Alzheimer's & Cognition

A high-fiber diet, especially one rich in soluble fiber, is linked to a lower risk of incident disabling dementia, new research shows.

Investigators administered a dietary survey to 3,700 healthy adults at midlife and then followed them for up to 20 years. They found that participants who consumed the most fiber had approximately a 25% lower risk of developing dementia in later life.

“This study showed that people with a high intake of dietary fiber, especially soluble fiber, have a lower risk of dementia,” study investigator Kazumasa Yamagishi, MD, PhD, professor, department of public health medicine, faculty of medicine and health, Services Research and Development Center, University of Tsukuba, Japan, said in an interview.

CDC/Debora Cartagena

“There are still many unknowns about the causes of dementia, and it is not appropriate to determine causality based on the results of a single cohort study. However, the results of this study can be said to be one of the findings that will lead to the prevention of dementia,” Dr. Yamagishi said.

The study was published online Feb. 6 in Nutritional Neuroscience.
 

Brain-gut interaction

Brain-gut interaction has recently received attention for its potential involvement in the development of dementia. “The concept of brain-gut interaction emerged from the idea that the central nervous system communicates bidirectionally with the gastrointestinal tract, suggesting that the gut microbiome may influence brain plasticity and cognitive function,” the authors wrote.

A diet high in soluble fiber attenuates neuroinflammation in mouse models. Other animal studies have suggested that insoluble fiber might also have a beneficial effect on the microbiome.

The researchers wanted to see whether dietary fiber intake – especially soluble fiber – is associated with a reduced risk of dementia. They also investigated whether there was any difference between dementia in patients with vs. without a history of stroke.

In a previous study, these same researchers reported an inverse association between eating beans, which are high in fiber, and risk of disabling dementia. In the current study, the researchers extended the analyses to dietary fiber intake of total, soluble, and insoluble fibers, as well as other fiber-containing foods, such potatoes, vegetables, and fruits. However, they distinguished potatoes from other vegetables because the composition of starch in potatoes differs.

“Dietary fiber is a nutrient found in grains, potatoes, vegetables, and fruits and is known to affect intestinal bacteria,” Dr. Yamagishi said. “Recently, some experimental studies have shown that intestinal bacteria may be involved in cognitive functions as well as diseases of the digestive tract. However, there have been no studies that have actually examined the relationship between dietary fiber intake and the subsequent risk of dementia in large numbers of general people.”

The researchers turned to participants in the Circulatory Risk in Communities Study (CIRCS), an ongoing dynamic community cohort study involving five communities in Japan. The current study focused on communities where disabling dementia surveillance is conducted.

Participants (n = 3,739) ranged in age from 40 to 64 years (mean age, 51 years) at the time they completed the 24-hour dietary recall survey, and they participated in annual health checkups from 1985 to 1999. Potential risk factors for disabling dementia were measured at the time the dietary surveys were conducted. Participants were then followed for a median of 19.7 years (1999-2020) to confirm incident, disabling dementia.

“Disabling dementia” was defined as dementia that required care under the National Long-Term Care Insurance System and was further categorized on the basis of having a history or not having a history of stroke.

The researchers divided participants into quartiles, based on the amount of total, soluble, and insoluble intake reported in their surveys. They found that men tended to consume less total fiber compared to women.
 

Unclear mechanism

During follow-up, 670 participants developed disabling dementia.

Total fiber intake was “inversely and linearly” associated with risk of incident dementia, the authors reported, with each successive quartile associated with a lower risk compared to the lowest quartile (P for trend = .03).

The association remained after adjustment for potential factors that might affect dementia onset, such as body mass index, systolic blood pressure, antihypertensive medication use, serum total cholesterol, cholesterol-lowering medication, and diabetes (P for trend = .05).

“The inverse association was more evident for soluble fiber intake and was confined to dementia without a history of stroke,” the authors reported. Moreover, potatoes, not vegetables or fruits, showed a similar association.

“The mechanisms are currently unknown but might involve the interactions that take place between the gut and the brain,” Dr. Yamagishi said in a release.

“One possibility is that soluble fiber regulates the composition of gut bacteria. This composition may affect neuroinflammation, which plays a role in the onset of dementia,” he suggested. “It’s also possible that dietary fiber may reduce other risk factors for dementia, such as body weight, blood pressure, lipids, and glucose levels.”

The authors noted several limitations. For example, they did not distinguish between Alzheimer’s and non-Alzheimer’s dementia. Moreover, they classified dietary habits on the basis of a single survey, and participants’ dietary patterns might have changed over the study period.

In addition, Dr. Yamagishi noted, it is “important to confirm the association in other populations.”
 

Balance is key

In an interview, Uma Naidoo, MD, director of nutritional and lifestyle psychiatry, Massachusetts General Hospital, and nutrition educator at Harvard Medical School, both in Boston, said the study “adds to the growing pool of evidence suggesting that a diet rich in colorful, plant-based foods can benefit our neurological and psychiatric health, especially as we age.”

Dr. Naidoo, a chef and the author of “This Is Your Brain on Food,” who was not involved in the study, continued, “In nutritional psychiatry, balance is key and therefore consuming a well-rounded diet including ample amounts of fiber – particularly from sources like steel-cut oats, beans, lentils, and numerous other fruits and vegetables – can be part of a healthy lifestyle and prevention against cognitive decline in later years.

“While the study authors admit to limitations within the study, in my opinion, eating healthier has so many mental and physical health benefits that it’s a nutritional psychiatry no-brainer,” she added.

The study was partly supported by Health and Labour Science Research Grants for Dementia from the Ministry of Health, Labour and Welfare of Japan; JSPS Kakenhi; FULLHAP; and the Osaka University International Joint Research Promotion Programme with University College London. The authors and Dr. Naidoo report no relevant financial relationships.

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

A high-fiber diet, especially one rich in soluble fiber, is linked to a lower risk of incident disabling dementia, new research shows.

Investigators administered a dietary survey to 3,700 healthy adults at midlife and then followed them for up to 20 years. They found that participants who consumed the most fiber had approximately a 25% lower risk of developing dementia in later life.

“This study showed that people with a high intake of dietary fiber, especially soluble fiber, have a lower risk of dementia,” study investigator Kazumasa Yamagishi, MD, PhD, professor, department of public health medicine, faculty of medicine and health, Services Research and Development Center, University of Tsukuba, Japan, said in an interview.

CDC/Debora Cartagena

“There are still many unknowns about the causes of dementia, and it is not appropriate to determine causality based on the results of a single cohort study. However, the results of this study can be said to be one of the findings that will lead to the prevention of dementia,” Dr. Yamagishi said.

The study was published online Feb. 6 in Nutritional Neuroscience.
 

Brain-gut interaction

Brain-gut interaction has recently received attention for its potential involvement in the development of dementia. “The concept of brain-gut interaction emerged from the idea that the central nervous system communicates bidirectionally with the gastrointestinal tract, suggesting that the gut microbiome may influence brain plasticity and cognitive function,” the authors wrote.

A diet high in soluble fiber attenuates neuroinflammation in mouse models. Other animal studies have suggested that insoluble fiber might also have a beneficial effect on the microbiome.

The researchers wanted to see whether dietary fiber intake – especially soluble fiber – is associated with a reduced risk of dementia. They also investigated whether there was any difference between dementia in patients with vs. without a history of stroke.

In a previous study, these same researchers reported an inverse association between eating beans, which are high in fiber, and risk of disabling dementia. In the current study, the researchers extended the analyses to dietary fiber intake of total, soluble, and insoluble fibers, as well as other fiber-containing foods, such potatoes, vegetables, and fruits. However, they distinguished potatoes from other vegetables because the composition of starch in potatoes differs.

“Dietary fiber is a nutrient found in grains, potatoes, vegetables, and fruits and is known to affect intestinal bacteria,” Dr. Yamagishi said. “Recently, some experimental studies have shown that intestinal bacteria may be involved in cognitive functions as well as diseases of the digestive tract. However, there have been no studies that have actually examined the relationship between dietary fiber intake and the subsequent risk of dementia in large numbers of general people.”

The researchers turned to participants in the Circulatory Risk in Communities Study (CIRCS), an ongoing dynamic community cohort study involving five communities in Japan. The current study focused on communities where disabling dementia surveillance is conducted.

Participants (n = 3,739) ranged in age from 40 to 64 years (mean age, 51 years) at the time they completed the 24-hour dietary recall survey, and they participated in annual health checkups from 1985 to 1999. Potential risk factors for disabling dementia were measured at the time the dietary surveys were conducted. Participants were then followed for a median of 19.7 years (1999-2020) to confirm incident, disabling dementia.

“Disabling dementia” was defined as dementia that required care under the National Long-Term Care Insurance System and was further categorized on the basis of having a history or not having a history of stroke.

The researchers divided participants into quartiles, based on the amount of total, soluble, and insoluble intake reported in their surveys. They found that men tended to consume less total fiber compared to women.
 

Unclear mechanism

During follow-up, 670 participants developed disabling dementia.

Total fiber intake was “inversely and linearly” associated with risk of incident dementia, the authors reported, with each successive quartile associated with a lower risk compared to the lowest quartile (P for trend = .03).

The association remained after adjustment for potential factors that might affect dementia onset, such as body mass index, systolic blood pressure, antihypertensive medication use, serum total cholesterol, cholesterol-lowering medication, and diabetes (P for trend = .05).

“The inverse association was more evident for soluble fiber intake and was confined to dementia without a history of stroke,” the authors reported. Moreover, potatoes, not vegetables or fruits, showed a similar association.

“The mechanisms are currently unknown but might involve the interactions that take place between the gut and the brain,” Dr. Yamagishi said in a release.

“One possibility is that soluble fiber regulates the composition of gut bacteria. This composition may affect neuroinflammation, which plays a role in the onset of dementia,” he suggested. “It’s also possible that dietary fiber may reduce other risk factors for dementia, such as body weight, blood pressure, lipids, and glucose levels.”

The authors noted several limitations. For example, they did not distinguish between Alzheimer’s and non-Alzheimer’s dementia. Moreover, they classified dietary habits on the basis of a single survey, and participants’ dietary patterns might have changed over the study period.

In addition, Dr. Yamagishi noted, it is “important to confirm the association in other populations.”
 

Balance is key

In an interview, Uma Naidoo, MD, director of nutritional and lifestyle psychiatry, Massachusetts General Hospital, and nutrition educator at Harvard Medical School, both in Boston, said the study “adds to the growing pool of evidence suggesting that a diet rich in colorful, plant-based foods can benefit our neurological and psychiatric health, especially as we age.”

Dr. Naidoo, a chef and the author of “This Is Your Brain on Food,” who was not involved in the study, continued, “In nutritional psychiatry, balance is key and therefore consuming a well-rounded diet including ample amounts of fiber – particularly from sources like steel-cut oats, beans, lentils, and numerous other fruits and vegetables – can be part of a healthy lifestyle and prevention against cognitive decline in later years.

“While the study authors admit to limitations within the study, in my opinion, eating healthier has so many mental and physical health benefits that it’s a nutritional psychiatry no-brainer,” she added.

The study was partly supported by Health and Labour Science Research Grants for Dementia from the Ministry of Health, Labour and Welfare of Japan; JSPS Kakenhi; FULLHAP; and the Osaka University International Joint Research Promotion Programme with University College London. The authors and Dr. Naidoo report no relevant financial relationships.

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

A high-fiber diet, especially one rich in soluble fiber, is linked to a lower risk of incident disabling dementia, new research shows.

Investigators administered a dietary survey to 3,700 healthy adults at midlife and then followed them for up to 20 years. They found that participants who consumed the most fiber had approximately a 25% lower risk of developing dementia in later life.

“This study showed that people with a high intake of dietary fiber, especially soluble fiber, have a lower risk of dementia,” study investigator Kazumasa Yamagishi, MD, PhD, professor, department of public health medicine, faculty of medicine and health, Services Research and Development Center, University of Tsukuba, Japan, said in an interview.

CDC/Debora Cartagena

“There are still many unknowns about the causes of dementia, and it is not appropriate to determine causality based on the results of a single cohort study. However, the results of this study can be said to be one of the findings that will lead to the prevention of dementia,” Dr. Yamagishi said.

The study was published online Feb. 6 in Nutritional Neuroscience.
 

Brain-gut interaction

Brain-gut interaction has recently received attention for its potential involvement in the development of dementia. “The concept of brain-gut interaction emerged from the idea that the central nervous system communicates bidirectionally with the gastrointestinal tract, suggesting that the gut microbiome may influence brain plasticity and cognitive function,” the authors wrote.

A diet high in soluble fiber attenuates neuroinflammation in mouse models. Other animal studies have suggested that insoluble fiber might also have a beneficial effect on the microbiome.

The researchers wanted to see whether dietary fiber intake – especially soluble fiber – is associated with a reduced risk of dementia. They also investigated whether there was any difference between dementia in patients with vs. without a history of stroke.

In a previous study, these same researchers reported an inverse association between eating beans, which are high in fiber, and risk of disabling dementia. In the current study, the researchers extended the analyses to dietary fiber intake of total, soluble, and insoluble fibers, as well as other fiber-containing foods, such potatoes, vegetables, and fruits. However, they distinguished potatoes from other vegetables because the composition of starch in potatoes differs.

“Dietary fiber is a nutrient found in grains, potatoes, vegetables, and fruits and is known to affect intestinal bacteria,” Dr. Yamagishi said. “Recently, some experimental studies have shown that intestinal bacteria may be involved in cognitive functions as well as diseases of the digestive tract. However, there have been no studies that have actually examined the relationship between dietary fiber intake and the subsequent risk of dementia in large numbers of general people.”

The researchers turned to participants in the Circulatory Risk in Communities Study (CIRCS), an ongoing dynamic community cohort study involving five communities in Japan. The current study focused on communities where disabling dementia surveillance is conducted.

Participants (n = 3,739) ranged in age from 40 to 64 years (mean age, 51 years) at the time they completed the 24-hour dietary recall survey, and they participated in annual health checkups from 1985 to 1999. Potential risk factors for disabling dementia were measured at the time the dietary surveys were conducted. Participants were then followed for a median of 19.7 years (1999-2020) to confirm incident, disabling dementia.

“Disabling dementia” was defined as dementia that required care under the National Long-Term Care Insurance System and was further categorized on the basis of having a history or not having a history of stroke.

The researchers divided participants into quartiles, based on the amount of total, soluble, and insoluble intake reported in their surveys. They found that men tended to consume less total fiber compared to women.
 

Unclear mechanism

During follow-up, 670 participants developed disabling dementia.

Total fiber intake was “inversely and linearly” associated with risk of incident dementia, the authors reported, with each successive quartile associated with a lower risk compared to the lowest quartile (P for trend = .03).

The association remained after adjustment for potential factors that might affect dementia onset, such as body mass index, systolic blood pressure, antihypertensive medication use, serum total cholesterol, cholesterol-lowering medication, and diabetes (P for trend = .05).

“The inverse association was more evident for soluble fiber intake and was confined to dementia without a history of stroke,” the authors reported. Moreover, potatoes, not vegetables or fruits, showed a similar association.

“The mechanisms are currently unknown but might involve the interactions that take place between the gut and the brain,” Dr. Yamagishi said in a release.

“One possibility is that soluble fiber regulates the composition of gut bacteria. This composition may affect neuroinflammation, which plays a role in the onset of dementia,” he suggested. “It’s also possible that dietary fiber may reduce other risk factors for dementia, such as body weight, blood pressure, lipids, and glucose levels.”

The authors noted several limitations. For example, they did not distinguish between Alzheimer’s and non-Alzheimer’s dementia. Moreover, they classified dietary habits on the basis of a single survey, and participants’ dietary patterns might have changed over the study period.

In addition, Dr. Yamagishi noted, it is “important to confirm the association in other populations.”
 

Balance is key

In an interview, Uma Naidoo, MD, director of nutritional and lifestyle psychiatry, Massachusetts General Hospital, and nutrition educator at Harvard Medical School, both in Boston, said the study “adds to the growing pool of evidence suggesting that a diet rich in colorful, plant-based foods can benefit our neurological and psychiatric health, especially as we age.”

Dr. Naidoo, a chef and the author of “This Is Your Brain on Food,” who was not involved in the study, continued, “In nutritional psychiatry, balance is key and therefore consuming a well-rounded diet including ample amounts of fiber – particularly from sources like steel-cut oats, beans, lentils, and numerous other fruits and vegetables – can be part of a healthy lifestyle and prevention against cognitive decline in later years.

“While the study authors admit to limitations within the study, in my opinion, eating healthier has so many mental and physical health benefits that it’s a nutritional psychiatry no-brainer,” she added.

The study was partly supported by Health and Labour Science Research Grants for Dementia from the Ministry of Health, Labour and Welfare of Japan; JSPS Kakenhi; FULLHAP; and the Osaka University International Joint Research Promotion Programme with University College London. The authors and Dr. Naidoo report no relevant financial relationships.

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

Earlier menopause appears to be associated with a higher risk of dementia, and earlier onset of dementia, compared with menopause at normal age or later, according to a large study.

“Being aware of this increased risk can help women practice strategies to prevent dementia and to work with their physicians to closely monitor their cognitive status as they age,” study investigator Wenting Hao, MD, with Shandong University, Jinan, China, says in a news release.

The findings were presented in an e-poster March 1 at the Epidemiology, Prevention, Lifestyle & Cardiometabolic Health (EPI|Lifestyle) 2022 conference sponsored by the American Heart Association.
 

UK Biobank data

Dr. Hao and colleagues examined health data for 153,291 women who were 60 years old on average when they became participants in the UK Biobank.

Age at menopause was categorized as premature (younger than age 40), early (40 to 44 years), reference (45 to 51), 52 to 55 years, and 55+ years.

Compared with women who entered menopause around age 50 years (reference), women who experienced premature menopause were 35% more likely to develop some type of dementia later in life (hazard ratio, 1.35; 95% confidence interval, 1.22 to 1.91).

Women with early menopause were also more likely to develop early-onset dementia, that is, before age 65 (HR, 1.31; 95% confidence interval, 1.07 to 1.72).

Women who entered menopause later (at age 52+) had dementia risk similar to women who entered menopause at the average age of 50 to 51 years.

The results were adjusted for relevant cofactors, including age at last exam, race, educational level, cigarette and alcohol use, body mass index, cardiovascular disease, diabetes, income, and leisure and physical activities.

Blame it on estrogen?

Reduced estrogen levels may be a factor in the possible connection between early menopause and dementia, Dr. Hao and her colleagues say.

Estradiol plays a key role in a range of neurological functions, so the reduction of endogenous estrogen at menopause may aggravate brain changes related to neurodegenerative disease and speed up progression of dementia, they explain.

“We know that the lack of estrogen over the long term enhances oxidative stress, which may increase brain aging and lead to cognitive impairment,” Dr. Hao adds.

Limitations of the study include reliance on self-reported information about age at menopause onset.

Also, the researchers did not evaluate dementia rates in women who had a naturally occurring early menopause separate from the women with surgery-induced menopause, which may affect the results.

Finally, the data used for this study included mostly White women living in the U.K. and may not generalize to other populations.
 

Supportive evidence, critical area of research

The U.K. study supports results of a previously reported Kaiser Permanente study, which showed women who entered menopause at age 45 or younger were at 28% greater dementia risk, compared with women who experienced menopause after age 45.

Reached for comment, Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, noted that nearly two-thirds of Americans with Alzheimer’s are women.

“We know Alzheimer’s and other dementias impact a greater number of women than men, but we don’t know why,” she told this news organization.

“Lifelong differences in women may affect their risk or affect what is contributing to their underlying biology of the disease, and we need more research to better understand what may be these contributing factors,” said Dr. Snyder.

“Reproductive history is one critical area being studied. The physical and hormonal changes that occur during menopause – as well as other hormonal changes throughout life – are considerable, and it’s important to understand what impact, if any, these changes may have on the brain,” Dr. Snyder added.

“The potential link between reproduction history and brain health is intriguing, but much more research in this area is needed to understand these links,” she said.

The study was funded by the Start-up Foundation for Scientific Research at Shandong University. Dr. Hao and Dr. Snyder have disclosed no relevant financial relationships.

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

Earlier menopause appears to be associated with a higher risk of dementia, and earlier onset of dementia, compared with menopause at normal age or later, according to a large study.

“Being aware of this increased risk can help women practice strategies to prevent dementia and to work with their physicians to closely monitor their cognitive status as they age,” study investigator Wenting Hao, MD, with Shandong University, Jinan, China, says in a news release.

The findings were presented in an e-poster March 1 at the Epidemiology, Prevention, Lifestyle & Cardiometabolic Health (EPI|Lifestyle) 2022 conference sponsored by the American Heart Association.
 

UK Biobank data

Dr. Hao and colleagues examined health data for 153,291 women who were 60 years old on average when they became participants in the UK Biobank.

Age at menopause was categorized as premature (younger than age 40), early (40 to 44 years), reference (45 to 51), 52 to 55 years, and 55+ years.

Compared with women who entered menopause around age 50 years (reference), women who experienced premature menopause were 35% more likely to develop some type of dementia later in life (hazard ratio, 1.35; 95% confidence interval, 1.22 to 1.91).

Women with early menopause were also more likely to develop early-onset dementia, that is, before age 65 (HR, 1.31; 95% confidence interval, 1.07 to 1.72).

Women who entered menopause later (at age 52+) had dementia risk similar to women who entered menopause at the average age of 50 to 51 years.

The results were adjusted for relevant cofactors, including age at last exam, race, educational level, cigarette and alcohol use, body mass index, cardiovascular disease, diabetes, income, and leisure and physical activities.

Blame it on estrogen?

Reduced estrogen levels may be a factor in the possible connection between early menopause and dementia, Dr. Hao and her colleagues say.

Estradiol plays a key role in a range of neurological functions, so the reduction of endogenous estrogen at menopause may aggravate brain changes related to neurodegenerative disease and speed up progression of dementia, they explain.

“We know that the lack of estrogen over the long term enhances oxidative stress, which may increase brain aging and lead to cognitive impairment,” Dr. Hao adds.

Limitations of the study include reliance on self-reported information about age at menopause onset.

Also, the researchers did not evaluate dementia rates in women who had a naturally occurring early menopause separate from the women with surgery-induced menopause, which may affect the results.

Finally, the data used for this study included mostly White women living in the U.K. and may not generalize to other populations.
 

Supportive evidence, critical area of research

The U.K. study supports results of a previously reported Kaiser Permanente study, which showed women who entered menopause at age 45 or younger were at 28% greater dementia risk, compared with women who experienced menopause after age 45.

Reached for comment, Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, noted that nearly two-thirds of Americans with Alzheimer’s are women.

“We know Alzheimer’s and other dementias impact a greater number of women than men, but we don’t know why,” she told this news organization.

“Lifelong differences in women may affect their risk or affect what is contributing to their underlying biology of the disease, and we need more research to better understand what may be these contributing factors,” said Dr. Snyder.

“Reproductive history is one critical area being studied. The physical and hormonal changes that occur during menopause – as well as other hormonal changes throughout life – are considerable, and it’s important to understand what impact, if any, these changes may have on the brain,” Dr. Snyder added.

“The potential link between reproduction history and brain health is intriguing, but much more research in this area is needed to understand these links,” she said.

The study was funded by the Start-up Foundation for Scientific Research at Shandong University. Dr. Hao and Dr. Snyder have disclosed no relevant financial relationships.

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

Earlier menopause appears to be associated with a higher risk of dementia, and earlier onset of dementia, compared with menopause at normal age or later, according to a large study.

“Being aware of this increased risk can help women practice strategies to prevent dementia and to work with their physicians to closely monitor their cognitive status as they age,” study investigator Wenting Hao, MD, with Shandong University, Jinan, China, says in a news release.

The findings were presented in an e-poster March 1 at the Epidemiology, Prevention, Lifestyle & Cardiometabolic Health (EPI|Lifestyle) 2022 conference sponsored by the American Heart Association.
 

UK Biobank data

Dr. Hao and colleagues examined health data for 153,291 women who were 60 years old on average when they became participants in the UK Biobank.

Age at menopause was categorized as premature (younger than age 40), early (40 to 44 years), reference (45 to 51), 52 to 55 years, and 55+ years.

Compared with women who entered menopause around age 50 years (reference), women who experienced premature menopause were 35% more likely to develop some type of dementia later in life (hazard ratio, 1.35; 95% confidence interval, 1.22 to 1.91).

Women with early menopause were also more likely to develop early-onset dementia, that is, before age 65 (HR, 1.31; 95% confidence interval, 1.07 to 1.72).

Women who entered menopause later (at age 52+) had dementia risk similar to women who entered menopause at the average age of 50 to 51 years.

The results were adjusted for relevant cofactors, including age at last exam, race, educational level, cigarette and alcohol use, body mass index, cardiovascular disease, diabetes, income, and leisure and physical activities.

Blame it on estrogen?

Reduced estrogen levels may be a factor in the possible connection between early menopause and dementia, Dr. Hao and her colleagues say.

Estradiol plays a key role in a range of neurological functions, so the reduction of endogenous estrogen at menopause may aggravate brain changes related to neurodegenerative disease and speed up progression of dementia, they explain.

“We know that the lack of estrogen over the long term enhances oxidative stress, which may increase brain aging and lead to cognitive impairment,” Dr. Hao adds.

Limitations of the study include reliance on self-reported information about age at menopause onset.

Also, the researchers did not evaluate dementia rates in women who had a naturally occurring early menopause separate from the women with surgery-induced menopause, which may affect the results.

Finally, the data used for this study included mostly White women living in the U.K. and may not generalize to other populations.
 

Supportive evidence, critical area of research

The U.K. study supports results of a previously reported Kaiser Permanente study, which showed women who entered menopause at age 45 or younger were at 28% greater dementia risk, compared with women who experienced menopause after age 45.

Reached for comment, Heather Snyder, PhD, Alzheimer’s Association vice president of medical and scientific relations, noted that nearly two-thirds of Americans with Alzheimer’s are women.

“We know Alzheimer’s and other dementias impact a greater number of women than men, but we don’t know why,” she told this news organization.

“Lifelong differences in women may affect their risk or affect what is contributing to their underlying biology of the disease, and we need more research to better understand what may be these contributing factors,” said Dr. Snyder.

“Reproductive history is one critical area being studied. The physical and hormonal changes that occur during menopause – as well as other hormonal changes throughout life – are considerable, and it’s important to understand what impact, if any, these changes may have on the brain,” Dr. Snyder added.

“The potential link between reproduction history and brain health is intriguing, but much more research in this area is needed to understand these links,” she said.

The study was funded by the Start-up Foundation for Scientific Research at Shandong University. Dr. Hao and Dr. Snyder have disclosed no relevant financial relationships.

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

Mental disorders in early life are associated with a significantly increased risk of dementia in later years.

Results of a large, longitudinal, population-based study show that individuals hospitalized for a mental health disorder had a fourfold increased relative risk (RR) for developing dementia, compared with those who were not hospitalized with a mental illness.

In addition, those with dementia plus a mental disorder developed dementia almost 6 years earlier than those without a mental illness.

The findings were consistent among men and women, in patients with early- and late-onset dementia, in those with Alzheimer’s and non-Alzheimer’s dementia, and across all mental health disorders – and remained so after accounting for pre-existing physical illness and socioeconomic factors.

“Dementia is not typically treated until later in life, but our study suggests that we need to be thinking about dementia prevention much earlier in the life course,” study investigator Leah Richmond-Rakerd, PhD, assistant professor, department of psychology, University of Michigan, said in an interview.

“Supporting young people’s mental health could be a window of opportunity to help reduce the burden of dementia in older adults,” she said.

The findings were published online Feb. 16.
 

Underappreciated risk factor

“Recognition of the outsized influence of dementia on later-life functioning has fueled research into modifiable risk factors and prevention targets,” the investigators write.

Previous research suggests mental disorders may “comprise an underappreciated category of modifiable risk factors.” However, those studies focused primarily on midlife and older individuals, not on capturing mental disorders during young adulthood, which is the time of “peak prevalence,” they add. In addition, most studies have not explored the full range of mental disorders.

Dr. Richmond-Rakerd noted that it is well known that mental health disorders peak in adolescence and young adulthood – and are treatable.

“If the same people who have mental disorders when they are young tend to develop dementia when they are older, that would mean that preventing mental health problems in younger people might reduce or delay the burden of dementia in older people,” she said.

The investigators assessed records from the New Zealand Integrated Data Infrastructure, which is a de-identified register that includes the entire New Zealand population. They also examined information about hospitalizations and diagnoses from records kept by the New Zealand Ministry of Health.

The researchers followed 1,711,386 individuals born between 1928 and 1967 (50.6% men, aged 21 to 60 years at baseline) for 30 years. The population was subdivided into age groups based on birth years: 1928-1937 (14.8%), 1938-1947 (20.85%), 1948-1957 (29.35%), and 1958-1967 (35.1%).
 

Earlier onset

During the study period, 3.8% of individuals were identified as having a mental disorder, and 2% were identified as having dementia. Similar percentages of men and women had a mental disorder, and similar percentages had dementia.

Dementia was “over-represented” among participants with versus without a mental disorder (6.1% vs. 1.8%). This finding held across all age groups.

Those diagnosed with a mental disorder were also more likely to develop dementia, compared with their peers without a mental disorder (RR, 3.51; 95% confidence interval, 3.39-3.64), which is a larger association than that between physical diseases and dementia (RR, 1.19; 95% CI, 1.16-1.21).

These associations were present in both sexes and in all age groups, although the associations were stronger in more recently born cohorts.

A sixfold higher risk for dementia remained even after adjusting for pre-existing physical illnesses (HR, 6.49; 95% CI, 6.25-6.73); and the elevated risk was evident across different lengths of follow-up from the index mental disorder.

When the researchers focused specifically on individuals diagnosed with dementia, they found that those diagnosed with a mental disorder developed dementia a mean of 5.60 years earlier than those without a mental disorder diagnosis – an association observed across both sexes and all age groups.

“Individuals diagnosed with psychotic, substance use, mood, neurotic, and all other mental disorders and who engaged in self-harm were all more likely than those without a mental disorder to be diagnosed with subsequent dementia, even after accounting for their physical disease histories,” the investigators write.

Although there was a link between mental disorders in both Alzheimer’s and non-Alzheimer’s dementias, the association was larger in non-Alzheimer’s.

The researchers note that the study has several limitations, including the fact that it was conducted in New Zealand and therefore the results may not be generalizable to other regions. In addition, inpatient hospital records do not capture less severe mental disorder cases treated in the outpatient setting.

Dr. Richmond-Rakerd suggested several potential mechanisms that could account for the link between mental illness and dementia, including poor lifestyle choices and metabolic side effects associated with some psychiatric medications.

“There could also be shared risk factors for both mental disorders and dementia, such as shared genetics, or individuals may experience a lifelong brain vulnerability that shows up as mental health problems earlier in life and shows up as dementia later in life,” she said.
 

An important risk factor

Commenting for this article, Ken Duckworth, MD, chief medical officer of the National Alliance on Mental Illness, said a major strength of the study was its longitudinal scope and large population size.

He described the study as allowing clinicians to “watch the movie,” as opposed to looking at a “snapshot” of data.

“Although you can learn things from snapshots, a large, comprehensive public health system looking at 30 years of claims – something not possible in the U.S. because of our more fragmented health care system – offers more insight,” said Dr. Duckworth, who was not involved with the research.

The investigators are “painting a picture of a correlation of risk, and to me, that’s the beginning of further inquiry,” he added. “Would preventive efforts targeting dementia, such as exercise and socialization, be helpful? It’s a great study that raises these interesting questions.”

Also commenting in an interview, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, said the study “adds a wealth of data to our understanding” of mental disorders as a dementia risk factor.

However, the study was observational, so “the findings cannot imply causation, [and just] because someone has depression, that does not mean they will go on to develop Alzheimer’s,” said Dr. Sexton, who also was not involved with the research.

Still, “these data support the idea that taking care of one’s mental health is incredibly important for overall wellbeing. For providers, it’s important to have mental health evaluation be a part of your patient’s regular checkups,” she added.

Dr. Richmond-Rakerd noted that even if mental health conditions are not a causal risk factor for dementia, “the presence of a mental health problem is still an important indicator of risk. Mental health providers may wish to target other risk factors for dementia that are more common in individuals with mental health conditions, such as social disconnection.”

The study was funded by grants from the National Institute on Aging, the U.K. Medical Research Council, the National Institute of Child Health and Development through the Duke Population Research Center, and the National Institute on Aging through the Center for Advancing Sociodemographic and Economic Study of Alzheimer’s Disease and Related Dementias. Dr. Richmond-Rakerd reports no relevant financial relationships. The other investigators’ disclosures are listed in the original article. Dr. Sexton and Dr. Duckworth report no relevant financial relationships.

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

Mental disorders in early life are associated with a significantly increased risk of dementia in later years.

Results of a large, longitudinal, population-based study show that individuals hospitalized for a mental health disorder had a fourfold increased relative risk (RR) for developing dementia, compared with those who were not hospitalized with a mental illness.

In addition, those with dementia plus a mental disorder developed dementia almost 6 years earlier than those without a mental illness.

The findings were consistent among men and women, in patients with early- and late-onset dementia, in those with Alzheimer’s and non-Alzheimer’s dementia, and across all mental health disorders – and remained so after accounting for pre-existing physical illness and socioeconomic factors.

“Dementia is not typically treated until later in life, but our study suggests that we need to be thinking about dementia prevention much earlier in the life course,” study investigator Leah Richmond-Rakerd, PhD, assistant professor, department of psychology, University of Michigan, said in an interview.

“Supporting young people’s mental health could be a window of opportunity to help reduce the burden of dementia in older adults,” she said.

The findings were published online Feb. 16.
 

Underappreciated risk factor

“Recognition of the outsized influence of dementia on later-life functioning has fueled research into modifiable risk factors and prevention targets,” the investigators write.

Previous research suggests mental disorders may “comprise an underappreciated category of modifiable risk factors.” However, those studies focused primarily on midlife and older individuals, not on capturing mental disorders during young adulthood, which is the time of “peak prevalence,” they add. In addition, most studies have not explored the full range of mental disorders.

Dr. Richmond-Rakerd noted that it is well known that mental health disorders peak in adolescence and young adulthood – and are treatable.

“If the same people who have mental disorders when they are young tend to develop dementia when they are older, that would mean that preventing mental health problems in younger people might reduce or delay the burden of dementia in older people,” she said.

The investigators assessed records from the New Zealand Integrated Data Infrastructure, which is a de-identified register that includes the entire New Zealand population. They also examined information about hospitalizations and diagnoses from records kept by the New Zealand Ministry of Health.

The researchers followed 1,711,386 individuals born between 1928 and 1967 (50.6% men, aged 21 to 60 years at baseline) for 30 years. The population was subdivided into age groups based on birth years: 1928-1937 (14.8%), 1938-1947 (20.85%), 1948-1957 (29.35%), and 1958-1967 (35.1%).
 

Earlier onset

During the study period, 3.8% of individuals were identified as having a mental disorder, and 2% were identified as having dementia. Similar percentages of men and women had a mental disorder, and similar percentages had dementia.

Dementia was “over-represented” among participants with versus without a mental disorder (6.1% vs. 1.8%). This finding held across all age groups.

Those diagnosed with a mental disorder were also more likely to develop dementia, compared with their peers without a mental disorder (RR, 3.51; 95% confidence interval, 3.39-3.64), which is a larger association than that between physical diseases and dementia (RR, 1.19; 95% CI, 1.16-1.21).

These associations were present in both sexes and in all age groups, although the associations were stronger in more recently born cohorts.

A sixfold higher risk for dementia remained even after adjusting for pre-existing physical illnesses (HR, 6.49; 95% CI, 6.25-6.73); and the elevated risk was evident across different lengths of follow-up from the index mental disorder.

When the researchers focused specifically on individuals diagnosed with dementia, they found that those diagnosed with a mental disorder developed dementia a mean of 5.60 years earlier than those without a mental disorder diagnosis – an association observed across both sexes and all age groups.

“Individuals diagnosed with psychotic, substance use, mood, neurotic, and all other mental disorders and who engaged in self-harm were all more likely than those without a mental disorder to be diagnosed with subsequent dementia, even after accounting for their physical disease histories,” the investigators write.

Although there was a link between mental disorders in both Alzheimer’s and non-Alzheimer’s dementias, the association was larger in non-Alzheimer’s.

The researchers note that the study has several limitations, including the fact that it was conducted in New Zealand and therefore the results may not be generalizable to other regions. In addition, inpatient hospital records do not capture less severe mental disorder cases treated in the outpatient setting.

Dr. Richmond-Rakerd suggested several potential mechanisms that could account for the link between mental illness and dementia, including poor lifestyle choices and metabolic side effects associated with some psychiatric medications.

“There could also be shared risk factors for both mental disorders and dementia, such as shared genetics, or individuals may experience a lifelong brain vulnerability that shows up as mental health problems earlier in life and shows up as dementia later in life,” she said.
 

An important risk factor

Commenting for this article, Ken Duckworth, MD, chief medical officer of the National Alliance on Mental Illness, said a major strength of the study was its longitudinal scope and large population size.

He described the study as allowing clinicians to “watch the movie,” as opposed to looking at a “snapshot” of data.

“Although you can learn things from snapshots, a large, comprehensive public health system looking at 30 years of claims – something not possible in the U.S. because of our more fragmented health care system – offers more insight,” said Dr. Duckworth, who was not involved with the research.

The investigators are “painting a picture of a correlation of risk, and to me, that’s the beginning of further inquiry,” he added. “Would preventive efforts targeting dementia, such as exercise and socialization, be helpful? It’s a great study that raises these interesting questions.”

Also commenting in an interview, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, said the study “adds a wealth of data to our understanding” of mental disorders as a dementia risk factor.

However, the study was observational, so “the findings cannot imply causation, [and just] because someone has depression, that does not mean they will go on to develop Alzheimer’s,” said Dr. Sexton, who also was not involved with the research.

Still, “these data support the idea that taking care of one’s mental health is incredibly important for overall wellbeing. For providers, it’s important to have mental health evaluation be a part of your patient’s regular checkups,” she added.

Dr. Richmond-Rakerd noted that even if mental health conditions are not a causal risk factor for dementia, “the presence of a mental health problem is still an important indicator of risk. Mental health providers may wish to target other risk factors for dementia that are more common in individuals with mental health conditions, such as social disconnection.”

The study was funded by grants from the National Institute on Aging, the U.K. Medical Research Council, the National Institute of Child Health and Development through the Duke Population Research Center, and the National Institute on Aging through the Center for Advancing Sociodemographic and Economic Study of Alzheimer’s Disease and Related Dementias. Dr. Richmond-Rakerd reports no relevant financial relationships. The other investigators’ disclosures are listed in the original article. Dr. Sexton and Dr. Duckworth report no relevant financial relationships.

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

Mental disorders in early life are associated with a significantly increased risk of dementia in later years.

Results of a large, longitudinal, population-based study show that individuals hospitalized for a mental health disorder had a fourfold increased relative risk (RR) for developing dementia, compared with those who were not hospitalized with a mental illness.

In addition, those with dementia plus a mental disorder developed dementia almost 6 years earlier than those without a mental illness.

The findings were consistent among men and women, in patients with early- and late-onset dementia, in those with Alzheimer’s and non-Alzheimer’s dementia, and across all mental health disorders – and remained so after accounting for pre-existing physical illness and socioeconomic factors.

“Dementia is not typically treated until later in life, but our study suggests that we need to be thinking about dementia prevention much earlier in the life course,” study investigator Leah Richmond-Rakerd, PhD, assistant professor, department of psychology, University of Michigan, said in an interview.

“Supporting young people’s mental health could be a window of opportunity to help reduce the burden of dementia in older adults,” she said.

The findings were published online Feb. 16.
 

Underappreciated risk factor

“Recognition of the outsized influence of dementia on later-life functioning has fueled research into modifiable risk factors and prevention targets,” the investigators write.

Previous research suggests mental disorders may “comprise an underappreciated category of modifiable risk factors.” However, those studies focused primarily on midlife and older individuals, not on capturing mental disorders during young adulthood, which is the time of “peak prevalence,” they add. In addition, most studies have not explored the full range of mental disorders.

Dr. Richmond-Rakerd noted that it is well known that mental health disorders peak in adolescence and young adulthood – and are treatable.

“If the same people who have mental disorders when they are young tend to develop dementia when they are older, that would mean that preventing mental health problems in younger people might reduce or delay the burden of dementia in older people,” she said.

The investigators assessed records from the New Zealand Integrated Data Infrastructure, which is a de-identified register that includes the entire New Zealand population. They also examined information about hospitalizations and diagnoses from records kept by the New Zealand Ministry of Health.

The researchers followed 1,711,386 individuals born between 1928 and 1967 (50.6% men, aged 21 to 60 years at baseline) for 30 years. The population was subdivided into age groups based on birth years: 1928-1937 (14.8%), 1938-1947 (20.85%), 1948-1957 (29.35%), and 1958-1967 (35.1%).
 

Earlier onset

During the study period, 3.8% of individuals were identified as having a mental disorder, and 2% were identified as having dementia. Similar percentages of men and women had a mental disorder, and similar percentages had dementia.

Dementia was “over-represented” among participants with versus without a mental disorder (6.1% vs. 1.8%). This finding held across all age groups.

Those diagnosed with a mental disorder were also more likely to develop dementia, compared with their peers without a mental disorder (RR, 3.51; 95% confidence interval, 3.39-3.64), which is a larger association than that between physical diseases and dementia (RR, 1.19; 95% CI, 1.16-1.21).

These associations were present in both sexes and in all age groups, although the associations were stronger in more recently born cohorts.

A sixfold higher risk for dementia remained even after adjusting for pre-existing physical illnesses (HR, 6.49; 95% CI, 6.25-6.73); and the elevated risk was evident across different lengths of follow-up from the index mental disorder.

When the researchers focused specifically on individuals diagnosed with dementia, they found that those diagnosed with a mental disorder developed dementia a mean of 5.60 years earlier than those without a mental disorder diagnosis – an association observed across both sexes and all age groups.

“Individuals diagnosed with psychotic, substance use, mood, neurotic, and all other mental disorders and who engaged in self-harm were all more likely than those without a mental disorder to be diagnosed with subsequent dementia, even after accounting for their physical disease histories,” the investigators write.

Although there was a link between mental disorders in both Alzheimer’s and non-Alzheimer’s dementias, the association was larger in non-Alzheimer’s.

The researchers note that the study has several limitations, including the fact that it was conducted in New Zealand and therefore the results may not be generalizable to other regions. In addition, inpatient hospital records do not capture less severe mental disorder cases treated in the outpatient setting.

Dr. Richmond-Rakerd suggested several potential mechanisms that could account for the link between mental illness and dementia, including poor lifestyle choices and metabolic side effects associated with some psychiatric medications.

“There could also be shared risk factors for both mental disorders and dementia, such as shared genetics, or individuals may experience a lifelong brain vulnerability that shows up as mental health problems earlier in life and shows up as dementia later in life,” she said.
 

An important risk factor

Commenting for this article, Ken Duckworth, MD, chief medical officer of the National Alliance on Mental Illness, said a major strength of the study was its longitudinal scope and large population size.

He described the study as allowing clinicians to “watch the movie,” as opposed to looking at a “snapshot” of data.

“Although you can learn things from snapshots, a large, comprehensive public health system looking at 30 years of claims – something not possible in the U.S. because of our more fragmented health care system – offers more insight,” said Dr. Duckworth, who was not involved with the research.

The investigators are “painting a picture of a correlation of risk, and to me, that’s the beginning of further inquiry,” he added. “Would preventive efforts targeting dementia, such as exercise and socialization, be helpful? It’s a great study that raises these interesting questions.”

Also commenting in an interview, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, said the study “adds a wealth of data to our understanding” of mental disorders as a dementia risk factor.

However, the study was observational, so “the findings cannot imply causation, [and just] because someone has depression, that does not mean they will go on to develop Alzheimer’s,” said Dr. Sexton, who also was not involved with the research.

Still, “these data support the idea that taking care of one’s mental health is incredibly important for overall wellbeing. For providers, it’s important to have mental health evaluation be a part of your patient’s regular checkups,” she added.

Dr. Richmond-Rakerd noted that even if mental health conditions are not a causal risk factor for dementia, “the presence of a mental health problem is still an important indicator of risk. Mental health providers may wish to target other risk factors for dementia that are more common in individuals with mental health conditions, such as social disconnection.”

The study was funded by grants from the National Institute on Aging, the U.K. Medical Research Council, the National Institute of Child Health and Development through the Duke Population Research Center, and the National Institute on Aging through the Center for Advancing Sociodemographic and Economic Study of Alzheimer’s Disease and Related Dementias. Dr. Richmond-Rakerd reports no relevant financial relationships. The other investigators’ disclosures are listed in the original article. Dr. Sexton and Dr. Duckworth report no relevant financial relationships.

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

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

Medicare has received a key endorsement of its plan to restrict payment for the controversial Alzheimer’s disease (AD) drug aducanumab (Aduhelm) – but also drew pleas from other groups for more generous reimbursement of the drug, as well as expected similar medications currently in development.

The Centers for Medicare & Medicaid Services received more than 9,900 comments on its plan, according to the current tally posted on its website. However, it is unclear when the final count will be available.

CMS intends to limit federal payment for monoclonal antibodies that target amyloid to clinical trials. Among supporters of this approach is the influential Medicare Payment Advisory Commission, an expert panel that helps Congress and CMS manage the federal health program.

Opponents of the CMS plan include several pharmaceutical companies. Patient and consumer groups, individuals, and lawmakers had mixed views.

CMS officials will weigh the feedback provided in the comments when setting a final coverage policy for aducanumab. It is expected the agency’s final decision will be announced on April 11.
 

Ongoing debate

The comments submitted to CMS reflect ongoing debate about whether the evidence proves aducanumab provides significant clinical benefit.

The Food and Drug Administration’s unusual approach to clearing the drug for U.S. sales triggered a review of its management of the accelerated approval process by the Office of Inspector General for the Department of Health & Human Services.

The FDA granted an accelerated approval for aducanumab in June based on evidence that the drug clears amyloid in the brain. However, it is unclear whether clearing the protein from the brain results in clinical benefit.

Usually, accelerated approvals precede the completion of phase 3 drug trials, with the FDA allowing early access to a medicine while awaiting confirmatory trials.

In the case of aducanumab, results of the phase 3 confirmatory trials ENGAGE and EMERGE were available at the time of FDA approval. However, interpretation of the findings is controversial.

Biogen contends that the amyloid-clearing effect of the higher dose of aducanumab shown in EMERGE indicates the drug has clinical potential. However, others argue that amyloid clearance does not indicate clinical benefit.

Limiting Medicare coverage of aducanumab for treatment of AD means “the progression of disease, for nearly all beneficiaries, would continue unabated,” Biogen wrote in its comment to CMS.
 

Conflicting data

Supporters of the CMS plan have a different view of the trial data. They note the failure of aducanumab in the companion ENGAGE trial, while also questioning the magnitude of benefit suggested by even the most positive data cited for the drug in the EMERGE trial.

Both studies used the Clinical Dementia Rating-Sum of Boxes (CDR-SB) score, an 18-point scale measuring cognition and function.

In his comment to CMS, MedPAC chairman Michael E. Chernew, PhD, noted the change in CDR-SB score of 0.39 in EMERGE’s high-dose aducanumab group. CMS has described this as being “less than the 1-2 point change that has been suggested as a minimal clinically important difference,” Dr. Chernew wrote.

MedPAC does not normally comment on Medicare coverage decisions, but did so in this case because of its significance and because of the potential fiscal implications, he noted.

“Though there is only limited, conflicting data on Aduhelm’s clinical effectiveness, Medicare would pay a high price for the product,” Dr. Chernew wrote, pointing out the $28,200 annual U.S. price of the drug.

MedPAC thus endorsed the coverage-with-evidence-development (CED) pathway. Under this approach, Medicare would pay for these drugs when used in clinical trials that meet certain criteria.
 

Legal challenge?

In its comment to CMS, Biogen questioned the agency’s legal grounds for limiting coverage of aducanumab. A mandate on clinical trials as part of the CED proposal “runs afoul of the Administrative Procedure Act’s prohibition against arbitrary and capricious agency action,” Biogen said.

The drug company argued that its own planned follow-on studies would provide the kind of data Medicare officials want to see. It also argued for greater use of observational data, including real-world evidence, and of information from Medicare claims.

Roche’s Genentech, which is also developing antiamyloid drugs for AD, echoed some of Biogen’s concerns about the aducanumab plan.

CMS’ CED plan would be “unnecessarily restrictive and discouraging for patients living with this destructive disease,” David Burt, executive director for federal government affairs at Genentech, wrote in a comment to CMS.

CMS should clarify that the CED requirement would not apply to cases of FDA-approved antiamyloid therapies that have demonstrated “clinically meaningful improvement,” Mr. Burt added. He noted there are phase 3 trials of drugs in this class that could soon produce data.

CMS should “fully consider the broad ramifications and significant unintended consequences of prematurely placing unduly severe restrictions on the entire class of antiamyloid monoclonal antibodies,” Mr. Burt wrote.
 

Health care inequity

In its comment to CMS, Biogen also noted the Medicare proposal would “compound the already pervasive inequities in access to treatment and will ultimately prove highly detrimental to health equity.”

There are already concerns about the access of Black and Latinx patients to clinical trials. The planned CED approach would tightly restrict access to aducanumab, as well as expected follow-ons in the amyloid-directed monoclonal antibody (mAb) drug class, the company said.

“Many of the trial sites for Aduhelm, as well as for other amyloid-directed [monoclonal antibodies] are not hospital-based outpatient settings, but include infusion centers, private practices, and medical research centers,” Biogen wrote.

Patient groups such as UsAgainstAlzheimer’s told CMS the CED approach would worsen disparities, despite the aim of Medicare officials to increase participation of Black and Latinx patients in future testing.

“CMS will be hard-pressed to achieve diversity if such hospitals are the only locations where Medicare beneficiaries are able to access mAbs,” USAgainstAlzheimer’s wrote in a Feb. 10 comment.

In contrast, the nonprofit National Center for Health Research praised CMS for what it described as an effort to address a lack of representation of Black and Latinx patients in earlier aducanumab research.

However, the NCHR also suggested CMS revise its plan to mandate that clinical trials include patients who are representative of the national population diagnosed with AD.

“Rather than being concerned about the percentage of patients in specific racial and ethnic groups, we propose that CMS include sufficient numbers of patients in different racial, ethnic, and age groups to ensure that there is enough statistical power for subgroup analyses to determine safety and efficacy for each of the major demographic groups,” the NCHR wrote.
 

Patient health, Medicare at risk

On Feb. 8, a group of House Republican lawmakers asked CMS to reverse its stance. In a publicly released letter, Rep. Cathy McMorris Rodgers of Washington state, the ranking Republican on the House Energy and Commerce Committee, and colleagues urged broader coverage of aducanumab.

In the letter, the group emphasized the idea of aducanumab as a potential treatment for patients with Down syndrome who are at risk for AD.

“The link between Down Syndrome and AD is still being researched by scientists,” Rep. Rodgers and colleagues wrote.

“However, there appears to be a correlation between the additional 21st chromosome present in people with Down Syndrome and the chromosome’s gene that makes amyloid precursor proteins and can cause a build-up of the beta-amyloid plaques common amongst those with AD,” they add.

On the other hand, CMS garnered earlier support from influential Democrats. On Jan. 13, House Energy and Commerce Chairman Frank Pallone Jr (D-N.J.) and House Oversight and Reform Chairwoman Carolyn B. Maloney (D-N.Y.) released a letter praising CMS for its plan for covering aducanumab.

In addition to the HHS-OIG review of the FDA’s approval of the drug, the two House committees are in the midst of their own investigation of the agency’s decision to clear the drug.

“Any broader coverage determination before there is clarity on Aduhelm’s approval process and findings from the myriad ongoing investigations may put the health of millions of Alzheimer’s patients on the line and the financial stability of the nation’s health insurance program for American seniors at risk,” Rep. Pallone and Rep. Maloney wrote.

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

Medicare has received a key endorsement of its plan to restrict payment for the controversial Alzheimer’s disease (AD) drug aducanumab (Aduhelm) – but also drew pleas from other groups for more generous reimbursement of the drug, as well as expected similar medications currently in development.

The Centers for Medicare & Medicaid Services received more than 9,900 comments on its plan, according to the current tally posted on its website. However, it is unclear when the final count will be available.

CMS intends to limit federal payment for monoclonal antibodies that target amyloid to clinical trials. Among supporters of this approach is the influential Medicare Payment Advisory Commission, an expert panel that helps Congress and CMS manage the federal health program.

Opponents of the CMS plan include several pharmaceutical companies. Patient and consumer groups, individuals, and lawmakers had mixed views.

CMS officials will weigh the feedback provided in the comments when setting a final coverage policy for aducanumab. It is expected the agency’s final decision will be announced on April 11.
 

Ongoing debate

The comments submitted to CMS reflect ongoing debate about whether the evidence proves aducanumab provides significant clinical benefit.

The Food and Drug Administration’s unusual approach to clearing the drug for U.S. sales triggered a review of its management of the accelerated approval process by the Office of Inspector General for the Department of Health & Human Services.

The FDA granted an accelerated approval for aducanumab in June based on evidence that the drug clears amyloid in the brain. However, it is unclear whether clearing the protein from the brain results in clinical benefit.

Usually, accelerated approvals precede the completion of phase 3 drug trials, with the FDA allowing early access to a medicine while awaiting confirmatory trials.

In the case of aducanumab, results of the phase 3 confirmatory trials ENGAGE and EMERGE were available at the time of FDA approval. However, interpretation of the findings is controversial.

Biogen contends that the amyloid-clearing effect of the higher dose of aducanumab shown in EMERGE indicates the drug has clinical potential. However, others argue that amyloid clearance does not indicate clinical benefit.

Limiting Medicare coverage of aducanumab for treatment of AD means “the progression of disease, for nearly all beneficiaries, would continue unabated,” Biogen wrote in its comment to CMS.
 

Conflicting data

Supporters of the CMS plan have a different view of the trial data. They note the failure of aducanumab in the companion ENGAGE trial, while also questioning the magnitude of benefit suggested by even the most positive data cited for the drug in the EMERGE trial.

Both studies used the Clinical Dementia Rating-Sum of Boxes (CDR-SB) score, an 18-point scale measuring cognition and function.

In his comment to CMS, MedPAC chairman Michael E. Chernew, PhD, noted the change in CDR-SB score of 0.39 in EMERGE’s high-dose aducanumab group. CMS has described this as being “less than the 1-2 point change that has been suggested as a minimal clinically important difference,” Dr. Chernew wrote.

MedPAC does not normally comment on Medicare coverage decisions, but did so in this case because of its significance and because of the potential fiscal implications, he noted.

“Though there is only limited, conflicting data on Aduhelm’s clinical effectiveness, Medicare would pay a high price for the product,” Dr. Chernew wrote, pointing out the $28,200 annual U.S. price of the drug.

MedPAC thus endorsed the coverage-with-evidence-development (CED) pathway. Under this approach, Medicare would pay for these drugs when used in clinical trials that meet certain criteria.
 

Legal challenge?

In its comment to CMS, Biogen questioned the agency’s legal grounds for limiting coverage of aducanumab. A mandate on clinical trials as part of the CED proposal “runs afoul of the Administrative Procedure Act’s prohibition against arbitrary and capricious agency action,” Biogen said.

The drug company argued that its own planned follow-on studies would provide the kind of data Medicare officials want to see. It also argued for greater use of observational data, including real-world evidence, and of information from Medicare claims.

Roche’s Genentech, which is also developing antiamyloid drugs for AD, echoed some of Biogen’s concerns about the aducanumab plan.

CMS’ CED plan would be “unnecessarily restrictive and discouraging for patients living with this destructive disease,” David Burt, executive director for federal government affairs at Genentech, wrote in a comment to CMS.

CMS should clarify that the CED requirement would not apply to cases of FDA-approved antiamyloid therapies that have demonstrated “clinically meaningful improvement,” Mr. Burt added. He noted there are phase 3 trials of drugs in this class that could soon produce data.

CMS should “fully consider the broad ramifications and significant unintended consequences of prematurely placing unduly severe restrictions on the entire class of antiamyloid monoclonal antibodies,” Mr. Burt wrote.
 

Health care inequity

In its comment to CMS, Biogen also noted the Medicare proposal would “compound the already pervasive inequities in access to treatment and will ultimately prove highly detrimental to health equity.”

There are already concerns about the access of Black and Latinx patients to clinical trials. The planned CED approach would tightly restrict access to aducanumab, as well as expected follow-ons in the amyloid-directed monoclonal antibody (mAb) drug class, the company said.

“Many of the trial sites for Aduhelm, as well as for other amyloid-directed [monoclonal antibodies] are not hospital-based outpatient settings, but include infusion centers, private practices, and medical research centers,” Biogen wrote.

Patient groups such as UsAgainstAlzheimer’s told CMS the CED approach would worsen disparities, despite the aim of Medicare officials to increase participation of Black and Latinx patients in future testing.

“CMS will be hard-pressed to achieve diversity if such hospitals are the only locations where Medicare beneficiaries are able to access mAbs,” USAgainstAlzheimer’s wrote in a Feb. 10 comment.

In contrast, the nonprofit National Center for Health Research praised CMS for what it described as an effort to address a lack of representation of Black and Latinx patients in earlier aducanumab research.

However, the NCHR also suggested CMS revise its plan to mandate that clinical trials include patients who are representative of the national population diagnosed with AD.

“Rather than being concerned about the percentage of patients in specific racial and ethnic groups, we propose that CMS include sufficient numbers of patients in different racial, ethnic, and age groups to ensure that there is enough statistical power for subgroup analyses to determine safety and efficacy for each of the major demographic groups,” the NCHR wrote.
 

Patient health, Medicare at risk

On Feb. 8, a group of House Republican lawmakers asked CMS to reverse its stance. In a publicly released letter, Rep. Cathy McMorris Rodgers of Washington state, the ranking Republican on the House Energy and Commerce Committee, and colleagues urged broader coverage of aducanumab.

In the letter, the group emphasized the idea of aducanumab as a potential treatment for patients with Down syndrome who are at risk for AD.

“The link between Down Syndrome and AD is still being researched by scientists,” Rep. Rodgers and colleagues wrote.

“However, there appears to be a correlation between the additional 21st chromosome present in people with Down Syndrome and the chromosome’s gene that makes amyloid precursor proteins and can cause a build-up of the beta-amyloid plaques common amongst those with AD,” they add.

On the other hand, CMS garnered earlier support from influential Democrats. On Jan. 13, House Energy and Commerce Chairman Frank Pallone Jr (D-N.J.) and House Oversight and Reform Chairwoman Carolyn B. Maloney (D-N.Y.) released a letter praising CMS for its plan for covering aducanumab.

In addition to the HHS-OIG review of the FDA’s approval of the drug, the two House committees are in the midst of their own investigation of the agency’s decision to clear the drug.

“Any broader coverage determination before there is clarity on Aduhelm’s approval process and findings from the myriad ongoing investigations may put the health of millions of Alzheimer’s patients on the line and the financial stability of the nation’s health insurance program for American seniors at risk,” Rep. Pallone and Rep. Maloney wrote.

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

Medicare has received a key endorsement of its plan to restrict payment for the controversial Alzheimer’s disease (AD) drug aducanumab (Aduhelm) – but also drew pleas from other groups for more generous reimbursement of the drug, as well as expected similar medications currently in development.

The Centers for Medicare & Medicaid Services received more than 9,900 comments on its plan, according to the current tally posted on its website. However, it is unclear when the final count will be available.

CMS intends to limit federal payment for monoclonal antibodies that target amyloid to clinical trials. Among supporters of this approach is the influential Medicare Payment Advisory Commission, an expert panel that helps Congress and CMS manage the federal health program.

Opponents of the CMS plan include several pharmaceutical companies. Patient and consumer groups, individuals, and lawmakers had mixed views.

CMS officials will weigh the feedback provided in the comments when setting a final coverage policy for aducanumab. It is expected the agency’s final decision will be announced on April 11.
 

Ongoing debate

The comments submitted to CMS reflect ongoing debate about whether the evidence proves aducanumab provides significant clinical benefit.

The Food and Drug Administration’s unusual approach to clearing the drug for U.S. sales triggered a review of its management of the accelerated approval process by the Office of Inspector General for the Department of Health & Human Services.

The FDA granted an accelerated approval for aducanumab in June based on evidence that the drug clears amyloid in the brain. However, it is unclear whether clearing the protein from the brain results in clinical benefit.

Usually, accelerated approvals precede the completion of phase 3 drug trials, with the FDA allowing early access to a medicine while awaiting confirmatory trials.

In the case of aducanumab, results of the phase 3 confirmatory trials ENGAGE and EMERGE were available at the time of FDA approval. However, interpretation of the findings is controversial.

Biogen contends that the amyloid-clearing effect of the higher dose of aducanumab shown in EMERGE indicates the drug has clinical potential. However, others argue that amyloid clearance does not indicate clinical benefit.

Limiting Medicare coverage of aducanumab for treatment of AD means “the progression of disease, for nearly all beneficiaries, would continue unabated,” Biogen wrote in its comment to CMS.
 

Conflicting data

Supporters of the CMS plan have a different view of the trial data. They note the failure of aducanumab in the companion ENGAGE trial, while also questioning the magnitude of benefit suggested by even the most positive data cited for the drug in the EMERGE trial.

Both studies used the Clinical Dementia Rating-Sum of Boxes (CDR-SB) score, an 18-point scale measuring cognition and function.

In his comment to CMS, MedPAC chairman Michael E. Chernew, PhD, noted the change in CDR-SB score of 0.39 in EMERGE’s high-dose aducanumab group. CMS has described this as being “less than the 1-2 point change that has been suggested as a minimal clinically important difference,” Dr. Chernew wrote.

MedPAC does not normally comment on Medicare coverage decisions, but did so in this case because of its significance and because of the potential fiscal implications, he noted.

“Though there is only limited, conflicting data on Aduhelm’s clinical effectiveness, Medicare would pay a high price for the product,” Dr. Chernew wrote, pointing out the $28,200 annual U.S. price of the drug.

MedPAC thus endorsed the coverage-with-evidence-development (CED) pathway. Under this approach, Medicare would pay for these drugs when used in clinical trials that meet certain criteria.
 

Legal challenge?

In its comment to CMS, Biogen questioned the agency’s legal grounds for limiting coverage of aducanumab. A mandate on clinical trials as part of the CED proposal “runs afoul of the Administrative Procedure Act’s prohibition against arbitrary and capricious agency action,” Biogen said.

The drug company argued that its own planned follow-on studies would provide the kind of data Medicare officials want to see. It also argued for greater use of observational data, including real-world evidence, and of information from Medicare claims.

Roche’s Genentech, which is also developing antiamyloid drugs for AD, echoed some of Biogen’s concerns about the aducanumab plan.

CMS’ CED plan would be “unnecessarily restrictive and discouraging for patients living with this destructive disease,” David Burt, executive director for federal government affairs at Genentech, wrote in a comment to CMS.

CMS should clarify that the CED requirement would not apply to cases of FDA-approved antiamyloid therapies that have demonstrated “clinically meaningful improvement,” Mr. Burt added. He noted there are phase 3 trials of drugs in this class that could soon produce data.

CMS should “fully consider the broad ramifications and significant unintended consequences of prematurely placing unduly severe restrictions on the entire class of antiamyloid monoclonal antibodies,” Mr. Burt wrote.
 

Health care inequity

In its comment to CMS, Biogen also noted the Medicare proposal would “compound the already pervasive inequities in access to treatment and will ultimately prove highly detrimental to health equity.”

There are already concerns about the access of Black and Latinx patients to clinical trials. The planned CED approach would tightly restrict access to aducanumab, as well as expected follow-ons in the amyloid-directed monoclonal antibody (mAb) drug class, the company said.

“Many of the trial sites for Aduhelm, as well as for other amyloid-directed [monoclonal antibodies] are not hospital-based outpatient settings, but include infusion centers, private practices, and medical research centers,” Biogen wrote.

Patient groups such as UsAgainstAlzheimer’s told CMS the CED approach would worsen disparities, despite the aim of Medicare officials to increase participation of Black and Latinx patients in future testing.

“CMS will be hard-pressed to achieve diversity if such hospitals are the only locations where Medicare beneficiaries are able to access mAbs,” USAgainstAlzheimer’s wrote in a Feb. 10 comment.

In contrast, the nonprofit National Center for Health Research praised CMS for what it described as an effort to address a lack of representation of Black and Latinx patients in earlier aducanumab research.

However, the NCHR also suggested CMS revise its plan to mandate that clinical trials include patients who are representative of the national population diagnosed with AD.

“Rather than being concerned about the percentage of patients in specific racial and ethnic groups, we propose that CMS include sufficient numbers of patients in different racial, ethnic, and age groups to ensure that there is enough statistical power for subgroup analyses to determine safety and efficacy for each of the major demographic groups,” the NCHR wrote.
 

Patient health, Medicare at risk

On Feb. 8, a group of House Republican lawmakers asked CMS to reverse its stance. In a publicly released letter, Rep. Cathy McMorris Rodgers of Washington state, the ranking Republican on the House Energy and Commerce Committee, and colleagues urged broader coverage of aducanumab.

In the letter, the group emphasized the idea of aducanumab as a potential treatment for patients with Down syndrome who are at risk for AD.

“The link between Down Syndrome and AD is still being researched by scientists,” Rep. Rodgers and colleagues wrote.

“However, there appears to be a correlation between the additional 21st chromosome present in people with Down Syndrome and the chromosome’s gene that makes amyloid precursor proteins and can cause a build-up of the beta-amyloid plaques common amongst those with AD,” they add.

On the other hand, CMS garnered earlier support from influential Democrats. On Jan. 13, House Energy and Commerce Chairman Frank Pallone Jr (D-N.J.) and House Oversight and Reform Chairwoman Carolyn B. Maloney (D-N.Y.) released a letter praising CMS for its plan for covering aducanumab.

In addition to the HHS-OIG review of the FDA’s approval of the drug, the two House committees are in the midst of their own investigation of the agency’s decision to clear the drug.

“Any broader coverage determination before there is clarity on Aduhelm’s approval process and findings from the myriad ongoing investigations may put the health of millions of Alzheimer’s patients on the line and the financial stability of the nation’s health insurance program for American seniors at risk,” Rep. Pallone and Rep. Maloney wrote.

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

A high level of education, superior academic performance, and excellent written language skills may predict the reversal of mild cognitive impairment (MCI) to normal cognitive function, new research shows.

The investigators found individuals with these factors, which are all markers of cognitive reserve, had a significantly greater chance of reversion from MCI to normal cognition (NC) than progression from MCI to dementia.

In a cohort study of more than 600 women aged 75 years or older, about a third of those with MCI reverted to NC at some point during follow-up, which sends “an encouraging message,” study author Suzanne Tyas, PhD, associate professor, University of Waterloo (Ont.), said in an interview.

“That’s a positive thing for people to keep in mind when they’re thinking about prognosis. Some of these novel characteristics we’ve identified might be useful in thinking about how likely a particular patient might be to improve versus decline cognitively,” Dr. Tyas added.

The findings were published online Feb. 4, 2022, in the journal Neurology.
 

Highly educated cohort

As the population ages, the number of individuals experiencing age-related conditions, including dementia, increases. There is no cure for most dementia types so prevention is key – and preventing dementia requires understanding its risk factors, Dr. Tyas noted.

The analysis included participants from the Nun Study, a longitudinal study of aging and cognition among members of the School Sisters of Notre Dame in the United States. All were 75 and older at baseline, which was from 1991 to 1993; about 14.5% were older than 90 years.

Participants were generally highly educated, with 84.5% attaining an undergraduate or graduate degree. They also had a similar socioeconomic status, level of social supports, marital and reproductive history, and alcohol and tobacco use.

Researchers examined cognitive function at baseline and then about annually until death or end of the 12th round of assessments. They used five measures from the Consortium to Establish a Registry for Alzheimer’s Disease neuropsychological battery to categorize subjects into NC, MCI, or dementia: Delayed Word Recall, Verbal Fluency, Boston Naming, Constructional Praxis, and the Mini-Mental State Exam.

The current analysis focused on the 619 participants with data on apolipoprotein E (apo E) epsilon-4 genotyping and education. From convent archives, investigators also had access to the nuns’ early high school academic performance in English, Latin, algebra, and geometry.

“Typically we only have data for [overall] education. But I know from teaching that there’s a difference between people who just pass my courses and graduate with a university degree versus those who really excel,” Dr. Tyas said.

The researchers also assessed handwriting samples from before the participants entered the religious order. From these, they scored “idea density,” which is the number of ideas contained in the writing and “grammatical complexity,” which includes structure, use of clauses, subclauses, and so on.
 

Dementia not inevitable

Results showed 472 of the 619 participants had MCI during the study period. About 30.3% of these showed at least one reverse transition from MCI to NC during a mean follow-up of 8.6 years; 83.9% went on to develop dementia.

This shows converting from MCI to NC occurs relatively frequently, Dr. Tyas noted.

“This is encouraging because some people think that if they have a diagnosis of MCI they are inevitably going to decline to dementia,” she added.

The researchers also used complicated modeling of transition rates over time between NC, MCI, and dementia and adjusted for participants who died. They estimated relative risk of reversion versus progression for age, apo E, and potential cognitive reserve indicators.

Not surprisingly, younger age (90 years or less) and absence of apo E epsilon-4 allele contributed to a significantly higher rate for reversion from MCI to NC versus progression from MCI to dementia.

However, although age and apo E are known risk factors for dementia, these have not been examined in the context of whether individuals with MCI are more likely to improve or decline, said Dr. Tyas.

Higher educational attainment, the traditional indicator of cognitive reserve, was associated with a significantly higher relative risk for reversion from MCI to NC versus progression from MCI to dementia (RR, 2.6) for a bachelor’s degree versus less education.

There was a greater RR for even higher education after adjusting for age and apo E epsilon-4 status.
 

Language skills key

Interestingly, the investigators also found a significant association with good grades in high school English but not other subjects (RR for higher vs. lower English grades, 1.83; 95% confidence interval, 1.07-3.14).

In addition, they found both characteristics of written language skills (idea density and grammatical complexity) were significant predictors of conversion to NC.

“Those with high levels of idea density were four times more likely to improve to normal cognition than progress to dementia, and the effect was even stronger for grammatical structure. Those individuals with higher levels were almost six times more likely to improve than decline,” Dr. Tyas reported.

The RR for higher versus lower idea density was 3.93 (95% CI, 1.3-11.9) and the RR for higher versus lower grammatical complexity was 5.78 (95% CI, 1.56-21.42).

These new results could be useful when planning future clinical trials, Dr. Tyas noted. “MCI in some people is going to improve even without any treatment, and this should be taken into consideration when recruiting participants to a study and when interpreting the results.

“You don’t want something to look like it’s a benefit of the treatment when in fact these individuals would have just reverted on their own,” she added.
 

Research implications

Commenting on the findings, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, noted that, in “this study of highly educated, older women,” transitions from MCI to NC “were about equally common” as transitions from MCI to dementia.

“As advances are made in early detection of dementia, and treatments are developed and marketed for people living with MCI, this article’s findings are important to inform discussions of prognosis with patients and [to the] design of clinical trials,” Dr. Sexton said.

The study was funded by the Canadian Institutes of Health Research and the Natural Sciences and Engineering Research Council of Canada. Funding for the Nun Study at the University of Kentucky was provided by the U.S. National Institute of Aging and the Kleberg Foundation. Dr. Tyas has disclosed no relevant financial relationships.

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

A high level of education, superior academic performance, and excellent written language skills may predict the reversal of mild cognitive impairment (MCI) to normal cognitive function, new research shows.

The investigators found individuals with these factors, which are all markers of cognitive reserve, had a significantly greater chance of reversion from MCI to normal cognition (NC) than progression from MCI to dementia.

In a cohort study of more than 600 women aged 75 years or older, about a third of those with MCI reverted to NC at some point during follow-up, which sends “an encouraging message,” study author Suzanne Tyas, PhD, associate professor, University of Waterloo (Ont.), said in an interview.

“That’s a positive thing for people to keep in mind when they’re thinking about prognosis. Some of these novel characteristics we’ve identified might be useful in thinking about how likely a particular patient might be to improve versus decline cognitively,” Dr. Tyas added.

The findings were published online Feb. 4, 2022, in the journal Neurology.
 

Highly educated cohort

As the population ages, the number of individuals experiencing age-related conditions, including dementia, increases. There is no cure for most dementia types so prevention is key – and preventing dementia requires understanding its risk factors, Dr. Tyas noted.

The analysis included participants from the Nun Study, a longitudinal study of aging and cognition among members of the School Sisters of Notre Dame in the United States. All were 75 and older at baseline, which was from 1991 to 1993; about 14.5% were older than 90 years.

Participants were generally highly educated, with 84.5% attaining an undergraduate or graduate degree. They also had a similar socioeconomic status, level of social supports, marital and reproductive history, and alcohol and tobacco use.

Researchers examined cognitive function at baseline and then about annually until death or end of the 12th round of assessments. They used five measures from the Consortium to Establish a Registry for Alzheimer’s Disease neuropsychological battery to categorize subjects into NC, MCI, or dementia: Delayed Word Recall, Verbal Fluency, Boston Naming, Constructional Praxis, and the Mini-Mental State Exam.

The current analysis focused on the 619 participants with data on apolipoprotein E (apo E) epsilon-4 genotyping and education. From convent archives, investigators also had access to the nuns’ early high school academic performance in English, Latin, algebra, and geometry.

“Typically we only have data for [overall] education. But I know from teaching that there’s a difference between people who just pass my courses and graduate with a university degree versus those who really excel,” Dr. Tyas said.

The researchers also assessed handwriting samples from before the participants entered the religious order. From these, they scored “idea density,” which is the number of ideas contained in the writing and “grammatical complexity,” which includes structure, use of clauses, subclauses, and so on.
 

Dementia not inevitable

Results showed 472 of the 619 participants had MCI during the study period. About 30.3% of these showed at least one reverse transition from MCI to NC during a mean follow-up of 8.6 years; 83.9% went on to develop dementia.

This shows converting from MCI to NC occurs relatively frequently, Dr. Tyas noted.

“This is encouraging because some people think that if they have a diagnosis of MCI they are inevitably going to decline to dementia,” she added.

The researchers also used complicated modeling of transition rates over time between NC, MCI, and dementia and adjusted for participants who died. They estimated relative risk of reversion versus progression for age, apo E, and potential cognitive reserve indicators.

Not surprisingly, younger age (90 years or less) and absence of apo E epsilon-4 allele contributed to a significantly higher rate for reversion from MCI to NC versus progression from MCI to dementia.

However, although age and apo E are known risk factors for dementia, these have not been examined in the context of whether individuals with MCI are more likely to improve or decline, said Dr. Tyas.

Higher educational attainment, the traditional indicator of cognitive reserve, was associated with a significantly higher relative risk for reversion from MCI to NC versus progression from MCI to dementia (RR, 2.6) for a bachelor’s degree versus less education.

There was a greater RR for even higher education after adjusting for age and apo E epsilon-4 status.
 

Language skills key

Interestingly, the investigators also found a significant association with good grades in high school English but not other subjects (RR for higher vs. lower English grades, 1.83; 95% confidence interval, 1.07-3.14).

In addition, they found both characteristics of written language skills (idea density and grammatical complexity) were significant predictors of conversion to NC.

“Those with high levels of idea density were four times more likely to improve to normal cognition than progress to dementia, and the effect was even stronger for grammatical structure. Those individuals with higher levels were almost six times more likely to improve than decline,” Dr. Tyas reported.

The RR for higher versus lower idea density was 3.93 (95% CI, 1.3-11.9) and the RR for higher versus lower grammatical complexity was 5.78 (95% CI, 1.56-21.42).

These new results could be useful when planning future clinical trials, Dr. Tyas noted. “MCI in some people is going to improve even without any treatment, and this should be taken into consideration when recruiting participants to a study and when interpreting the results.

“You don’t want something to look like it’s a benefit of the treatment when in fact these individuals would have just reverted on their own,” she added.
 

Research implications

Commenting on the findings, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, noted that, in “this study of highly educated, older women,” transitions from MCI to NC “were about equally common” as transitions from MCI to dementia.

“As advances are made in early detection of dementia, and treatments are developed and marketed for people living with MCI, this article’s findings are important to inform discussions of prognosis with patients and [to the] design of clinical trials,” Dr. Sexton said.

The study was funded by the Canadian Institutes of Health Research and the Natural Sciences and Engineering Research Council of Canada. Funding for the Nun Study at the University of Kentucky was provided by the U.S. National Institute of Aging and the Kleberg Foundation. Dr. Tyas has disclosed no relevant financial relationships.

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

A high level of education, superior academic performance, and excellent written language skills may predict the reversal of mild cognitive impairment (MCI) to normal cognitive function, new research shows.

The investigators found individuals with these factors, which are all markers of cognitive reserve, had a significantly greater chance of reversion from MCI to normal cognition (NC) than progression from MCI to dementia.

In a cohort study of more than 600 women aged 75 years or older, about a third of those with MCI reverted to NC at some point during follow-up, which sends “an encouraging message,” study author Suzanne Tyas, PhD, associate professor, University of Waterloo (Ont.), said in an interview.

“That’s a positive thing for people to keep in mind when they’re thinking about prognosis. Some of these novel characteristics we’ve identified might be useful in thinking about how likely a particular patient might be to improve versus decline cognitively,” Dr. Tyas added.

The findings were published online Feb. 4, 2022, in the journal Neurology.
 

Highly educated cohort

As the population ages, the number of individuals experiencing age-related conditions, including dementia, increases. There is no cure for most dementia types so prevention is key – and preventing dementia requires understanding its risk factors, Dr. Tyas noted.

The analysis included participants from the Nun Study, a longitudinal study of aging and cognition among members of the School Sisters of Notre Dame in the United States. All were 75 and older at baseline, which was from 1991 to 1993; about 14.5% were older than 90 years.

Participants were generally highly educated, with 84.5% attaining an undergraduate or graduate degree. They also had a similar socioeconomic status, level of social supports, marital and reproductive history, and alcohol and tobacco use.

Researchers examined cognitive function at baseline and then about annually until death or end of the 12th round of assessments. They used five measures from the Consortium to Establish a Registry for Alzheimer’s Disease neuropsychological battery to categorize subjects into NC, MCI, or dementia: Delayed Word Recall, Verbal Fluency, Boston Naming, Constructional Praxis, and the Mini-Mental State Exam.

The current analysis focused on the 619 participants with data on apolipoprotein E (apo E) epsilon-4 genotyping and education. From convent archives, investigators also had access to the nuns’ early high school academic performance in English, Latin, algebra, and geometry.

“Typically we only have data for [overall] education. But I know from teaching that there’s a difference between people who just pass my courses and graduate with a university degree versus those who really excel,” Dr. Tyas said.

The researchers also assessed handwriting samples from before the participants entered the religious order. From these, they scored “idea density,” which is the number of ideas contained in the writing and “grammatical complexity,” which includes structure, use of clauses, subclauses, and so on.
 

Dementia not inevitable

Results showed 472 of the 619 participants had MCI during the study period. About 30.3% of these showed at least one reverse transition from MCI to NC during a mean follow-up of 8.6 years; 83.9% went on to develop dementia.

This shows converting from MCI to NC occurs relatively frequently, Dr. Tyas noted.

“This is encouraging because some people think that if they have a diagnosis of MCI they are inevitably going to decline to dementia,” she added.

The researchers also used complicated modeling of transition rates over time between NC, MCI, and dementia and adjusted for participants who died. They estimated relative risk of reversion versus progression for age, apo E, and potential cognitive reserve indicators.

Not surprisingly, younger age (90 years or less) and absence of apo E epsilon-4 allele contributed to a significantly higher rate for reversion from MCI to NC versus progression from MCI to dementia.

However, although age and apo E are known risk factors for dementia, these have not been examined in the context of whether individuals with MCI are more likely to improve or decline, said Dr. Tyas.

Higher educational attainment, the traditional indicator of cognitive reserve, was associated with a significantly higher relative risk for reversion from MCI to NC versus progression from MCI to dementia (RR, 2.6) for a bachelor’s degree versus less education.

There was a greater RR for even higher education after adjusting for age and apo E epsilon-4 status.
 

Language skills key

Interestingly, the investigators also found a significant association with good grades in high school English but not other subjects (RR for higher vs. lower English grades, 1.83; 95% confidence interval, 1.07-3.14).

In addition, they found both characteristics of written language skills (idea density and grammatical complexity) were significant predictors of conversion to NC.

“Those with high levels of idea density were four times more likely to improve to normal cognition than progress to dementia, and the effect was even stronger for grammatical structure. Those individuals with higher levels were almost six times more likely to improve than decline,” Dr. Tyas reported.

The RR for higher versus lower idea density was 3.93 (95% CI, 1.3-11.9) and the RR for higher versus lower grammatical complexity was 5.78 (95% CI, 1.56-21.42).

These new results could be useful when planning future clinical trials, Dr. Tyas noted. “MCI in some people is going to improve even without any treatment, and this should be taken into consideration when recruiting participants to a study and when interpreting the results.

“You don’t want something to look like it’s a benefit of the treatment when in fact these individuals would have just reverted on their own,” she added.
 

Research implications

Commenting on the findings, Claire Sexton, DPhil, director of scientific programs and outreach at the Alzheimer’s Association, noted that, in “this study of highly educated, older women,” transitions from MCI to NC “were about equally common” as transitions from MCI to dementia.

“As advances are made in early detection of dementia, and treatments are developed and marketed for people living with MCI, this article’s findings are important to inform discussions of prognosis with patients and [to the] design of clinical trials,” Dr. Sexton said.

The study was funded by the Canadian Institutes of Health Research and the Natural Sciences and Engineering Research Council of Canada. Funding for the Nun Study at the University of Kentucky was provided by the U.S. National Institute of Aging and the Kleberg Foundation. Dr. Tyas has disclosed no relevant financial relationships.

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

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.