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Antihypertensives tied to lower Alzheimer’s disease pathology
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
new research shows.
Investigators found that use of any antihypertensive was associated with an 18% decrease in Alzheimer’s disease neuropathology, a 22% decrease in Lewy bodies, and a 40% decrease in TAR DNA-binding protein 43 (TDP-43), a protein relevant to several neurodegenerative diseases. Diuretics in particular appear to be driving the association.
Although diuretics might be a better option for preventing brain neuropathology, it’s too early to make firm recommendations solely on the basis of these results as to what blood pressure–lowering agent to prescribe a particular patient, said study investigator Ahmad Sajjadi, MD, assistant professor of neurology, University of California, Irvine.
“This is early stages and preliminary results,” said Dr. Sajjadi, “but it’s food for thought.”
The findings were presented at the 2021 annual meeting of the American Neurological Association.
Autopsy data
The study included 3,315 individuals who had donated their brains to research. The National Alzheimer’s Coordinating Center maintains a database that includes data from 32 Alzheimer’s disease research centers in the United States. Participants in the study must have visited one of these centers within 4 years of death. Each person whose brain was included in the study underwent two or more BP measurements on at least 50% of visits.
The mean age at death was 81.7 years, and the mean time between last visit and death was 13.1 months. About 44.4% of participants were women, 57.0% had at least a college degree, and 84.7% had cognitive impairment.
Researchers defined hypertension as systolic BP of at least 130 mm Hg, diastolic BP of at least 80 mm Hg, mean arterial pressure of at least 100 mm Hg, and pulse pressure of at least 60 mm Hg.
Antihypertensive medications that were evaluated included antiadrenergic agents, ACE inhibitors, angiotensin II receptor blockers, beta blockers, calcium channel blockers, diuretics, vasodilators, and combination therapies.
The investigators assessed the number of neuropathologies. In addition to Alzheimer’s disease neuropathology, which included amyloid-beta, tau, Lewy bodies, and TDP-43, they also assessed for atherosclerosis, arteriolosclerosis, cerebral amyloid angiopathy, frontotemporal lobar degeneration, and hippocampal sclerosis.
Results showed that use of any antihypertensive was associated with a lower likelihood of Alzheimer’s disease neuropathology (odds ratio, 0.822), Lewy bodies (OR, 0.786), and TDP 43 (OR, 0.597). Use of antihypertensives was also associated with increased odds of atherosclerosis (OR, 1.217) (all P < .5.)
The study showed that hypertensive systolic BP was associated with higher odds of Alzheimer’s disease neuropathology (OR, 1.28; P < .5).
Differences by drug type
Results differed in accordance with antihypertensive class. Angiotensin II receptor blockers decreased the odds of Alzheimer’s disease neuropathology by 40% (OR, 0.60; P < .5). Diuretics decreased the odds of Alzheimer’s disease by 36% (OR, 0.64; P < .001) and of hippocampal sclerosis by 32% (OR, 0.68; P < .5).
“We see diuretics are a main driver, especially for lower odds of Alzheimer’s disease and lower odds of hippocampal sclerosis,” said lead author Hanna L. Nguyen, a first-year medical student at the University of California, Irvine.
The results indicate that it is the medications, not BP levels, that account for these associations, she added.
One potential mechanism linking antihypertensives to brain pathology is that with these agents, BP is maintained in the target zone. Blood pressure that’s too high can damage blood vessels, whereas BP that’s too low may result in less than adequate perfusion, said Ms. Nguyen.
These medications may also alter pathways leading to degeneration and could, for example, affect the apo E mechanism of Alzheimer’s disease, she added.
The researchers plan to conduct subset analyses using apo E genetic status and age of death.
Although this is a “massive database,” it has limitations. For example, said Dr. Sajjadi, it does not reveal when patients started taking BP medication, how long they had been taking it, or why.
“We don’t know the exact the reason they were taking these medications. Was it just hypertension, or did they also have heart disease, stroke, a kidney problem, or was there another explanation,” he said.
Following the study presentation, session comoderator Krish Sathian, MBBS, PhD, professor of neurology, neural, and behavioral sciences, and psychology and director of the Neuroscience Institute, Penn State University, Hershey, called this work “fascinating. It provides a lot of data that really touches on everyday practice,” inasmuch as clinicians often prescribe antihypertensive medications and see patients with these kinds of brain disorders.
The investigators and Dr. Sathian reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ANA 2021
Alopecia tied to a threefold increased risk for dementia
Alopecia areata (AA) has been linked to a significantly increased risk for dementia, new research shows.
After controlling for an array of potential confounders, investigators found a threefold higher risk of developing any form of dementia and a fourfold higher risk of developing Alzheimer’s disease (AD) in those with AA versus the controls.
“AA shares a similar inflammatory signature with dementia and has great psychological impacts that lead to poor social engagement,” lead author Cheng-Yuan Li, MD, MSc, of the department of dermatology, Taipei (Taiwan) Veterans General Hospital.
“Poor social engagement and shared inflammatory cytokines might both be important links between AA and dementia,” said Dr. Li, who is also affiliated with the School of Medicine and the Institute of Brain Science at National Yang Ming Chiao Tung University, Taipei.
The study was published online Oct. 26, 2021, in the Journal of Clinical Psychiatry (doi: 10.4088/JCP.21m13931).
Significant psychological impact
Patients with AA often experience anxiety and depression, possibly caused by the negative emotional and psychological impact of the hair loss and partial or even complete baldness associated with the disease, the authors noted.
However, AA is also associated with an array of other atopic and autoimmune diseases, including psoriasis and systemic lupus erythematosus (SLE).
Epidemiologic research has suggested a link between dementia and autoimmune diseases such as psoriasis and SLE, with some evidence suggesting that autoimmune and inflammatory mechanisms may “play a role” in the development of AD.
Dementia in general and AD in particular, “have been shown to include an inflammatory component” that may share some of the same mediators seen in AA (eg, IL-1 beta, IL-6, and tumor necrosis factor–alpha).
Moreover, “the great negative psychosocial impact of AA might result in poor social engagement, a typical risk factor for dementia,” said Dr. Li. The investigators sought to investigate whether patients with AA actually do have a higher dementia risk than individuals without AA.
The researchers used data from the Taiwan National Health Insurance Research Database, comparing 2,534 patients with AA against 25,340 controls matched for age, sex, residence, income, dementia-related comorbidities, systemic steroid use, and annual outpatient visits. Participants were enrolled between 1998 and 2011 and followed to the end of 2013.
The mean age of the cohort was 53.9 years, and a little over half (57.6%) were female. The most common comorbidity was hypertension (32.3%), followed by dyslipidemia (27%) and diabetes (15.4%).
Dual intervention
After adjusting for potential confounders, those with AA were more likely to develop dementia, AD, and unspecified dementia, compared with controls. They also had a numerically higher risk for vascular dementia, compared with controls, but it was not statistically significant.
When participants were stratified by age, investigators found a significant association between AA and higher risk for any dementia as well as unspecified dementia in individuals of all ages and an increased risk for AD in patients with dementia age at onset of 65 years and older.
The mean age of dementia diagnosis was considerably younger in patients with AA versus controls (73.4 vs. 78.9 years, P = .002). The risk for any dementia and unspecified dementia was higher in patients of both sexes, but the risk for AD was higher only in male patients.
Sensitivity analyses that excluded the first year or first 3 years of observation yielded similar and consistent findings.
“Intervention targeting poor social engagement and inflammatory cytokines may be beneficial to AA-associated dementia,” said Dr. Li.
“Physicians should be more aware of this possible association, help reduce disease discrimination among the public, and encourage more social engagement for AA patients,” he said.
“Further studies are needed to elucidate the underlying pathophysiology between AA and dementia risk,” he added.
No cause and effect
Commenting on the study, Heather M. Snyder, PhD, vice president of medical and scientific affairs, Alzheimer’s Association, said, “We continue to learn about and better understand factors that may increase or decrease a person’s risk of dementia.”
“While we know the immune system plays a role in Alzheimer’s and other dementia, we are still investigating links between, and impact of, autoimmune diseases – like alopecia areata, rheumatoid arthritis, and others – on our overall health and our brains, [which] may eventually give us important information on risk reduction strategies as well,” said Dr. Snyder, who was not involved in the research.
She cautioned that although the study did show a correlation between AA and dementia risk, this does not equate to a demonstration of cause and effect.
At present, “the message for clinicians is that when a patient comes to your office with complaints about their memory, they should, No. 1, be taken seriously; and, No. 2, receive a thorough evaluation that takes into account the many factors that may lead to cognitive decline,” Dr. Snyder said.
The study was supported by a grant from Taipei Veterans General Hospital and the Ministry of Science and Technology, Taiwan. Dr. Li, coauthors, and Dr. Snyder disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Alopecia areata (AA) has been linked to a significantly increased risk for dementia, new research shows.
After controlling for an array of potential confounders, investigators found a threefold higher risk of developing any form of dementia and a fourfold higher risk of developing Alzheimer’s disease (AD) in those with AA versus the controls.
“AA shares a similar inflammatory signature with dementia and has great psychological impacts that lead to poor social engagement,” lead author Cheng-Yuan Li, MD, MSc, of the department of dermatology, Taipei (Taiwan) Veterans General Hospital.
“Poor social engagement and shared inflammatory cytokines might both be important links between AA and dementia,” said Dr. Li, who is also affiliated with the School of Medicine and the Institute of Brain Science at National Yang Ming Chiao Tung University, Taipei.
The study was published online Oct. 26, 2021, in the Journal of Clinical Psychiatry (doi: 10.4088/JCP.21m13931).
Significant psychological impact
Patients with AA often experience anxiety and depression, possibly caused by the negative emotional and psychological impact of the hair loss and partial or even complete baldness associated with the disease, the authors noted.
However, AA is also associated with an array of other atopic and autoimmune diseases, including psoriasis and systemic lupus erythematosus (SLE).
Epidemiologic research has suggested a link between dementia and autoimmune diseases such as psoriasis and SLE, with some evidence suggesting that autoimmune and inflammatory mechanisms may “play a role” in the development of AD.
Dementia in general and AD in particular, “have been shown to include an inflammatory component” that may share some of the same mediators seen in AA (eg, IL-1 beta, IL-6, and tumor necrosis factor–alpha).
Moreover, “the great negative psychosocial impact of AA might result in poor social engagement, a typical risk factor for dementia,” said Dr. Li. The investigators sought to investigate whether patients with AA actually do have a higher dementia risk than individuals without AA.
The researchers used data from the Taiwan National Health Insurance Research Database, comparing 2,534 patients with AA against 25,340 controls matched for age, sex, residence, income, dementia-related comorbidities, systemic steroid use, and annual outpatient visits. Participants were enrolled between 1998 and 2011 and followed to the end of 2013.
The mean age of the cohort was 53.9 years, and a little over half (57.6%) were female. The most common comorbidity was hypertension (32.3%), followed by dyslipidemia (27%) and diabetes (15.4%).
Dual intervention
After adjusting for potential confounders, those with AA were more likely to develop dementia, AD, and unspecified dementia, compared with controls. They also had a numerically higher risk for vascular dementia, compared with controls, but it was not statistically significant.
When participants were stratified by age, investigators found a significant association between AA and higher risk for any dementia as well as unspecified dementia in individuals of all ages and an increased risk for AD in patients with dementia age at onset of 65 years and older.
The mean age of dementia diagnosis was considerably younger in patients with AA versus controls (73.4 vs. 78.9 years, P = .002). The risk for any dementia and unspecified dementia was higher in patients of both sexes, but the risk for AD was higher only in male patients.
Sensitivity analyses that excluded the first year or first 3 years of observation yielded similar and consistent findings.
“Intervention targeting poor social engagement and inflammatory cytokines may be beneficial to AA-associated dementia,” said Dr. Li.
“Physicians should be more aware of this possible association, help reduce disease discrimination among the public, and encourage more social engagement for AA patients,” he said.
“Further studies are needed to elucidate the underlying pathophysiology between AA and dementia risk,” he added.
No cause and effect
Commenting on the study, Heather M. Snyder, PhD, vice president of medical and scientific affairs, Alzheimer’s Association, said, “We continue to learn about and better understand factors that may increase or decrease a person’s risk of dementia.”
“While we know the immune system plays a role in Alzheimer’s and other dementia, we are still investigating links between, and impact of, autoimmune diseases – like alopecia areata, rheumatoid arthritis, and others – on our overall health and our brains, [which] may eventually give us important information on risk reduction strategies as well,” said Dr. Snyder, who was not involved in the research.
She cautioned that although the study did show a correlation between AA and dementia risk, this does not equate to a demonstration of cause and effect.
At present, “the message for clinicians is that when a patient comes to your office with complaints about their memory, they should, No. 1, be taken seriously; and, No. 2, receive a thorough evaluation that takes into account the many factors that may lead to cognitive decline,” Dr. Snyder said.
The study was supported by a grant from Taipei Veterans General Hospital and the Ministry of Science and Technology, Taiwan. Dr. Li, coauthors, and Dr. Snyder disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Alopecia areata (AA) has been linked to a significantly increased risk for dementia, new research shows.
After controlling for an array of potential confounders, investigators found a threefold higher risk of developing any form of dementia and a fourfold higher risk of developing Alzheimer’s disease (AD) in those with AA versus the controls.
“AA shares a similar inflammatory signature with dementia and has great psychological impacts that lead to poor social engagement,” lead author Cheng-Yuan Li, MD, MSc, of the department of dermatology, Taipei (Taiwan) Veterans General Hospital.
“Poor social engagement and shared inflammatory cytokines might both be important links between AA and dementia,” said Dr. Li, who is also affiliated with the School of Medicine and the Institute of Brain Science at National Yang Ming Chiao Tung University, Taipei.
The study was published online Oct. 26, 2021, in the Journal of Clinical Psychiatry (doi: 10.4088/JCP.21m13931).
Significant psychological impact
Patients with AA often experience anxiety and depression, possibly caused by the negative emotional and psychological impact of the hair loss and partial or even complete baldness associated with the disease, the authors noted.
However, AA is also associated with an array of other atopic and autoimmune diseases, including psoriasis and systemic lupus erythematosus (SLE).
Epidemiologic research has suggested a link between dementia and autoimmune diseases such as psoriasis and SLE, with some evidence suggesting that autoimmune and inflammatory mechanisms may “play a role” in the development of AD.
Dementia in general and AD in particular, “have been shown to include an inflammatory component” that may share some of the same mediators seen in AA (eg, IL-1 beta, IL-6, and tumor necrosis factor–alpha).
Moreover, “the great negative psychosocial impact of AA might result in poor social engagement, a typical risk factor for dementia,” said Dr. Li. The investigators sought to investigate whether patients with AA actually do have a higher dementia risk than individuals without AA.
The researchers used data from the Taiwan National Health Insurance Research Database, comparing 2,534 patients with AA against 25,340 controls matched for age, sex, residence, income, dementia-related comorbidities, systemic steroid use, and annual outpatient visits. Participants were enrolled between 1998 and 2011 and followed to the end of 2013.
The mean age of the cohort was 53.9 years, and a little over half (57.6%) were female. The most common comorbidity was hypertension (32.3%), followed by dyslipidemia (27%) and diabetes (15.4%).
Dual intervention
After adjusting for potential confounders, those with AA were more likely to develop dementia, AD, and unspecified dementia, compared with controls. They also had a numerically higher risk for vascular dementia, compared with controls, but it was not statistically significant.
When participants were stratified by age, investigators found a significant association between AA and higher risk for any dementia as well as unspecified dementia in individuals of all ages and an increased risk for AD in patients with dementia age at onset of 65 years and older.
The mean age of dementia diagnosis was considerably younger in patients with AA versus controls (73.4 vs. 78.9 years, P = .002). The risk for any dementia and unspecified dementia was higher in patients of both sexes, but the risk for AD was higher only in male patients.
Sensitivity analyses that excluded the first year or first 3 years of observation yielded similar and consistent findings.
“Intervention targeting poor social engagement and inflammatory cytokines may be beneficial to AA-associated dementia,” said Dr. Li.
“Physicians should be more aware of this possible association, help reduce disease discrimination among the public, and encourage more social engagement for AA patients,” he said.
“Further studies are needed to elucidate the underlying pathophysiology between AA and dementia risk,” he added.
No cause and effect
Commenting on the study, Heather M. Snyder, PhD, vice president of medical and scientific affairs, Alzheimer’s Association, said, “We continue to learn about and better understand factors that may increase or decrease a person’s risk of dementia.”
“While we know the immune system plays a role in Alzheimer’s and other dementia, we are still investigating links between, and impact of, autoimmune diseases – like alopecia areata, rheumatoid arthritis, and others – on our overall health and our brains, [which] may eventually give us important information on risk reduction strategies as well,” said Dr. Snyder, who was not involved in the research.
She cautioned that although the study did show a correlation between AA and dementia risk, this does not equate to a demonstration of cause and effect.
At present, “the message for clinicians is that when a patient comes to your office with complaints about their memory, they should, No. 1, be taken seriously; and, No. 2, receive a thorough evaluation that takes into account the many factors that may lead to cognitive decline,” Dr. Snyder said.
The study was supported by a grant from Taipei Veterans General Hospital and the Ministry of Science and Technology, Taiwan. Dr. Li, coauthors, and Dr. Snyder disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FDA not recognizing efficacy of psychopharmacologic therapies
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
Many years ago, drug development in psychiatry turned to control of specific symptoms across disorders rather than within disorders, but regulatory agencies are still not yet on board, according to an expert psychopharmacologist outlining the ongoing evolution at the virtual Psychopharmacology Update presented by Current Psychiatry and the American Academy of Clinical Psychiatrists, sponsored by Medscape Live.
If this reorientation is going to lead to the broad indications the newer drugs likely deserve, which is control of specific types of symptoms regardless of the diagnosis, “we have to move the [Food and Drug Administration] along,” said Stephen M. Stahl, MD, PhD, chairman of the Neuroscience Institute and an adjunct professor of psychiatry at the University of California, San Diego.
On the side of drug development and clinical practice, the reorientation has already taken place. Dr. Stahl described numerous brain circuits known to produce symptoms when function is altered that are now treatment targets. This includes the ventral medial prefrontal cortex where deficient information processing leads to depression and the orbital frontal cortex where altered function leads to impulsivity.
“It is not like each part of the brain does a little bit of everything. Rather, each part of the brain has an assignment and duty and function,” Dr. Stahl explained. By addressing the disturbed signaling in brain circuits that lead to depression, impulsivity, agitation, or other symptoms, there is an opportunity for control, regardless of the psychiatric diagnosis with which the symptom is associated.
For example, Dr. Stahl predicted that pimavanserin, a highly selective 5-HT2A inverse agonist that is already approved for psychosis in Parkinson’s disease, is now likely to be approved for psychosis associated with other conditions on the basis of recent positive clinical studies in these other disorders.
Brexpiprazole, a serotonin-dopamine activity modulator already known to be useful for control of the agitation characteristic of schizophrenia, is now showing the same type of activity against agitation when it is associated with Alzheimer’s disease. Again, Dr. Stahl thinks this drug is on course for an indication across diseases once studies are conducted in each disease individually.
Another drug being evaluated for agitation, the N-methyl-D-aspartate receptor antagonist dextromethorphan bupropion, is also being tested for treatment of symptoms across multiple disorders, he reported.
However, the FDA has so far taken the position that each drug must be tested separately for a given symptom in each disorder for which it is being considered despite the underlying premise that it is the symptom, not the disease, that is important.
Unlike physiological diseases where symptoms, like a fever or abdominal cramps, are the product of a disease, psychiatric symptoms are the disease and a fundamental target – regardless of the DSM-based diagnosis.
To some degree, the symptoms of psychiatric disorders have always been the focus of treatment, but a pivot toward developing therapies that will control a symptom regardless of the underlying diagnosis is an important conceptual change. It is being made possible by advances in the detail with which the neuropathology of these symptoms is understood .
“By my count, 79 symptoms are described in DSM-5, but they are spread across hundreds of syndromes because they are grouped together in different ways,” Dr. Stahl observed.
He noted that clinicians make a diagnosis on the basis symptom groupings, but their interventions are selected to address the manifestations of the disease, not the disease itself.
“If you are a real psychopharmacologist treating real patients, you are treating the specific symptoms of the specific patient,” according to Dr. Stahl.
So far, the FDA has not made this leap, insisting on trials in these categorical disorders rather than permitting trial designs that allow benefit to be demonstrated against a symptom regardless of the syndrome with which it is associated.
Of egregious examples, Dr. Stahl recounted a recent trial of a 5-HT2 antagonist that looked so promising against psychosis in Alzheimer’s disease that the trialists enrolled patients with psychosis regardless of type of dementia, such as vascular dementia and Lewy body disease. The efficacy was impressive.
“It worked so well that they stopped the trial, but the FDA declined to approve it,” Dr. Stahl recounted. Despite clear evidence of benefit, the regulators insisted that the investigators needed to show a significant benefit in each condition individually.
While the trial investigators acknowledged that there was not enough power in the trial to show a statistically significant benefit in each category, they argued that the overall benefit and the consistent response across categories required them to stop the trial for ethical reasons.
“That’s your problem, the FDA said to the investigators,” according to Dr. Stahl.
The failure of the FDA to recognize the efficacy of psychopharmacologic therapies across symptoms regardless of the associated disease is a failure to stay current with an important evolution in medicine, Dr. Stahl indicated.
“What we have come to understand is the neurobiology of any given symptom is likely to be the same across disorders,” he said.
Agency’s arbitrary decisions cited
“I completely agree with Dr. Stahl,” said Henry A. Nasrallah, MD, professor of psychiatry, neurology, and neuroscience, University of Cincinnati.
In addition to the fact that symptoms are present across multiple categories, many patients manifest multiple symptoms at one time, Dr. Nasrallah pointed out. For neurodegenerative disorders associated with psychosis, depression, anxiety, aggression, and other symptoms, it is already well known that the heterogeneous symptoms “cannot be treated with a single drug,” he said. Rather different drugs targeting each symptom individually is essential for effective management.
Dr. Nasrallah, who chaired the Psychopharmacology Update meeting, has made this point many times in the past, including in his role as the editor of Current Psychiatry. In one editorial 10 years ago, he wrote that “it makes little sense for the FDA to mandate that a drug must work for a DSM diagnosis instead of specific symptoms.”
“The FDA must update its old policy, which has led to the widespread off-label use of psychiatric drugs, an artificial concept, simply because the FDA arbitrarily decided a long time ago that new drugs must be approved for a specific DSM diagnosis,” Dr. Nasrallah said.
Dr. Stahl reported financial relationships with more than 20 pharmaceutical companies, including those that are involved in the development of drugs included in his talk. Medscape Live and this news organization are owned by the same parent company.
FROM PSYCHOPHARMACOLOGY UPDATE
Sleep time ‘sweet spot’ to slow cognitive decline identified?
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.
The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.
Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).
The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta 42 ratio, apo E four-allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.
The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.
Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).
The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta 42 ratio, apo E four-allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis, said in an interview.
The study, published online Oct. 20, 2021, in the journal Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, AD, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of AD, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid-beta, a hallmark sign of AD.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University.
Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta 42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR greater than 0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of AD pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale–Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale–Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both).
The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta 42 ratio, apo E four-allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of AD could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings for this news organization, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Sleep time ‘sweet spot’ to slow cognitive decline identified?
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” said lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis.
The study, published online Oct. 20 in Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, Alzheimer’s disease, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of Alzheimer’s disease, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid beta, a hallmark sign of Alzheimer’s disease.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University. Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR >0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of Alzheimer’s disease pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale-Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale-Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both). The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta-42 ratio, APOE ε4 allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of Alzheimer’s disease could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships. Full disclosures are included in the original article.
A version of this article first appeared on Medscape.com.
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” said lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis.
The study, published online Oct. 20 in Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, Alzheimer’s disease, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of Alzheimer’s disease, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid beta, a hallmark sign of Alzheimer’s disease.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University. Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR >0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of Alzheimer’s disease pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale-Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale-Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both). The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta-42 ratio, APOE ε4 allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of Alzheimer’s disease could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships. Full disclosures are included in the original article.
A version of this article first appeared on Medscape.com.
In a longitudinal study, investigators found older adults who slept less than 4.5 hours or more than 6.5 hours a night reported significant cognitive decline over time, but cognitive scores for those with sleep duration in between that range remained stable.
“This really suggests that there’s this middle range, a ‘sweet spot,’ where your sleep is really optimal,” said lead author Brendan Lucey, MD, MSCI, associate professor of neurology and director of the Washington University Sleep Medicine Center, St. Louis.
The study, published online Oct. 20 in Brain, is part of a growing body of research that seeks to determine if sleep can be used as a marker of Alzheimer’s disease progression.
A complex relationship
Studies suggest a strong relationship between sleep patterns and Alzheimer’s disease, which affects nearly 6 million Americans. The challenge, Dr. Lucey said, is unwinding the complex links between sleep, Alzheimer’s disease, and cognitive function.
An earlier study by Dr. Lucey and colleagues found that poor sleep quality is associated with early signs of Alzheimer’s disease, and a report published in September found that elderly people who slept less than 6 hours a night had a greater burden of amyloid beta, a hallmark sign of Alzheimer’s disease.
For this new study, researchers monitored sleep-wake activity over 4-6 nights in 100 participants who underwent annual cognitive assessments and clinical studies, including APOE genotyping, as part of a longitudinal study at the Knight Alzheimer Disease Research Center at Washington University. Participants also provided cerebrospinal fluid (CSF) total tau and amyloid-beta42 and wore a small EEG device on their forehead while they slept.
The majority of participants had a clinical dementia rating (CDR) score of 0, indicating no cognitive impairment. Twelve individuals had a CDR >0, with most reporting mild cognitive impairment.
As expected, CSF analysis showed greater evidence of Alzheimer’s disease pathology in those with a baseline CDR greater than 0.
Changes in cognitive function were measured using a Preclinical Alzheimer Cognitive Composite (PACC) score, a composite of results from a neuropsychological testing battery that included the Free and Cued Selective Reminding Test, the Logical Memory Delayed Recall Test from the Wechsler Memory Scale-Revised, the Digit Symbol Substitution Test from the Wechsler Adult Intelligence Scale-Revised, and the Mini-Mental State Examination.
Researchers found an upside-down U-shaped relationship between PACC scores and sleep duration, with dramatic cognitive decline in those who slept less than 4.5 hours or more than 6.5 hours a night (P < .001 for both). The U-shaped relationship was also found with measures of sleep phases, including time spent in rapid eye movement and in non-REM sleep (P < .001 for both).
The findings persisted even after controlling for confounders that can affect sleep and cognition, such as age, CSF total tau/amyloid-beta-42 ratio, APOE ε4 allele carrier status, years of education, and sex.
Understanding how sleep changes at different stages of Alzheimer’s disease could help researchers determine if sleep can be used as a marker of disease progression, Dr. Lucey said. That could lead to interventions to slow that process.
“We’re not at the point yet where we can say that we need to monitor someone’s sleep time and then do an intervention to see if it would improve their risk for cognitive decline,” said Dr. Lucey, who plans to repeat this sleep study with the same cohort to track changes in sleep patterns and cognitive function over time. “But that’s a question I’m very excited to try to answer.”
A component of cognitive health
Commenting on the findings, Heather Snyder, PhD, vice president of medical and scientific relations for the Alzheimer’s Association, noted that the study adds to a body of evidence linking sleep and cognition, especially how sleep quality can optimize brain function.
“We’ve seen previous research that’s shown poor sleep contributes to dementia risk, as well as research showing sleep duration may play a role in cognition,” she said.
“We also need studies that look at sleep as an intervention for cognitive health,” Dr. Snyder said. “Sleep is an important aspect of our overall health. Clinicians should have conversations with their patients about sleep as part of standard discussions about their health habits and wellness.”
The study was funded by the National Institutes of Health, the American Sleep Medicine Foundation, the Roger and Paula Riney Fund, and the Daniel J. Brennan, MD Fund. Dr. Lucey consults for Merck and Eli Lilly. Dr. Snyder has disclosed no relevant financial relationships. Full disclosures are included in the original article.
A version of this article first appeared on Medscape.com.
From Brain
Novel light therapy helmet boosts brain function
Near-infrared light delivered to the brain using a specially designed helmet appears to improve memory, motor function, and processing skills in cognitively healthy older adults, in new findings that suggest potential benefit in patients with dementia.
Studies in animals and people have shown “many positive effects” with near-infrared transcranial photobiomodulation therapy (PBM-T), study investigator Paul Chazot, PhD, department of biosciences, Durham University, United Kingdom, told this news organization.
For example, PBM-T has been shown to increase blood circulation (which keeps the brain well oxygenated), boost mitochondria function in neurons, protect neurons from oxidative stress, and help maintain neuronal connectivity, Dr. Chazot explained.
PBM-T has also been shown to reduce amyloid and phosphorylated tau load, pathological signs of Alzheimer’s disease.
“All these in combination improve memory performance and mobility,” Dr. Chazot said.
The study was published online October 18 in Photobiomodulation, Photomedicine and Laser Surgery.
Promising early data
In the study, 14 healthy adults, aged 45 to 70 years, received 6 minutes of transcranial PBM-T twice daily at a wavelength of 1,068 nanometers over 4 weeks. PBM-T was delivered via a helmet that comprised 14 air-cooled light emitting diode panel arrays. A control group of 13 adults used a sham PBM-T helmet.
Before and after active and sham treatment, all participants completed the automated neuropsychological assessment metrics (ANAM) – a computer-based tool designed to detect speed and accuracy of attention, memory, and thinking ability.
According to the research team, compared with sham PBM-T, those receiving active PBM-T showed significant improvement in motor function (finger tapping), working memory, delayed memory, and brain processing speed, the research team reports. No adverse effects were reported.
“This study complements our other recent studies, which showed improvement in memory performance with no obvious side effects,” said Dr. Chazot.
“While this is a pilot study and more research is needed, there are promising indications that therapy involving infrared light might also be beneficial for people living with dementia, and this is worth exploring,” Dr. Chazot added in a news release.
The PBM-T helmet was devised by first author Gordon Dougal, MBChB, of Maculume in the U.K., and a general practitioner based in Durham.
A recent study by Mr. Dougal, Dr. Chazot, and collaborators in the United States provides early evidence that PBM-T can improve memory in adults with dementia.
In that study, 39 patients received 6 minutes of PBM-T twice a day for 8 weeks, alongside a control group of 17 patients who received sham PBM-T.
After 8 weeks, there was about a 20% improvement in Mini-Mental State Exam (MMSE) scores in the active PBM-T group compared with roughly a 6% improvement in the control group, the researchers report in the journal Cureus.
More research needed
Reached for comment, Rebecca Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said using light to stimulate the brain is “an emerging technology.”
“However, ,” Dr. Edelmayer told this news organization.
“That being said, we’re starting to see companies looking at similar, noninvasive methods of stimulating the brain. For example, brain stimulation devices have been applied to other neurodegenerative diseases like Parkinson’s to try to prevent degeneration of brain cells,” Dr. Edelmayer noted.
She said more research is needed to understand how photobiomodulation might be used as a therapy or prevention for cognitive decline and dementia.
“Specifically, we need to understand what parts of the brain need to be targeted and at what point(s) in the disease course this treatment would be most impactful. If proven to be effective, this could possibly be part of an approach that’s combined with other treatments, like drugs and lifestyle interventions,” said Dr. Edelmayer.
The Alzheimer’s Association is funding a number of projects looking at noninvasive treatments for Alzheimer’s disease, including two clinical trials looking at deep brain stimulation and photobiomodulation.
Maculume provided funding for the study. Mr. Dougal is a majority shareholder in the company, which manufactures the helmet device used in the study. Dr. Chazot, study co-authors, and Dr. Edelmayer have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Near-infrared light delivered to the brain using a specially designed helmet appears to improve memory, motor function, and processing skills in cognitively healthy older adults, in new findings that suggest potential benefit in patients with dementia.
Studies in animals and people have shown “many positive effects” with near-infrared transcranial photobiomodulation therapy (PBM-T), study investigator Paul Chazot, PhD, department of biosciences, Durham University, United Kingdom, told this news organization.
For example, PBM-T has been shown to increase blood circulation (which keeps the brain well oxygenated), boost mitochondria function in neurons, protect neurons from oxidative stress, and help maintain neuronal connectivity, Dr. Chazot explained.
PBM-T has also been shown to reduce amyloid and phosphorylated tau load, pathological signs of Alzheimer’s disease.
“All these in combination improve memory performance and mobility,” Dr. Chazot said.
The study was published online October 18 in Photobiomodulation, Photomedicine and Laser Surgery.
Promising early data
In the study, 14 healthy adults, aged 45 to 70 years, received 6 minutes of transcranial PBM-T twice daily at a wavelength of 1,068 nanometers over 4 weeks. PBM-T was delivered via a helmet that comprised 14 air-cooled light emitting diode panel arrays. A control group of 13 adults used a sham PBM-T helmet.
Before and after active and sham treatment, all participants completed the automated neuropsychological assessment metrics (ANAM) – a computer-based tool designed to detect speed and accuracy of attention, memory, and thinking ability.
According to the research team, compared with sham PBM-T, those receiving active PBM-T showed significant improvement in motor function (finger tapping), working memory, delayed memory, and brain processing speed, the research team reports. No adverse effects were reported.
“This study complements our other recent studies, which showed improvement in memory performance with no obvious side effects,” said Dr. Chazot.
“While this is a pilot study and more research is needed, there are promising indications that therapy involving infrared light might also be beneficial for people living with dementia, and this is worth exploring,” Dr. Chazot added in a news release.
The PBM-T helmet was devised by first author Gordon Dougal, MBChB, of Maculume in the U.K., and a general practitioner based in Durham.
A recent study by Mr. Dougal, Dr. Chazot, and collaborators in the United States provides early evidence that PBM-T can improve memory in adults with dementia.
In that study, 39 patients received 6 minutes of PBM-T twice a day for 8 weeks, alongside a control group of 17 patients who received sham PBM-T.
After 8 weeks, there was about a 20% improvement in Mini-Mental State Exam (MMSE) scores in the active PBM-T group compared with roughly a 6% improvement in the control group, the researchers report in the journal Cureus.
More research needed
Reached for comment, Rebecca Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said using light to stimulate the brain is “an emerging technology.”
“However, ,” Dr. Edelmayer told this news organization.
“That being said, we’re starting to see companies looking at similar, noninvasive methods of stimulating the brain. For example, brain stimulation devices have been applied to other neurodegenerative diseases like Parkinson’s to try to prevent degeneration of brain cells,” Dr. Edelmayer noted.
She said more research is needed to understand how photobiomodulation might be used as a therapy or prevention for cognitive decline and dementia.
“Specifically, we need to understand what parts of the brain need to be targeted and at what point(s) in the disease course this treatment would be most impactful. If proven to be effective, this could possibly be part of an approach that’s combined with other treatments, like drugs and lifestyle interventions,” said Dr. Edelmayer.
The Alzheimer’s Association is funding a number of projects looking at noninvasive treatments for Alzheimer’s disease, including two clinical trials looking at deep brain stimulation and photobiomodulation.
Maculume provided funding for the study. Mr. Dougal is a majority shareholder in the company, which manufactures the helmet device used in the study. Dr. Chazot, study co-authors, and Dr. Edelmayer have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Near-infrared light delivered to the brain using a specially designed helmet appears to improve memory, motor function, and processing skills in cognitively healthy older adults, in new findings that suggest potential benefit in patients with dementia.
Studies in animals and people have shown “many positive effects” with near-infrared transcranial photobiomodulation therapy (PBM-T), study investigator Paul Chazot, PhD, department of biosciences, Durham University, United Kingdom, told this news organization.
For example, PBM-T has been shown to increase blood circulation (which keeps the brain well oxygenated), boost mitochondria function in neurons, protect neurons from oxidative stress, and help maintain neuronal connectivity, Dr. Chazot explained.
PBM-T has also been shown to reduce amyloid and phosphorylated tau load, pathological signs of Alzheimer’s disease.
“All these in combination improve memory performance and mobility,” Dr. Chazot said.
The study was published online October 18 in Photobiomodulation, Photomedicine and Laser Surgery.
Promising early data
In the study, 14 healthy adults, aged 45 to 70 years, received 6 minutes of transcranial PBM-T twice daily at a wavelength of 1,068 nanometers over 4 weeks. PBM-T was delivered via a helmet that comprised 14 air-cooled light emitting diode panel arrays. A control group of 13 adults used a sham PBM-T helmet.
Before and after active and sham treatment, all participants completed the automated neuropsychological assessment metrics (ANAM) – a computer-based tool designed to detect speed and accuracy of attention, memory, and thinking ability.
According to the research team, compared with sham PBM-T, those receiving active PBM-T showed significant improvement in motor function (finger tapping), working memory, delayed memory, and brain processing speed, the research team reports. No adverse effects were reported.
“This study complements our other recent studies, which showed improvement in memory performance with no obvious side effects,” said Dr. Chazot.
“While this is a pilot study and more research is needed, there are promising indications that therapy involving infrared light might also be beneficial for people living with dementia, and this is worth exploring,” Dr. Chazot added in a news release.
The PBM-T helmet was devised by first author Gordon Dougal, MBChB, of Maculume in the U.K., and a general practitioner based in Durham.
A recent study by Mr. Dougal, Dr. Chazot, and collaborators in the United States provides early evidence that PBM-T can improve memory in adults with dementia.
In that study, 39 patients received 6 minutes of PBM-T twice a day for 8 weeks, alongside a control group of 17 patients who received sham PBM-T.
After 8 weeks, there was about a 20% improvement in Mini-Mental State Exam (MMSE) scores in the active PBM-T group compared with roughly a 6% improvement in the control group, the researchers report in the journal Cureus.
More research needed
Reached for comment, Rebecca Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said using light to stimulate the brain is “an emerging technology.”
“However, ,” Dr. Edelmayer told this news organization.
“That being said, we’re starting to see companies looking at similar, noninvasive methods of stimulating the brain. For example, brain stimulation devices have been applied to other neurodegenerative diseases like Parkinson’s to try to prevent degeneration of brain cells,” Dr. Edelmayer noted.
She said more research is needed to understand how photobiomodulation might be used as a therapy or prevention for cognitive decline and dementia.
“Specifically, we need to understand what parts of the brain need to be targeted and at what point(s) in the disease course this treatment would be most impactful. If proven to be effective, this could possibly be part of an approach that’s combined with other treatments, like drugs and lifestyle interventions,” said Dr. Edelmayer.
The Alzheimer’s Association is funding a number of projects looking at noninvasive treatments for Alzheimer’s disease, including two clinical trials looking at deep brain stimulation and photobiomodulation.
Maculume provided funding for the study. Mr. Dougal is a majority shareholder in the company, which manufactures the helmet device used in the study. Dr. Chazot, study co-authors, and Dr. Edelmayer have disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FDA clears 5-minute test for early dementia
The U.S. Food and Drug Administration has given marketing clearance to CognICA, an artificial intelligence–powered integrated cognitive assessment for the early detection of dementia.
Developed by Cognetivity Neurosciences, CognICA is a 5-minute, computerized cognitive assessment that is completed using an iPad. The test offers several advantages over traditional pen-and-paper–based cognitive tests, the company said in a news release.
“These include its high sensitivity to early-stage cognitive impairment, avoidance of cultural or educational bias, and absence of learning effect upon repeat testing,” the company notes.
Because the test runs on a computer, it can support remote, self-administered testing at scale and is geared toward seamless integration with existing electronic health record systems, they add.
According to the latest Alzheimer’s Disease Facts and Figures, published by the Alzheimer’s Association, more than 6 million Americans are now living with Alzheimer’s disease. That number is projected to increase to 12.7 million by 2050.
“We’re excited about the opportunity to revolutionize the way cognitive impairment is assessed and managed in the U.S. and make a positive impact on the health and wellbeing of millions of Americans,” Sina Habibi, PhD, cofounder and CEO of Cognetivity, said in the news release.
The test has already received European regulatory approval as a CE-marked medical device and has been deployed in both primary and specialist clinical care in the U.K.’s National Health Service.
A version of this article first appeared on Medscape.com.
The U.S. Food and Drug Administration has given marketing clearance to CognICA, an artificial intelligence–powered integrated cognitive assessment for the early detection of dementia.
Developed by Cognetivity Neurosciences, CognICA is a 5-minute, computerized cognitive assessment that is completed using an iPad. The test offers several advantages over traditional pen-and-paper–based cognitive tests, the company said in a news release.
“These include its high sensitivity to early-stage cognitive impairment, avoidance of cultural or educational bias, and absence of learning effect upon repeat testing,” the company notes.
Because the test runs on a computer, it can support remote, self-administered testing at scale and is geared toward seamless integration with existing electronic health record systems, they add.
According to the latest Alzheimer’s Disease Facts and Figures, published by the Alzheimer’s Association, more than 6 million Americans are now living with Alzheimer’s disease. That number is projected to increase to 12.7 million by 2050.
“We’re excited about the opportunity to revolutionize the way cognitive impairment is assessed and managed in the U.S. and make a positive impact on the health and wellbeing of millions of Americans,” Sina Habibi, PhD, cofounder and CEO of Cognetivity, said in the news release.
The test has already received European regulatory approval as a CE-marked medical device and has been deployed in both primary and specialist clinical care in the U.K.’s National Health Service.
A version of this article first appeared on Medscape.com.
The U.S. Food and Drug Administration has given marketing clearance to CognICA, an artificial intelligence–powered integrated cognitive assessment for the early detection of dementia.
Developed by Cognetivity Neurosciences, CognICA is a 5-minute, computerized cognitive assessment that is completed using an iPad. The test offers several advantages over traditional pen-and-paper–based cognitive tests, the company said in a news release.
“These include its high sensitivity to early-stage cognitive impairment, avoidance of cultural or educational bias, and absence of learning effect upon repeat testing,” the company notes.
Because the test runs on a computer, it can support remote, self-administered testing at scale and is geared toward seamless integration with existing electronic health record systems, they add.
According to the latest Alzheimer’s Disease Facts and Figures, published by the Alzheimer’s Association, more than 6 million Americans are now living with Alzheimer’s disease. That number is projected to increase to 12.7 million by 2050.
“We’re excited about the opportunity to revolutionize the way cognitive impairment is assessed and managed in the U.S. and make a positive impact on the health and wellbeing of millions of Americans,” Sina Habibi, PhD, cofounder and CEO of Cognetivity, said in the news release.
The test has already received European regulatory approval as a CE-marked medical device and has been deployed in both primary and specialist clinical care in the U.K.’s National Health Service.
A version of this article first appeared on Medscape.com.
Guidelines for dementia and age-related cognitive changes
It is estimated that by the year 2060, 13.9 million Americans over the age of 65 will be diagnosed with dementia. Few good treatments are currently available.
Earlier this year, the American Psychological Association (APA) Task Force issued clinical guidelines “for the Evaluation of Dementia and Age-Related Cognitive Change.” While these 16 guidelines are aimed at psychologists, primary care doctors are often the first ones to evaluate a patient who may have dementia. As a family physician, I find having these guidelines especially helpful.
Neuropsychiatric testing and defining severity and type
This new guidance places emphasis on neuropsychiatric testing and defining the severity and type of dementia present.
Over the past 2 decades, diagnoses of mild neurocognitive disorders have increased, and this, in part, is due to diagnosing these problems earlier and with greater precision. It is also important to know that biomarkers are being increasingly researched, and it is imperative that we stay current with this research.
Cognitive decline may also occur with the coexistence of other mental health disorders, such as depression, so it is important that we screen for these as well. This is often difficult given the behavioral changes that can arise in dementia, but, as primary care doctors, we must differentiate these to treat our patients appropriately.
Informed consent
Informed consent can become an issue with patients with dementia. It must be assessed whether the patient has the capacity to make an informed decision and can competently communicate that decision.
The diagnosis of dementia alone does not preclude a patient from giving informed consent. A patient’s mental capacity must be determined, and if they are not capable of making an informed decision, the person legally responsible for giving informed consent on behalf of the patient must be identified.
Patients with dementia often have other medical comorbidities and take several medications. It is imperative to keep accurate medical records and medication lists. Sometimes, patients with dementia cannot provide this information. If that is the case, every attempt should be made to obtain records from every possible source.
Cultural competence
The guidelines also stress that there may be cultural differences when applying neuropsychiatric tests. It is our duty to maintain cultural competence and understand these differences. We all need to work to ensure we control our biases, and it is suggested that we review relevant evidence-based literature.
While ageism is common in our society, it shouldn’t be in our practices. For these reasons, outreach in at-risk populations is very important.
Pertinent data
The guidelines also suggest obtaining all possible information in our evaluation, especially when the patient is unable to give it to us.
Often, as primary care physicians, we refer these patients to other providers, and we should be providing all pertinent data to those we are referring these patients to. If all information is not available at the time of evaluation, follow-up visits should be scheduled.
If possible, family members should be present at the time of visit. They often provide valuable information regarding the extent and progression of the decline. Also, they know how the patient is functioning in the home setting and how much assistance they need with activities of daily living.
Caretaker support
Another important factor to consider is caretaker burnout. Caretakers are often under a lot of stress and have high rates of depression. It is important to provide them with education and support, as well as resources that may be available to them. For some, accepting the diagnosis that their loved one has dementia may be a struggle.
As doctors treating dementia patients, we need to know the resources that are available to assist dementia patients and their families. There are many local organizations that can help.
Also, research into dementia is ongoing and we need to stay current. The diagnosis of dementia should be made as early as possible using appropriate screening tools. The sooner the diagnosis is made, the quicker interventions can be started and the family members, as well as the patient, can come to accept the diagnosis.
As the population ages, we can expect the demands of dementia to rise as well. Primary care doctors are in a unique position to diagnose dementia once it starts to appear.
Dr. Girgis practices family medicine in South River, N.J., and is a clinical assistant professor of family medicine at Robert Wood Johnson Medical School, New Brunswick, N.J. You can contact her at fpnews@mdedge.com.
It is estimated that by the year 2060, 13.9 million Americans over the age of 65 will be diagnosed with dementia. Few good treatments are currently available.
Earlier this year, the American Psychological Association (APA) Task Force issued clinical guidelines “for the Evaluation of Dementia and Age-Related Cognitive Change.” While these 16 guidelines are aimed at psychologists, primary care doctors are often the first ones to evaluate a patient who may have dementia. As a family physician, I find having these guidelines especially helpful.
Neuropsychiatric testing and defining severity and type
This new guidance places emphasis on neuropsychiatric testing and defining the severity and type of dementia present.
Over the past 2 decades, diagnoses of mild neurocognitive disorders have increased, and this, in part, is due to diagnosing these problems earlier and with greater precision. It is also important to know that biomarkers are being increasingly researched, and it is imperative that we stay current with this research.
Cognitive decline may also occur with the coexistence of other mental health disorders, such as depression, so it is important that we screen for these as well. This is often difficult given the behavioral changes that can arise in dementia, but, as primary care doctors, we must differentiate these to treat our patients appropriately.
Informed consent
Informed consent can become an issue with patients with dementia. It must be assessed whether the patient has the capacity to make an informed decision and can competently communicate that decision.
The diagnosis of dementia alone does not preclude a patient from giving informed consent. A patient’s mental capacity must be determined, and if they are not capable of making an informed decision, the person legally responsible for giving informed consent on behalf of the patient must be identified.
Patients with dementia often have other medical comorbidities and take several medications. It is imperative to keep accurate medical records and medication lists. Sometimes, patients with dementia cannot provide this information. If that is the case, every attempt should be made to obtain records from every possible source.
Cultural competence
The guidelines also stress that there may be cultural differences when applying neuropsychiatric tests. It is our duty to maintain cultural competence and understand these differences. We all need to work to ensure we control our biases, and it is suggested that we review relevant evidence-based literature.
While ageism is common in our society, it shouldn’t be in our practices. For these reasons, outreach in at-risk populations is very important.
Pertinent data
The guidelines also suggest obtaining all possible information in our evaluation, especially when the patient is unable to give it to us.
Often, as primary care physicians, we refer these patients to other providers, and we should be providing all pertinent data to those we are referring these patients to. If all information is not available at the time of evaluation, follow-up visits should be scheduled.
If possible, family members should be present at the time of visit. They often provide valuable information regarding the extent and progression of the decline. Also, they know how the patient is functioning in the home setting and how much assistance they need with activities of daily living.
Caretaker support
Another important factor to consider is caretaker burnout. Caretakers are often under a lot of stress and have high rates of depression. It is important to provide them with education and support, as well as resources that may be available to them. For some, accepting the diagnosis that their loved one has dementia may be a struggle.
As doctors treating dementia patients, we need to know the resources that are available to assist dementia patients and their families. There are many local organizations that can help.
Also, research into dementia is ongoing and we need to stay current. The diagnosis of dementia should be made as early as possible using appropriate screening tools. The sooner the diagnosis is made, the quicker interventions can be started and the family members, as well as the patient, can come to accept the diagnosis.
As the population ages, we can expect the demands of dementia to rise as well. Primary care doctors are in a unique position to diagnose dementia once it starts to appear.
Dr. Girgis practices family medicine in South River, N.J., and is a clinical assistant professor of family medicine at Robert Wood Johnson Medical School, New Brunswick, N.J. You can contact her at fpnews@mdedge.com.
It is estimated that by the year 2060, 13.9 million Americans over the age of 65 will be diagnosed with dementia. Few good treatments are currently available.
Earlier this year, the American Psychological Association (APA) Task Force issued clinical guidelines “for the Evaluation of Dementia and Age-Related Cognitive Change.” While these 16 guidelines are aimed at psychologists, primary care doctors are often the first ones to evaluate a patient who may have dementia. As a family physician, I find having these guidelines especially helpful.
Neuropsychiatric testing and defining severity and type
This new guidance places emphasis on neuropsychiatric testing and defining the severity and type of dementia present.
Over the past 2 decades, diagnoses of mild neurocognitive disorders have increased, and this, in part, is due to diagnosing these problems earlier and with greater precision. It is also important to know that biomarkers are being increasingly researched, and it is imperative that we stay current with this research.
Cognitive decline may also occur with the coexistence of other mental health disorders, such as depression, so it is important that we screen for these as well. This is often difficult given the behavioral changes that can arise in dementia, but, as primary care doctors, we must differentiate these to treat our patients appropriately.
Informed consent
Informed consent can become an issue with patients with dementia. It must be assessed whether the patient has the capacity to make an informed decision and can competently communicate that decision.
The diagnosis of dementia alone does not preclude a patient from giving informed consent. A patient’s mental capacity must be determined, and if they are not capable of making an informed decision, the person legally responsible for giving informed consent on behalf of the patient must be identified.
Patients with dementia often have other medical comorbidities and take several medications. It is imperative to keep accurate medical records and medication lists. Sometimes, patients with dementia cannot provide this information. If that is the case, every attempt should be made to obtain records from every possible source.
Cultural competence
The guidelines also stress that there may be cultural differences when applying neuropsychiatric tests. It is our duty to maintain cultural competence and understand these differences. We all need to work to ensure we control our biases, and it is suggested that we review relevant evidence-based literature.
While ageism is common in our society, it shouldn’t be in our practices. For these reasons, outreach in at-risk populations is very important.
Pertinent data
The guidelines also suggest obtaining all possible information in our evaluation, especially when the patient is unable to give it to us.
Often, as primary care physicians, we refer these patients to other providers, and we should be providing all pertinent data to those we are referring these patients to. If all information is not available at the time of evaluation, follow-up visits should be scheduled.
If possible, family members should be present at the time of visit. They often provide valuable information regarding the extent and progression of the decline. Also, they know how the patient is functioning in the home setting and how much assistance they need with activities of daily living.
Caretaker support
Another important factor to consider is caretaker burnout. Caretakers are often under a lot of stress and have high rates of depression. It is important to provide them with education and support, as well as resources that may be available to them. For some, accepting the diagnosis that their loved one has dementia may be a struggle.
As doctors treating dementia patients, we need to know the resources that are available to assist dementia patients and their families. There are many local organizations that can help.
Also, research into dementia is ongoing and we need to stay current. The diagnosis of dementia should be made as early as possible using appropriate screening tools. The sooner the diagnosis is made, the quicker interventions can be started and the family members, as well as the patient, can come to accept the diagnosis.
As the population ages, we can expect the demands of dementia to rise as well. Primary care doctors are in a unique position to diagnose dementia once it starts to appear.
Dr. Girgis practices family medicine in South River, N.J., and is a clinical assistant professor of family medicine at Robert Wood Johnson Medical School, New Brunswick, N.J. You can contact her at fpnews@mdedge.com.
Sleep apnea has many faces
Fortunately her problem stemmed from sleep apnea, and resolved with continuous positive airway pressure (CPAP) therapy.
Wallace and Bucks performed a meta analysis of 42 studies of memory in patients with sleep apnea and found sleep apnea patients were impaired when compared to healthy controls on verbal episodic memory (immediate recall, delayed recall, learning, and recognition) and visuospatial episodic memory (immediate and delayed recall).1 A meta-analysis by Olaithe and associates found an improvement in executive function in patients with sleep apnea who were treated with CPAP.2 I think this is worth considering especially in your patients who have subjective memory disturbances and do not appear to have a mild cognitive impairment or dementia.
About 15 years ago I saw a 74-year-old man for nocturia. He had seen two urologists and had a transurethral resection of the prostate (TURP) without any real change in his nocturia. I trialed him on all sorts of medications, and he seemed to improve temporarily a little on trazodone (went from seven episodes a night to four).
Eventually, after several years, I sent him for a sleep study. He had severe sleep apnea (Apnea Hypopnea Index, 65; O2 saturations as low as 60%). With treatment, his nocturia resolved. He went from seven episodes to two each night.
Zhou and colleagues performed a meta-analysis of 13 studies looking at the association of sleep apnea with nocturia.3 They found that men with sleep apnea have a high incidence of nocturia.
Miyazato and colleagues looked at the effect of CPAP treatment on nighttime urine production in patients with obstructive sleep apnea.4 In this small study of 40 patients, mean nighttime voiding episodes decreased from 2.1 to 1.2 (P < .01).
I have seen several patients with night sweats who ended up having sleep apnea. These patients have had a resolution of their night sweats with sleep apnea treatment.
Arnardottir and colleagues found that obstructive sleep apnea was associated with frequent nocturnal sweating.5 They found that 31% of men and 33% of women with OSA had nocturnal sweating, compared with about 10% of the general population.
When the OSA patients were treated with positive airway pressure, the prevalence of nocturnal sweating decreased to 11.5%, which is similar to general population numbers. Given how common both sleep apnea and night sweats are, this is an important consideration as you evaluate night sweats.
I have seen many patients who have had atrial fibrillation and sleep apnea. Shapira-Daniels and colleagues did a prospective study of 188 patients with atrial fibrillation without a history of sleep apnea who were referred for ablation.6 All patients had home sleep studies, and testing was consistent with sleep apnea in 82% of patients.
Kanagala and associates found that patients with untreated sleep apnea had a greater chance of recurrent atrial fibrillation after cardioversion.7 Recurrence of atrial fibrillation at 12 months was 82% in untreated OSA patients, higher than the 42% recurrence in the treated OSA group (P = .013) and the 53% recurrence in control patients.
I think sleep apnea evaluation should be strongly considered in patients with atrial fibrillation and should be done before referral for ablations.
Pearl: Consider sleep apnea as a possible cause of or contributing factor to the common primary care problems of cognitive concerns, nocturia, night sweats, and atrial fibrillation.
Dr. Paauw is professor of medicine in the division of general internal medicine at the University of Washington, Seattle, and serves as 3rd-year medical student clerkship director at the University of Washington. He is a member of the editorial advisory board of Internal Medicine News. Dr. Paauw has no conflicts to disclose. Contact him at imnews@mdedge.com.
References
1. Wallace A and Bucks RS. Memory and obstructive sleep apnea: a meta-analysis. Sleep. 2013;36(2):203. Epub 2013 Feb 1.
2. Olaithe M and Bucks RS. Executive dysfunction in OSA before and after treatment: a meta-analysis. Sleep. 2013;36(9):1297. Epub 2013 Sep 1.
3. Zhou J et al. Association between obstructive sleep apnea syndrome and nocturia: a meta-analysis. Sleep Breath. 2020 Dec;24(4):1293-8.
4. Miyauchi Y et al. Effect of the continuous positive airway pressure on the nocturnal urine volume or night-time frequency in patients with obstructive sleep apnea syndrome. Urology 2015;85:333.
5. Arnardottir ES et al. Nocturnal sweating–a common symptom of obstructive sleep apnoea: the Icelandic sleep apnoea cohort. BMJ Open. 2013 May 14;3(5):e002795. BMJ Open 2013;3:e002795
6. Shapira-Daniels A et al. Prevalence of undiagnosed sleep apnea in patients with atrial fibrillation and its impact on therapy. JACC Clin Electrophysiol. 2020;6(12):1499. Epub 2020 Aug 12.
7. Kanagala R et al. Obstructive sleep apnea and the recurrence of atrial fibrillation. Circulation. 2003;107(20):2589. Epub 2003 May 12.
Fortunately her problem stemmed from sleep apnea, and resolved with continuous positive airway pressure (CPAP) therapy.
Wallace and Bucks performed a meta analysis of 42 studies of memory in patients with sleep apnea and found sleep apnea patients were impaired when compared to healthy controls on verbal episodic memory (immediate recall, delayed recall, learning, and recognition) and visuospatial episodic memory (immediate and delayed recall).1 A meta-analysis by Olaithe and associates found an improvement in executive function in patients with sleep apnea who were treated with CPAP.2 I think this is worth considering especially in your patients who have subjective memory disturbances and do not appear to have a mild cognitive impairment or dementia.
About 15 years ago I saw a 74-year-old man for nocturia. He had seen two urologists and had a transurethral resection of the prostate (TURP) without any real change in his nocturia. I trialed him on all sorts of medications, and he seemed to improve temporarily a little on trazodone (went from seven episodes a night to four).
Eventually, after several years, I sent him for a sleep study. He had severe sleep apnea (Apnea Hypopnea Index, 65; O2 saturations as low as 60%). With treatment, his nocturia resolved. He went from seven episodes to two each night.
Zhou and colleagues performed a meta-analysis of 13 studies looking at the association of sleep apnea with nocturia.3 They found that men with sleep apnea have a high incidence of nocturia.
Miyazato and colleagues looked at the effect of CPAP treatment on nighttime urine production in patients with obstructive sleep apnea.4 In this small study of 40 patients, mean nighttime voiding episodes decreased from 2.1 to 1.2 (P < .01).
I have seen several patients with night sweats who ended up having sleep apnea. These patients have had a resolution of their night sweats with sleep apnea treatment.
Arnardottir and colleagues found that obstructive sleep apnea was associated with frequent nocturnal sweating.5 They found that 31% of men and 33% of women with OSA had nocturnal sweating, compared with about 10% of the general population.
When the OSA patients were treated with positive airway pressure, the prevalence of nocturnal sweating decreased to 11.5%, which is similar to general population numbers. Given how common both sleep apnea and night sweats are, this is an important consideration as you evaluate night sweats.
I have seen many patients who have had atrial fibrillation and sleep apnea. Shapira-Daniels and colleagues did a prospective study of 188 patients with atrial fibrillation without a history of sleep apnea who were referred for ablation.6 All patients had home sleep studies, and testing was consistent with sleep apnea in 82% of patients.
Kanagala and associates found that patients with untreated sleep apnea had a greater chance of recurrent atrial fibrillation after cardioversion.7 Recurrence of atrial fibrillation at 12 months was 82% in untreated OSA patients, higher than the 42% recurrence in the treated OSA group (P = .013) and the 53% recurrence in control patients.
I think sleep apnea evaluation should be strongly considered in patients with atrial fibrillation and should be done before referral for ablations.
Pearl: Consider sleep apnea as a possible cause of or contributing factor to the common primary care problems of cognitive concerns, nocturia, night sweats, and atrial fibrillation.
Dr. Paauw is professor of medicine in the division of general internal medicine at the University of Washington, Seattle, and serves as 3rd-year medical student clerkship director at the University of Washington. He is a member of the editorial advisory board of Internal Medicine News. Dr. Paauw has no conflicts to disclose. Contact him at imnews@mdedge.com.
References
1. Wallace A and Bucks RS. Memory and obstructive sleep apnea: a meta-analysis. Sleep. 2013;36(2):203. Epub 2013 Feb 1.
2. Olaithe M and Bucks RS. Executive dysfunction in OSA before and after treatment: a meta-analysis. Sleep. 2013;36(9):1297. Epub 2013 Sep 1.
3. Zhou J et al. Association between obstructive sleep apnea syndrome and nocturia: a meta-analysis. Sleep Breath. 2020 Dec;24(4):1293-8.
4. Miyauchi Y et al. Effect of the continuous positive airway pressure on the nocturnal urine volume or night-time frequency in patients with obstructive sleep apnea syndrome. Urology 2015;85:333.
5. Arnardottir ES et al. Nocturnal sweating–a common symptom of obstructive sleep apnoea: the Icelandic sleep apnoea cohort. BMJ Open. 2013 May 14;3(5):e002795. BMJ Open 2013;3:e002795
6. Shapira-Daniels A et al. Prevalence of undiagnosed sleep apnea in patients with atrial fibrillation and its impact on therapy. JACC Clin Electrophysiol. 2020;6(12):1499. Epub 2020 Aug 12.
7. Kanagala R et al. Obstructive sleep apnea and the recurrence of atrial fibrillation. Circulation. 2003;107(20):2589. Epub 2003 May 12.
Fortunately her problem stemmed from sleep apnea, and resolved with continuous positive airway pressure (CPAP) therapy.
Wallace and Bucks performed a meta analysis of 42 studies of memory in patients with sleep apnea and found sleep apnea patients were impaired when compared to healthy controls on verbal episodic memory (immediate recall, delayed recall, learning, and recognition) and visuospatial episodic memory (immediate and delayed recall).1 A meta-analysis by Olaithe and associates found an improvement in executive function in patients with sleep apnea who were treated with CPAP.2 I think this is worth considering especially in your patients who have subjective memory disturbances and do not appear to have a mild cognitive impairment or dementia.
About 15 years ago I saw a 74-year-old man for nocturia. He had seen two urologists and had a transurethral resection of the prostate (TURP) without any real change in his nocturia. I trialed him on all sorts of medications, and he seemed to improve temporarily a little on trazodone (went from seven episodes a night to four).
Eventually, after several years, I sent him for a sleep study. He had severe sleep apnea (Apnea Hypopnea Index, 65; O2 saturations as low as 60%). With treatment, his nocturia resolved. He went from seven episodes to two each night.
Zhou and colleagues performed a meta-analysis of 13 studies looking at the association of sleep apnea with nocturia.3 They found that men with sleep apnea have a high incidence of nocturia.
Miyazato and colleagues looked at the effect of CPAP treatment on nighttime urine production in patients with obstructive sleep apnea.4 In this small study of 40 patients, mean nighttime voiding episodes decreased from 2.1 to 1.2 (P < .01).
I have seen several patients with night sweats who ended up having sleep apnea. These patients have had a resolution of their night sweats with sleep apnea treatment.
Arnardottir and colleagues found that obstructive sleep apnea was associated with frequent nocturnal sweating.5 They found that 31% of men and 33% of women with OSA had nocturnal sweating, compared with about 10% of the general population.
When the OSA patients were treated with positive airway pressure, the prevalence of nocturnal sweating decreased to 11.5%, which is similar to general population numbers. Given how common both sleep apnea and night sweats are, this is an important consideration as you evaluate night sweats.
I have seen many patients who have had atrial fibrillation and sleep apnea. Shapira-Daniels and colleagues did a prospective study of 188 patients with atrial fibrillation without a history of sleep apnea who were referred for ablation.6 All patients had home sleep studies, and testing was consistent with sleep apnea in 82% of patients.
Kanagala and associates found that patients with untreated sleep apnea had a greater chance of recurrent atrial fibrillation after cardioversion.7 Recurrence of atrial fibrillation at 12 months was 82% in untreated OSA patients, higher than the 42% recurrence in the treated OSA group (P = .013) and the 53% recurrence in control patients.
I think sleep apnea evaluation should be strongly considered in patients with atrial fibrillation and should be done before referral for ablations.
Pearl: Consider sleep apnea as a possible cause of or contributing factor to the common primary care problems of cognitive concerns, nocturia, night sweats, and atrial fibrillation.
Dr. Paauw is professor of medicine in the division of general internal medicine at the University of Washington, Seattle, and serves as 3rd-year medical student clerkship director at the University of Washington. He is a member of the editorial advisory board of Internal Medicine News. Dr. Paauw has no conflicts to disclose. Contact him at imnews@mdedge.com.
References
1. Wallace A and Bucks RS. Memory and obstructive sleep apnea: a meta-analysis. Sleep. 2013;36(2):203. Epub 2013 Feb 1.
2. Olaithe M and Bucks RS. Executive dysfunction in OSA before and after treatment: a meta-analysis. Sleep. 2013;36(9):1297. Epub 2013 Sep 1.
3. Zhou J et al. Association between obstructive sleep apnea syndrome and nocturia: a meta-analysis. Sleep Breath. 2020 Dec;24(4):1293-8.
4. Miyauchi Y et al. Effect of the continuous positive airway pressure on the nocturnal urine volume or night-time frequency in patients with obstructive sleep apnea syndrome. Urology 2015;85:333.
5. Arnardottir ES et al. Nocturnal sweating–a common symptom of obstructive sleep apnoea: the Icelandic sleep apnoea cohort. BMJ Open. 2013 May 14;3(5):e002795. BMJ Open 2013;3:e002795
6. Shapira-Daniels A et al. Prevalence of undiagnosed sleep apnea in patients with atrial fibrillation and its impact on therapy. JACC Clin Electrophysiol. 2020;6(12):1499. Epub 2020 Aug 12.
7. Kanagala R et al. Obstructive sleep apnea and the recurrence of atrial fibrillation. Circulation. 2003;107(20):2589. Epub 2003 May 12.
‘Fascinating’ link between Alzheimer’s and COVID-19
The findings could lead to new treatment targets to slow progression and severity of both diseases.
Investigators found that a single genetic variant in the oligoadenylate synthetase 1 (OAS1) gene increases the risk for AD and that related variants in the same gene increase the likelihood of severe COVID-19 outcomes.
“These findings may allow us to identify new drug targets to slow progression of both diseases and reduce their severity,” Dervis Salih, PhD, senior research associate, UK Dementia Research Institute, University College London, said in an interview.
“Our work also suggests new approaches to treat both diseases with the same drugs,” Dr. Salih added.
The study was published online Oct. 7 in Brain.
Shared genetic network
The OAS1 gene is expressed in microglia, a type of immune cell that makes up around 10% of all cells in the brain.
In earlier work, investigators found evidence suggesting a link between the OAS1 gene and AD, but the function of the gene in microglia was unknown.
To further investigate the gene’s link to AD, they sequenced genetic data from 2,547 people – half with AD, and half without.
The genotyping analysis confirmed that the single-nucleotide polymorphism (SNP) rs1131454 within OAS1 is significantly associated with AD.
Given that the same OAS1 locus has recently been linked with severe COVID-19 outcomes, the researchers investigated four variants on the OAS1 gene.
Results indicate that SNPs within OAS1 associated with AD also show linkage to SNP variants associated with critical illness in COVID-19.
The rs1131454 (risk allele A) and rs4766676 (risk allele T) are associated with AD, and rs10735079 (risk allele A) and rs6489867 (risk allele T) are associated with critical illness with COVID-19, the investigators reported. All of these risk alleles dampen expression of OAS1.
“This study also provides strong new evidence that interferon signaling by the innate immune system plays a substantial role in the progression of Alzheimer’s,” said Dr. Salih.
“Identifying this shared genetic network in innate immune cells will allow us with future work to identify new biomarkers to track disease progression and also predict disease risk better for both disorders,” he added.
‘Fascinating’ link
In a statement from the UK nonprofit organization, Science Media Center, Kenneth Baillie, MBChB, with the University of Edinburgh, said this study builds on a discovery he and his colleagues made last year that OAS1 variants are associated with severe COVID-19.
“In the ISARIC4C study, we recently found that this is probably due to a change in the way cell membranes detect viruses, but this mechanism doesn’t explain the fascinating association with Alzheimer’s disease reported in this new work,” Dr. Baillie said.
“It is often the case that the same gene can have different roles in different parts of the body. Importantly, it doesn’t mean that having COVID-19 has any effect on your risk of Alzheimer’s,” he added.
Also weighing in on the new study, Jonathan Schott, MD, professor of neurology, University College London, noted that dementia is the “main preexisting health condition associated with COVID-19 mortality, accounting for about one in four deaths from COVID-19 between March and June 2020.
“While some of this excessive mortality may relate to people with dementia being overrepresented in care homes, which were particularly hard hit by the pandemic, or due to general increased vulnerability to infections, there have been questions as to whether there are common factors that might increase susceptibility both to developing dementia and to dying from COVID-19,” Dr. Schott explained.
This “elegant paper” provides evidence for the latter, “suggesting a common genetic mechanism both for Alzheimer’s disease and for severe COVID-19 infection,” Dr. Schott said.
“The identification of a genetic risk factor and elucidation of inflammatory pathways through which it may increase risk has important implications for our understanding of both diseases, with potential implications for novel treatments,” he added.
The study was funded by the UK Dementia Research Institute. The authors have disclosed no relevant financial relationships. Dr. Schott serves as chief medical officer for Alzheimer’s Research UK and is clinical adviser to the UK Dementia Research Institute. Dr. Baillie has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The findings could lead to new treatment targets to slow progression and severity of both diseases.
Investigators found that a single genetic variant in the oligoadenylate synthetase 1 (OAS1) gene increases the risk for AD and that related variants in the same gene increase the likelihood of severe COVID-19 outcomes.
“These findings may allow us to identify new drug targets to slow progression of both diseases and reduce their severity,” Dervis Salih, PhD, senior research associate, UK Dementia Research Institute, University College London, said in an interview.
“Our work also suggests new approaches to treat both diseases with the same drugs,” Dr. Salih added.
The study was published online Oct. 7 in Brain.
Shared genetic network
The OAS1 gene is expressed in microglia, a type of immune cell that makes up around 10% of all cells in the brain.
In earlier work, investigators found evidence suggesting a link between the OAS1 gene and AD, but the function of the gene in microglia was unknown.
To further investigate the gene’s link to AD, they sequenced genetic data from 2,547 people – half with AD, and half without.
The genotyping analysis confirmed that the single-nucleotide polymorphism (SNP) rs1131454 within OAS1 is significantly associated with AD.
Given that the same OAS1 locus has recently been linked with severe COVID-19 outcomes, the researchers investigated four variants on the OAS1 gene.
Results indicate that SNPs within OAS1 associated with AD also show linkage to SNP variants associated with critical illness in COVID-19.
The rs1131454 (risk allele A) and rs4766676 (risk allele T) are associated with AD, and rs10735079 (risk allele A) and rs6489867 (risk allele T) are associated with critical illness with COVID-19, the investigators reported. All of these risk alleles dampen expression of OAS1.
“This study also provides strong new evidence that interferon signaling by the innate immune system plays a substantial role in the progression of Alzheimer’s,” said Dr. Salih.
“Identifying this shared genetic network in innate immune cells will allow us with future work to identify new biomarkers to track disease progression and also predict disease risk better for both disorders,” he added.
‘Fascinating’ link
In a statement from the UK nonprofit organization, Science Media Center, Kenneth Baillie, MBChB, with the University of Edinburgh, said this study builds on a discovery he and his colleagues made last year that OAS1 variants are associated with severe COVID-19.
“In the ISARIC4C study, we recently found that this is probably due to a change in the way cell membranes detect viruses, but this mechanism doesn’t explain the fascinating association with Alzheimer’s disease reported in this new work,” Dr. Baillie said.
“It is often the case that the same gene can have different roles in different parts of the body. Importantly, it doesn’t mean that having COVID-19 has any effect on your risk of Alzheimer’s,” he added.
Also weighing in on the new study, Jonathan Schott, MD, professor of neurology, University College London, noted that dementia is the “main preexisting health condition associated with COVID-19 mortality, accounting for about one in four deaths from COVID-19 between March and June 2020.
“While some of this excessive mortality may relate to people with dementia being overrepresented in care homes, which were particularly hard hit by the pandemic, or due to general increased vulnerability to infections, there have been questions as to whether there are common factors that might increase susceptibility both to developing dementia and to dying from COVID-19,” Dr. Schott explained.
This “elegant paper” provides evidence for the latter, “suggesting a common genetic mechanism both for Alzheimer’s disease and for severe COVID-19 infection,” Dr. Schott said.
“The identification of a genetic risk factor and elucidation of inflammatory pathways through which it may increase risk has important implications for our understanding of both diseases, with potential implications for novel treatments,” he added.
The study was funded by the UK Dementia Research Institute. The authors have disclosed no relevant financial relationships. Dr. Schott serves as chief medical officer for Alzheimer’s Research UK and is clinical adviser to the UK Dementia Research Institute. Dr. Baillie has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
The findings could lead to new treatment targets to slow progression and severity of both diseases.
Investigators found that a single genetic variant in the oligoadenylate synthetase 1 (OAS1) gene increases the risk for AD and that related variants in the same gene increase the likelihood of severe COVID-19 outcomes.
“These findings may allow us to identify new drug targets to slow progression of both diseases and reduce their severity,” Dervis Salih, PhD, senior research associate, UK Dementia Research Institute, University College London, said in an interview.
“Our work also suggests new approaches to treat both diseases with the same drugs,” Dr. Salih added.
The study was published online Oct. 7 in Brain.
Shared genetic network
The OAS1 gene is expressed in microglia, a type of immune cell that makes up around 10% of all cells in the brain.
In earlier work, investigators found evidence suggesting a link between the OAS1 gene and AD, but the function of the gene in microglia was unknown.
To further investigate the gene’s link to AD, they sequenced genetic data from 2,547 people – half with AD, and half without.
The genotyping analysis confirmed that the single-nucleotide polymorphism (SNP) rs1131454 within OAS1 is significantly associated with AD.
Given that the same OAS1 locus has recently been linked with severe COVID-19 outcomes, the researchers investigated four variants on the OAS1 gene.
Results indicate that SNPs within OAS1 associated with AD also show linkage to SNP variants associated with critical illness in COVID-19.
The rs1131454 (risk allele A) and rs4766676 (risk allele T) are associated with AD, and rs10735079 (risk allele A) and rs6489867 (risk allele T) are associated with critical illness with COVID-19, the investigators reported. All of these risk alleles dampen expression of OAS1.
“This study also provides strong new evidence that interferon signaling by the innate immune system plays a substantial role in the progression of Alzheimer’s,” said Dr. Salih.
“Identifying this shared genetic network in innate immune cells will allow us with future work to identify new biomarkers to track disease progression and also predict disease risk better for both disorders,” he added.
‘Fascinating’ link
In a statement from the UK nonprofit organization, Science Media Center, Kenneth Baillie, MBChB, with the University of Edinburgh, said this study builds on a discovery he and his colleagues made last year that OAS1 variants are associated with severe COVID-19.
“In the ISARIC4C study, we recently found that this is probably due to a change in the way cell membranes detect viruses, but this mechanism doesn’t explain the fascinating association with Alzheimer’s disease reported in this new work,” Dr. Baillie said.
“It is often the case that the same gene can have different roles in different parts of the body. Importantly, it doesn’t mean that having COVID-19 has any effect on your risk of Alzheimer’s,” he added.
Also weighing in on the new study, Jonathan Schott, MD, professor of neurology, University College London, noted that dementia is the “main preexisting health condition associated with COVID-19 mortality, accounting for about one in four deaths from COVID-19 between March and June 2020.
“While some of this excessive mortality may relate to people with dementia being overrepresented in care homes, which were particularly hard hit by the pandemic, or due to general increased vulnerability to infections, there have been questions as to whether there are common factors that might increase susceptibility both to developing dementia and to dying from COVID-19,” Dr. Schott explained.
This “elegant paper” provides evidence for the latter, “suggesting a common genetic mechanism both for Alzheimer’s disease and for severe COVID-19 infection,” Dr. Schott said.
“The identification of a genetic risk factor and elucidation of inflammatory pathways through which it may increase risk has important implications for our understanding of both diseases, with potential implications for novel treatments,” he added.
The study was funded by the UK Dementia Research Institute. The authors have disclosed no relevant financial relationships. Dr. Schott serves as chief medical officer for Alzheimer’s Research UK and is clinical adviser to the UK Dementia Research Institute. Dr. Baillie has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.