), and at least 15 days (11.0%). No patients had previously received topiramate or a CGRP-targeting agent.

“HER-MES includes a broad migraine population with two-thirds of the patients in the high-frequency migraine spectrum,” the investigators noted. “Despite a mean disease duration of about 20 years, almost 60% of the patients had not received previous prophylactic treatment, which underlines the long-standing problem of undertreatment in migraine.”

The trial had a double-dummy design; patients were randomized in a 1:1 ratio to receive either subcutaneous erenumab (70 or 140 mg/month) plus oral placebo, or oral topiramate (50-100 mg/day) plus subcutaneous placebo. The topiramate dose was uptitrated over the first 6 weeks. Treatments were given for a total of 24 weeks or until discontinuation due to adverse events, which was the primary endpoint. The secondary endpoint was efficacy over months 4-6, defined as at least 50% reduction in monthly migraine days, compared with baseline. Other patient-reported outcomes were also evaluated.

After 24 weeks, 95.1% of patients were still enrolled in the trial. Discontinuations due to adverse events were almost four times as common in the topiramate group than the erenumab group (38.9% vs. 10.6%; odds ratio [OR], 0.19; confidence interval, 0.13-0.27; P less than .001). Efficacy findings followed suit, with 55.4% of patients in the erenumab group reporting at least 50% reduction in monthly migraine days, compared with 31.2% of patients in the topiramate group (OR, 2.76; 95% CI, 2.06-3.71; P less than.001).

Erenumab significantly improved monthly migraine days, headache impact test (HIT-6) scores, and short form health survey version (SF-35v2) scores, including physical and mental components (P less than .001 for all).

Safety profiles aligned with previous findings.

“Compared to topiramate, treatment with erenumab has a superior tolerability profile and a significantly higher efficacy,” the investigators concluded. “HER-MES supports the potential of erenumab in overcoming issues of low adherence in clinical practice observed with topiramate, lessening migraine burden, and improving quality of life in a broad migraine population.”
 

Superior tolerability

Commenting on the study, Alan Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, said this is “a very important, very well conducted trial that documents what many of us already suspected; erenumab clearly has better tolerability than topiramate as well as better efficacy.”

Dr. Rapoport, a past president of the International Headache Society, said the study highlights an area of unmet need in neurology practice.

“Despite most patients in the trial having chronic headaches for 20 years, 60% of them had never received preventive treatment,” he said, noting that this reflects current practice in the United States.

Dr. Rapoport said primary care providers in the United States prescribe preventive migraine medications to 10%-15% of eligible patients. Prescribing rates for general neurologists are slightly higher, he said, ranging from 35% to 40%, while headache specialists prescribe 70%-90% of the time.

“How can we improve this situation?” Dr. Rapoport asked. “For years we have tried to improve it with education, but we need to do a better job. We need to educate our primary care physicians in more practical ways. We have to teach them how to make a diagnosis of high frequency migraine and chronic migraine and strongly suggest that those patients be put on appropriate preventive medications.”

Barriers to care may be systemic, according to Dr. Rapoport.

“One issue in the U.S. is that patients with commercial insurance are almost always required to fail two or three categories of older oral preventive migraine medications before they can get a monoclonal antibody or gepants for prevention,” he said. “It would be good if we could change that system so that patients that absolutely need the better tolerated, more effective preventive medications could get them sooner rather than later. This will help them feel and function better, with less pain, and eventually bring down the cost of migraine therapy.”

While Dr. Reuter and colleagues concluded that revised treatment sequencing may be warranted after more trials show similar results, Dr. Rapoport suggested that “this was such a large, well-performed, 6-month study with few dropouts, that further trials to confirm these findings are unnecessary, in my opinion.”

The HER-MES trial was funded by Novartis. Dr. Reuter and colleagues disclosed additional relationships with Eli Lilly, Teva Pharmaceutical, Allergan, and others. Dr. Rapoport was involved in early topiramate trials for prevention and migraine, and is a speaker for Amgen.

Most cases of new daily persistent headache (NDPH) are moderate to severe and many feature characteristics often associated with migraine, according to a new retrospective chart review.

“Future prospective studies are needed to better understand this disabling disorder,” wrote Randolph W. Evans, MD, of Baylor College of Medicine of Houston, and Dana P. Turner, PhD, of Massachusetts General Hospital and Harvard Medical School in Boston. Their study was published Oct. 28 in Headache.

To categorize the infrequently reported clinical features of NDPH, the researchers launched a retrospective study of patients who were provisionally diagnosed with NDPH by Dr. Evans at an outpatient clinic in Houston from Sept. 1, 2011, to Feb. 28, 2020. Of the 328 patients whose diagnosis ultimately matched the ICHD-3 criteria, the average age at onset was 40.3 years (range 12-87 years). Approximately 70% were White, and nearly 66% were women. Two hundred and sixty were diagnosed with the migraine phenotype and 68 were diagnosed with the tension-type phenotype.
 

Key features

The median duration of NDPH at the time of the initial consult with Dr. Evans was 0.7 years, and it was 1.9 years at the time of the last visit. Almost 33% of patients with the migraine phenotype had a history of episodic migraine compared with 16.2% with the tension-type phenotype. Headaches were side-locked unilateral in 8.5% (n = 28) of all patients, and 3.6% (n = 12) had a thunderclap onset.

The most common clinical features across all patients included noise sensitivity (72.1%), light sensitivity (71%), moderate pain at the time of initial consult (57.9%), pressure pain (54.9%), and throbbing pain (50.9%). Nausea was reported in 157 patients and vomiting was reported in 48 patients, all of whom were in the migraine phenotype group. Thunderclap onset was far more prevalent in the migraine phenotype group (11 patients) compared with the tension-type phenotype group (1 patient), as was vertigo (19 patients compared with 1) and visual aura (21 compared with 0).

The top precipitating factors across all patients included stressful life events (20.4%), an antecedent upper respiratory infection or flu-like illness (10.1%), and antecedent extracranial surgery (1.5%). Exacerbating or aggravating factors were far more prevalent in the migraine phenotype group compared with the tension-type phenotype group, with stress (14.6% vs. 5.9%), bright or flashing light (10.4% vs. 1.5%), loud noise (8.5% vs. 0%), and lack of sleep (6.5% vs. 4.4%) leading the way.

The months with the most onsets were June (8.5%), January (7.6%), and February (7.6%); there was no clear seasonal or cyclical variation. The most common prognostic type across all patients was persisting (refractory) at 93%, followed by remitting (self-limiting) at 4.3% and relapsing-remitting at 2.7%.
 

Unlocking a medical mystery

“This is the largest case review study ever published on NDPH, especially because most people think it’s a fairly rare disorder when it’s actually not,” Herbert G. Markley, MD, of the New England Regional Headache Center in Worcester, Mass., said in an interview.

“The thing people need to understand is that they may have a lot of these patients in their practice and not realize it,” he added. “They keep trying one medication after another, and the patients are giving up, and the doctors are giving up. It’s terrible. We don’t know what causes it, and we don’t know how to treat it. It’s one of the biggest mysteries left in medical science.”

“My idea about this condition, and this is shared by others, is that NDPH is not a diagnosis that describes a cohesive group of patients but rather a group of people who share certain features,” Morris Levin, MD, director of the Headache Center at the University of California, San Francisco, said in an interview. “And they would be better served if this diagnosis was split into different categories.”

While praising Dr. Evans and Dr. Turner for their categorization and classification work, Dr. Levin asked, “Let’s say you diagnose someone with NDPH; does that in any way help you with management of this person? The answer is no. Some might say, ‘If you put the patients in the migraine phenotype group, then you can use migraine treatments.’ My point would be: then call it migraine.

“I believe another way to approach NDPH might be to create subcategories of migraine and tension-type headaches,” he added. “A migraine that is either intermittent or nonexistent suddenly becomes daily. That could be a subcategory; rather than being called NDPH, call it ‘new persistent chronic migraine.’ Or ‘new persistent chronic tension-type headache.’ Perhaps that would serve us better in terms of grasping the underlying mechanisms and the best treatment for these patients.”

Along the same lines, Dr. Markley echoed Dr. Evans’ call for more prospective studies and more research on possible medication, hoping to fuel further understanding of this debilitating disorder.

“I think this will be a landmark study for people to look back on,” he said, “especially for anyone going into the headache specialty who has never heard of this type of headache and keeps wondering why they can’t help certain patients, no matter how many medications they try.”

The authors acknowledged their study’s limitations, including its single-center nature and the data abstraction process being performed by just one person. They added, however, that Dr. Evans is a “very experienced researcher with more than 30 years of experience in headache medicine who was abstracting his own patients, data that were very familiar to him.”

Dr. Evans and Dr. Turner declared no potential conflicts of interest.

Most cases of new daily persistent headache (NDPH) are moderate to severe and many feature characteristics often associated with migraine, according to a new retrospective chart review.

“Future prospective studies are needed to better understand this disabling disorder,” wrote Randolph W. Evans, MD, of Baylor College of Medicine of Houston, and Dana P. Turner, PhD, of Massachusetts General Hospital and Harvard Medical School in Boston. Their study was published Oct. 28 in Headache.

To categorize the infrequently reported clinical features of NDPH, the researchers launched a retrospective study of patients who were provisionally diagnosed with NDPH by Dr. Evans at an outpatient clinic in Houston from Sept. 1, 2011, to Feb. 28, 2020. Of the 328 patients whose diagnosis ultimately matched the ICHD-3 criteria, the average age at onset was 40.3 years (range 12-87 years). Approximately 70% were White, and nearly 66% were women. Two hundred and sixty were diagnosed with the migraine phenotype and 68 were diagnosed with the tension-type phenotype.
 

Key features

The median duration of NDPH at the time of the initial consult with Dr. Evans was 0.7 years, and it was 1.9 years at the time of the last visit. Almost 33% of patients with the migraine phenotype had a history of episodic migraine compared with 16.2% with the tension-type phenotype. Headaches were side-locked unilateral in 8.5% (n = 28) of all patients, and 3.6% (n = 12) had a thunderclap onset.

The most common clinical features across all patients included noise sensitivity (72.1%), light sensitivity (71%), moderate pain at the time of initial consult (57.9%), pressure pain (54.9%), and throbbing pain (50.9%). Nausea was reported in 157 patients and vomiting was reported in 48 patients, all of whom were in the migraine phenotype group. Thunderclap onset was far more prevalent in the migraine phenotype group (11 patients) compared with the tension-type phenotype group (1 patient), as was vertigo (19 patients compared with 1) and visual aura (21 compared with 0).

The top precipitating factors across all patients included stressful life events (20.4%), an antecedent upper respiratory infection or flu-like illness (10.1%), and antecedent extracranial surgery (1.5%). Exacerbating or aggravating factors were far more prevalent in the migraine phenotype group compared with the tension-type phenotype group, with stress (14.6% vs. 5.9%), bright or flashing light (10.4% vs. 1.5%), loud noise (8.5% vs. 0%), and lack of sleep (6.5% vs. 4.4%) leading the way.

The months with the most onsets were June (8.5%), January (7.6%), and February (7.6%); there was no clear seasonal or cyclical variation. The most common prognostic type across all patients was persisting (refractory) at 93%, followed by remitting (self-limiting) at 4.3% and relapsing-remitting at 2.7%.
 

Unlocking a medical mystery

“This is the largest case review study ever published on NDPH, especially because most people think it’s a fairly rare disorder when it’s actually not,” Herbert G. Markley, MD, of the New England Regional Headache Center in Worcester, Mass., said in an interview.

“The thing people need to understand is that they may have a lot of these patients in their practice and not realize it,” he added. “They keep trying one medication after another, and the patients are giving up, and the doctors are giving up. It’s terrible. We don’t know what causes it, and we don’t know how to treat it. It’s one of the biggest mysteries left in medical science.”

“My idea about this condition, and this is shared by others, is that NDPH is not a diagnosis that describes a cohesive group of patients but rather a group of people who share certain features,” Morris Levin, MD, director of the Headache Center at the University of California, San Francisco, said in an interview. “And they would be better served if this diagnosis was split into different categories.”

While praising Dr. Evans and Dr. Turner for their categorization and classification work, Dr. Levin asked, “Let’s say you diagnose someone with NDPH; does that in any way help you with management of this person? The answer is no. Some might say, ‘If you put the patients in the migraine phenotype group, then you can use migraine treatments.’ My point would be: then call it migraine.

“I believe another way to approach NDPH might be to create subcategories of migraine and tension-type headaches,” he added. “A migraine that is either intermittent or nonexistent suddenly becomes daily. That could be a subcategory; rather than being called NDPH, call it ‘new persistent chronic migraine.’ Or ‘new persistent chronic tension-type headache.’ Perhaps that would serve us better in terms of grasping the underlying mechanisms and the best treatment for these patients.”

Along the same lines, Dr. Markley echoed Dr. Evans’ call for more prospective studies and more research on possible medication, hoping to fuel further understanding of this debilitating disorder.

“I think this will be a landmark study for people to look back on,” he said, “especially for anyone going into the headache specialty who has never heard of this type of headache and keeps wondering why they can’t help certain patients, no matter how many medications they try.”

The authors acknowledged their study’s limitations, including its single-center nature and the data abstraction process being performed by just one person. They added, however, that Dr. Evans is a “very experienced researcher with more than 30 years of experience in headache medicine who was abstracting his own patients, data that were very familiar to him.”

Dr. Evans and Dr. Turner declared no potential conflicts of interest.

Most cases of new daily persistent headache (NDPH) are moderate to severe and many feature characteristics often associated with migraine, according to a new retrospective chart review.

“Future prospective studies are needed to better understand this disabling disorder,” wrote Randolph W. Evans, MD, of Baylor College of Medicine of Houston, and Dana P. Turner, PhD, of Massachusetts General Hospital and Harvard Medical School in Boston. Their study was published Oct. 28 in Headache.

To categorize the infrequently reported clinical features of NDPH, the researchers launched a retrospective study of patients who were provisionally diagnosed with NDPH by Dr. Evans at an outpatient clinic in Houston from Sept. 1, 2011, to Feb. 28, 2020. Of the 328 patients whose diagnosis ultimately matched the ICHD-3 criteria, the average age at onset was 40.3 years (range 12-87 years). Approximately 70% were White, and nearly 66% were women. Two hundred and sixty were diagnosed with the migraine phenotype and 68 were diagnosed with the tension-type phenotype.
 

Key features

The median duration of NDPH at the time of the initial consult with Dr. Evans was 0.7 years, and it was 1.9 years at the time of the last visit. Almost 33% of patients with the migraine phenotype had a history of episodic migraine compared with 16.2% with the tension-type phenotype. Headaches were side-locked unilateral in 8.5% (n = 28) of all patients, and 3.6% (n = 12) had a thunderclap onset.

The most common clinical features across all patients included noise sensitivity (72.1%), light sensitivity (71%), moderate pain at the time of initial consult (57.9%), pressure pain (54.9%), and throbbing pain (50.9%). Nausea was reported in 157 patients and vomiting was reported in 48 patients, all of whom were in the migraine phenotype group. Thunderclap onset was far more prevalent in the migraine phenotype group (11 patients) compared with the tension-type phenotype group (1 patient), as was vertigo (19 patients compared with 1) and visual aura (21 compared with 0).

The top precipitating factors across all patients included stressful life events (20.4%), an antecedent upper respiratory infection or flu-like illness (10.1%), and antecedent extracranial surgery (1.5%). Exacerbating or aggravating factors were far more prevalent in the migraine phenotype group compared with the tension-type phenotype group, with stress (14.6% vs. 5.9%), bright or flashing light (10.4% vs. 1.5%), loud noise (8.5% vs. 0%), and lack of sleep (6.5% vs. 4.4%) leading the way.

The months with the most onsets were June (8.5%), January (7.6%), and February (7.6%); there was no clear seasonal or cyclical variation. The most common prognostic type across all patients was persisting (refractory) at 93%, followed by remitting (self-limiting) at 4.3% and relapsing-remitting at 2.7%.
 

Unlocking a medical mystery

“This is the largest case review study ever published on NDPH, especially because most people think it’s a fairly rare disorder when it’s actually not,” Herbert G. Markley, MD, of the New England Regional Headache Center in Worcester, Mass., said in an interview.

“The thing people need to understand is that they may have a lot of these patients in their practice and not realize it,” he added. “They keep trying one medication after another, and the patients are giving up, and the doctors are giving up. It’s terrible. We don’t know what causes it, and we don’t know how to treat it. It’s one of the biggest mysteries left in medical science.”

“My idea about this condition, and this is shared by others, is that NDPH is not a diagnosis that describes a cohesive group of patients but rather a group of people who share certain features,” Morris Levin, MD, director of the Headache Center at the University of California, San Francisco, said in an interview. “And they would be better served if this diagnosis was split into different categories.”

While praising Dr. Evans and Dr. Turner for their categorization and classification work, Dr. Levin asked, “Let’s say you diagnose someone with NDPH; does that in any way help you with management of this person? The answer is no. Some might say, ‘If you put the patients in the migraine phenotype group, then you can use migraine treatments.’ My point would be: then call it migraine.

“I believe another way to approach NDPH might be to create subcategories of migraine and tension-type headaches,” he added. “A migraine that is either intermittent or nonexistent suddenly becomes daily. That could be a subcategory; rather than being called NDPH, call it ‘new persistent chronic migraine.’ Or ‘new persistent chronic tension-type headache.’ Perhaps that would serve us better in terms of grasping the underlying mechanisms and the best treatment for these patients.”

Along the same lines, Dr. Markley echoed Dr. Evans’ call for more prospective studies and more research on possible medication, hoping to fuel further understanding of this debilitating disorder.

“I think this will be a landmark study for people to look back on,” he said, “especially for anyone going into the headache specialty who has never heard of this type of headache and keeps wondering why they can’t help certain patients, no matter how many medications they try.”

The authors acknowledged their study’s limitations, including its single-center nature and the data abstraction process being performed by just one person. They added, however, that Dr. Evans is a “very experienced researcher with more than 30 years of experience in headache medicine who was abstracting his own patients, data that were very familiar to him.”

Dr. Evans and Dr. Turner declared no potential conflicts of interest.

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

The death rate from Parkinson’s disease has increased by about 63% over the past 2 decades in the United States, according to what investigators say is the most comprehensive study in the nation of temporal trends in Parkinson’s disease mortality.

“The reason behind the rising death rates from Parkinson’s disease is not clear at present and warrants further investigation,” Wei Bao, MD, PhD, associate professor in the department of epidemiology at the University of Iowa College of Public Health, in Iowa City, said in an interview. “We know that people are living longer and the general population is getting older, but that doesn’t fully explain the increase we saw in the death rate in people with Parkinson’s disease,” Dr. Bao added in a statement.

“Understanding why more people are dying from this disease is critical if we are going to reverse the trend,” Dr. Bao said.

The study was published online Oct. 27 in Neurology.

Long-term data

The researchers used data from the National Vital Statistics System to determine national trends in Parkinson’s disease mortality overall and in several key subgroups. The analyses included 479,059 people who died of Parkinson’s disease between 1999 and 2019.

Over the 21-year period, the age-adjusted mortality from Parkinson’s disease rose from 5.4 per 100,000 in 1999 to 8.8 per 100,000 in 2019. The average annual percent change (APC) was 2.4% for the entire period.

During the study period, the number of deaths from Parkinson’s disease more than doubled, from 14,593 to 35,311.

The death rate from Parkinson’s disease increased significantly across all age groups. The average APC was 5.0% among adults younger than 65 years, 1.9% among those aged 65-74 years, 2.2% among those 75-84 years, and 2.7% among those 85 and older.

The death rate increased in both men and women, but age-adjusted Parkinson’s disease mortality was twice as high in men as in women. The researchers say one possible explanation for the sex difference is estrogen, which leads to higher dopamine levels in areas of the brain that control motor responses and may protect women from Parkinson’s disease.

The study also showed that White people are more likely to die from Parkinson’s disease than persons of other racial and ethnic groups. In 2019, the death rate per 100,000 was 9.7 for Whites, 6.5 for Hispanics, and 4.7 for non-Hispanic Blacks.

Previous studies have shown that compared with White people, Black and Hispanic people are less likely to see a neurologist, owing to socioeconomic barriers. This suggests that White people may be more likely to receive a Parkinson’s disease diagnosis, the researchers noted.

“It’s important to continue to evaluate long-term trends in Parkinson’s death rates,” Dr. Bao said.

“This can inform future research that may help pinpoint why more people are dying of the disease. Also, updating vital statistics about Parkinson’s death rates may be used for priority setting and financing of health care and policy,” Dr. Bao added.
 

1.2 million patients by 2030

Reached for comment, James Beck, PhD, chief scientific officer for the Parkinson’s Foundation, said these findings are not surprising. “They are aligned with the work the Parkinson’s Foundation has done to show that the number of people with Parkinson’s disease has increased over time. We are working on an improved estimate of Parkinson’s disease incidence and predict that Parkinson’s disease will continue to rise as the population ages, so an increase in mortality rates would be expected,” Dr. Beck said.

He noted that much of the public health statistics regarding Parkinson’s disease are outdated and that the Parkinson’s Foundation has been partnering with others to update them.

“For instance, to calculate an accurate estimate of the prevalence of Parkinson’s disease, the Parkinson’s Foundation Prevalence Project was formed. The findings from this group demonstrated that the number of people living with Parkinson’s disease will rise to nearly 1.2 million by 2030, a substantial increase from the estimate of 930,000 for 2020,” Dr. Beck said.

“The overarching message is that more people are being diagnosed with Parkinson’s disease, not that more people are dying from the disease,” he added.

“Over the last 20 years, our understanding of Parkinson’s disease has changed and developed, so clinicians are more aware and better able to properly diagnose Parkinson’s disease. This could mean that the cause is likely due to an increase in diagnosis rates and better recognition of Parkinson’s disease, which would lead to higher rates of identifying Parkinson’s disease as a cause of death,” said Dr. Beck.

The study had no targeted funding. Dr. Bao and Dr. Beck have indicated no relevant financial relationships.
 

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

The death rate from Parkinson’s disease has increased by about 63% over the past 2 decades in the United States, according to what investigators say is the most comprehensive study in the nation of temporal trends in Parkinson’s disease mortality.

“The reason behind the rising death rates from Parkinson’s disease is not clear at present and warrants further investigation,” Wei Bao, MD, PhD, associate professor in the department of epidemiology at the University of Iowa College of Public Health, in Iowa City, said in an interview. “We know that people are living longer and the general population is getting older, but that doesn’t fully explain the increase we saw in the death rate in people with Parkinson’s disease,” Dr. Bao added in a statement.

“Understanding why more people are dying from this disease is critical if we are going to reverse the trend,” Dr. Bao said.

The study was published online Oct. 27 in Neurology.

Long-term data

The researchers used data from the National Vital Statistics System to determine national trends in Parkinson’s disease mortality overall and in several key subgroups. The analyses included 479,059 people who died of Parkinson’s disease between 1999 and 2019.

Over the 21-year period, the age-adjusted mortality from Parkinson’s disease rose from 5.4 per 100,000 in 1999 to 8.8 per 100,000 in 2019. The average annual percent change (APC) was 2.4% for the entire period.

During the study period, the number of deaths from Parkinson’s disease more than doubled, from 14,593 to 35,311.

The death rate from Parkinson’s disease increased significantly across all age groups. The average APC was 5.0% among adults younger than 65 years, 1.9% among those aged 65-74 years, 2.2% among those 75-84 years, and 2.7% among those 85 and older.

The death rate increased in both men and women, but age-adjusted Parkinson’s disease mortality was twice as high in men as in women. The researchers say one possible explanation for the sex difference is estrogen, which leads to higher dopamine levels in areas of the brain that control motor responses and may protect women from Parkinson’s disease.

The study also showed that White people are more likely to die from Parkinson’s disease than persons of other racial and ethnic groups. In 2019, the death rate per 100,000 was 9.7 for Whites, 6.5 for Hispanics, and 4.7 for non-Hispanic Blacks.

Previous studies have shown that compared with White people, Black and Hispanic people are less likely to see a neurologist, owing to socioeconomic barriers. This suggests that White people may be more likely to receive a Parkinson’s disease diagnosis, the researchers noted.

“It’s important to continue to evaluate long-term trends in Parkinson’s death rates,” Dr. Bao said.

“This can inform future research that may help pinpoint why more people are dying of the disease. Also, updating vital statistics about Parkinson’s death rates may be used for priority setting and financing of health care and policy,” Dr. Bao added.
 

1.2 million patients by 2030

Reached for comment, James Beck, PhD, chief scientific officer for the Parkinson’s Foundation, said these findings are not surprising. “They are aligned with the work the Parkinson’s Foundation has done to show that the number of people with Parkinson’s disease has increased over time. We are working on an improved estimate of Parkinson’s disease incidence and predict that Parkinson’s disease will continue to rise as the population ages, so an increase in mortality rates would be expected,” Dr. Beck said.

He noted that much of the public health statistics regarding Parkinson’s disease are outdated and that the Parkinson’s Foundation has been partnering with others to update them.

“For instance, to calculate an accurate estimate of the prevalence of Parkinson’s disease, the Parkinson’s Foundation Prevalence Project was formed. The findings from this group demonstrated that the number of people living with Parkinson’s disease will rise to nearly 1.2 million by 2030, a substantial increase from the estimate of 930,000 for 2020,” Dr. Beck said.

“The overarching message is that more people are being diagnosed with Parkinson’s disease, not that more people are dying from the disease,” he added.

“Over the last 20 years, our understanding of Parkinson’s disease has changed and developed, so clinicians are more aware and better able to properly diagnose Parkinson’s disease. This could mean that the cause is likely due to an increase in diagnosis rates and better recognition of Parkinson’s disease, which would lead to higher rates of identifying Parkinson’s disease as a cause of death,” said Dr. Beck.

The study had no targeted funding. Dr. Bao and Dr. Beck have indicated no relevant financial relationships.
 

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

The death rate from Parkinson’s disease has increased by about 63% over the past 2 decades in the United States, according to what investigators say is the most comprehensive study in the nation of temporal trends in Parkinson’s disease mortality.

“The reason behind the rising death rates from Parkinson’s disease is not clear at present and warrants further investigation,” Wei Bao, MD, PhD, associate professor in the department of epidemiology at the University of Iowa College of Public Health, in Iowa City, said in an interview. “We know that people are living longer and the general population is getting older, but that doesn’t fully explain the increase we saw in the death rate in people with Parkinson’s disease,” Dr. Bao added in a statement.

“Understanding why more people are dying from this disease is critical if we are going to reverse the trend,” Dr. Bao said.

The study was published online Oct. 27 in Neurology.

Long-term data

The researchers used data from the National Vital Statistics System to determine national trends in Parkinson’s disease mortality overall and in several key subgroups. The analyses included 479,059 people who died of Parkinson’s disease between 1999 and 2019.

Over the 21-year period, the age-adjusted mortality from Parkinson’s disease rose from 5.4 per 100,000 in 1999 to 8.8 per 100,000 in 2019. The average annual percent change (APC) was 2.4% for the entire period.

During the study period, the number of deaths from Parkinson’s disease more than doubled, from 14,593 to 35,311.

The death rate from Parkinson’s disease increased significantly across all age groups. The average APC was 5.0% among adults younger than 65 years, 1.9% among those aged 65-74 years, 2.2% among those 75-84 years, and 2.7% among those 85 and older.

The death rate increased in both men and women, but age-adjusted Parkinson’s disease mortality was twice as high in men as in women. The researchers say one possible explanation for the sex difference is estrogen, which leads to higher dopamine levels in areas of the brain that control motor responses and may protect women from Parkinson’s disease.

The study also showed that White people are more likely to die from Parkinson’s disease than persons of other racial and ethnic groups. In 2019, the death rate per 100,000 was 9.7 for Whites, 6.5 for Hispanics, and 4.7 for non-Hispanic Blacks.

Previous studies have shown that compared with White people, Black and Hispanic people are less likely to see a neurologist, owing to socioeconomic barriers. This suggests that White people may be more likely to receive a Parkinson’s disease diagnosis, the researchers noted.

“It’s important to continue to evaluate long-term trends in Parkinson’s death rates,” Dr. Bao said.

“This can inform future research that may help pinpoint why more people are dying of the disease. Also, updating vital statistics about Parkinson’s death rates may be used for priority setting and financing of health care and policy,” Dr. Bao added.
 

1.2 million patients by 2030

Reached for comment, James Beck, PhD, chief scientific officer for the Parkinson’s Foundation, said these findings are not surprising. “They are aligned with the work the Parkinson’s Foundation has done to show that the number of people with Parkinson’s disease has increased over time. We are working on an improved estimate of Parkinson’s disease incidence and predict that Parkinson’s disease will continue to rise as the population ages, so an increase in mortality rates would be expected,” Dr. Beck said.

He noted that much of the public health statistics regarding Parkinson’s disease are outdated and that the Parkinson’s Foundation has been partnering with others to update them.

“For instance, to calculate an accurate estimate of the prevalence of Parkinson’s disease, the Parkinson’s Foundation Prevalence Project was formed. The findings from this group demonstrated that the number of people living with Parkinson’s disease will rise to nearly 1.2 million by 2030, a substantial increase from the estimate of 930,000 for 2020,” Dr. Beck said.

“The overarching message is that more people are being diagnosed with Parkinson’s disease, not that more people are dying from the disease,” he added.

“Over the last 20 years, our understanding of Parkinson’s disease has changed and developed, so clinicians are more aware and better able to properly diagnose Parkinson’s disease. This could mean that the cause is likely due to an increase in diagnosis rates and better recognition of Parkinson’s disease, which would lead to higher rates of identifying Parkinson’s disease as a cause of death,” said Dr. Beck.

The study had no targeted funding. Dr. Bao and Dr. Beck have indicated no relevant financial relationships.
 

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

Over the past two decades, there has been a significant increase in the number of adults in the United States with small fiber neuropathy (SFN), but in many cases, no cause can be determined. The exact reason for the increase in isolated SFN “remains unclear,” said Christopher J. Klein, MD, of the Mayo Clinic in Rochester, Minn. However, “we noted during the study period the population has had increased BMI, which appears to be a risk factor for this disorder, with many (50%) developing either glucose impairment or frank diabetes during the study period even if not present at first small fiber neuropathy presentation, also with associated higher triglyceride levels,” he explained.

The study was published online October 27 in Neurology.
 

Significant upward trend

Investigators reviewed the records of all 94 adults diagnosed with pure SFN (no large fiber involvement) between 1998 and 2017 in Olmsted and adjacent counties in Minnesota – and compared them with 282 adults of similar age and gender who did not have neuropathy.

The incidence of SFN over the entire study period was 1.3 per 100,000 per year and the prevalence was 13.3 per 100,000.

There was a “significant upward trend” in SFN incidence over the study period that could not be attributed to the availability of intraepidermal nerve fiber density testing, the authors reported.

The median age of onset of SFN was 54 years and two-thirds were women (67%).

Diabetes, obesity, and hypertriglyceridemia were significantly more common in patients with SFN compared with matched controls. These metabolic risk factors are also associated with peripheral neuropathy regardless of fiber type.

Autonomic symptoms were common and generally mild, affecting 85% of patients with SFN, and included male erectile dysfunction, constipation, light-headedness and palpitations, urinary symptoms, diarrhea, dry eyes and mouth, sweat abnormalities, and gastroparesis.

Insomnia and use of opioid pain medication were more common in those with SFN than matched controls.

More than one-third (36%) of patients with SFN developed large fiber neuropathy an average of 5.3 years after developing SFN.

During an average follow-up of 6.1 years, adults with SFN were significantly more likely to suffer myocardial infarction (46% vs. 27%; odds ratio, 2.0; 95% CI, 1.8-4.9), congestive heart failure (27% vs. 12%; OR, 2.6; 95% CI, 1.4-4.8), peripheral vascular disease (22% vs. 6%; OR, 4.0; 95% CI, 1.9-8.1), stroke (24% vs. 10%; OR, 2.8; 95% CI, 1.5-5.3), diabetes (51% vs. 22%; OR, 4.6; 95% CI, 2.8-7.6) and rheumatologic disease (30% vs. 7%; OR, 5.3; 95% CI, 2.8-10.4).

For 70% of patients, no cause for SFN could be determined. Diabetes (15%) was the most common cause identified. Other less common causes included Sjögren syndrome, lupus, amyloidosis, and Fabry disease.

“It is important to quantitatively diagnose patients with SFN as many non-neurological musculoskeletal causes can mimic the disorder,” said Dr. Klein.

“If rates of progression are rapid, sinister causes such as out-of-control diabetes, hereditary [transthyretin] TTR amyloidosis, and Fabry disease can be responsible. For other patients, rates of progression are slow and generally do not lead to significant neurologic impairments,” he added.

“However,” he said, “internal medicine follow-up is important for all as this disorder associates with development with higher risk of cardiovascular disease, including commonly heart attacks.”

Of note, although mean age at death was not significantly different in patients with SFN than controls (70 vs. 73 years), there was a significantly higher number of deaths in patients with SFN (n = 18; 19%) than in matched controls (n = 35; 12%) from the time of symptom onset, the researchers reported.
 

Important research

This “important” study sheds light on the comorbidities and longitudinal consequences of SFN, wrote Brian Callaghan, MD, with the University of Michigan, Ann Arbor, and J. Robinson Singleton, MD, with the University of Utah, Salt Lake City, in an accompanying editorial in Neurology.

The study demonstrates clearly that SFN has “metabolic risk factors similar to those seen for sensory predominant peripheral neuropathies affecting a broader range of fiber types. As a result, therapies that address metabolic risk factors are likely to help prevent or treat both conditions,” they wrote.

Dr. Callaghan and Dr. Singleton added that a key strength of the study is the detailed follow-up that examines SFN progression over time. “The authors found that patients with SFN do not report high disability and that progression tends to be slow. Therefore, patients with SFN can be counseled that progression and disability are likely to be modest in most cases. However, when patients do progress quickly, uncommon etiologies should be sought,” the editorialists wrote.

The study was supported by the Mayo Clinic Foundation, Mayo Clinic Center for Individualized Medicine, and Mayo Clinic Center of MS and Autoimmune Neurology. Dr. Klein has received teaching honorarium from Ackea pharmaceuticals for lectures on hereditary transthyretin amyloidosis and Fabry disease, consulted for Pfizer regarding tafamidis (all compensation for consulting activities is paid directly to Mayo Clinic), and participated in the clinical trials for inotersen and patisiran but received no personal compensation for his participation. Dr. Callaghan consults for DynaMed, performs medical legal consultations, including consultations for the Vaccine Injury Compensation Program, and receives research support from the American Academy of Neurology. Dr. Singleton has consulted for Regenacy.

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

Over the past two decades, there has been a significant increase in the number of adults in the United States with small fiber neuropathy (SFN), but in many cases, no cause can be determined. The exact reason for the increase in isolated SFN “remains unclear,” said Christopher J. Klein, MD, of the Mayo Clinic in Rochester, Minn. However, “we noted during the study period the population has had increased BMI, which appears to be a risk factor for this disorder, with many (50%) developing either glucose impairment or frank diabetes during the study period even if not present at first small fiber neuropathy presentation, also with associated higher triglyceride levels,” he explained.

The study was published online October 27 in Neurology.
 

Significant upward trend

Investigators reviewed the records of all 94 adults diagnosed with pure SFN (no large fiber involvement) between 1998 and 2017 in Olmsted and adjacent counties in Minnesota – and compared them with 282 adults of similar age and gender who did not have neuropathy.

The incidence of SFN over the entire study period was 1.3 per 100,000 per year and the prevalence was 13.3 per 100,000.

There was a “significant upward trend” in SFN incidence over the study period that could not be attributed to the availability of intraepidermal nerve fiber density testing, the authors reported.

The median age of onset of SFN was 54 years and two-thirds were women (67%).

Diabetes, obesity, and hypertriglyceridemia were significantly more common in patients with SFN compared with matched controls. These metabolic risk factors are also associated with peripheral neuropathy regardless of fiber type.

Autonomic symptoms were common and generally mild, affecting 85% of patients with SFN, and included male erectile dysfunction, constipation, light-headedness and palpitations, urinary symptoms, diarrhea, dry eyes and mouth, sweat abnormalities, and gastroparesis.

Insomnia and use of opioid pain medication were more common in those with SFN than matched controls.

More than one-third (36%) of patients with SFN developed large fiber neuropathy an average of 5.3 years after developing SFN.

During an average follow-up of 6.1 years, adults with SFN were significantly more likely to suffer myocardial infarction (46% vs. 27%; odds ratio, 2.0; 95% CI, 1.8-4.9), congestive heart failure (27% vs. 12%; OR, 2.6; 95% CI, 1.4-4.8), peripheral vascular disease (22% vs. 6%; OR, 4.0; 95% CI, 1.9-8.1), stroke (24% vs. 10%; OR, 2.8; 95% CI, 1.5-5.3), diabetes (51% vs. 22%; OR, 4.6; 95% CI, 2.8-7.6) and rheumatologic disease (30% vs. 7%; OR, 5.3; 95% CI, 2.8-10.4).

For 70% of patients, no cause for SFN could be determined. Diabetes (15%) was the most common cause identified. Other less common causes included Sjögren syndrome, lupus, amyloidosis, and Fabry disease.

“It is important to quantitatively diagnose patients with SFN as many non-neurological musculoskeletal causes can mimic the disorder,” said Dr. Klein.

“If rates of progression are rapid, sinister causes such as out-of-control diabetes, hereditary [transthyretin] TTR amyloidosis, and Fabry disease can be responsible. For other patients, rates of progression are slow and generally do not lead to significant neurologic impairments,” he added.

“However,” he said, “internal medicine follow-up is important for all as this disorder associates with development with higher risk of cardiovascular disease, including commonly heart attacks.”

Of note, although mean age at death was not significantly different in patients with SFN than controls (70 vs. 73 years), there was a significantly higher number of deaths in patients with SFN (n = 18; 19%) than in matched controls (n = 35; 12%) from the time of symptom onset, the researchers reported.
 

Important research

This “important” study sheds light on the comorbidities and longitudinal consequences of SFN, wrote Brian Callaghan, MD, with the University of Michigan, Ann Arbor, and J. Robinson Singleton, MD, with the University of Utah, Salt Lake City, in an accompanying editorial in Neurology.

The study demonstrates clearly that SFN has “metabolic risk factors similar to those seen for sensory predominant peripheral neuropathies affecting a broader range of fiber types. As a result, therapies that address metabolic risk factors are likely to help prevent or treat both conditions,” they wrote.

Dr. Callaghan and Dr. Singleton added that a key strength of the study is the detailed follow-up that examines SFN progression over time. “The authors found that patients with SFN do not report high disability and that progression tends to be slow. Therefore, patients with SFN can be counseled that progression and disability are likely to be modest in most cases. However, when patients do progress quickly, uncommon etiologies should be sought,” the editorialists wrote.

The study was supported by the Mayo Clinic Foundation, Mayo Clinic Center for Individualized Medicine, and Mayo Clinic Center of MS and Autoimmune Neurology. Dr. Klein has received teaching honorarium from Ackea pharmaceuticals for lectures on hereditary transthyretin amyloidosis and Fabry disease, consulted for Pfizer regarding tafamidis (all compensation for consulting activities is paid directly to Mayo Clinic), and participated in the clinical trials for inotersen and patisiran but received no personal compensation for his participation. Dr. Callaghan consults for DynaMed, performs medical legal consultations, including consultations for the Vaccine Injury Compensation Program, and receives research support from the American Academy of Neurology. Dr. Singleton has consulted for Regenacy.

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

Over the past two decades, there has been a significant increase in the number of adults in the United States with small fiber neuropathy (SFN), but in many cases, no cause can be determined. The exact reason for the increase in isolated SFN “remains unclear,” said Christopher J. Klein, MD, of the Mayo Clinic in Rochester, Minn. However, “we noted during the study period the population has had increased BMI, which appears to be a risk factor for this disorder, with many (50%) developing either glucose impairment or frank diabetes during the study period even if not present at first small fiber neuropathy presentation, also with associated higher triglyceride levels,” he explained.

The study was published online October 27 in Neurology.
 

Significant upward trend

Investigators reviewed the records of all 94 adults diagnosed with pure SFN (no large fiber involvement) between 1998 and 2017 in Olmsted and adjacent counties in Minnesota – and compared them with 282 adults of similar age and gender who did not have neuropathy.

The incidence of SFN over the entire study period was 1.3 per 100,000 per year and the prevalence was 13.3 per 100,000.

There was a “significant upward trend” in SFN incidence over the study period that could not be attributed to the availability of intraepidermal nerve fiber density testing, the authors reported.

The median age of onset of SFN was 54 years and two-thirds were women (67%).

Diabetes, obesity, and hypertriglyceridemia were significantly more common in patients with SFN compared with matched controls. These metabolic risk factors are also associated with peripheral neuropathy regardless of fiber type.

Autonomic symptoms were common and generally mild, affecting 85% of patients with SFN, and included male erectile dysfunction, constipation, light-headedness and palpitations, urinary symptoms, diarrhea, dry eyes and mouth, sweat abnormalities, and gastroparesis.

Insomnia and use of opioid pain medication were more common in those with SFN than matched controls.

More than one-third (36%) of patients with SFN developed large fiber neuropathy an average of 5.3 years after developing SFN.

During an average follow-up of 6.1 years, adults with SFN were significantly more likely to suffer myocardial infarction (46% vs. 27%; odds ratio, 2.0; 95% CI, 1.8-4.9), congestive heart failure (27% vs. 12%; OR, 2.6; 95% CI, 1.4-4.8), peripheral vascular disease (22% vs. 6%; OR, 4.0; 95% CI, 1.9-8.1), stroke (24% vs. 10%; OR, 2.8; 95% CI, 1.5-5.3), diabetes (51% vs. 22%; OR, 4.6; 95% CI, 2.8-7.6) and rheumatologic disease (30% vs. 7%; OR, 5.3; 95% CI, 2.8-10.4).

For 70% of patients, no cause for SFN could be determined. Diabetes (15%) was the most common cause identified. Other less common causes included Sjögren syndrome, lupus, amyloidosis, and Fabry disease.

“It is important to quantitatively diagnose patients with SFN as many non-neurological musculoskeletal causes can mimic the disorder,” said Dr. Klein.

“If rates of progression are rapid, sinister causes such as out-of-control diabetes, hereditary [transthyretin] TTR amyloidosis, and Fabry disease can be responsible. For other patients, rates of progression are slow and generally do not lead to significant neurologic impairments,” he added.

“However,” he said, “internal medicine follow-up is important for all as this disorder associates with development with higher risk of cardiovascular disease, including commonly heart attacks.”

Of note, although mean age at death was not significantly different in patients with SFN than controls (70 vs. 73 years), there was a significantly higher number of deaths in patients with SFN (n = 18; 19%) than in matched controls (n = 35; 12%) from the time of symptom onset, the researchers reported.
 

Important research

This “important” study sheds light on the comorbidities and longitudinal consequences of SFN, wrote Brian Callaghan, MD, with the University of Michigan, Ann Arbor, and J. Robinson Singleton, MD, with the University of Utah, Salt Lake City, in an accompanying editorial in Neurology.

The study demonstrates clearly that SFN has “metabolic risk factors similar to those seen for sensory predominant peripheral neuropathies affecting a broader range of fiber types. As a result, therapies that address metabolic risk factors are likely to help prevent or treat both conditions,” they wrote.

Dr. Callaghan and Dr. Singleton added that a key strength of the study is the detailed follow-up that examines SFN progression over time. “The authors found that patients with SFN do not report high disability and that progression tends to be slow. Therefore, patients with SFN can be counseled that progression and disability are likely to be modest in most cases. However, when patients do progress quickly, uncommon etiologies should be sought,” the editorialists wrote.

The study was supported by the Mayo Clinic Foundation, Mayo Clinic Center for Individualized Medicine, and Mayo Clinic Center of MS and Autoimmune Neurology. Dr. Klein has received teaching honorarium from Ackea pharmaceuticals for lectures on hereditary transthyretin amyloidosis and Fabry disease, consulted for Pfizer regarding tafamidis (all compensation for consulting activities is paid directly to Mayo Clinic), and participated in the clinical trials for inotersen and patisiran but received no personal compensation for his participation. Dr. Callaghan consults for DynaMed, performs medical legal consultations, including consultations for the Vaccine Injury Compensation Program, and receives research support from the American Academy of Neurology. Dr. Singleton has consulted for Regenacy.

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

Influenza infection is linked to a subsequent diagnosis of Parkinson’s disease (PD) more than 10 years later, resurfacing a long-held debate about whether infection increases the risk for movement disorders over the long term.

In a large case-control study, investigators found the odds of PD were elevated by approximately 90% for PD that occurred more than 15 years after influenza infection and by more than 70% for PD occurring more than 10 years after the flu.

“This study is not definitive by any means, but it certainly suggests there are potential long-term consequences from influenza,” study investigator Noelle M. Cocoros, DSc, research scientist at Harvard Pilgrim Health Care Institute and Harvard Medical School, Boston, said in an interview.

The study was published online Oct. 25 in JAMA Neurology.

Ongoing debate

The debate about whether influenza is associated with PD has been going on as far back as the 1918 influenza pandemic, when experts documented parkinsonism in affected individuals.

Using data from the Danish patient registry, researchers identified 10,271 subjects diagnosed with PD during a 17-year period (2000-2016). Of these, 38.7% were female, and the mean age was 71.4 years.

They matched these subjects for age and sex to 51,355 controls without PD. Compared with controls, slightly fewer individuals with PD had chronic obstructive pulmonary disease (COPD) or emphysema, but there was a similar distribution of cardiovascular disease and various other conditions.

Researchers collected data on influenza diagnoses from inpatient and outpatient hospital clinics from 1977 to 2016. They plotted these by month and year on a graph, calculated the median number of diagnoses per month, and identified peaks as those with more than threefold the median.

They categorized cases in groups related to the time between the infection and PD: More than 10 years, 10-15 years, and more than 15 years.

The time lapse accounts for a rather long “run-up” to PD, said Dr. Cocoros. There’s a sometimes decades-long preclinical phase before patients develop typical motor signs and a prodromal phase where they may present with nonmotor symptoms such as sleep disorders and constipation.

“We expected there would be at least 10 years between any infection and PD if there was an association present,” said Dr. Cocoros.

Investigators found an association between influenza exposure and PD diagnosis “that held up over time,” she said.

For more than 10 years before PD, the likelihood of a diagnosis for the infected compared with the unexposed was increased 73% (odds ratio [OR] 1.73; 95% confidence interval, 1.11-2.71; P = .02) after adjustment for cardiovascular disease, diabetes, chronic obstructive pulmonary disease, emphysema, lung cancer, Crohn’s disease, and ulcerative colitis.

The odds increased with more time from infection. For more than 15 years, the adjusted OR was 1.91 (95% CI, 1.14 - 3.19; P =.01).

However, for the 10- to 15-year time frame, the point estimate was reduced and the CI nonsignificant (OR, 1.33; 95% CI, 0.54-3.27; P = .53). This “is a little hard to interpret,” but could be a result of the small numbers, exposure misclassification, or because “the longer time interval is what’s meaningful,” said Dr. Cocoros.
 

Potential COVID-19–related PD surge?

In a sensitivity analysis, researchers looked at peak infection activity. “We wanted to increase the likelihood of these diagnoses representing actual infection,” Dr. Cocoros noted.

Here, the OR was still elevated at more than 10 years, but the CI was quite wide and included 1 (OR, 1.52; 95% CI, 0.80-2.89; P = .21). “So the association holds up, but the estimates are quite unstable,” said Dr. Cocoros.

Researchers examined associations with numerous other infection types, but did not see the same trend over time. Some infections – for example, gastrointestinal infections and septicemia – were associated with PD within 5 years, but most associations appeared to be null after more than 10 years.

“There seemed to be associations earlier between the infection and PD, which we interpret to suggest there’s actually not a meaningful association,” said Dr. Cocoros.

An exception might be urinary tract infections (UTIs), where after 10 years, the adjusted OR was 1.19 (95% CI, 1.01-1.40). Research suggests patients with PD often have UTIs and neurogenic bladder.

“It’s possible that UTIs could be an early symptom of PD rather than a causative factor,” said Dr. Cocoros.

It’s unclear how influenza might lead to PD but it could be that the virus gets into the central nervous system, resulting in neuroinflammation. Cytokines generated in response to the influenza infection might damage the brain.

“The infection could be a ‘primer’ or an initial ‘hit’ to the system, maybe setting people up for PD,” said Dr. Cocoros.

As for the current COVID-19 pandemic, some experts are concerned about a potential surge in PD cases in decades to come, and are calling for prospective monitoring of patients with this infection, said Dr. Cocoros.

However, she noted that infections don’t account for all PD cases and that genetic and environmental factors also influence risk.

Many individuals who contract influenza don’t seek medical care or get tested, so it’s possible the study counted those who had the infection as unexposed. Another potential study limitation was that small numbers for some infections, for example, Helicobacter pylori and hepatitis C, limited the ability to interpret results.
 

‘Exciting and important’ findings

Commenting on the research for this news organization, Aparna Wagle Shukla, MD, professor, Norman Fixel Institute for Neurological Diseases, University of Florida, Gainesville, said the results amid the current pandemic are “exciting and important” and “have reinvigorated interest” in the role of infection in PD.

However, the study had some limitations, an important one being lack of accounting for confounding factors, including environmental factors, she said. Exposure to pesticides, living in a rural area, drinking well water, and having had a head injury may increase PD risk, whereas high intake of caffeine, nicotine, alcohol, and nonsteroidal anti-inflammatory drugs might lower the risk.

The researchers did not take into account exposure to multiple microbes or “infection burden,” said Dr. Wagle Shukla, who was not involved in the current study. In addition, as the data are from a single country with exposure to specific influenza strains, application of the findings elsewhere may be limited.

Dr. Wagle Shukla noted that a case-control design “isn’t ideal” from an epidemiological perspective. “Future studies should involve large cohorts followed longitudinally.”

The study was supported by grants from the Lundbeck Foundation and the Augustinus Foundation. Dr. Cocoros has disclosed no relevant financial relationships. Several coauthors have disclosed relationships with industry. The full list can be found with the original article.

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

Influenza infection is linked to a subsequent diagnosis of Parkinson’s disease (PD) more than 10 years later, resurfacing a long-held debate about whether infection increases the risk for movement disorders over the long term.

In a large case-control study, investigators found the odds of PD were elevated by approximately 90% for PD that occurred more than 15 years after influenza infection and by more than 70% for PD occurring more than 10 years after the flu.

“This study is not definitive by any means, but it certainly suggests there are potential long-term consequences from influenza,” study investigator Noelle M. Cocoros, DSc, research scientist at Harvard Pilgrim Health Care Institute and Harvard Medical School, Boston, said in an interview.

The study was published online Oct. 25 in JAMA Neurology.

Ongoing debate

The debate about whether influenza is associated with PD has been going on as far back as the 1918 influenza pandemic, when experts documented parkinsonism in affected individuals.

Using data from the Danish patient registry, researchers identified 10,271 subjects diagnosed with PD during a 17-year period (2000-2016). Of these, 38.7% were female, and the mean age was 71.4 years.

They matched these subjects for age and sex to 51,355 controls without PD. Compared with controls, slightly fewer individuals with PD had chronic obstructive pulmonary disease (COPD) or emphysema, but there was a similar distribution of cardiovascular disease and various other conditions.

Researchers collected data on influenza diagnoses from inpatient and outpatient hospital clinics from 1977 to 2016. They plotted these by month and year on a graph, calculated the median number of diagnoses per month, and identified peaks as those with more than threefold the median.

They categorized cases in groups related to the time between the infection and PD: More than 10 years, 10-15 years, and more than 15 years.

The time lapse accounts for a rather long “run-up” to PD, said Dr. Cocoros. There’s a sometimes decades-long preclinical phase before patients develop typical motor signs and a prodromal phase where they may present with nonmotor symptoms such as sleep disorders and constipation.

“We expected there would be at least 10 years between any infection and PD if there was an association present,” said Dr. Cocoros.

Investigators found an association between influenza exposure and PD diagnosis “that held up over time,” she said.

For more than 10 years before PD, the likelihood of a diagnosis for the infected compared with the unexposed was increased 73% (odds ratio [OR] 1.73; 95% confidence interval, 1.11-2.71; P = .02) after adjustment for cardiovascular disease, diabetes, chronic obstructive pulmonary disease, emphysema, lung cancer, Crohn’s disease, and ulcerative colitis.

The odds increased with more time from infection. For more than 15 years, the adjusted OR was 1.91 (95% CI, 1.14 - 3.19; P =.01).

However, for the 10- to 15-year time frame, the point estimate was reduced and the CI nonsignificant (OR, 1.33; 95% CI, 0.54-3.27; P = .53). This “is a little hard to interpret,” but could be a result of the small numbers, exposure misclassification, or because “the longer time interval is what’s meaningful,” said Dr. Cocoros.
 

Potential COVID-19–related PD surge?

In a sensitivity analysis, researchers looked at peak infection activity. “We wanted to increase the likelihood of these diagnoses representing actual infection,” Dr. Cocoros noted.

Here, the OR was still elevated at more than 10 years, but the CI was quite wide and included 1 (OR, 1.52; 95% CI, 0.80-2.89; P = .21). “So the association holds up, but the estimates are quite unstable,” said Dr. Cocoros.

Researchers examined associations with numerous other infection types, but did not see the same trend over time. Some infections – for example, gastrointestinal infections and septicemia – were associated with PD within 5 years, but most associations appeared to be null after more than 10 years.

“There seemed to be associations earlier between the infection and PD, which we interpret to suggest there’s actually not a meaningful association,” said Dr. Cocoros.

An exception might be urinary tract infections (UTIs), where after 10 years, the adjusted OR was 1.19 (95% CI, 1.01-1.40). Research suggests patients with PD often have UTIs and neurogenic bladder.

“It’s possible that UTIs could be an early symptom of PD rather than a causative factor,” said Dr. Cocoros.

It’s unclear how influenza might lead to PD but it could be that the virus gets into the central nervous system, resulting in neuroinflammation. Cytokines generated in response to the influenza infection might damage the brain.

“The infection could be a ‘primer’ or an initial ‘hit’ to the system, maybe setting people up for PD,” said Dr. Cocoros.

As for the current COVID-19 pandemic, some experts are concerned about a potential surge in PD cases in decades to come, and are calling for prospective monitoring of patients with this infection, said Dr. Cocoros.

However, she noted that infections don’t account for all PD cases and that genetic and environmental factors also influence risk.

Many individuals who contract influenza don’t seek medical care or get tested, so it’s possible the study counted those who had the infection as unexposed. Another potential study limitation was that small numbers for some infections, for example, Helicobacter pylori and hepatitis C, limited the ability to interpret results.
 

‘Exciting and important’ findings

Commenting on the research for this news organization, Aparna Wagle Shukla, MD, professor, Norman Fixel Institute for Neurological Diseases, University of Florida, Gainesville, said the results amid the current pandemic are “exciting and important” and “have reinvigorated interest” in the role of infection in PD.

However, the study had some limitations, an important one being lack of accounting for confounding factors, including environmental factors, she said. Exposure to pesticides, living in a rural area, drinking well water, and having had a head injury may increase PD risk, whereas high intake of caffeine, nicotine, alcohol, and nonsteroidal anti-inflammatory drugs might lower the risk.

The researchers did not take into account exposure to multiple microbes or “infection burden,” said Dr. Wagle Shukla, who was not involved in the current study. In addition, as the data are from a single country with exposure to specific influenza strains, application of the findings elsewhere may be limited.

Dr. Wagle Shukla noted that a case-control design “isn’t ideal” from an epidemiological perspective. “Future studies should involve large cohorts followed longitudinally.”

The study was supported by grants from the Lundbeck Foundation and the Augustinus Foundation. Dr. Cocoros has disclosed no relevant financial relationships. Several coauthors have disclosed relationships with industry. The full list can be found with the original article.

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

Influenza infection is linked to a subsequent diagnosis of Parkinson’s disease (PD) more than 10 years later, resurfacing a long-held debate about whether infection increases the risk for movement disorders over the long term.

In a large case-control study, investigators found the odds of PD were elevated by approximately 90% for PD that occurred more than 15 years after influenza infection and by more than 70% for PD occurring more than 10 years after the flu.

“This study is not definitive by any means, but it certainly suggests there are potential long-term consequences from influenza,” study investigator Noelle M. Cocoros, DSc, research scientist at Harvard Pilgrim Health Care Institute and Harvard Medical School, Boston, said in an interview.

The study was published online Oct. 25 in JAMA Neurology.

Ongoing debate

The debate about whether influenza is associated with PD has been going on as far back as the 1918 influenza pandemic, when experts documented parkinsonism in affected individuals.

Using data from the Danish patient registry, researchers identified 10,271 subjects diagnosed with PD during a 17-year period (2000-2016). Of these, 38.7% were female, and the mean age was 71.4 years.

They matched these subjects for age and sex to 51,355 controls without PD. Compared with controls, slightly fewer individuals with PD had chronic obstructive pulmonary disease (COPD) or emphysema, but there was a similar distribution of cardiovascular disease and various other conditions.

Researchers collected data on influenza diagnoses from inpatient and outpatient hospital clinics from 1977 to 2016. They plotted these by month and year on a graph, calculated the median number of diagnoses per month, and identified peaks as those with more than threefold the median.

They categorized cases in groups related to the time between the infection and PD: More than 10 years, 10-15 years, and more than 15 years.

The time lapse accounts for a rather long “run-up” to PD, said Dr. Cocoros. There’s a sometimes decades-long preclinical phase before patients develop typical motor signs and a prodromal phase where they may present with nonmotor symptoms such as sleep disorders and constipation.

“We expected there would be at least 10 years between any infection and PD if there was an association present,” said Dr. Cocoros.

Investigators found an association between influenza exposure and PD diagnosis “that held up over time,” she said.

For more than 10 years before PD, the likelihood of a diagnosis for the infected compared with the unexposed was increased 73% (odds ratio [OR] 1.73; 95% confidence interval, 1.11-2.71; P = .02) after adjustment for cardiovascular disease, diabetes, chronic obstructive pulmonary disease, emphysema, lung cancer, Crohn’s disease, and ulcerative colitis.

The odds increased with more time from infection. For more than 15 years, the adjusted OR was 1.91 (95% CI, 1.14 - 3.19; P =.01).

However, for the 10- to 15-year time frame, the point estimate was reduced and the CI nonsignificant (OR, 1.33; 95% CI, 0.54-3.27; P = .53). This “is a little hard to interpret,” but could be a result of the small numbers, exposure misclassification, or because “the longer time interval is what’s meaningful,” said Dr. Cocoros.
 

Potential COVID-19–related PD surge?

In a sensitivity analysis, researchers looked at peak infection activity. “We wanted to increase the likelihood of these diagnoses representing actual infection,” Dr. Cocoros noted.

Here, the OR was still elevated at more than 10 years, but the CI was quite wide and included 1 (OR, 1.52; 95% CI, 0.80-2.89; P = .21). “So the association holds up, but the estimates are quite unstable,” said Dr. Cocoros.

Researchers examined associations with numerous other infection types, but did not see the same trend over time. Some infections – for example, gastrointestinal infections and septicemia – were associated with PD within 5 years, but most associations appeared to be null after more than 10 years.

“There seemed to be associations earlier between the infection and PD, which we interpret to suggest there’s actually not a meaningful association,” said Dr. Cocoros.

An exception might be urinary tract infections (UTIs), where after 10 years, the adjusted OR was 1.19 (95% CI, 1.01-1.40). Research suggests patients with PD often have UTIs and neurogenic bladder.

“It’s possible that UTIs could be an early symptom of PD rather than a causative factor,” said Dr. Cocoros.

It’s unclear how influenza might lead to PD but it could be that the virus gets into the central nervous system, resulting in neuroinflammation. Cytokines generated in response to the influenza infection might damage the brain.

“The infection could be a ‘primer’ or an initial ‘hit’ to the system, maybe setting people up for PD,” said Dr. Cocoros.

As for the current COVID-19 pandemic, some experts are concerned about a potential surge in PD cases in decades to come, and are calling for prospective monitoring of patients with this infection, said Dr. Cocoros.

However, she noted that infections don’t account for all PD cases and that genetic and environmental factors also influence risk.

Many individuals who contract influenza don’t seek medical care or get tested, so it’s possible the study counted those who had the infection as unexposed. Another potential study limitation was that small numbers for some infections, for example, Helicobacter pylori and hepatitis C, limited the ability to interpret results.
 

‘Exciting and important’ findings

Commenting on the research for this news organization, Aparna Wagle Shukla, MD, professor, Norman Fixel Institute for Neurological Diseases, University of Florida, Gainesville, said the results amid the current pandemic are “exciting and important” and “have reinvigorated interest” in the role of infection in PD.

However, the study had some limitations, an important one being lack of accounting for confounding factors, including environmental factors, she said. Exposure to pesticides, living in a rural area, drinking well water, and having had a head injury may increase PD risk, whereas high intake of caffeine, nicotine, alcohol, and nonsteroidal anti-inflammatory drugs might lower the risk.

The researchers did not take into account exposure to multiple microbes or “infection burden,” said Dr. Wagle Shukla, who was not involved in the current study. In addition, as the data are from a single country with exposure to specific influenza strains, application of the findings elsewhere may be limited.

Dr. Wagle Shukla noted that a case-control design “isn’t ideal” from an epidemiological perspective. “Future studies should involve large cohorts followed longitudinally.”

The study was supported by grants from the Lundbeck Foundation and the Augustinus Foundation. Dr. Cocoros has disclosed no relevant financial relationships. Several coauthors have disclosed relationships with industry. The full list can be found with the original article.

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

Sleeping too much or too little can lead to cognitive decline over time, but new research suggests there could be a sleep time “sweet spot” that stabilizes cognitive function.

JGI/Tom Grill/Getty Images

In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.

“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.

The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
 

A complex relationship

Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.

An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.

For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.

Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.

The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.

As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.

Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.

Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).

The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).

The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta ₄₂ ratio, apo E four-allele carrier status, years of education, and sex.

Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.

“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
 

A component of cognitive health

Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.

“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.

“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”

The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.

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

Sleeping too much or too little can lead to cognitive decline over time, but new research suggests there could be a sleep time “sweet spot” that stabilizes cognitive function.

JGI/Tom Grill/Getty Images

In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.

“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.

The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
 

A complex relationship

Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.

An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.

For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.

Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.

The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.

As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.

Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.

Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).

The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).

The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta ₄₂ ratio, apo E four-allele carrier status, years of education, and sex.

Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.

“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
 

A component of cognitive health

Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.

“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.

“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”

The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.

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

Sleeping too much or too little can lead to cognitive decline over time, but new research suggests there could be a sleep time “sweet spot” that stabilizes cognitive function.

JGI/Tom Grill/Getty Images

In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.

“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.

The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
 

A complex relationship

Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.

An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.

For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.

Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.

The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.

As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.

Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.

Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).

The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).

The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta ₄₂ ratio, apo E four-allele carrier status, years of education, and sex.

Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.

“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
 

A component of cognitive health

Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.

“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.

“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”

The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.

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