Neurology

Rhythmic brain signals that help encode memories also appear to influence blood sugar levels and may regulate the timing of the release of hormones, early, pre-clinical research shows.

“Our study is the first to show how clusters of brain cell firing in the hippocampus may directly regulate metabolism,” senior author György Buzsáki, MD, PhD, professor, department of neuroscience and physiology, NYU Grossman School of Medicine and NYU Langone Health, said in a news release.

“Evidence suggests that the brain evolved, for reasons of efficiency, to use the same signals to achieve two very different functions in terms of memory and hormonal regulation,” added corresponding author David Tingley, PhD, a post-doctoral scholar in Dr. Buzsáki’s lab.

Additional research may also reveal devices or therapies that can adjust the brain signals to lower blood sugar and improve memory, the researchers say.

The study was published online August 11 in Nature.

It’s recently been discovered that populations of hippocampal neurons fire within milliseconds of each other in cycles. This firing pattern is called a “sharp wave ripple” for the shape it takes when captured graphically by electroencephalogram.

In their study, Dr. Buzsáki, Dr. Tingley, and colleagues observed that clusters of sharp wave ripples recorded from the hippocampus of rats were “reliably” and rapidly, followed by decreases in blood sugar concentrations in the animals.

“This correlation was not dependent on circadian, ultradian, or meal-triggered fluctuations; it could be mimicked with optogenetically induced ripples in the hippocampus, but not in the parietal cortex, and was attenuated to chance levels by pharmacogenetically suppressing activity of the lateral septum (LS), the major conduit between the hippocampus and hypothalamus,” the researchers report.

These observations suggest that hippocampal sharp wave ripples may regulate the timing of the release of hormones, possibly including insulin, by the pancreas and liver, as well as other hormones by the pituitary gland, the researchers note.

As sharp wave ripples mostly occur during non-rapid eye movement sleep, the impact of sleep disturbance on sharp wave ripples may provide a mechanistic link between poor sleep and high blood sugar levels seen in type 2 diabetes, they suggest.

“There are a couple of experimental studies showing that if you deprive a young healthy person from sleep [for 48 hours], their glucose tolerance resembles” that of a person with diabetes, Dr. Buzsáki noted in an interview.

Moving forward, the researchers will seek to extend their theory that several hormones could be affected by nightly sharp wave ripples.

The research was funded by National Institutes of Health. The authors have disclosed no relevant financial relationships.

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

Rhythmic brain signals that help encode memories also appear to influence blood sugar levels and may regulate the timing of the release of hormones, early, pre-clinical research shows.

“Our study is the first to show how clusters of brain cell firing in the hippocampus may directly regulate metabolism,” senior author György Buzsáki, MD, PhD, professor, department of neuroscience and physiology, NYU Grossman School of Medicine and NYU Langone Health, said in a news release.

“Evidence suggests that the brain evolved, for reasons of efficiency, to use the same signals to achieve two very different functions in terms of memory and hormonal regulation,” added corresponding author David Tingley, PhD, a post-doctoral scholar in Dr. Buzsáki’s lab.

Additional research may also reveal devices or therapies that can adjust the brain signals to lower blood sugar and improve memory, the researchers say.

The study was published online August 11 in Nature.

It’s recently been discovered that populations of hippocampal neurons fire within milliseconds of each other in cycles. This firing pattern is called a “sharp wave ripple” for the shape it takes when captured graphically by electroencephalogram.

In their study, Dr. Buzsáki, Dr. Tingley, and colleagues observed that clusters of sharp wave ripples recorded from the hippocampus of rats were “reliably” and rapidly, followed by decreases in blood sugar concentrations in the animals.

“This correlation was not dependent on circadian, ultradian, or meal-triggered fluctuations; it could be mimicked with optogenetically induced ripples in the hippocampus, but not in the parietal cortex, and was attenuated to chance levels by pharmacogenetically suppressing activity of the lateral septum (LS), the major conduit between the hippocampus and hypothalamus,” the researchers report.

These observations suggest that hippocampal sharp wave ripples may regulate the timing of the release of hormones, possibly including insulin, by the pancreas and liver, as well as other hormones by the pituitary gland, the researchers note.

As sharp wave ripples mostly occur during non-rapid eye movement sleep, the impact of sleep disturbance on sharp wave ripples may provide a mechanistic link between poor sleep and high blood sugar levels seen in type 2 diabetes, they suggest.

“There are a couple of experimental studies showing that if you deprive a young healthy person from sleep [for 48 hours], their glucose tolerance resembles” that of a person with diabetes, Dr. Buzsáki noted in an interview.

Moving forward, the researchers will seek to extend their theory that several hormones could be affected by nightly sharp wave ripples.

The research was funded by National Institutes of Health. The authors have disclosed no relevant financial relationships.

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

Rhythmic brain signals that help encode memories also appear to influence blood sugar levels and may regulate the timing of the release of hormones, early, pre-clinical research shows.

“Our study is the first to show how clusters of brain cell firing in the hippocampus may directly regulate metabolism,” senior author György Buzsáki, MD, PhD, professor, department of neuroscience and physiology, NYU Grossman School of Medicine and NYU Langone Health, said in a news release.

“Evidence suggests that the brain evolved, for reasons of efficiency, to use the same signals to achieve two very different functions in terms of memory and hormonal regulation,” added corresponding author David Tingley, PhD, a post-doctoral scholar in Dr. Buzsáki’s lab.

Additional research may also reveal devices or therapies that can adjust the brain signals to lower blood sugar and improve memory, the researchers say.

The study was published online August 11 in Nature.

It’s recently been discovered that populations of hippocampal neurons fire within milliseconds of each other in cycles. This firing pattern is called a “sharp wave ripple” for the shape it takes when captured graphically by electroencephalogram.

In their study, Dr. Buzsáki, Dr. Tingley, and colleagues observed that clusters of sharp wave ripples recorded from the hippocampus of rats were “reliably” and rapidly, followed by decreases in blood sugar concentrations in the animals.

“This correlation was not dependent on circadian, ultradian, or meal-triggered fluctuations; it could be mimicked with optogenetically induced ripples in the hippocampus, but not in the parietal cortex, and was attenuated to chance levels by pharmacogenetically suppressing activity of the lateral septum (LS), the major conduit between the hippocampus and hypothalamus,” the researchers report.

These observations suggest that hippocampal sharp wave ripples may regulate the timing of the release of hormones, possibly including insulin, by the pancreas and liver, as well as other hormones by the pituitary gland, the researchers note.

As sharp wave ripples mostly occur during non-rapid eye movement sleep, the impact of sleep disturbance on sharp wave ripples may provide a mechanistic link between poor sleep and high blood sugar levels seen in type 2 diabetes, they suggest.

“There are a couple of experimental studies showing that if you deprive a young healthy person from sleep [for 48 hours], their glucose tolerance resembles” that of a person with diabetes, Dr. Buzsáki noted in an interview.

Moving forward, the researchers will seek to extend their theory that several hormones could be affected by nightly sharp wave ripples.

The research was funded by National Institutes of Health. The authors have disclosed no relevant financial relationships.

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

The Food and Drug Administration has approved an oral solution of calcium, magnesium, potassium, and sodium oxybates (Xywav) for the treatment of idiopathic hypersomnia in adults, the company announced in a news release.

It marks the second approval for Xywav. The FDA approved it last year for the treatment of cataplexy or excessive daytime sleepiness in patients with narcolepsy as young as 7 years of age.

This recent approval is the first for a treatment for idiopathic hypersomnia.

“Idiopathic hypersomnia can have a significant impact on the social, educational, and occupational functioning of people living with the condition,” Diane Powell, board chair and CEO of the Hypersomnia Foundation, noted in the release.

This FDA approval “is a major milestone for the entire idiopathic hypersomnia community as Xywav becomes the first medicine approved to manage this chronic sleep disorder,” said Ms. Powell.

Low sodium oxybate product

Xywav is a novel oxybate product with a unique composition of cations. It contains 92% less sodium than sodium oxybate (Xyrem) at the recommended adult dosage range of 6 to 9 g, the company noted in a news release.

An estimated 37,000 people in the United States have been diagnosed with idiopathic hypersomnia, a neurologic sleep disorder characterized by chronic excessive daytime sleepiness.

Other symptoms of the disorder may include severe sleep inertia or sleep drunkenness (prolonged difficulty waking with frequent re-entries into sleep, confusion, and irritability), as well as prolonged, nonrestorative night-time sleep, cognitive impairment, and long and unrefreshing naps.

The approval was based on findings from a phase 3, double-blind, multicenter, placebo-controlled, randomized withdrawal study.

Results showed “statistically significant and clinically meaningful” differences compared with placebo in change in the primary endpoint of Epworth Sleepiness Scale score (P < .0001) and the secondary endpoints of Patient Global Impression of Change (P < .0001) and the Idiopathic Hypersomnia Severity Scale (P < .0001), the company reported.

The most common adverse reactions were nausea, headache, dizziness, anxiety, insomnia, decreased appetite, hyperhidrosis, vomiting, diarrhea, dry mouth, parasomnia, somnolence, fatigue, and tremor.

The novel agent can be administered once or twice nightly for the treatment of idiopathic hypersomnia in adults.

“To optimize response, a patient’s health care provider may consider prescribing a twice-nightly regimen in equally or unequally divided doses at bedtime and 2.5 to 4 hours later and gradually titrate Xywav so that a patient may receive an individualized dose and regimen based on efficacy and tolerability,” the company said.

Xywav carries a boxed warning because it is a central nervous system depressant and because there is potential for abuse and misuse. The drug is only available through a risk evaluation and mitigation strategy (REMS) program.

The company plans to make Xywav available to patients with idiopathic hypersomnia later this year following implementation of the REMS program.

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

The Food and Drug Administration has approved an oral solution of calcium, magnesium, potassium, and sodium oxybates (Xywav) for the treatment of idiopathic hypersomnia in adults, the company announced in a news release.

It marks the second approval for Xywav. The FDA approved it last year for the treatment of cataplexy or excessive daytime sleepiness in patients with narcolepsy as young as 7 years of age.

This recent approval is the first for a treatment for idiopathic hypersomnia.

“Idiopathic hypersomnia can have a significant impact on the social, educational, and occupational functioning of people living with the condition,” Diane Powell, board chair and CEO of the Hypersomnia Foundation, noted in the release.

This FDA approval “is a major milestone for the entire idiopathic hypersomnia community as Xywav becomes the first medicine approved to manage this chronic sleep disorder,” said Ms. Powell.

Low sodium oxybate product

Xywav is a novel oxybate product with a unique composition of cations. It contains 92% less sodium than sodium oxybate (Xyrem) at the recommended adult dosage range of 6 to 9 g, the company noted in a news release.

An estimated 37,000 people in the United States have been diagnosed with idiopathic hypersomnia, a neurologic sleep disorder characterized by chronic excessive daytime sleepiness.

Other symptoms of the disorder may include severe sleep inertia or sleep drunkenness (prolonged difficulty waking with frequent re-entries into sleep, confusion, and irritability), as well as prolonged, nonrestorative night-time sleep, cognitive impairment, and long and unrefreshing naps.

The approval was based on findings from a phase 3, double-blind, multicenter, placebo-controlled, randomized withdrawal study.

Results showed “statistically significant and clinically meaningful” differences compared with placebo in change in the primary endpoint of Epworth Sleepiness Scale score (P < .0001) and the secondary endpoints of Patient Global Impression of Change (P < .0001) and the Idiopathic Hypersomnia Severity Scale (P < .0001), the company reported.

The most common adverse reactions were nausea, headache, dizziness, anxiety, insomnia, decreased appetite, hyperhidrosis, vomiting, diarrhea, dry mouth, parasomnia, somnolence, fatigue, and tremor.

The novel agent can be administered once or twice nightly for the treatment of idiopathic hypersomnia in adults.

“To optimize response, a patient’s health care provider may consider prescribing a twice-nightly regimen in equally or unequally divided doses at bedtime and 2.5 to 4 hours later and gradually titrate Xywav so that a patient may receive an individualized dose and regimen based on efficacy and tolerability,” the company said.

Xywav carries a boxed warning because it is a central nervous system depressant and because there is potential for abuse and misuse. The drug is only available through a risk evaluation and mitigation strategy (REMS) program.

The company plans to make Xywav available to patients with idiopathic hypersomnia later this year following implementation of the REMS program.

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

The Food and Drug Administration has approved an oral solution of calcium, magnesium, potassium, and sodium oxybates (Xywav) for the treatment of idiopathic hypersomnia in adults, the company announced in a news release.

It marks the second approval for Xywav. The FDA approved it last year for the treatment of cataplexy or excessive daytime sleepiness in patients with narcolepsy as young as 7 years of age.

This recent approval is the first for a treatment for idiopathic hypersomnia.

“Idiopathic hypersomnia can have a significant impact on the social, educational, and occupational functioning of people living with the condition,” Diane Powell, board chair and CEO of the Hypersomnia Foundation, noted in the release.

This FDA approval “is a major milestone for the entire idiopathic hypersomnia community as Xywav becomes the first medicine approved to manage this chronic sleep disorder,” said Ms. Powell.

Low sodium oxybate product

Xywav is a novel oxybate product with a unique composition of cations. It contains 92% less sodium than sodium oxybate (Xyrem) at the recommended adult dosage range of 6 to 9 g, the company noted in a news release.

An estimated 37,000 people in the United States have been diagnosed with idiopathic hypersomnia, a neurologic sleep disorder characterized by chronic excessive daytime sleepiness.

Other symptoms of the disorder may include severe sleep inertia or sleep drunkenness (prolonged difficulty waking with frequent re-entries into sleep, confusion, and irritability), as well as prolonged, nonrestorative night-time sleep, cognitive impairment, and long and unrefreshing naps.

The approval was based on findings from a phase 3, double-blind, multicenter, placebo-controlled, randomized withdrawal study.

Results showed “statistically significant and clinically meaningful” differences compared with placebo in change in the primary endpoint of Epworth Sleepiness Scale score (P < .0001) and the secondary endpoints of Patient Global Impression of Change (P < .0001) and the Idiopathic Hypersomnia Severity Scale (P < .0001), the company reported.

The most common adverse reactions were nausea, headache, dizziness, anxiety, insomnia, decreased appetite, hyperhidrosis, vomiting, diarrhea, dry mouth, parasomnia, somnolence, fatigue, and tremor.

The novel agent can be administered once or twice nightly for the treatment of idiopathic hypersomnia in adults.

“To optimize response, a patient’s health care provider may consider prescribing a twice-nightly regimen in equally or unequally divided doses at bedtime and 2.5 to 4 hours later and gradually titrate Xywav so that a patient may receive an individualized dose and regimen based on efficacy and tolerability,” the company said.

Xywav carries a boxed warning because it is a central nervous system depressant and because there is potential for abuse and misuse. The drug is only available through a risk evaluation and mitigation strategy (REMS) program.

The company plans to make Xywav available to patients with idiopathic hypersomnia later this year following implementation of the REMS program.

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

In a large study of community-based stroke survivors in Canada, researchers found those meeting guideline-recommended levels of physical activity had a significantly lower risk for death from any cause, with a greater than 50% reduction in risk.

Lead study author Raed A. Joundi, MD, DPhil, of the University of Calgary (Alta.), said he expected results to show exercise was beneficial, but was surprised by the magnitude of the association between physical activity and lower mortality risk.

The impact of physical activity also differed significantly by age; those younger than 75 had a 79% reduction in mortality risk, compared with 32% in those age 75 and older.

“This is even after adjusting for factors such heart disease, respiratory conditions, smoking, and other functional limitations,” said Dr. Joundi.

The study was published online Aug. 11 in the journal Neurology.

For this analysis, the researchers used data on a cohort of people across Canada (excluding the province of Quebec) over 3-9 years. The 895 patients with prior stroke averaged 72 years of age, while the 97,805 in the control group had an average age of 63.

Weekly physical activity averages were evaluated using the self-reporting Canadian Community Health Survey, which was linked with administrative databases to evaluate the association of physical activity with long-term risk for mortality among stroke survivors, compared with controls.

Physical activity was measured in metabolic equivalents (METs); meeting minimum physical activity guidelines was defined as 10 MET-hours/week.

During the study period, more stroke patients than controls died (24.7% vs. 5.7%). However, those who met the physical activity guideline recommendations of 10 MET-hours/week had a lower mortality, both in the stroke survivor group (14.6% vs. 33.2%; adjusted hazard ratio, 0.46; 95% confidence interval, 0.29-0.73) and among control participants (3.6% vs. 7.9%; aHR 0.69; 95% CI, 0.62-0.76).  

The largest absolute and relative reduction in mortality was among stroke respondents younger than 75 (10.5% vs. 29%; aHR, 0.21; 95% CI, 0.10-0.43), the researchers note.

There was a significant interaction with age for the stroke patients but not the control group.

“The greatest reduction in mortality was seen between 0 and 10 METs per week … so the main point is that something is better than nothing,” said Dr. Joundi.
 

Exercise guidelines for the future

Although current guidelines recommend physical activity in stroke survivors, investigators noted that these are largely based on studies in the general population. Therefore, the aim of this research was to get a better understanding of the role of physical activity in the health of stroke survivors in the community, which could ultimately be used to design improved public health campaigns and physical activity interventions.

Given that this is a large study of stroke survivors in the community, Dr. Joundi hopes the results will influence future activity guidelines for those who have suffered a stroke.

“We found a log-linear relationship between physical activity and mortality such that 10 MET-hours/week was associated with large reductions in mortality with most benefit achieved by 20 MET-hours/week,” the authors concluded. “These thresholds could be considered for use in future guidelines for stroke.”

Clinical trials are underway to provide evidence for the implementation of exercise programs after stroke, they add, and offering physical activity programs to stroke survivors in the community “is an increasing priority in the U.S., Canada, and Europe.”

“People are at higher risk of death early on after a stroke but also months and years later, so if we can identify a relatively low-cost and easy intervention like physical activity to improve health and reduce the risk of death for stroke survivors it would be important,” Dr. Joundi said.
 

Key barriers

Paul George, MD, PhD, a stroke and vascular neurologist at Stanford (Calif.) University, said findings such as these further strengthen the argument that physical exercise is important after stroke.

“Because the study looked specifically at stroke patients, it can provide further guidance on physical activity recommendations that we provide to our patients following stroke,” said Dr. George, who was not associated with the study. 

Going forward, he said, more research is needed to identify specifically what is preventing stroke patients from exercising more. What is required, he said, is “future research to determine the key barriers to physical activity following stroke and methods to reduce these will also be important to increasing physical activity in stroke survivors.”

Dr. Joundi said determining how to tailor exercise recommendations to meet the wide range of capabilities of stroke survivors will be another key factor.

“Stroke survivors may have some disabilities, so we need to be able to engage them at an [exercise] level that’s possible for them,” he said.

The study did not include stroke survivors living in long-term care homes.

The study had no targeted funding. Coauthor Eric E. Smith, MD, MPH, reports royalties from UpToDate, and consulting fees from Alnylam, Biogen, and Javelin. Dr. Joundi and the other coauthors have disclosed no relevant financial relationships.

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

In a large study of community-based stroke survivors in Canada, researchers found those meeting guideline-recommended levels of physical activity had a significantly lower risk for death from any cause, with a greater than 50% reduction in risk.

Lead study author Raed A. Joundi, MD, DPhil, of the University of Calgary (Alta.), said he expected results to show exercise was beneficial, but was surprised by the magnitude of the association between physical activity and lower mortality risk.

The impact of physical activity also differed significantly by age; those younger than 75 had a 79% reduction in mortality risk, compared with 32% in those age 75 and older.

“This is even after adjusting for factors such heart disease, respiratory conditions, smoking, and other functional limitations,” said Dr. Joundi.

The study was published online Aug. 11 in the journal Neurology.

For this analysis, the researchers used data on a cohort of people across Canada (excluding the province of Quebec) over 3-9 years. The 895 patients with prior stroke averaged 72 years of age, while the 97,805 in the control group had an average age of 63.

Weekly physical activity averages were evaluated using the self-reporting Canadian Community Health Survey, which was linked with administrative databases to evaluate the association of physical activity with long-term risk for mortality among stroke survivors, compared with controls.

Physical activity was measured in metabolic equivalents (METs); meeting minimum physical activity guidelines was defined as 10 MET-hours/week.

During the study period, more stroke patients than controls died (24.7% vs. 5.7%). However, those who met the physical activity guideline recommendations of 10 MET-hours/week had a lower mortality, both in the stroke survivor group (14.6% vs. 33.2%; adjusted hazard ratio, 0.46; 95% confidence interval, 0.29-0.73) and among control participants (3.6% vs. 7.9%; aHR 0.69; 95% CI, 0.62-0.76).  

The largest absolute and relative reduction in mortality was among stroke respondents younger than 75 (10.5% vs. 29%; aHR, 0.21; 95% CI, 0.10-0.43), the researchers note.

There was a significant interaction with age for the stroke patients but not the control group.

“The greatest reduction in mortality was seen between 0 and 10 METs per week … so the main point is that something is better than nothing,” said Dr. Joundi.
 

Exercise guidelines for the future

Although current guidelines recommend physical activity in stroke survivors, investigators noted that these are largely based on studies in the general population. Therefore, the aim of this research was to get a better understanding of the role of physical activity in the health of stroke survivors in the community, which could ultimately be used to design improved public health campaigns and physical activity interventions.

Given that this is a large study of stroke survivors in the community, Dr. Joundi hopes the results will influence future activity guidelines for those who have suffered a stroke.

“We found a log-linear relationship between physical activity and mortality such that 10 MET-hours/week was associated with large reductions in mortality with most benefit achieved by 20 MET-hours/week,” the authors concluded. “These thresholds could be considered for use in future guidelines for stroke.”

Clinical trials are underway to provide evidence for the implementation of exercise programs after stroke, they add, and offering physical activity programs to stroke survivors in the community “is an increasing priority in the U.S., Canada, and Europe.”

“People are at higher risk of death early on after a stroke but also months and years later, so if we can identify a relatively low-cost and easy intervention like physical activity to improve health and reduce the risk of death for stroke survivors it would be important,” Dr. Joundi said.
 

Key barriers

Paul George, MD, PhD, a stroke and vascular neurologist at Stanford (Calif.) University, said findings such as these further strengthen the argument that physical exercise is important after stroke.

“Because the study looked specifically at stroke patients, it can provide further guidance on physical activity recommendations that we provide to our patients following stroke,” said Dr. George, who was not associated with the study. 

Going forward, he said, more research is needed to identify specifically what is preventing stroke patients from exercising more. What is required, he said, is “future research to determine the key barriers to physical activity following stroke and methods to reduce these will also be important to increasing physical activity in stroke survivors.”

Dr. Joundi said determining how to tailor exercise recommendations to meet the wide range of capabilities of stroke survivors will be another key factor.

“Stroke survivors may have some disabilities, so we need to be able to engage them at an [exercise] level that’s possible for them,” he said.

The study did not include stroke survivors living in long-term care homes.

The study had no targeted funding. Coauthor Eric E. Smith, MD, MPH, reports royalties from UpToDate, and consulting fees from Alnylam, Biogen, and Javelin. Dr. Joundi and the other coauthors have disclosed no relevant financial relationships.

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

In a large study of community-based stroke survivors in Canada, researchers found those meeting guideline-recommended levels of physical activity had a significantly lower risk for death from any cause, with a greater than 50% reduction in risk.

Lead study author Raed A. Joundi, MD, DPhil, of the University of Calgary (Alta.), said he expected results to show exercise was beneficial, but was surprised by the magnitude of the association between physical activity and lower mortality risk.

The impact of physical activity also differed significantly by age; those younger than 75 had a 79% reduction in mortality risk, compared with 32% in those age 75 and older.

“This is even after adjusting for factors such heart disease, respiratory conditions, smoking, and other functional limitations,” said Dr. Joundi.

The study was published online Aug. 11 in the journal Neurology.

For this analysis, the researchers used data on a cohort of people across Canada (excluding the province of Quebec) over 3-9 years. The 895 patients with prior stroke averaged 72 years of age, while the 97,805 in the control group had an average age of 63.

Weekly physical activity averages were evaluated using the self-reporting Canadian Community Health Survey, which was linked with administrative databases to evaluate the association of physical activity with long-term risk for mortality among stroke survivors, compared with controls.

Physical activity was measured in metabolic equivalents (METs); meeting minimum physical activity guidelines was defined as 10 MET-hours/week.

During the study period, more stroke patients than controls died (24.7% vs. 5.7%). However, those who met the physical activity guideline recommendations of 10 MET-hours/week had a lower mortality, both in the stroke survivor group (14.6% vs. 33.2%; adjusted hazard ratio, 0.46; 95% confidence interval, 0.29-0.73) and among control participants (3.6% vs. 7.9%; aHR 0.69; 95% CI, 0.62-0.76).  

The largest absolute and relative reduction in mortality was among stroke respondents younger than 75 (10.5% vs. 29%; aHR, 0.21; 95% CI, 0.10-0.43), the researchers note.

There was a significant interaction with age for the stroke patients but not the control group.

“The greatest reduction in mortality was seen between 0 and 10 METs per week … so the main point is that something is better than nothing,” said Dr. Joundi.
 

Exercise guidelines for the future

Although current guidelines recommend physical activity in stroke survivors, investigators noted that these are largely based on studies in the general population. Therefore, the aim of this research was to get a better understanding of the role of physical activity in the health of stroke survivors in the community, which could ultimately be used to design improved public health campaigns and physical activity interventions.

Given that this is a large study of stroke survivors in the community, Dr. Joundi hopes the results will influence future activity guidelines for those who have suffered a stroke.

“We found a log-linear relationship between physical activity and mortality such that 10 MET-hours/week was associated with large reductions in mortality with most benefit achieved by 20 MET-hours/week,” the authors concluded. “These thresholds could be considered for use in future guidelines for stroke.”

Clinical trials are underway to provide evidence for the implementation of exercise programs after stroke, they add, and offering physical activity programs to stroke survivors in the community “is an increasing priority in the U.S., Canada, and Europe.”

“People are at higher risk of death early on after a stroke but also months and years later, so if we can identify a relatively low-cost and easy intervention like physical activity to improve health and reduce the risk of death for stroke survivors it would be important,” Dr. Joundi said.
 

Key barriers

Paul George, MD, PhD, a stroke and vascular neurologist at Stanford (Calif.) University, said findings such as these further strengthen the argument that physical exercise is important after stroke.

“Because the study looked specifically at stroke patients, it can provide further guidance on physical activity recommendations that we provide to our patients following stroke,” said Dr. George, who was not associated with the study. 

Going forward, he said, more research is needed to identify specifically what is preventing stroke patients from exercising more. What is required, he said, is “future research to determine the key barriers to physical activity following stroke and methods to reduce these will also be important to increasing physical activity in stroke survivors.”

Dr. Joundi said determining how to tailor exercise recommendations to meet the wide range of capabilities of stroke survivors will be another key factor.

“Stroke survivors may have some disabilities, so we need to be able to engage them at an [exercise] level that’s possible for them,” he said.

The study did not include stroke survivors living in long-term care homes.

The study had no targeted funding. Coauthor Eric E. Smith, MD, MPH, reports royalties from UpToDate, and consulting fees from Alnylam, Biogen, and Javelin. Dr. Joundi and the other coauthors have disclosed no relevant financial relationships.

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

State laws capping initial opioid prescriptions to 7 days or less have led to a reduction in opioid prescribing, a new analysis of Medicare data shows.

While overall opioid prescribing has decreased, the reduction in states with legislation restricting opioid prescribing was “significantly greater than in states without such legislation,” study investigator Michael Brenner, MD, University of Michigan, Ann Arbor, said in an interview.

The study was published online August 9 in JAMA Internal Medicine.
 

Significant but limited effect

Because of rising concern around the opioid crisis, 23 states representing 43% of the U.S. population passed laws from 2016 through 2018 limiting initial opioid prescription to 7 days or less.

Using Medicare data from 2013 through 2018, Dr. Brenner and colleagues conducted a before-and-after study to assess the effect of these laws.

They found that on average, the number of days an opioid was prescribed for each Medicare beneficiary decreased by 11.6 days (from 44.2 days in 2013 to 32.7 days in 2018) in states that imposed duration limits, compared with 10.1 days in states without these laws (from 43.4 days in 2013 to 33.3 days in 2018).

Prior to the start of duration limits in 2016, days an opioid was prescribed were comparable among states.

After adjusting for state-level differences in race, urbanization, median income, tobacco and alcohol use, serious mental illness, and other factors, state laws limiting opioid prescriptions to 7 days or less were associated with a reduction in prescribing of 1.7 days per enrollee, “suggesting a significant but limited outcome” for these laws, the researchers note.

The largest decrease in opioid prescribing occurred in primary care, but this was not significantly different in states with limit laws versus those without. However, state laws limiting duration led to a significant reduction in days of opioid prescribed among surgeons, dentists, pain specialists, and other specialists.
 

Inadequate pain control?

The researchers note the study was limited to Medicare beneficiaries; however, excess opioid prescribing is prevalent across all patient populations.

In addition, it’s not possible to tell from the data whether acute pain was adequately controlled with fewer pills.

“The question of adequacy of pain control is a crucial one that has been investigated extensively in prior work but was not possible to evaluate in this particular study,” said Dr. Brenner.

However, “ample evidence supports a role for reducing opioid prescribing and that such reduction can be achieved while ensuring that pain is adequately controlled with fewer pills,” he noted.

“A persistent misconception is that opioids are uniquely powerful and effective for controlling pain. Patients may perceive that effective analgesia is being withheld when opioids are not included in a regimen,” Dr. Brenner added.

“Yet, the evidence from meta-analyses derived from large numbers of randomized clinical trials finds that [nonsteroidal anti-inflammatory drugs] NSAIDS combined with acetaminophen provide similar or improved acute pain when compared to commonly prescribed opioid regimens, based on number-needed-to-treat analyses,” he added.

In a related editorial, Deborah Grady, MD, MPH, with University of California, San Francisco, and Mitchell H. Katz, MD, president and CEO of NYC Health + Hospitals, say the decrease in opioid prescribing with duration limits was “small but probably meaningful.” 

Restricting initial prescriptions to seven or fewer days is “reasonable because patients with new onset of pain should be re-evaluated in a week if the pain continues,” they write. 

However, Dr. Grady and Dr. Katz “worry” that restricting initial prescriptions to shorter periods, such as 3 or 5 days, as has occurred in six states, “may result in patients with acute pain going untreated or having to go to extraordinary effort to obtain adequate pain relief.”

In their view, the data from this study suggest that limiting initial prescriptions to seven or fewer days is “helpful, but we would not restrict any further given that we do not know how it affected patients with acute pain.”

The study had no specific funding. Dr. Brenner, Dr. Grady, and Dr. Katz have disclosed no relevant financial relationships.

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

State laws capping initial opioid prescriptions to 7 days or less have led to a reduction in opioid prescribing, a new analysis of Medicare data shows.

While overall opioid prescribing has decreased, the reduction in states with legislation restricting opioid prescribing was “significantly greater than in states without such legislation,” study investigator Michael Brenner, MD, University of Michigan, Ann Arbor, said in an interview.

The study was published online August 9 in JAMA Internal Medicine.
 

Significant but limited effect

Because of rising concern around the opioid crisis, 23 states representing 43% of the U.S. population passed laws from 2016 through 2018 limiting initial opioid prescription to 7 days or less.

Using Medicare data from 2013 through 2018, Dr. Brenner and colleagues conducted a before-and-after study to assess the effect of these laws.

They found that on average, the number of days an opioid was prescribed for each Medicare beneficiary decreased by 11.6 days (from 44.2 days in 2013 to 32.7 days in 2018) in states that imposed duration limits, compared with 10.1 days in states without these laws (from 43.4 days in 2013 to 33.3 days in 2018).

Prior to the start of duration limits in 2016, days an opioid was prescribed were comparable among states.

After adjusting for state-level differences in race, urbanization, median income, tobacco and alcohol use, serious mental illness, and other factors, state laws limiting opioid prescriptions to 7 days or less were associated with a reduction in prescribing of 1.7 days per enrollee, “suggesting a significant but limited outcome” for these laws, the researchers note.

The largest decrease in opioid prescribing occurred in primary care, but this was not significantly different in states with limit laws versus those without. However, state laws limiting duration led to a significant reduction in days of opioid prescribed among surgeons, dentists, pain specialists, and other specialists.
 

Inadequate pain control?

The researchers note the study was limited to Medicare beneficiaries; however, excess opioid prescribing is prevalent across all patient populations.

In addition, it’s not possible to tell from the data whether acute pain was adequately controlled with fewer pills.

“The question of adequacy of pain control is a crucial one that has been investigated extensively in prior work but was not possible to evaluate in this particular study,” said Dr. Brenner.

However, “ample evidence supports a role for reducing opioid prescribing and that such reduction can be achieved while ensuring that pain is adequately controlled with fewer pills,” he noted.

“A persistent misconception is that opioids are uniquely powerful and effective for controlling pain. Patients may perceive that effective analgesia is being withheld when opioids are not included in a regimen,” Dr. Brenner added.

“Yet, the evidence from meta-analyses derived from large numbers of randomized clinical trials finds that [nonsteroidal anti-inflammatory drugs] NSAIDS combined with acetaminophen provide similar or improved acute pain when compared to commonly prescribed opioid regimens, based on number-needed-to-treat analyses,” he added.

In a related editorial, Deborah Grady, MD, MPH, with University of California, San Francisco, and Mitchell H. Katz, MD, president and CEO of NYC Health + Hospitals, say the decrease in opioid prescribing with duration limits was “small but probably meaningful.” 

Restricting initial prescriptions to seven or fewer days is “reasonable because patients with new onset of pain should be re-evaluated in a week if the pain continues,” they write. 

However, Dr. Grady and Dr. Katz “worry” that restricting initial prescriptions to shorter periods, such as 3 or 5 days, as has occurred in six states, “may result in patients with acute pain going untreated or having to go to extraordinary effort to obtain adequate pain relief.”

In their view, the data from this study suggest that limiting initial prescriptions to seven or fewer days is “helpful, but we would not restrict any further given that we do not know how it affected patients with acute pain.”

The study had no specific funding. Dr. Brenner, Dr. Grady, and Dr. Katz have disclosed no relevant financial relationships.

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

State laws capping initial opioid prescriptions to 7 days or less have led to a reduction in opioid prescribing, a new analysis of Medicare data shows.

While overall opioid prescribing has decreased, the reduction in states with legislation restricting opioid prescribing was “significantly greater than in states without such legislation,” study investigator Michael Brenner, MD, University of Michigan, Ann Arbor, said in an interview.

The study was published online August 9 in JAMA Internal Medicine.
 

Significant but limited effect

Because of rising concern around the opioid crisis, 23 states representing 43% of the U.S. population passed laws from 2016 through 2018 limiting initial opioid prescription to 7 days or less.

Using Medicare data from 2013 through 2018, Dr. Brenner and colleagues conducted a before-and-after study to assess the effect of these laws.

They found that on average, the number of days an opioid was prescribed for each Medicare beneficiary decreased by 11.6 days (from 44.2 days in 2013 to 32.7 days in 2018) in states that imposed duration limits, compared with 10.1 days in states without these laws (from 43.4 days in 2013 to 33.3 days in 2018).

Prior to the start of duration limits in 2016, days an opioid was prescribed were comparable among states.

After adjusting for state-level differences in race, urbanization, median income, tobacco and alcohol use, serious mental illness, and other factors, state laws limiting opioid prescriptions to 7 days or less were associated with a reduction in prescribing of 1.7 days per enrollee, “suggesting a significant but limited outcome” for these laws, the researchers note.

The largest decrease in opioid prescribing occurred in primary care, but this was not significantly different in states with limit laws versus those without. However, state laws limiting duration led to a significant reduction in days of opioid prescribed among surgeons, dentists, pain specialists, and other specialists.
 

Inadequate pain control?

The researchers note the study was limited to Medicare beneficiaries; however, excess opioid prescribing is prevalent across all patient populations.

In addition, it’s not possible to tell from the data whether acute pain was adequately controlled with fewer pills.

“The question of adequacy of pain control is a crucial one that has been investigated extensively in prior work but was not possible to evaluate in this particular study,” said Dr. Brenner.

However, “ample evidence supports a role for reducing opioid prescribing and that such reduction can be achieved while ensuring that pain is adequately controlled with fewer pills,” he noted.

“A persistent misconception is that opioids are uniquely powerful and effective for controlling pain. Patients may perceive that effective analgesia is being withheld when opioids are not included in a regimen,” Dr. Brenner added.

“Yet, the evidence from meta-analyses derived from large numbers of randomized clinical trials finds that [nonsteroidal anti-inflammatory drugs] NSAIDS combined with acetaminophen provide similar or improved acute pain when compared to commonly prescribed opioid regimens, based on number-needed-to-treat analyses,” he added.

In a related editorial, Deborah Grady, MD, MPH, with University of California, San Francisco, and Mitchell H. Katz, MD, president and CEO of NYC Health + Hospitals, say the decrease in opioid prescribing with duration limits was “small but probably meaningful.” 

Restricting initial prescriptions to seven or fewer days is “reasonable because patients with new onset of pain should be re-evaluated in a week if the pain continues,” they write. 

However, Dr. Grady and Dr. Katz “worry” that restricting initial prescriptions to shorter periods, such as 3 or 5 days, as has occurred in six states, “may result in patients with acute pain going untreated or having to go to extraordinary effort to obtain adequate pain relief.”

In their view, the data from this study suggest that limiting initial prescriptions to seven or fewer days is “helpful, but we would not restrict any further given that we do not know how it affected patients with acute pain.”

The study had no specific funding. Dr. Brenner, Dr. Grady, and Dr. Katz have disclosed no relevant financial relationships.

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

Eating at least half a serving per day of foods rich in flavonoids – like strawberries, oranges, peppers, and apples – may help lower the risk of age-related cognitive decline, new research shows.

Among the different types of flavonoids, flavones (found in some spices and yellow or orange fruits and vegetables) and anthocyanins (found in blueberries, blackberries, and cherries) seem to have most protective effect, the researchers report.

“There is mounting evidence suggesting flavonoids are powerhouses when it comes to preventing your thinking skills from declining as you get older,” study investigator Walter Willett, MD, DrPH, Harvard University, Boston, said in a statement.

“Our results are exciting because they show that making simple changes to your diet could help prevent cognitive decline,” said Dr. Willett.

The study was published online July 28 in the journal Neurology.
 

Antioxidant punch

Flavonoids, naturally occurring phytochemicals found in plants, are strong antioxidants. Considering the likely role of oxidative stress in age-related cognitive decline, flavonoids have been proposed as a potentially important preventive.  

For the study, Dr. Willett and colleagues prospectively examined associations between long-term dietary flavonoids (flavonols, flavones, flavanones, flavan-3-ols, anthocyanins, polymeric flavonoids, and proanthocyanidins) and subjective cognitive decline in 49,493 women from the Nurses’ Health Study (1984-2006) and 27,842 men from the Health Professionals Follow-up Study (1986-2002).

Those in the highest quintile of flavonoid consumption consumed about 600 mg daily on average while those in the lowest quintile got only about 150 mg daily.

After adjusting for age, total energy intake, major nondietary factors, and specific dietary factors, a higher intake of total flavonoids was associated with lower likelihood of self-reported subjective cognitive decline during follow up.

Individuals in the highest quintile of daily consumption had about a 20% lower risk of subjective cognitive decline relative to peers in the lowest quintile (pooled multivariable-adjusted odds ratio: 0.81; 95% confidence interval, 0.76-0.89).

The strongest protective associations were found for flavones (OR, 0.62; 95% confidence interval, 0.57-0.68), flavanones (OR, 0.64; 95% CI, 0.58-0.68), and anthocyanins (OR, 0.76; 95% CI, 0.72-0.84) (P trend < .0001 for all groups).

“The people in our study who did the best over time ate an average of at least half a serving per day of foods like orange juice, oranges, peppers, celery, grapefruits, grapefruit juice, apples, and pears,” Dr. Willett said.

“While it is possible other phytochemicals are at work here, a colorful diet rich in flavonoids – and specifically flavones and anthocyanins – seems to be a good bet for promoting long-term brain health,” he added.

A limitation of the study is that participants reported on their diets and may not recall perfectly what they ate or how much.
 

Healthy diet best bet for brain health

Reached for comment, Christopher Weber, PhD, director of global science initiatives for the Alzheimer’s Association, said this study “adds to our understanding of which elements of a healthy diet may be important in reducing dementia risk; flavonols may be one of those elements.”

“However, at this point, people should not put too much stock in specific nutrients – including subsets of flavonols – for reducing dementia risk until more research is done. Rather, they should focus on eating an overall healthy diet,” he said.

“It would be wonderful if a particular food or supplement could delay or prevent Alzheimer’s disease, but we do not have scientific evidence to support such claims. Randomized controlled clinical trials are necessary to evaluate whether any food or supplement has a scientifically proven beneficial effect,” Dr. Weber added.

For now, the Alzheimer’s Association “encourages everyone to eat a healthy and balanced diet as a way to help reduce the risk of cognitive decline,” Dr. Weber said.

“With more than 6 million Americans living with Alzheimer’s disease and other dementia today, there is a pressing need to test the effectiveness of a healthy lifestyle regimen to reduce risk of cognitive decline in a large and diverse population,” he added.

The Alzheimer’s Association has launched a 2-year clinical trial, called the U.S. Study to Protect Brain Health Through Lifestyle Intervention to Reduce Risk (U.S. POINTER), to do just that.

“While we research that definitive lifestyle ‘recipe,’ there are things we can do today that may decrease our risk of cognitive decline as we age. Eating a heart-healthy diet, exercising regularly, and staying cognitively engaged are just a few,” Dr. Weber added.

Also weighing in, Taylor Wallace, PhD, adjunct professor, department of nutrition and food studies, George Mason University, Fairfax, Va., said the study results are not surprising.

“Scientific data on the ability of flavonoids to prevent age-related chronic diseases, including cognitive decline, has accumulated immensely over the last decade. This epidemiological study reinforces findings from smaller shorter-duration clinical trials and mechanistic studies,” said Dr. Wallace, who was not involved in the study.

“Flavonoids show great potential in reducing inflammation and oxidative stress in the body. They are also vasodilators that help improve blood flow, which is important for the cardiovascular and cerebrovascular systems,” he noted.

“Typically, foods rich in flavonoids are also nutrient-dense in vitamins, minerals, and dietary fiber (eg, fruits and vegetables). Anthocyanins in blueberries have long been known to prevent cognitive decline with age,” Dr. Wallace said.

Dr. Wallace was part of a 14-member panel of nutrition scientists who recently reviewed available evidence around fruit and vegetable intake and health.

“Our findings are consistent with this study in regard to cognitive decline and other disease states. Cruciferous vegetables, dark-green leafy vegetables, citrus fruits, and dark-colored berries seem to have superior effects on health promotion and disease prevention in general,” said Dr. Wallace.

This work was supported by grants from the National Institutes of Health. The authors have disclosed no relevant financial relationships. Dr. Weber has no relevant disclosures. Dr. Wallace is principal and chief executive officer of the Think Healthy Group; editor of the Journal of Dietary Supplements; and deputy editor-in-chief of the Journal of the American College of Nutrition.

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

Eating at least half a serving per day of foods rich in flavonoids – like strawberries, oranges, peppers, and apples – may help lower the risk of age-related cognitive decline, new research shows.

Among the different types of flavonoids, flavones (found in some spices and yellow or orange fruits and vegetables) and anthocyanins (found in blueberries, blackberries, and cherries) seem to have most protective effect, the researchers report.

“There is mounting evidence suggesting flavonoids are powerhouses when it comes to preventing your thinking skills from declining as you get older,” study investigator Walter Willett, MD, DrPH, Harvard University, Boston, said in a statement.

“Our results are exciting because they show that making simple changes to your diet could help prevent cognitive decline,” said Dr. Willett.

The study was published online July 28 in the journal Neurology.
 

Antioxidant punch

Flavonoids, naturally occurring phytochemicals found in plants, are strong antioxidants. Considering the likely role of oxidative stress in age-related cognitive decline, flavonoids have been proposed as a potentially important preventive.  

For the study, Dr. Willett and colleagues prospectively examined associations between long-term dietary flavonoids (flavonols, flavones, flavanones, flavan-3-ols, anthocyanins, polymeric flavonoids, and proanthocyanidins) and subjective cognitive decline in 49,493 women from the Nurses’ Health Study (1984-2006) and 27,842 men from the Health Professionals Follow-up Study (1986-2002).

Those in the highest quintile of flavonoid consumption consumed about 600 mg daily on average while those in the lowest quintile got only about 150 mg daily.

After adjusting for age, total energy intake, major nondietary factors, and specific dietary factors, a higher intake of total flavonoids was associated with lower likelihood of self-reported subjective cognitive decline during follow up.

Individuals in the highest quintile of daily consumption had about a 20% lower risk of subjective cognitive decline relative to peers in the lowest quintile (pooled multivariable-adjusted odds ratio: 0.81; 95% confidence interval, 0.76-0.89).

The strongest protective associations were found for flavones (OR, 0.62; 95% confidence interval, 0.57-0.68), flavanones (OR, 0.64; 95% CI, 0.58-0.68), and anthocyanins (OR, 0.76; 95% CI, 0.72-0.84) (P trend < .0001 for all groups).

“The people in our study who did the best over time ate an average of at least half a serving per day of foods like orange juice, oranges, peppers, celery, grapefruits, grapefruit juice, apples, and pears,” Dr. Willett said.

“While it is possible other phytochemicals are at work here, a colorful diet rich in flavonoids – and specifically flavones and anthocyanins – seems to be a good bet for promoting long-term brain health,” he added.

A limitation of the study is that participants reported on their diets and may not recall perfectly what they ate or how much.
 

Healthy diet best bet for brain health

Reached for comment, Christopher Weber, PhD, director of global science initiatives for the Alzheimer’s Association, said this study “adds to our understanding of which elements of a healthy diet may be important in reducing dementia risk; flavonols may be one of those elements.”

“However, at this point, people should not put too much stock in specific nutrients – including subsets of flavonols – for reducing dementia risk until more research is done. Rather, they should focus on eating an overall healthy diet,” he said.

“It would be wonderful if a particular food or supplement could delay or prevent Alzheimer’s disease, but we do not have scientific evidence to support such claims. Randomized controlled clinical trials are necessary to evaluate whether any food or supplement has a scientifically proven beneficial effect,” Dr. Weber added.

For now, the Alzheimer’s Association “encourages everyone to eat a healthy and balanced diet as a way to help reduce the risk of cognitive decline,” Dr. Weber said.

“With more than 6 million Americans living with Alzheimer’s disease and other dementia today, there is a pressing need to test the effectiveness of a healthy lifestyle regimen to reduce risk of cognitive decline in a large and diverse population,” he added.

The Alzheimer’s Association has launched a 2-year clinical trial, called the U.S. Study to Protect Brain Health Through Lifestyle Intervention to Reduce Risk (U.S. POINTER), to do just that.

“While we research that definitive lifestyle ‘recipe,’ there are things we can do today that may decrease our risk of cognitive decline as we age. Eating a heart-healthy diet, exercising regularly, and staying cognitively engaged are just a few,” Dr. Weber added.

Also weighing in, Taylor Wallace, PhD, adjunct professor, department of nutrition and food studies, George Mason University, Fairfax, Va., said the study results are not surprising.

“Scientific data on the ability of flavonoids to prevent age-related chronic diseases, including cognitive decline, has accumulated immensely over the last decade. This epidemiological study reinforces findings from smaller shorter-duration clinical trials and mechanistic studies,” said Dr. Wallace, who was not involved in the study.

“Flavonoids show great potential in reducing inflammation and oxidative stress in the body. They are also vasodilators that help improve blood flow, which is important for the cardiovascular and cerebrovascular systems,” he noted.

“Typically, foods rich in flavonoids are also nutrient-dense in vitamins, minerals, and dietary fiber (eg, fruits and vegetables). Anthocyanins in blueberries have long been known to prevent cognitive decline with age,” Dr. Wallace said.

Dr. Wallace was part of a 14-member panel of nutrition scientists who recently reviewed available evidence around fruit and vegetable intake and health.

“Our findings are consistent with this study in regard to cognitive decline and other disease states. Cruciferous vegetables, dark-green leafy vegetables, citrus fruits, and dark-colored berries seem to have superior effects on health promotion and disease prevention in general,” said Dr. Wallace.

This work was supported by grants from the National Institutes of Health. The authors have disclosed no relevant financial relationships. Dr. Weber has no relevant disclosures. Dr. Wallace is principal and chief executive officer of the Think Healthy Group; editor of the Journal of Dietary Supplements; and deputy editor-in-chief of the Journal of the American College of Nutrition.

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

Eating at least half a serving per day of foods rich in flavonoids – like strawberries, oranges, peppers, and apples – may help lower the risk of age-related cognitive decline, new research shows.

Among the different types of flavonoids, flavones (found in some spices and yellow or orange fruits and vegetables) and anthocyanins (found in blueberries, blackberries, and cherries) seem to have most protective effect, the researchers report.

“There is mounting evidence suggesting flavonoids are powerhouses when it comes to preventing your thinking skills from declining as you get older,” study investigator Walter Willett, MD, DrPH, Harvard University, Boston, said in a statement.

“Our results are exciting because they show that making simple changes to your diet could help prevent cognitive decline,” said Dr. Willett.

The study was published online July 28 in the journal Neurology.
 

Antioxidant punch

Flavonoids, naturally occurring phytochemicals found in plants, are strong antioxidants. Considering the likely role of oxidative stress in age-related cognitive decline, flavonoids have been proposed as a potentially important preventive.  

For the study, Dr. Willett and colleagues prospectively examined associations between long-term dietary flavonoids (flavonols, flavones, flavanones, flavan-3-ols, anthocyanins, polymeric flavonoids, and proanthocyanidins) and subjective cognitive decline in 49,493 women from the Nurses’ Health Study (1984-2006) and 27,842 men from the Health Professionals Follow-up Study (1986-2002).

Those in the highest quintile of flavonoid consumption consumed about 600 mg daily on average while those in the lowest quintile got only about 150 mg daily.

After adjusting for age, total energy intake, major nondietary factors, and specific dietary factors, a higher intake of total flavonoids was associated with lower likelihood of self-reported subjective cognitive decline during follow up.

Individuals in the highest quintile of daily consumption had about a 20% lower risk of subjective cognitive decline relative to peers in the lowest quintile (pooled multivariable-adjusted odds ratio: 0.81; 95% confidence interval, 0.76-0.89).

The strongest protective associations were found for flavones (OR, 0.62; 95% confidence interval, 0.57-0.68), flavanones (OR, 0.64; 95% CI, 0.58-0.68), and anthocyanins (OR, 0.76; 95% CI, 0.72-0.84) (P trend < .0001 for all groups).

“The people in our study who did the best over time ate an average of at least half a serving per day of foods like orange juice, oranges, peppers, celery, grapefruits, grapefruit juice, apples, and pears,” Dr. Willett said.

“While it is possible other phytochemicals are at work here, a colorful diet rich in flavonoids – and specifically flavones and anthocyanins – seems to be a good bet for promoting long-term brain health,” he added.

A limitation of the study is that participants reported on their diets and may not recall perfectly what they ate or how much.
 

Healthy diet best bet for brain health

Reached for comment, Christopher Weber, PhD, director of global science initiatives for the Alzheimer’s Association, said this study “adds to our understanding of which elements of a healthy diet may be important in reducing dementia risk; flavonols may be one of those elements.”

“However, at this point, people should not put too much stock in specific nutrients – including subsets of flavonols – for reducing dementia risk until more research is done. Rather, they should focus on eating an overall healthy diet,” he said.

“It would be wonderful if a particular food or supplement could delay or prevent Alzheimer’s disease, but we do not have scientific evidence to support such claims. Randomized controlled clinical trials are necessary to evaluate whether any food or supplement has a scientifically proven beneficial effect,” Dr. Weber added.

For now, the Alzheimer’s Association “encourages everyone to eat a healthy and balanced diet as a way to help reduce the risk of cognitive decline,” Dr. Weber said.

“With more than 6 million Americans living with Alzheimer’s disease and other dementia today, there is a pressing need to test the effectiveness of a healthy lifestyle regimen to reduce risk of cognitive decline in a large and diverse population,” he added.

The Alzheimer’s Association has launched a 2-year clinical trial, called the U.S. Study to Protect Brain Health Through Lifestyle Intervention to Reduce Risk (U.S. POINTER), to do just that.

“While we research that definitive lifestyle ‘recipe,’ there are things we can do today that may decrease our risk of cognitive decline as we age. Eating a heart-healthy diet, exercising regularly, and staying cognitively engaged are just a few,” Dr. Weber added.

Also weighing in, Taylor Wallace, PhD, adjunct professor, department of nutrition and food studies, George Mason University, Fairfax, Va., said the study results are not surprising.

“Scientific data on the ability of flavonoids to prevent age-related chronic diseases, including cognitive decline, has accumulated immensely over the last decade. This epidemiological study reinforces findings from smaller shorter-duration clinical trials and mechanistic studies,” said Dr. Wallace, who was not involved in the study.

“Flavonoids show great potential in reducing inflammation and oxidative stress in the body. They are also vasodilators that help improve blood flow, which is important for the cardiovascular and cerebrovascular systems,” he noted.

“Typically, foods rich in flavonoids are also nutrient-dense in vitamins, minerals, and dietary fiber (eg, fruits and vegetables). Anthocyanins in blueberries have long been known to prevent cognitive decline with age,” Dr. Wallace said.

Dr. Wallace was part of a 14-member panel of nutrition scientists who recently reviewed available evidence around fruit and vegetable intake and health.

“Our findings are consistent with this study in regard to cognitive decline and other disease states. Cruciferous vegetables, dark-green leafy vegetables, citrus fruits, and dark-colored berries seem to have superior effects on health promotion and disease prevention in general,” said Dr. Wallace.

This work was supported by grants from the National Institutes of Health. The authors have disclosed no relevant financial relationships. Dr. Weber has no relevant disclosures. Dr. Wallace is principal and chief executive officer of the Think Healthy Group; editor of the Journal of Dietary Supplements; and deputy editor-in-chief of the Journal of the American College of Nutrition.

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

Treatment of central nervous system involvement in pediatric acute lymphoblastic leukemia (ALL) needs to be based on risk, and should no longer be applied in a one-size-fits all approach, say experts writing in an editorial published July 29 in the journal Blood.

“Because cure rates now exceed 90%, using neurotoxic drugs in non–risk-adapted protocols is unacceptable and a paradigm shift in treating CNS ALL is required,” write pediatric leukemia researchers Christina Halsey, PhD, of the University of Glasgow and Gabriele Escherich, MD, of the University Medical Center Hamburg-Eppendorf (Germany).

“We want to reach a Goldilocks point: not too much, not too little, but just right for every child,” they write.

The problem is that “the absence of clinically useful biomarkers prevents accurate risk stratification, resulting in universal use of intensive CNS-directed therapy. This therapy is likely to overtreat many children, exposing them to an unnecessary risk of toxicity,” including long-term cognitive deficits in 20%-40% of them, they point out.

The editorial accompanied a new study in which investigators in China focused on improving CNS control in children with ALL, which the editorialists said was step in the right direction.

In the Chinese Children’s Cancer Group ALL-2015 trial, investigators found that prephase dexamethasone, delayed intrathecal therapy, intravenous anesthesia to reduce traumatic lumbar punctures, and flow cytometry to accurately ascertain initial CNS involvement may improve CNS control.

The trial included 7,640 consecutive children up to age 18 treated from 2015 to 2019 across 20 major medical centers in China. Children received conventional remission induction and subsequent risk-directed therapy, including 16-22 triple intrathecal treatments. Prophylactic cranial irradiation was not used.

The 5-year event-free survival was 80.3% and overall survival 91.1%. The cumulative risk of isolated CNS relapse was 1.9% and of any CNS relapse 2.7%, comparable to reports from other major study groups, both with and without cranial radiation. 

“We attributed our relatively good CNS control to the prephase treatment with dexamethasone, which reduced leukemia cells in blood and the CNS, and to the delayed intrathecal therapy until all (or a large proportion) of circulating leukemic blasts were cleared, thus reducing the consequence of traumatic lumbar puncture with blasts,” said the investigators, led by Jingyan Tang, MD, a hematologist/oncologist at the Shanghai (China) Children’s Medical Center.

“This approach of delayed administration of initial intrathecal therapy after prephase steroid treatment, if confirmed successful by additional studies, can be adopted readily,” they say.

The editorialists concur. The low rates of CNS relapse, despite omission of radiotherapy and inclusion of high-risk subgroups, “might suggest a potential protective effect of steroids before diagnostic lumbar puncture,” they said.

“However, flow cytometry is not sensitive enough to track disease response over time. In the bone marrow, minimal residual disease (MRD) is used to identify children at high or low risk of relapse and modify therapy accordingly. We desperately need a minimal residual disease equivalent for CNS leukemia to allow us to tailor therapy,” Dr. Halsey and Dr. Escherich say.

It’s not surprising that the use of anesthesia led to fewer traumatic lumbar punctures than in “frightened child[ren] undergoing such a painful procedure without anesthesia,” the study team notes. Its correlation with lower CNS relapses is probably because drug delivery was more accurate in sedated children, the editorialists add.

Female sex was also protective against relapse in cases where general anesthesia wasn’t used for lumbar puncture. “One could speculate that it is more difficult to restrict male patients than female patients for successful intrathecal therapy if they were not undergoing anesthesia during the procedure,” the investigators write.

“Unfortunately,” the editorialists add, rapid adoption of anesthesia for lumbar punctures “is tempered by the recent observation that repeated general anesthesia in children with ALL is associated with increased neurotoxicity.”

The work was supported by grants from the National Natural Science Foundation of China, National Cancer Institute, and others. The study authors and editorialists have disclosed no relevant financial relationships.

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

Treatment of central nervous system involvement in pediatric acute lymphoblastic leukemia (ALL) needs to be based on risk, and should no longer be applied in a one-size-fits all approach, say experts writing in an editorial published July 29 in the journal Blood.

“Because cure rates now exceed 90%, using neurotoxic drugs in non–risk-adapted protocols is unacceptable and a paradigm shift in treating CNS ALL is required,” write pediatric leukemia researchers Christina Halsey, PhD, of the University of Glasgow and Gabriele Escherich, MD, of the University Medical Center Hamburg-Eppendorf (Germany).

“We want to reach a Goldilocks point: not too much, not too little, but just right for every child,” they write.

The problem is that “the absence of clinically useful biomarkers prevents accurate risk stratification, resulting in universal use of intensive CNS-directed therapy. This therapy is likely to overtreat many children, exposing them to an unnecessary risk of toxicity,” including long-term cognitive deficits in 20%-40% of them, they point out.

The editorial accompanied a new study in which investigators in China focused on improving CNS control in children with ALL, which the editorialists said was step in the right direction.

In the Chinese Children’s Cancer Group ALL-2015 trial, investigators found that prephase dexamethasone, delayed intrathecal therapy, intravenous anesthesia to reduce traumatic lumbar punctures, and flow cytometry to accurately ascertain initial CNS involvement may improve CNS control.

The trial included 7,640 consecutive children up to age 18 treated from 2015 to 2019 across 20 major medical centers in China. Children received conventional remission induction and subsequent risk-directed therapy, including 16-22 triple intrathecal treatments. Prophylactic cranial irradiation was not used.

The 5-year event-free survival was 80.3% and overall survival 91.1%. The cumulative risk of isolated CNS relapse was 1.9% and of any CNS relapse 2.7%, comparable to reports from other major study groups, both with and without cranial radiation. 

“We attributed our relatively good CNS control to the prephase treatment with dexamethasone, which reduced leukemia cells in blood and the CNS, and to the delayed intrathecal therapy until all (or a large proportion) of circulating leukemic blasts were cleared, thus reducing the consequence of traumatic lumbar puncture with blasts,” said the investigators, led by Jingyan Tang, MD, a hematologist/oncologist at the Shanghai (China) Children’s Medical Center.

“This approach of delayed administration of initial intrathecal therapy after prephase steroid treatment, if confirmed successful by additional studies, can be adopted readily,” they say.

The editorialists concur. The low rates of CNS relapse, despite omission of radiotherapy and inclusion of high-risk subgroups, “might suggest a potential protective effect of steroids before diagnostic lumbar puncture,” they said.

“However, flow cytometry is not sensitive enough to track disease response over time. In the bone marrow, minimal residual disease (MRD) is used to identify children at high or low risk of relapse and modify therapy accordingly. We desperately need a minimal residual disease equivalent for CNS leukemia to allow us to tailor therapy,” Dr. Halsey and Dr. Escherich say.

It’s not surprising that the use of anesthesia led to fewer traumatic lumbar punctures than in “frightened child[ren] undergoing such a painful procedure without anesthesia,” the study team notes. Its correlation with lower CNS relapses is probably because drug delivery was more accurate in sedated children, the editorialists add.

Female sex was also protective against relapse in cases where general anesthesia wasn’t used for lumbar puncture. “One could speculate that it is more difficult to restrict male patients than female patients for successful intrathecal therapy if they were not undergoing anesthesia during the procedure,” the investigators write.

“Unfortunately,” the editorialists add, rapid adoption of anesthesia for lumbar punctures “is tempered by the recent observation that repeated general anesthesia in children with ALL is associated with increased neurotoxicity.”

The work was supported by grants from the National Natural Science Foundation of China, National Cancer Institute, and others. The study authors and editorialists have disclosed no relevant financial relationships.

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

Treatment of central nervous system involvement in pediatric acute lymphoblastic leukemia (ALL) needs to be based on risk, and should no longer be applied in a one-size-fits all approach, say experts writing in an editorial published July 29 in the journal Blood.

“Because cure rates now exceed 90%, using neurotoxic drugs in non–risk-adapted protocols is unacceptable and a paradigm shift in treating CNS ALL is required,” write pediatric leukemia researchers Christina Halsey, PhD, of the University of Glasgow and Gabriele Escherich, MD, of the University Medical Center Hamburg-Eppendorf (Germany).

“We want to reach a Goldilocks point: not too much, not too little, but just right for every child,” they write.

The problem is that “the absence of clinically useful biomarkers prevents accurate risk stratification, resulting in universal use of intensive CNS-directed therapy. This therapy is likely to overtreat many children, exposing them to an unnecessary risk of toxicity,” including long-term cognitive deficits in 20%-40% of them, they point out.

The editorial accompanied a new study in which investigators in China focused on improving CNS control in children with ALL, which the editorialists said was step in the right direction.

In the Chinese Children’s Cancer Group ALL-2015 trial, investigators found that prephase dexamethasone, delayed intrathecal therapy, intravenous anesthesia to reduce traumatic lumbar punctures, and flow cytometry to accurately ascertain initial CNS involvement may improve CNS control.

The trial included 7,640 consecutive children up to age 18 treated from 2015 to 2019 across 20 major medical centers in China. Children received conventional remission induction and subsequent risk-directed therapy, including 16-22 triple intrathecal treatments. Prophylactic cranial irradiation was not used.

The 5-year event-free survival was 80.3% and overall survival 91.1%. The cumulative risk of isolated CNS relapse was 1.9% and of any CNS relapse 2.7%, comparable to reports from other major study groups, both with and without cranial radiation. 

“We attributed our relatively good CNS control to the prephase treatment with dexamethasone, which reduced leukemia cells in blood and the CNS, and to the delayed intrathecal therapy until all (or a large proportion) of circulating leukemic blasts were cleared, thus reducing the consequence of traumatic lumbar puncture with blasts,” said the investigators, led by Jingyan Tang, MD, a hematologist/oncologist at the Shanghai (China) Children’s Medical Center.

“This approach of delayed administration of initial intrathecal therapy after prephase steroid treatment, if confirmed successful by additional studies, can be adopted readily,” they say.

The editorialists concur. The low rates of CNS relapse, despite omission of radiotherapy and inclusion of high-risk subgroups, “might suggest a potential protective effect of steroids before diagnostic lumbar puncture,” they said.

“However, flow cytometry is not sensitive enough to track disease response over time. In the bone marrow, minimal residual disease (MRD) is used to identify children at high or low risk of relapse and modify therapy accordingly. We desperately need a minimal residual disease equivalent for CNS leukemia to allow us to tailor therapy,” Dr. Halsey and Dr. Escherich say.

It’s not surprising that the use of anesthesia led to fewer traumatic lumbar punctures than in “frightened child[ren] undergoing such a painful procedure without anesthesia,” the study team notes. Its correlation with lower CNS relapses is probably because drug delivery was more accurate in sedated children, the editorialists add.

Female sex was also protective against relapse in cases where general anesthesia wasn’t used for lumbar puncture. “One could speculate that it is more difficult to restrict male patients than female patients for successful intrathecal therapy if they were not undergoing anesthesia during the procedure,” the investigators write.

“Unfortunately,” the editorialists add, rapid adoption of anesthesia for lumbar punctures “is tempered by the recent observation that repeated general anesthesia in children with ALL is associated with increased neurotoxicity.”

The work was supported by grants from the National Natural Science Foundation of China, National Cancer Institute, and others. The study authors and editorialists have disclosed no relevant financial relationships.

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

Having a mobile interventional stroke team (MIST) travel to treat stroke patients soon after stroke onset may improve patient outcomes, according to a new study. A retrospective analysis of a pilot program in New York found that patients who were treated on the ground by the MIST team rather than transferred to a specialized stroke center received faster care and were almost twice as likely to be functionally independent 3 months later.

“The use of a Mobile Interventional Stroke Team (MIST) traveling to Thrombectomy Capable Stroke Centers to perform endovascular thrombectomy has been shown to be significantly faster with improved discharge outcomes,” wrote lead author Jacob Morey, a doctoral Candidate at Icahn School of Medicine at Mount Sinai in New York and coauthors in the paper. Prior to this study, “the effect of the MIST model stratified by time of presentation” had yet to be studied.

The findings were published online on Aug. 5 in Stroke.
 

MIST model versus drip-and-ship

The researchers analyzed 226 patients who underwent endovascular thrombectomy between January 2017 and February 2020 at four hospitals in the Mount Sinai health system using the NYC MIST Trial and a stroke database. At baseline, all patients were functionally independent as assessed by the modified Rankin Scale (mRS, score of 0-2). 106 patients were treated by a MIST team – staffed by a neurointerventionalist, a fellow or physician assistant, and radiologic technologist – that traveled to the patient’s location. A total of 120 patients were transferred to a comprehensive stroke center (CSC) or a hospital with endovascular thrombectomy expertise. The analysis was stratified based on whether the patient presented in the early time window (≤ 6 hours) or late time window (> 6 hours).

Patients treated in the early time window were significantly more likely to be mobile and able to perform daily tasks (mRS ≤ 2) 90 days after the procedure in the MIST group (54%), compared with the transferred group (28%, P < 0.01). Outcomes did not differ significantly between groups in the late time window (35% vs. 41%, P = 0.77).

Similarly, early-time-window patients in the MIST group were more likely to have higher functionality at discharge, compared with transferred patients, based on the on the National Institutes of Health Stroke Scale (median score of 5.0 vs. 12.0, P < 0.01). There was no significant difference between groups treated in the late time window (median score of 5.0 vs. 11.0, P = 0.11).

“Ischemic strokes often progress rapidly and can cause severe damage because brain tissue dies quickly without oxygen, resulting in serious long-term disabilities or death,“ said Johanna Fifi, MD, of Icahn School of Medicine, said in a statement to the American Heart Association. “Assessing and treating stroke patients in the early window means that a greater number of fast-progressing strokes are identified and treated.”

Time is brain

Endovascular thrombectomy is a time-sensitive surgical procedure to remove large blood clots in acute ischemic stroke that has “historically been limited to comprehensive stroke centers,” the authors wrote in their paper. It is considered the standard of care in ischemic strokes, which make up 90% of all strokes. “Less than 50% of Americans have direct access to endovascular thrombectomy, the others must be transferred to a thrombectomy-capable hospital for treatment, often losing over 2 hours of time to treatment,” said Dr. Fifi. “Every minute is precious in treating stroke, and getting to a center that offers thrombectomy is very important. The MIST model would address this by providing faster access to this potentially life-saving, disability-reducing procedure.”

Access to timely endovascular thrombectomy is gradually improving as “more institutions and cities have implemented the [MIST] model.” Dr. Fifi said.

“This study stresses the importance of ‘time is brain,’ especially for patients in the early time window. Although the study is limited by the observational, retrospective design and was performed at a single integrated center, the findings are provocative,” said Louise McCullough, MD, of the University of Texas Health Science Center at Houston said in a statement to the American Heart Association. “The use of a MIST model highlights the potential benefit of early and urgent treatment for patients with large-vessel stroke. Stroke systems of care need to take advantage of any opportunity to treat patients early, wherever they are.”

The study was partly funded by a Stryker Foundation grant.

Having a mobile interventional stroke team (MIST) travel to treat stroke patients soon after stroke onset may improve patient outcomes, according to a new study. A retrospective analysis of a pilot program in New York found that patients who were treated on the ground by the MIST team rather than transferred to a specialized stroke center received faster care and were almost twice as likely to be functionally independent 3 months later.

“The use of a Mobile Interventional Stroke Team (MIST) traveling to Thrombectomy Capable Stroke Centers to perform endovascular thrombectomy has been shown to be significantly faster with improved discharge outcomes,” wrote lead author Jacob Morey, a doctoral Candidate at Icahn School of Medicine at Mount Sinai in New York and coauthors in the paper. Prior to this study, “the effect of the MIST model stratified by time of presentation” had yet to be studied.

The findings were published online on Aug. 5 in Stroke.
 

MIST model versus drip-and-ship

The researchers analyzed 226 patients who underwent endovascular thrombectomy between January 2017 and February 2020 at four hospitals in the Mount Sinai health system using the NYC MIST Trial and a stroke database. At baseline, all patients were functionally independent as assessed by the modified Rankin Scale (mRS, score of 0-2). 106 patients were treated by a MIST team – staffed by a neurointerventionalist, a fellow or physician assistant, and radiologic technologist – that traveled to the patient’s location. A total of 120 patients were transferred to a comprehensive stroke center (CSC) or a hospital with endovascular thrombectomy expertise. The analysis was stratified based on whether the patient presented in the early time window (≤ 6 hours) or late time window (> 6 hours).

Patients treated in the early time window were significantly more likely to be mobile and able to perform daily tasks (mRS ≤ 2) 90 days after the procedure in the MIST group (54%), compared with the transferred group (28%, P < 0.01). Outcomes did not differ significantly between groups in the late time window (35% vs. 41%, P = 0.77).

Similarly, early-time-window patients in the MIST group were more likely to have higher functionality at discharge, compared with transferred patients, based on the on the National Institutes of Health Stroke Scale (median score of 5.0 vs. 12.0, P < 0.01). There was no significant difference between groups treated in the late time window (median score of 5.0 vs. 11.0, P = 0.11).

“Ischemic strokes often progress rapidly and can cause severe damage because brain tissue dies quickly without oxygen, resulting in serious long-term disabilities or death,“ said Johanna Fifi, MD, of Icahn School of Medicine, said in a statement to the American Heart Association. “Assessing and treating stroke patients in the early window means that a greater number of fast-progressing strokes are identified and treated.”

Time is brain

Endovascular thrombectomy is a time-sensitive surgical procedure to remove large blood clots in acute ischemic stroke that has “historically been limited to comprehensive stroke centers,” the authors wrote in their paper. It is considered the standard of care in ischemic strokes, which make up 90% of all strokes. “Less than 50% of Americans have direct access to endovascular thrombectomy, the others must be transferred to a thrombectomy-capable hospital for treatment, often losing over 2 hours of time to treatment,” said Dr. Fifi. “Every minute is precious in treating stroke, and getting to a center that offers thrombectomy is very important. The MIST model would address this by providing faster access to this potentially life-saving, disability-reducing procedure.”

Access to timely endovascular thrombectomy is gradually improving as “more institutions and cities have implemented the [MIST] model.” Dr. Fifi said.

“This study stresses the importance of ‘time is brain,’ especially for patients in the early time window. Although the study is limited by the observational, retrospective design and was performed at a single integrated center, the findings are provocative,” said Louise McCullough, MD, of the University of Texas Health Science Center at Houston said in a statement to the American Heart Association. “The use of a MIST model highlights the potential benefit of early and urgent treatment for patients with large-vessel stroke. Stroke systems of care need to take advantage of any opportunity to treat patients early, wherever they are.”

The study was partly funded by a Stryker Foundation grant.

Having a mobile interventional stroke team (MIST) travel to treat stroke patients soon after stroke onset may improve patient outcomes, according to a new study. A retrospective analysis of a pilot program in New York found that patients who were treated on the ground by the MIST team rather than transferred to a specialized stroke center received faster care and were almost twice as likely to be functionally independent 3 months later.

“The use of a Mobile Interventional Stroke Team (MIST) traveling to Thrombectomy Capable Stroke Centers to perform endovascular thrombectomy has been shown to be significantly faster with improved discharge outcomes,” wrote lead author Jacob Morey, a doctoral Candidate at Icahn School of Medicine at Mount Sinai in New York and coauthors in the paper. Prior to this study, “the effect of the MIST model stratified by time of presentation” had yet to be studied.

The findings were published online on Aug. 5 in Stroke.
 

MIST model versus drip-and-ship

The researchers analyzed 226 patients who underwent endovascular thrombectomy between January 2017 and February 2020 at four hospitals in the Mount Sinai health system using the NYC MIST Trial and a stroke database. At baseline, all patients were functionally independent as assessed by the modified Rankin Scale (mRS, score of 0-2). 106 patients were treated by a MIST team – staffed by a neurointerventionalist, a fellow or physician assistant, and radiologic technologist – that traveled to the patient’s location. A total of 120 patients were transferred to a comprehensive stroke center (CSC) or a hospital with endovascular thrombectomy expertise. The analysis was stratified based on whether the patient presented in the early time window (≤ 6 hours) or late time window (> 6 hours).

Patients treated in the early time window were significantly more likely to be mobile and able to perform daily tasks (mRS ≤ 2) 90 days after the procedure in the MIST group (54%), compared with the transferred group (28%, P < 0.01). Outcomes did not differ significantly between groups in the late time window (35% vs. 41%, P = 0.77).

Similarly, early-time-window patients in the MIST group were more likely to have higher functionality at discharge, compared with transferred patients, based on the on the National Institutes of Health Stroke Scale (median score of 5.0 vs. 12.0, P < 0.01). There was no significant difference between groups treated in the late time window (median score of 5.0 vs. 11.0, P = 0.11).

“Ischemic strokes often progress rapidly and can cause severe damage because brain tissue dies quickly without oxygen, resulting in serious long-term disabilities or death,“ said Johanna Fifi, MD, of Icahn School of Medicine, said in a statement to the American Heart Association. “Assessing and treating stroke patients in the early window means that a greater number of fast-progressing strokes are identified and treated.”

Time is brain

Endovascular thrombectomy is a time-sensitive surgical procedure to remove large blood clots in acute ischemic stroke that has “historically been limited to comprehensive stroke centers,” the authors wrote in their paper. It is considered the standard of care in ischemic strokes, which make up 90% of all strokes. “Less than 50% of Americans have direct access to endovascular thrombectomy, the others must be transferred to a thrombectomy-capable hospital for treatment, often losing over 2 hours of time to treatment,” said Dr. Fifi. “Every minute is precious in treating stroke, and getting to a center that offers thrombectomy is very important. The MIST model would address this by providing faster access to this potentially life-saving, disability-reducing procedure.”

Access to timely endovascular thrombectomy is gradually improving as “more institutions and cities have implemented the [MIST] model.” Dr. Fifi said.

“This study stresses the importance of ‘time is brain,’ especially for patients in the early time window. Although the study is limited by the observational, retrospective design and was performed at a single integrated center, the findings are provocative,” said Louise McCullough, MD, of the University of Texas Health Science Center at Houston said in a statement to the American Heart Association. “The use of a MIST model highlights the potential benefit of early and urgent treatment for patients with large-vessel stroke. Stroke systems of care need to take advantage of any opportunity to treat patients early, wherever they are.”

The study was partly funded by a Stryker Foundation grant.

Certain plasma biomarkers of neuronal damage and neuroinflammation are markedly elevated in hospitalized COVID-19 patients with neurologic symptoms compared with hospitalized COVID-19 patients without such symptoms, a new study shows.

These results suggest that COVID-19 may accelerate Alzheimer’s disease symptoms and pathology, said study investigator Thomas Wisniewski, MD, professor of neurology, pathology, and psychiatry at New York University.

The findings were presented here at the Alzheimer’s Association International Conference (AAIC) 2021.
 

Strong correlation

There’s a clear association between SARS-CoV-2 infection and Alzheimer’s disease-related dementia. Patients with Alzheimer’s disease are at threefold higher risk for the infection and have a twofold higher risk for death, Dr. Wisniewski told meeting delegates.

He and his colleagues conducted a prospective study of patients who had tested positive for SARS-CoV-2 and who experienced neurologic sequelae and SARS-CoV-2 patients who were without neurologic sequelae. All patients were hospitalized from March 10 to May 20, 2020. This was during a period when New York City was overwhelmed by COVID: About 35% of hospitalized patients had COVID.

Of those who experienced neurologic events, the most common “by far and away” (51%) was toxic metabolic encephalopathy (TME), said Dr. Wisniewski. Other associations included seizures, hypoxic/anoxic injury, and ischemic stroke.

The most common TMEs were septic and hypoxic ischemia. In most patients (78%), TME had more than one cause.

Researchers followed 196 patients with COVID and neurologic complications (case patients) and 186 matched control patients who had no neurologic complications over a period of 6 months.

“Unfortunately, both groups had poor outcomes,” said Dr. Wisniewski. About 50% had impaired cognition, and 56% experienced limitations in activities of daily living.

However, those patients with COVID-19 who had neurologic sequelae “fared even worse,” said Dr. Wisniewski. Compared with control patients, they had twofold worse Modified Rankin Scale scores and worse scores on activity of daily living, and they were much less likely to return to work.

Mechanisms by which COVID-19 affects longer-term cognitive dysfunction are unclear, but inflammation likely plays a role.

The research team compared a number of Alzheimer’s disease plasma biomarkers in 158 patients with COVID-19 who had neurologic symptoms and 152 COVID patients with COVID but no neurologic symptoms. They found marked elevations of neurofilament light, a marker of neuronal injury, in those with symptoms (P = .0003) as well as increased glial fibrillary acid protein, a marker of neuroinflammation (P = .0098).

Ubiquitin carboxyl-terminal hydrolase L1, another marker of neuronal injury, was also elevated in those with neurologic symptoms. Regarding Alzheimer’s disease pathology, total tau (t-tau) and phosphorylated tau “also tracked with neurological sequelae,” said Dr. Wisniewski.

There was no difference in levels of amyloid beta 40 (A beta 40) between groups. However, A beta 42 plasma levels were significantly lower in those with neurologic effects, suggesting higher levels in the brain. In addition, the ratio of t-tau to A beta 42 “clearly differentiated the two groups,” he said.

“Serum biomarkers of neuroinflammation and neuronal injury and Alzheimer’s disease correlate strongly, perhaps suggesting that folks with COVID infection and neurological sequelae may have an acceleration of Alzheimer’s disease symptoms and pathology,” he said. “That’s something that needs longer follow-up.”
 

Important differentiation

Commenting on the research, Rebecca Edelmayer, PhD, senior director of scientific engagement, Alzheimer’s Association, said the study provides important information. The inclusion of plasma biomarkers in this research is “really critical to tease out what’s the impact of COVID itself on the brain,” said Dr. Edelmayer.

“We’re in an era of biomarkers when it comes to Alzheimer’s disease and other dementias, and being able to define those changes that are happening in the brain over time is going to be really critical and aid in early detection and accurate diagnoses,” she said.

What is still to be learned is what these biomarkers reveal long term, said Dr. Edelmayer. “Do those biological markers change? Do they go back to normal? A lot of that is still unknown,” she said.

She noted that many diseases that are linked to inflammation produce similar biomarkers in the brain – for example, neurofilament light.

With other viral infections, such as severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS), similar associations between the infection and cognition have been reported, said Dr. Edelmayer.

“But there are still a lot of questions around cause and effect. Is it really a direct effect of the virus on the brain itself? Is it an effect of having an enormous amount of inflammation going on in the body? A lot of that still needs to be teased out,” she commented.

The study was supported by the National Institutes of Health, the Alzheimer’s Association, and the State of New York. Dr. Wisniewski has consulted for Grifols, Amylon Pharmaceuticals, and Alzamed Neuro; 30 NYU patents are related to AD therapeutics.

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

Certain plasma biomarkers of neuronal damage and neuroinflammation are markedly elevated in hospitalized COVID-19 patients with neurologic symptoms compared with hospitalized COVID-19 patients without such symptoms, a new study shows.

These results suggest that COVID-19 may accelerate Alzheimer’s disease symptoms and pathology, said study investigator Thomas Wisniewski, MD, professor of neurology, pathology, and psychiatry at New York University.

The findings were presented here at the Alzheimer’s Association International Conference (AAIC) 2021.
 

Strong correlation

There’s a clear association between SARS-CoV-2 infection and Alzheimer’s disease-related dementia. Patients with Alzheimer’s disease are at threefold higher risk for the infection and have a twofold higher risk for death, Dr. Wisniewski told meeting delegates.

He and his colleagues conducted a prospective study of patients who had tested positive for SARS-CoV-2 and who experienced neurologic sequelae and SARS-CoV-2 patients who were without neurologic sequelae. All patients were hospitalized from March 10 to May 20, 2020. This was during a period when New York City was overwhelmed by COVID: About 35% of hospitalized patients had COVID.

Of those who experienced neurologic events, the most common “by far and away” (51%) was toxic metabolic encephalopathy (TME), said Dr. Wisniewski. Other associations included seizures, hypoxic/anoxic injury, and ischemic stroke.

The most common TMEs were septic and hypoxic ischemia. In most patients (78%), TME had more than one cause.

Researchers followed 196 patients with COVID and neurologic complications (case patients) and 186 matched control patients who had no neurologic complications over a period of 6 months.

“Unfortunately, both groups had poor outcomes,” said Dr. Wisniewski. About 50% had impaired cognition, and 56% experienced limitations in activities of daily living.

However, those patients with COVID-19 who had neurologic sequelae “fared even worse,” said Dr. Wisniewski. Compared with control patients, they had twofold worse Modified Rankin Scale scores and worse scores on activity of daily living, and they were much less likely to return to work.

Mechanisms by which COVID-19 affects longer-term cognitive dysfunction are unclear, but inflammation likely plays a role.

The research team compared a number of Alzheimer’s disease plasma biomarkers in 158 patients with COVID-19 who had neurologic symptoms and 152 COVID patients with COVID but no neurologic symptoms. They found marked elevations of neurofilament light, a marker of neuronal injury, in those with symptoms (P = .0003) as well as increased glial fibrillary acid protein, a marker of neuroinflammation (P = .0098).

Ubiquitin carboxyl-terminal hydrolase L1, another marker of neuronal injury, was also elevated in those with neurologic symptoms. Regarding Alzheimer’s disease pathology, total tau (t-tau) and phosphorylated tau “also tracked with neurological sequelae,” said Dr. Wisniewski.

There was no difference in levels of amyloid beta 40 (A beta 40) between groups. However, A beta 42 plasma levels were significantly lower in those with neurologic effects, suggesting higher levels in the brain. In addition, the ratio of t-tau to A beta 42 “clearly differentiated the two groups,” he said.

“Serum biomarkers of neuroinflammation and neuronal injury and Alzheimer’s disease correlate strongly, perhaps suggesting that folks with COVID infection and neurological sequelae may have an acceleration of Alzheimer’s disease symptoms and pathology,” he said. “That’s something that needs longer follow-up.”
 

Important differentiation

Commenting on the research, Rebecca Edelmayer, PhD, senior director of scientific engagement, Alzheimer’s Association, said the study provides important information. The inclusion of plasma biomarkers in this research is “really critical to tease out what’s the impact of COVID itself on the brain,” said Dr. Edelmayer.

“We’re in an era of biomarkers when it comes to Alzheimer’s disease and other dementias, and being able to define those changes that are happening in the brain over time is going to be really critical and aid in early detection and accurate diagnoses,” she said.

What is still to be learned is what these biomarkers reveal long term, said Dr. Edelmayer. “Do those biological markers change? Do they go back to normal? A lot of that is still unknown,” she said.

She noted that many diseases that are linked to inflammation produce similar biomarkers in the brain – for example, neurofilament light.

With other viral infections, such as severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS), similar associations between the infection and cognition have been reported, said Dr. Edelmayer.

“But there are still a lot of questions around cause and effect. Is it really a direct effect of the virus on the brain itself? Is it an effect of having an enormous amount of inflammation going on in the body? A lot of that still needs to be teased out,” she commented.

The study was supported by the National Institutes of Health, the Alzheimer’s Association, and the State of New York. Dr. Wisniewski has consulted for Grifols, Amylon Pharmaceuticals, and Alzamed Neuro; 30 NYU patents are related to AD therapeutics.

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

Certain plasma biomarkers of neuronal damage and neuroinflammation are markedly elevated in hospitalized COVID-19 patients with neurologic symptoms compared with hospitalized COVID-19 patients without such symptoms, a new study shows.

These results suggest that COVID-19 may accelerate Alzheimer’s disease symptoms and pathology, said study investigator Thomas Wisniewski, MD, professor of neurology, pathology, and psychiatry at New York University.

The findings were presented here at the Alzheimer’s Association International Conference (AAIC) 2021.
 

Strong correlation

There’s a clear association between SARS-CoV-2 infection and Alzheimer’s disease-related dementia. Patients with Alzheimer’s disease are at threefold higher risk for the infection and have a twofold higher risk for death, Dr. Wisniewski told meeting delegates.

He and his colleagues conducted a prospective study of patients who had tested positive for SARS-CoV-2 and who experienced neurologic sequelae and SARS-CoV-2 patients who were without neurologic sequelae. All patients were hospitalized from March 10 to May 20, 2020. This was during a period when New York City was overwhelmed by COVID: About 35% of hospitalized patients had COVID.

Of those who experienced neurologic events, the most common “by far and away” (51%) was toxic metabolic encephalopathy (TME), said Dr. Wisniewski. Other associations included seizures, hypoxic/anoxic injury, and ischemic stroke.

The most common TMEs were septic and hypoxic ischemia. In most patients (78%), TME had more than one cause.

Researchers followed 196 patients with COVID and neurologic complications (case patients) and 186 matched control patients who had no neurologic complications over a period of 6 months.

“Unfortunately, both groups had poor outcomes,” said Dr. Wisniewski. About 50% had impaired cognition, and 56% experienced limitations in activities of daily living.

However, those patients with COVID-19 who had neurologic sequelae “fared even worse,” said Dr. Wisniewski. Compared with control patients, they had twofold worse Modified Rankin Scale scores and worse scores on activity of daily living, and they were much less likely to return to work.

Mechanisms by which COVID-19 affects longer-term cognitive dysfunction are unclear, but inflammation likely plays a role.

The research team compared a number of Alzheimer’s disease plasma biomarkers in 158 patients with COVID-19 who had neurologic symptoms and 152 COVID patients with COVID but no neurologic symptoms. They found marked elevations of neurofilament light, a marker of neuronal injury, in those with symptoms (P = .0003) as well as increased glial fibrillary acid protein, a marker of neuroinflammation (P = .0098).

Ubiquitin carboxyl-terminal hydrolase L1, another marker of neuronal injury, was also elevated in those with neurologic symptoms. Regarding Alzheimer’s disease pathology, total tau (t-tau) and phosphorylated tau “also tracked with neurological sequelae,” said Dr. Wisniewski.

There was no difference in levels of amyloid beta 40 (A beta 40) between groups. However, A beta 42 plasma levels were significantly lower in those with neurologic effects, suggesting higher levels in the brain. In addition, the ratio of t-tau to A beta 42 “clearly differentiated the two groups,” he said.

“Serum biomarkers of neuroinflammation and neuronal injury and Alzheimer’s disease correlate strongly, perhaps suggesting that folks with COVID infection and neurological sequelae may have an acceleration of Alzheimer’s disease symptoms and pathology,” he said. “That’s something that needs longer follow-up.”
 

Important differentiation

Commenting on the research, Rebecca Edelmayer, PhD, senior director of scientific engagement, Alzheimer’s Association, said the study provides important information. The inclusion of plasma biomarkers in this research is “really critical to tease out what’s the impact of COVID itself on the brain,” said Dr. Edelmayer.

“We’re in an era of biomarkers when it comes to Alzheimer’s disease and other dementias, and being able to define those changes that are happening in the brain over time is going to be really critical and aid in early detection and accurate diagnoses,” she said.

What is still to be learned is what these biomarkers reveal long term, said Dr. Edelmayer. “Do those biological markers change? Do they go back to normal? A lot of that is still unknown,” she said.

She noted that many diseases that are linked to inflammation produce similar biomarkers in the brain – for example, neurofilament light.

With other viral infections, such as severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS), similar associations between the infection and cognition have been reported, said Dr. Edelmayer.

“But there are still a lot of questions around cause and effect. Is it really a direct effect of the virus on the brain itself? Is it an effect of having an enormous amount of inflammation going on in the body? A lot of that still needs to be teased out,” she commented.

The study was supported by the National Institutes of Health, the Alzheimer’s Association, and the State of New York. Dr. Wisniewski has consulted for Grifols, Amylon Pharmaceuticals, and Alzamed Neuro; 30 NYU patents are related to AD therapeutics.

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

Transgender adults are more likely to experience subjective cognitive decline (SCD) than their cisgender peers, and at an earlier age, new research shows.

Investigators found transgender adults – individuals who identify with a gender different than the one assigned to them at birth – were nearly twice as likely to report subjective cognitive decline and more than twice as likely to report SCD-related functional limitations – such as reduced ability to work, volunteer, or be social – than cisgender adults.

‘Alarming’ finding

SCD is a self-reported experience of worsening memory or thinking and is one of the first clinical manifestations of Alzheimer’s disease and related dementia (ADRD). Yet there is limited research into cognitive impairment among transgender adults.

The researchers examined SCD and associated functional limitations among transgender and cisgender adults older than age 45 years who provided health and health behavior data as part of the Behavioral Risk Factor Surveillance System (BRFSS) surveys (2015-2019). 

The sample included 386,529 adults of whom 1,302 identified as transgender and 385,227 as cisgender.

Roughly 17% of transgender adults reported SCD, which is significantly higher than the 10.6% rate for cisgender adults (P < .001).

Compared with cisgender adults reporting SCD, transgender adults reporting SCD were younger (mean age 61.9 vs. 65.2 years, P = .0005), more likely to be in a racial/ethnic minority group (37.3% vs. 19.5%, P < .0001), have a high school degree or less (59.6% vs. 43.4%, P = .0003), be uninsured (17% vs. 5.5%, P = .0007) and have a depressive disorder (58.8% vs. 45.7%, P = .0028).

The fact that transgender people who reported SCD were about 3 years younger than cisgender people who reported SCD is “somewhat alarming and a red flag to ask middle-aged trans adults about their brain health and not just older or elderly trans adults,” said Dr. Cicero.

The study also showed that transgender adults reporting SCD were 2.3 times more likely to report related social and self-care limitations when compared with cisgender adults reporting SCD.

The findings align with a study reported at AAIC 2019, which showed that sexual or gender minorities (SGM) are almost 30% more likely to report subjective cognitive decline compared with the non-SGM population.
 

Cause unclear

“We are not certain what may be causing the elevated subjective cognitive decline rates among transgender adults. We postulate that it may be in part due to anti-transgender stigma and prejudice that expose transgender people to high rates of mistreatment and discrimination where they live, work, learn, seek health care, and age,” Dr. Cicero said.

“More research is needed to identify and target preventive intervention strategies, develop culturally relevant screenings, and shape policies to improve the health and well-being of the transgender population,” he added.

Weighing in on the study, Rebecca Edelmayer, PhD, senior director of scientific engagement at the Alzheimer’s Association, said “researchers have only just started to explore the experiences of dementia within the lesbian, gay, and bisexual community, but this is the first time we are seeing some specific research that’s looking at cognition in transgender individuals and gender nonbinary individuals.”

“We don’t know exactly why transgender and gender nonbinary individuals experience greater rates of subjective cognitive decline, but we do know that they have greater rates of health disparities that are considered risk factors for dementia, including higher rates of cardiovascular disease, depression, diabetes, tobacco and alcohol use, and obesity,” Dr. Edelmayer said. 

“Alzheimer’s and dementia do not discriminate. Neither can we,” Maria C. Carrillo, PhD, chief science officer for the Alzheimer’s Association, said in a statement.

“The Alzheimer’s Association advocates for more research to better understand the cognitive and emotional needs of transgender and nonbinary individuals so that our nation’s health care providers can offer them culturally sensitive care,” said Dr. Carrillo.

The study had no specific funding. Dr. Cicero, Dr. Carrillo, and Dr. Edelmayer have disclosed no relevant financial relationships.

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

Transgender adults are more likely to experience subjective cognitive decline (SCD) than their cisgender peers, and at an earlier age, new research shows.

Investigators found transgender adults – individuals who identify with a gender different than the one assigned to them at birth – were nearly twice as likely to report subjective cognitive decline and more than twice as likely to report SCD-related functional limitations – such as reduced ability to work, volunteer, or be social – than cisgender adults.

‘Alarming’ finding

SCD is a self-reported experience of worsening memory or thinking and is one of the first clinical manifestations of Alzheimer’s disease and related dementia (ADRD). Yet there is limited research into cognitive impairment among transgender adults.

The researchers examined SCD and associated functional limitations among transgender and cisgender adults older than age 45 years who provided health and health behavior data as part of the Behavioral Risk Factor Surveillance System (BRFSS) surveys (2015-2019). 

The sample included 386,529 adults of whom 1,302 identified as transgender and 385,227 as cisgender.

Roughly 17% of transgender adults reported SCD, which is significantly higher than the 10.6% rate for cisgender adults (P < .001).

Compared with cisgender adults reporting SCD, transgender adults reporting SCD were younger (mean age 61.9 vs. 65.2 years, P = .0005), more likely to be in a racial/ethnic minority group (37.3% vs. 19.5%, P < .0001), have a high school degree or less (59.6% vs. 43.4%, P = .0003), be uninsured (17% vs. 5.5%, P = .0007) and have a depressive disorder (58.8% vs. 45.7%, P = .0028).

The fact that transgender people who reported SCD were about 3 years younger than cisgender people who reported SCD is “somewhat alarming and a red flag to ask middle-aged trans adults about their brain health and not just older or elderly trans adults,” said Dr. Cicero.

The study also showed that transgender adults reporting SCD were 2.3 times more likely to report related social and self-care limitations when compared with cisgender adults reporting SCD.

The findings align with a study reported at AAIC 2019, which showed that sexual or gender minorities (SGM) are almost 30% more likely to report subjective cognitive decline compared with the non-SGM population.
 

Cause unclear

“We are not certain what may be causing the elevated subjective cognitive decline rates among transgender adults. We postulate that it may be in part due to anti-transgender stigma and prejudice that expose transgender people to high rates of mistreatment and discrimination where they live, work, learn, seek health care, and age,” Dr. Cicero said.

“More research is needed to identify and target preventive intervention strategies, develop culturally relevant screenings, and shape policies to improve the health and well-being of the transgender population,” he added.

Weighing in on the study, Rebecca Edelmayer, PhD, senior director of scientific engagement at the Alzheimer’s Association, said “researchers have only just started to explore the experiences of dementia within the lesbian, gay, and bisexual community, but this is the first time we are seeing some specific research that’s looking at cognition in transgender individuals and gender nonbinary individuals.”

“We don’t know exactly why transgender and gender nonbinary individuals experience greater rates of subjective cognitive decline, but we do know that they have greater rates of health disparities that are considered risk factors for dementia, including higher rates of cardiovascular disease, depression, diabetes, tobacco and alcohol use, and obesity,” Dr. Edelmayer said. 

“Alzheimer’s and dementia do not discriminate. Neither can we,” Maria C. Carrillo, PhD, chief science officer for the Alzheimer’s Association, said in a statement.

“The Alzheimer’s Association advocates for more research to better understand the cognitive and emotional needs of transgender and nonbinary individuals so that our nation’s health care providers can offer them culturally sensitive care,” said Dr. Carrillo.

The study had no specific funding. Dr. Cicero, Dr. Carrillo, and Dr. Edelmayer have disclosed no relevant financial relationships.

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

Transgender adults are more likely to experience subjective cognitive decline (SCD) than their cisgender peers, and at an earlier age, new research shows.

Investigators found transgender adults – individuals who identify with a gender different than the one assigned to them at birth – were nearly twice as likely to report subjective cognitive decline and more than twice as likely to report SCD-related functional limitations – such as reduced ability to work, volunteer, or be social – than cisgender adults.

‘Alarming’ finding

SCD is a self-reported experience of worsening memory or thinking and is one of the first clinical manifestations of Alzheimer’s disease and related dementia (ADRD). Yet there is limited research into cognitive impairment among transgender adults.

The researchers examined SCD and associated functional limitations among transgender and cisgender adults older than age 45 years who provided health and health behavior data as part of the Behavioral Risk Factor Surveillance System (BRFSS) surveys (2015-2019). 

The sample included 386,529 adults of whom 1,302 identified as transgender and 385,227 as cisgender.

Roughly 17% of transgender adults reported SCD, which is significantly higher than the 10.6% rate for cisgender adults (P < .001).

Compared with cisgender adults reporting SCD, transgender adults reporting SCD were younger (mean age 61.9 vs. 65.2 years, P = .0005), more likely to be in a racial/ethnic minority group (37.3% vs. 19.5%, P < .0001), have a high school degree or less (59.6% vs. 43.4%, P = .0003), be uninsured (17% vs. 5.5%, P = .0007) and have a depressive disorder (58.8% vs. 45.7%, P = .0028).

The fact that transgender people who reported SCD were about 3 years younger than cisgender people who reported SCD is “somewhat alarming and a red flag to ask middle-aged trans adults about their brain health and not just older or elderly trans adults,” said Dr. Cicero.

The study also showed that transgender adults reporting SCD were 2.3 times more likely to report related social and self-care limitations when compared with cisgender adults reporting SCD.

The findings align with a study reported at AAIC 2019, which showed that sexual or gender minorities (SGM) are almost 30% more likely to report subjective cognitive decline compared with the non-SGM population.
 

Cause unclear

“We are not certain what may be causing the elevated subjective cognitive decline rates among transgender adults. We postulate that it may be in part due to anti-transgender stigma and prejudice that expose transgender people to high rates of mistreatment and discrimination where they live, work, learn, seek health care, and age,” Dr. Cicero said.

“More research is needed to identify and target preventive intervention strategies, develop culturally relevant screenings, and shape policies to improve the health and well-being of the transgender population,” he added.

Weighing in on the study, Rebecca Edelmayer, PhD, senior director of scientific engagement at the Alzheimer’s Association, said “researchers have only just started to explore the experiences of dementia within the lesbian, gay, and bisexual community, but this is the first time we are seeing some specific research that’s looking at cognition in transgender individuals and gender nonbinary individuals.”

“We don’t know exactly why transgender and gender nonbinary individuals experience greater rates of subjective cognitive decline, but we do know that they have greater rates of health disparities that are considered risk factors for dementia, including higher rates of cardiovascular disease, depression, diabetes, tobacco and alcohol use, and obesity,” Dr. Edelmayer said. 

“Alzheimer’s and dementia do not discriminate. Neither can we,” Maria C. Carrillo, PhD, chief science officer for the Alzheimer’s Association, said in a statement.

“The Alzheimer’s Association advocates for more research to better understand the cognitive and emotional needs of transgender and nonbinary individuals so that our nation’s health care providers can offer them culturally sensitive care,” said Dr. Carrillo.

The study had no specific funding. Dr. Cicero, Dr. Carrillo, and Dr. Edelmayer have disclosed no relevant financial relationships.

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

Low dose acetylsalicylic acid (LDASA) may have some protective benefit against cognitive decline, but only if started well before symptoms begin, according to a retrospective analysis of two large cohorts. The association with all-cause dementia was weak, but much more pronounced in subjects with coronary heart disease.

The results underscore that individuals with cardiovascular disease risk factors should be prescribed LDASA, and they should be encouraged to be compliant. The study differed from previous observational and randomized, controlled trials, which yielded mixed results. Many looked at individuals older than age 65. The pathological changes associated with dementia may occur up to 2 decades before symptom onset, and it appears that LDASA cannot counter cognitive decline after a diagnosis is made. “The use of LDASA at this age may be already too late,” said Thi Ngoc Mai Nguyen, a PhD student at Network Aging Research, Heidelberg University, Germany. She presented the results at the 2021 Alzheimer’s Association International Conference.

Previous studies also included individuals using LDASA to prevent cardiovascular disease, and they didn’t always adjust for these risk factors. The current work used two large databases, UK Biobank and ESTHER, with a follow-up time of over 10 years for both. “We were able to balance out the distribution of measured baseline covariates (to be) similar between LDASA users and nonusers, and thus, we were able to adjust for confounders more comprehensively,” said Ms. Nguyen.
 

Not yet a definitive answer

Although the findings are promising, Ms. Nguyen noted that the study is not the final word. “Residual confounding is possible, and causation cannot be tested. The only way to answer this is to have clinical trials with at least 10 years of follow-up,” said Ms. Nguyen. She plans to conduct similar studies in non-White populations, and also to examine whether LDASA can help preserve cognitive function in middle-age adults.

The study is interesting, said Claire Sexton, DPhil, who was asked to comment, but she suggested that it is not practice changing. “There is not evidence from the dementia science perspective that should go against whatever the recommendations are for cardiovascular risk,” said Dr. Sexton, director of scientific programs and outreach at the Alzheimer’s Association. “I don’t think this study alone can provide a definitive answer on low-dose aspirin and its association with dementia and Alzheimer’s disease, but it’s an important addition to the literature,” she added.
 

Meta-analysis data

The researchers examined two prospective cohort studies, and combined them into a meta-analysis. It included the ESTHER cohort from Saarland, Germany, with 5,258 individuals and 14.3 years of follow-up, and the UK Biobank cohort, with 305,394 individuals and 11.6 years of follow-up. Subjects selected for analysis were 55 years old or older.

The meta-analysis showed no significant association between LDASA use and reduced risk of Alzheimer’s disease, but there was an association between LDASA use and all-cause dementia (hazard ratio [HR], 0.96; 95% confidence interval [CI], 0.93-0.99).

There were no sex differences with respect to Alzheimer’s dementia, but in males, LDASA was associated with lower risk of vascular dementia (HR, 0.85; 95% CI, 0.79-0.93) and all-cause dementia (HR, 0.87; 95% CI, 0.83-0.92). However, in females, LDASA was tied to greater risk of both vascular dementia (HR, 1.13; 95% CI, 1.02-1.24) and all-cause dementia (HR, 1.07; 95% CI, 1.02-1.13).

The strongest association between LDASA and reduced dementia risk was found in subjects with coronary heart disease (HR, 0.69; 95% CI, 0.59-0.80).

The researchers also used UK Biobank primary care data to analyze associations between longer use of LDASA and reduced dementia risk. Those who used LDASA for 0-5 years were at a higher than average risk of all-cause dementia (HR, 2.80; 95% CI, 2.48-3.16), Alzheimer’s disease (HR, 2.26; 95% CI, 1.84-2.77), and vascular dementia (HR, 3.79; 95% CI, 3.17-4.53). Long-term LDASA users, defined as 10 years or longer, had a lower risk of all-cause dementia (HR, 0.51; 95% CI, 0.47-0.56), Alzheimer’s disease (HR, 0.58; 95% CI, 0.51-0.68), and vascular dementia (HR, 0.48; 95% CI, 0.42-0.56).

Dr. Nguyen and Dr. Sexton have no relevant financial disclosures.

Low dose acetylsalicylic acid (LDASA) may have some protective benefit against cognitive decline, but only if started well before symptoms begin, according to a retrospective analysis of two large cohorts. The association with all-cause dementia was weak, but much more pronounced in subjects with coronary heart disease.

The results underscore that individuals with cardiovascular disease risk factors should be prescribed LDASA, and they should be encouraged to be compliant. The study differed from previous observational and randomized, controlled trials, which yielded mixed results. Many looked at individuals older than age 65. The pathological changes associated with dementia may occur up to 2 decades before symptom onset, and it appears that LDASA cannot counter cognitive decline after a diagnosis is made. “The use of LDASA at this age may be already too late,” said Thi Ngoc Mai Nguyen, a PhD student at Network Aging Research, Heidelberg University, Germany. She presented the results at the 2021 Alzheimer’s Association International Conference.

Previous studies also included individuals using LDASA to prevent cardiovascular disease, and they didn’t always adjust for these risk factors. The current work used two large databases, UK Biobank and ESTHER, with a follow-up time of over 10 years for both. “We were able to balance out the distribution of measured baseline covariates (to be) similar between LDASA users and nonusers, and thus, we were able to adjust for confounders more comprehensively,” said Ms. Nguyen.
 

Not yet a definitive answer

Although the findings are promising, Ms. Nguyen noted that the study is not the final word. “Residual confounding is possible, and causation cannot be tested. The only way to answer this is to have clinical trials with at least 10 years of follow-up,” said Ms. Nguyen. She plans to conduct similar studies in non-White populations, and also to examine whether LDASA can help preserve cognitive function in middle-age adults.

The study is interesting, said Claire Sexton, DPhil, who was asked to comment, but she suggested that it is not practice changing. “There is not evidence from the dementia science perspective that should go against whatever the recommendations are for cardiovascular risk,” said Dr. Sexton, director of scientific programs and outreach at the Alzheimer’s Association. “I don’t think this study alone can provide a definitive answer on low-dose aspirin and its association with dementia and Alzheimer’s disease, but it’s an important addition to the literature,” she added.
 

Meta-analysis data

The researchers examined two prospective cohort studies, and combined them into a meta-analysis. It included the ESTHER cohort from Saarland, Germany, with 5,258 individuals and 14.3 years of follow-up, and the UK Biobank cohort, with 305,394 individuals and 11.6 years of follow-up. Subjects selected for analysis were 55 years old or older.

The meta-analysis showed no significant association between LDASA use and reduced risk of Alzheimer’s disease, but there was an association between LDASA use and all-cause dementia (hazard ratio [HR], 0.96; 95% confidence interval [CI], 0.93-0.99).

There were no sex differences with respect to Alzheimer’s dementia, but in males, LDASA was associated with lower risk of vascular dementia (HR, 0.85; 95% CI, 0.79-0.93) and all-cause dementia (HR, 0.87; 95% CI, 0.83-0.92). However, in females, LDASA was tied to greater risk of both vascular dementia (HR, 1.13; 95% CI, 1.02-1.24) and all-cause dementia (HR, 1.07; 95% CI, 1.02-1.13).

The strongest association between LDASA and reduced dementia risk was found in subjects with coronary heart disease (HR, 0.69; 95% CI, 0.59-0.80).

The researchers also used UK Biobank primary care data to analyze associations between longer use of LDASA and reduced dementia risk. Those who used LDASA for 0-5 years were at a higher than average risk of all-cause dementia (HR, 2.80; 95% CI, 2.48-3.16), Alzheimer’s disease (HR, 2.26; 95% CI, 1.84-2.77), and vascular dementia (HR, 3.79; 95% CI, 3.17-4.53). Long-term LDASA users, defined as 10 years or longer, had a lower risk of all-cause dementia (HR, 0.51; 95% CI, 0.47-0.56), Alzheimer’s disease (HR, 0.58; 95% CI, 0.51-0.68), and vascular dementia (HR, 0.48; 95% CI, 0.42-0.56).

Dr. Nguyen and Dr. Sexton have no relevant financial disclosures.

Low dose acetylsalicylic acid (LDASA) may have some protective benefit against cognitive decline, but only if started well before symptoms begin, according to a retrospective analysis of two large cohorts. The association with all-cause dementia was weak, but much more pronounced in subjects with coronary heart disease.

The results underscore that individuals with cardiovascular disease risk factors should be prescribed LDASA, and they should be encouraged to be compliant. The study differed from previous observational and randomized, controlled trials, which yielded mixed results. Many looked at individuals older than age 65. The pathological changes associated with dementia may occur up to 2 decades before symptom onset, and it appears that LDASA cannot counter cognitive decline after a diagnosis is made. “The use of LDASA at this age may be already too late,” said Thi Ngoc Mai Nguyen, a PhD student at Network Aging Research, Heidelberg University, Germany. She presented the results at the 2021 Alzheimer’s Association International Conference.

Previous studies also included individuals using LDASA to prevent cardiovascular disease, and they didn’t always adjust for these risk factors. The current work used two large databases, UK Biobank and ESTHER, with a follow-up time of over 10 years for both. “We were able to balance out the distribution of measured baseline covariates (to be) similar between LDASA users and nonusers, and thus, we were able to adjust for confounders more comprehensively,” said Ms. Nguyen.
 

Not yet a definitive answer

Although the findings are promising, Ms. Nguyen noted that the study is not the final word. “Residual confounding is possible, and causation cannot be tested. The only way to answer this is to have clinical trials with at least 10 years of follow-up,” said Ms. Nguyen. She plans to conduct similar studies in non-White populations, and also to examine whether LDASA can help preserve cognitive function in middle-age adults.

The study is interesting, said Claire Sexton, DPhil, who was asked to comment, but she suggested that it is not practice changing. “There is not evidence from the dementia science perspective that should go against whatever the recommendations are for cardiovascular risk,” said Dr. Sexton, director of scientific programs and outreach at the Alzheimer’s Association. “I don’t think this study alone can provide a definitive answer on low-dose aspirin and its association with dementia and Alzheimer’s disease, but it’s an important addition to the literature,” she added.
 

Meta-analysis data

The researchers examined two prospective cohort studies, and combined them into a meta-analysis. It included the ESTHER cohort from Saarland, Germany, with 5,258 individuals and 14.3 years of follow-up, and the UK Biobank cohort, with 305,394 individuals and 11.6 years of follow-up. Subjects selected for analysis were 55 years old or older.

The meta-analysis showed no significant association between LDASA use and reduced risk of Alzheimer’s disease, but there was an association between LDASA use and all-cause dementia (hazard ratio [HR], 0.96; 95% confidence interval [CI], 0.93-0.99).

There were no sex differences with respect to Alzheimer’s dementia, but in males, LDASA was associated with lower risk of vascular dementia (HR, 0.85; 95% CI, 0.79-0.93) and all-cause dementia (HR, 0.87; 95% CI, 0.83-0.92). However, in females, LDASA was tied to greater risk of both vascular dementia (HR, 1.13; 95% CI, 1.02-1.24) and all-cause dementia (HR, 1.07; 95% CI, 1.02-1.13).

The strongest association between LDASA and reduced dementia risk was found in subjects with coronary heart disease (HR, 0.69; 95% CI, 0.59-0.80).

The researchers also used UK Biobank primary care data to analyze associations between longer use of LDASA and reduced dementia risk. Those who used LDASA for 0-5 years were at a higher than average risk of all-cause dementia (HR, 2.80; 95% CI, 2.48-3.16), Alzheimer’s disease (HR, 2.26; 95% CI, 1.84-2.77), and vascular dementia (HR, 3.79; 95% CI, 3.17-4.53). Long-term LDASA users, defined as 10 years or longer, had a lower risk of all-cause dementia (HR, 0.51; 95% CI, 0.47-0.56), Alzheimer’s disease (HR, 0.58; 95% CI, 0.51-0.68), and vascular dementia (HR, 0.48; 95% CI, 0.42-0.56).

Dr. Nguyen and Dr. Sexton have no relevant financial disclosures.