Alzheimer's & Cognition

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

An intermittent fasting (IF) diet and a standard healthy living (HL) diet focused on healthy foods both lead to weight loss, reduced insulin resistance (IR), and slowed brain aging in older overweight adults with IR, new research showed. However, neither diet has an effect on Alzheimer’s disease (AD) biomarkers.

Although investigators found both diets were beneficial, some outcomes were more robust with the IF diet.

“The study provides a blueprint for assessing brain effects of dietary interventions and motivates further research on intermittent fasting and continuous diets for brain health optimization,” wrote the investigators, led by Dimitrios Kapogiannis, MD, chief, human neuroscience section, National Institute on Aging, and adjunct associate professor of neurology, the Johns Hopkins University School of Medicine.

The findings were published online in Cell Metabolism.
 

Cognitive Outcomes

The prevalence of IR — reduced cellular sensitivity to insulin that’s a hallmark of type 2 diabetes — increases with age and obesity, adding to an increased risk for accelerated brain aging as well as AD and related dementias (ADRD) in older adults who have overweight.

Studies reported healthy diets promote overall health, but it’s unclear whether, and to what extent, they improve brain health beyond general health enhancement.

Researchers used multiple brain and cognitive measures to assess dietary effects on brain health, including peripherally harvested neuron-derived extracellular vesicles (NDEVs) to probe neuronal insulin signaling; MRI to investigate the pace of brain aging; magnetic resonance spectroscopy (MRS) to measure brain glucose, metabolites, and neurotransmitters; and NDEVs and cerebrospinal fluid to derive biomarkers for AD/ADRD.

The study included 40 cognitively intact overweight participants with IR, mean age 63.2 years, 60% women, and 62.5% White. Their mean body weight was 97.1 kg and mean body mass index (BMI) was 34.4.

Participants were randomly assigned to 8 weeks of an IF diet or a HL diet that emphasizes fruits, vegetables, whole grains, lean proteins, and low-fat dairy and limits added sugars, saturated fats, and sodium.

The IF diet involved following the HL diet for 5 days per week and restricting calories to a quarter of the recommended daily intake for 2 consecutive days.

Both diets reduced neuronal IR and had comparable effects in improving insulin signaling biomarkers in NDEVs, reducing brain glucose on MRS, and improving blood biomarkers of carbohydrate and lipid metabolism.

Using MRI, researchers also assessed brain age, an indication of whether the brain appears older or younger than an individual’s chronological age. There was a decrease of 2.63 years with the IF diet (P = .05) and 2.42 years with the HL diet (P < .001) in the anterior cingulate and ventromedial prefrontal cortex.

Both diets improved executive function and memory, with those following the IF diet benefiting more in strategic planning, switching between two cognitively demanding tasks, cued recall, and other areas.
 

Hypothesis-Generating Research

AD biomarkers including amyloid beta 42 (Aß42), Aß40, and plasma phosphorylated-tau181 did not change with either diet, a finding that investigators speculated may be due to the short duration of the study. Light-chain neurofilaments increased across groups with no differences between the diets.

In other findings, BMI decreased by 1.41 with the IF diet and by 0.80 with the HL diet, and a similar pattern was observed for weight. Waist circumference decreased in both groups with no significant differences between diets.

An exploratory analysis showed executive function improved with the IF diet but not with the HL diet in women, whereas it improved with both diets in men. BMI and apolipoprotein E and SLC16A7 genotypes also modulated diet effects.

Both diets were well tolerated. The most frequent adverse events were gastrointestinal and occurred only with the IF diet.

The authors noted the findings are preliminary and results are hypothesis generating. Study limitations included the study’s short duration and its power to detect anything other than large to moderate effect size changes and differences between the diets. Researchers also didn’t acquire data on dietary intake, so lapses in adherence can’t be excluded. However, the large decreases in BMI, weight, and waist circumference with both diets indicated high adherence.

The study was supported by the National Institutes of Health’s National Institute on Aging. The authors reported no competing interests.
 

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

Receipt of a newer recombinant version of a shingles vaccine is associated with a significant delay in dementia diagnosis in older adults, a new study suggests.

The study builds on previous observations of a reduction in dementia risk with the older live shingles vaccine and reports a delay in dementia diagnosis of 164 days with the newer recombinant version, compared with the live vaccine. 

“Given the prevalence of dementia, a delay of 164 days in diagnosis would not be a trivial effect at the public health level. It’s a big enough effect that if there is a causality it feels meaningful,” said senior author Paul Harrison, DM, FRCPsych, professor of psychiatry at the University of Oxford, Oxford, England. 

But Dr. Harrison stressed that the study had not proven that the shingles vaccine reduced dementia risk. 

“The design of the study allows us to do away with many of the confounding effects we usually see in observational studies, but this is still an observational study, and as such it cannot prove a definite causal effect,” he said. 

The study was published online on July 25 in Nature Medicine.
 

‘Natural Experiment’

Given the risk for deleterious consequences of shingles, vaccination is now recommended for older adults in many countries. The previously used live shingles vaccine (Zostavax) is being replaced in most countries with the new recombinant shingles vaccine (Shingrix), which is more effective at preventing shingles infection. 

The current study made use of a “natural experiment” in the United States, which switched over from use of the live vaccine to the recombinant vaccine in October 2017. 

Researchers used electronic heath records to compare the incidence of a dementia diagnosis in individuals who received the live shingles vaccine prior to October 2017 with those who received the recombinant version after the United States made the switch. 

They also used propensity score matching to further control for confounding factors, comparing 103,837 individuals who received a first dose of the live shingles vaccine between October 2014 and September 2017 with the same number of matched people who received the recombinant vaccine between November 2017 and October 2020. 

Results showed that within the 6 years after vaccination, the recombinant vaccine was associated with a delay in the diagnosis of dementia, compared with the live vaccine. Specifically, receiving the recombinant vaccine was associated with a 17% increase in diagnosis-free time, translating to 164 additional days lived without a diagnosis of dementia in those subsequently affected. 

As an additional control, the researchers also found significantly lower risks for dementia in individuals receiving the new recombinant shingles vaccine vs two other vaccines commonly used in older people: influenza and tetanus/diphtheria/pertussis vaccines, with increases in diagnosis-free time of 14%-27%. 

Reduced Risk or Delayed Diagnosis?

Speaking at a Science Media Centre press conference on the study, lead author Maxime Taquet, PhD, FRCPsych, clinical lecturer in psychiatry at the University of Oxford, noted that the total number of dementia cases were similar in the two shingles vaccine groups by the end of the 6-year follow-up period but there was a difference in the time at which they received a diagnosis of dementia.

“The study suggests that rather than actually reducing dementia risk, the recombinant vaccine delays the onset of dementia compared to the live vaccine in patients who go on to develop the condition,” he explained. 

But when comparing the recombinant vaccine with the influenza and tetanus/diphtheria/pertussis vaccines there was a clear reduction in dementia risk itself, Dr. Taquet reported. 

“It might well be that the live vaccine has a potential effect on the risk of dementia itself and therefore the recombinant vaccine only shows a delay in dementia compared to the live vaccine, but both of them might decrease the overall risk of dementia,” he suggested. 

But the researchers cautioned that this study could not prove causality. 

“While the two groups were very carefully matched in terms of factors that might influence the development of dementia, we still have to be cautious before assuming that the vaccine is indeed causally reducing the risk of onset of dementia,” Dr. Harrison warned. 

The researchers say the results would need to be confirmed in a randomized trial, which may have to be conducted in a slightly younger age group, as currently shingles vaccine is recommended for all older individuals in the United Kingdom. 

Vaccine recommendations vary from country to country, Dr. Harrison added. In the United States, the Centers for Disease Control and Prevention recommends the recombinant shingles vaccine for all adults aged 50 years or older. 

In the meantime, it would be interesting to see whether further observational studies in other countries find similar results as this US study, Dr. Harrison said.  
 

Mechanism Uncertain

Speculating on a possible mechanism behind the findings, Dr. Harrison suggested two plausible explanations.

“First, it is thought that the herpes virus could be one of many factors that could promote dementia, so a vaccine that stops reactivation of this virus might therefore be delaying that process,” he noted. 

The other possibility is that adjuvants included in the recombinant vaccine to stimulate the immune system might have played a role. 

“We don’t have any data on the mechanism, and thus study did not address that, so further studies are needed to look into this,” Dr. Harrison said. 
 

Stronger Effect in Women

Another intriguing finding is that the association with the recombinant vaccine and delayed dementia diagnosis seemed to be stronger in women vs men. 

In the original study of the live shingles vaccine, a protective effect against dementia was shown only in women. 

In the current study, the delay in dementia diagnosis was seen in both sexes but was stronger in women, showing a 22% increased time without dementia in women versus a 13% increased time in men with the recombinant versus the live vaccine. 

As expected, the recombinant vaccine was associated with a lower risk for shingles disease vs the live vaccine (2.5% versus 3.5%), but women did not have a better response than men did in this respect. 

“The better protection against shingles with the recombinant vaccine was similar in men and women, an observation that might be one reason to question the possible mechanism behind the dementia effect being better suppression of the herpes zoster virus by the recombinant vaccine,” Dr. Harrison commented. 

Though these findings are not likely to lead to any immediate changes in policy regarding the shingles vaccine, Dr. Harrison said it would be interesting to see whether uptake of the vaccine increased after this study. 

He estimated that, currently in the United Kingdom, about 60% of older adults choose to have the shingles vaccine. A 2020 study in the United States found that only about one-third of US adults over 60 had received the vaccine. 

“It will be interesting to see if that figure increases after these data are publicized, but I am not recommending that people have the vaccine specifically to lower their risk of dementia because of the caveats about the study that we have discussed,” he commented. 
 

Outside Experts Positive 

Outside experts, providing comment to the Science Media Centre, welcomed the new research. 

“ The study is very well-conducted and adds to previous data indicating that vaccination against shingles is associated with lower dementia risk. More research is needed in future to determine why this vaccine is associated with lower dementia risk,” said Tara Spires-Jones, FMedSci, president of the British Neuroscience Association. 

The high number of patients in the study and the adjustments for potential confounders are also strong points, noted Andrew Doig, PhD, professor of biochemistry, University of Manchester, Manchester, England.

“This is a significant result, comparable in effectiveness to the recent antibody drugs for Alzheimer’s disease,” Dr. Doig said. “Administering the recombinant shingles vaccine could well be a simple and cheap way to lower the risk of Alzheimer’s disease.”

Dr. Doig noted that a link between herpes zoster infection and the onset of dementia has been suspected for some time, and a trial of the antiviral drug valacyclovir against Alzheimer’s disease is currently underway.

In regard to the shingles vaccine, he said a placebo-controlled trial would be needed to prove causality. 

“We also need to see how many years the effect might last and whether we should vaccinate people at a younger age. We know that the path to Alzheimer’s can start decades before any symptoms are apparent, so the vaccine might be even more effective if given to people in their 40s or 50s,” he said.

Dr. Harrison and Dr. Taquet reported no disclosures. Dr. Doig is a founder, director, and consultant for PharmaKure, which works on Alzheimer’s drugs and diagnostics. Other commentators declared no disclosures.

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

Receipt of a newer recombinant version of a shingles vaccine is associated with a significant delay in dementia diagnosis in older adults, a new study suggests.

The study builds on previous observations of a reduction in dementia risk with the older live shingles vaccine and reports a delay in dementia diagnosis of 164 days with the newer recombinant version, compared with the live vaccine. 

“Given the prevalence of dementia, a delay of 164 days in diagnosis would not be a trivial effect at the public health level. It’s a big enough effect that if there is a causality it feels meaningful,” said senior author Paul Harrison, DM, FRCPsych, professor of psychiatry at the University of Oxford, Oxford, England. 

But Dr. Harrison stressed that the study had not proven that the shingles vaccine reduced dementia risk. 

“The design of the study allows us to do away with many of the confounding effects we usually see in observational studies, but this is still an observational study, and as such it cannot prove a definite causal effect,” he said. 

The study was published online on July 25 in Nature Medicine.
 

‘Natural Experiment’

Given the risk for deleterious consequences of shingles, vaccination is now recommended for older adults in many countries. The previously used live shingles vaccine (Zostavax) is being replaced in most countries with the new recombinant shingles vaccine (Shingrix), which is more effective at preventing shingles infection. 

The current study made use of a “natural experiment” in the United States, which switched over from use of the live vaccine to the recombinant vaccine in October 2017. 

Researchers used electronic heath records to compare the incidence of a dementia diagnosis in individuals who received the live shingles vaccine prior to October 2017 with those who received the recombinant version after the United States made the switch. 

They also used propensity score matching to further control for confounding factors, comparing 103,837 individuals who received a first dose of the live shingles vaccine between October 2014 and September 2017 with the same number of matched people who received the recombinant vaccine between November 2017 and October 2020. 

Results showed that within the 6 years after vaccination, the recombinant vaccine was associated with a delay in the diagnosis of dementia, compared with the live vaccine. Specifically, receiving the recombinant vaccine was associated with a 17% increase in diagnosis-free time, translating to 164 additional days lived without a diagnosis of dementia in those subsequently affected. 

As an additional control, the researchers also found significantly lower risks for dementia in individuals receiving the new recombinant shingles vaccine vs two other vaccines commonly used in older people: influenza and tetanus/diphtheria/pertussis vaccines, with increases in diagnosis-free time of 14%-27%. 

Reduced Risk or Delayed Diagnosis?

Speaking at a Science Media Centre press conference on the study, lead author Maxime Taquet, PhD, FRCPsych, clinical lecturer in psychiatry at the University of Oxford, noted that the total number of dementia cases were similar in the two shingles vaccine groups by the end of the 6-year follow-up period but there was a difference in the time at which they received a diagnosis of dementia.

“The study suggests that rather than actually reducing dementia risk, the recombinant vaccine delays the onset of dementia compared to the live vaccine in patients who go on to develop the condition,” he explained. 

But when comparing the recombinant vaccine with the influenza and tetanus/diphtheria/pertussis vaccines there was a clear reduction in dementia risk itself, Dr. Taquet reported. 

“It might well be that the live vaccine has a potential effect on the risk of dementia itself and therefore the recombinant vaccine only shows a delay in dementia compared to the live vaccine, but both of them might decrease the overall risk of dementia,” he suggested. 

But the researchers cautioned that this study could not prove causality. 

“While the two groups were very carefully matched in terms of factors that might influence the development of dementia, we still have to be cautious before assuming that the vaccine is indeed causally reducing the risk of onset of dementia,” Dr. Harrison warned. 

The researchers say the results would need to be confirmed in a randomized trial, which may have to be conducted in a slightly younger age group, as currently shingles vaccine is recommended for all older individuals in the United Kingdom. 

Vaccine recommendations vary from country to country, Dr. Harrison added. In the United States, the Centers for Disease Control and Prevention recommends the recombinant shingles vaccine for all adults aged 50 years or older. 

In the meantime, it would be interesting to see whether further observational studies in other countries find similar results as this US study, Dr. Harrison said.  
 

Mechanism Uncertain

Speculating on a possible mechanism behind the findings, Dr. Harrison suggested two plausible explanations.

“First, it is thought that the herpes virus could be one of many factors that could promote dementia, so a vaccine that stops reactivation of this virus might therefore be delaying that process,” he noted. 

The other possibility is that adjuvants included in the recombinant vaccine to stimulate the immune system might have played a role. 

“We don’t have any data on the mechanism, and thus study did not address that, so further studies are needed to look into this,” Dr. Harrison said. 
 

Stronger Effect in Women

Another intriguing finding is that the association with the recombinant vaccine and delayed dementia diagnosis seemed to be stronger in women vs men. 

In the original study of the live shingles vaccine, a protective effect against dementia was shown only in women. 

In the current study, the delay in dementia diagnosis was seen in both sexes but was stronger in women, showing a 22% increased time without dementia in women versus a 13% increased time in men with the recombinant versus the live vaccine. 

As expected, the recombinant vaccine was associated with a lower risk for shingles disease vs the live vaccine (2.5% versus 3.5%), but women did not have a better response than men did in this respect. 

“The better protection against shingles with the recombinant vaccine was similar in men and women, an observation that might be one reason to question the possible mechanism behind the dementia effect being better suppression of the herpes zoster virus by the recombinant vaccine,” Dr. Harrison commented. 

Though these findings are not likely to lead to any immediate changes in policy regarding the shingles vaccine, Dr. Harrison said it would be interesting to see whether uptake of the vaccine increased after this study. 

He estimated that, currently in the United Kingdom, about 60% of older adults choose to have the shingles vaccine. A 2020 study in the United States found that only about one-third of US adults over 60 had received the vaccine. 

“It will be interesting to see if that figure increases after these data are publicized, but I am not recommending that people have the vaccine specifically to lower their risk of dementia because of the caveats about the study that we have discussed,” he commented. 
 

Outside Experts Positive 

Outside experts, providing comment to the Science Media Centre, welcomed the new research. 

“ The study is very well-conducted and adds to previous data indicating that vaccination against shingles is associated with lower dementia risk. More research is needed in future to determine why this vaccine is associated with lower dementia risk,” said Tara Spires-Jones, FMedSci, president of the British Neuroscience Association. 

The high number of patients in the study and the adjustments for potential confounders are also strong points, noted Andrew Doig, PhD, professor of biochemistry, University of Manchester, Manchester, England.

“This is a significant result, comparable in effectiveness to the recent antibody drugs for Alzheimer’s disease,” Dr. Doig said. “Administering the recombinant shingles vaccine could well be a simple and cheap way to lower the risk of Alzheimer’s disease.”

Dr. Doig noted that a link between herpes zoster infection and the onset of dementia has been suspected for some time, and a trial of the antiviral drug valacyclovir against Alzheimer’s disease is currently underway.

In regard to the shingles vaccine, he said a placebo-controlled trial would be needed to prove causality. 

“We also need to see how many years the effect might last and whether we should vaccinate people at a younger age. We know that the path to Alzheimer’s can start decades before any symptoms are apparent, so the vaccine might be even more effective if given to people in their 40s or 50s,” he said.

Dr. Harrison and Dr. Taquet reported no disclosures. Dr. Doig is a founder, director, and consultant for PharmaKure, which works on Alzheimer’s drugs and diagnostics. Other commentators declared no disclosures.

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

Receipt of a newer recombinant version of a shingles vaccine is associated with a significant delay in dementia diagnosis in older adults, a new study suggests.

The study builds on previous observations of a reduction in dementia risk with the older live shingles vaccine and reports a delay in dementia diagnosis of 164 days with the newer recombinant version, compared with the live vaccine. 

“Given the prevalence of dementia, a delay of 164 days in diagnosis would not be a trivial effect at the public health level. It’s a big enough effect that if there is a causality it feels meaningful,” said senior author Paul Harrison, DM, FRCPsych, professor of psychiatry at the University of Oxford, Oxford, England. 

But Dr. Harrison stressed that the study had not proven that the shingles vaccine reduced dementia risk. 

“The design of the study allows us to do away with many of the confounding effects we usually see in observational studies, but this is still an observational study, and as such it cannot prove a definite causal effect,” he said. 

The study was published online on July 25 in Nature Medicine.
 

‘Natural Experiment’

Given the risk for deleterious consequences of shingles, vaccination is now recommended for older adults in many countries. The previously used live shingles vaccine (Zostavax) is being replaced in most countries with the new recombinant shingles vaccine (Shingrix), which is more effective at preventing shingles infection. 

The current study made use of a “natural experiment” in the United States, which switched over from use of the live vaccine to the recombinant vaccine in October 2017. 

Researchers used electronic heath records to compare the incidence of a dementia diagnosis in individuals who received the live shingles vaccine prior to October 2017 with those who received the recombinant version after the United States made the switch. 

They also used propensity score matching to further control for confounding factors, comparing 103,837 individuals who received a first dose of the live shingles vaccine between October 2014 and September 2017 with the same number of matched people who received the recombinant vaccine between November 2017 and October 2020. 

Results showed that within the 6 years after vaccination, the recombinant vaccine was associated with a delay in the diagnosis of dementia, compared with the live vaccine. Specifically, receiving the recombinant vaccine was associated with a 17% increase in diagnosis-free time, translating to 164 additional days lived without a diagnosis of dementia in those subsequently affected. 

As an additional control, the researchers also found significantly lower risks for dementia in individuals receiving the new recombinant shingles vaccine vs two other vaccines commonly used in older people: influenza and tetanus/diphtheria/pertussis vaccines, with increases in diagnosis-free time of 14%-27%. 

Reduced Risk or Delayed Diagnosis?

Speaking at a Science Media Centre press conference on the study, lead author Maxime Taquet, PhD, FRCPsych, clinical lecturer in psychiatry at the University of Oxford, noted that the total number of dementia cases were similar in the two shingles vaccine groups by the end of the 6-year follow-up period but there was a difference in the time at which they received a diagnosis of dementia.

“The study suggests that rather than actually reducing dementia risk, the recombinant vaccine delays the onset of dementia compared to the live vaccine in patients who go on to develop the condition,” he explained. 

But when comparing the recombinant vaccine with the influenza and tetanus/diphtheria/pertussis vaccines there was a clear reduction in dementia risk itself, Dr. Taquet reported. 

“It might well be that the live vaccine has a potential effect on the risk of dementia itself and therefore the recombinant vaccine only shows a delay in dementia compared to the live vaccine, but both of them might decrease the overall risk of dementia,” he suggested. 

But the researchers cautioned that this study could not prove causality. 

“While the two groups were very carefully matched in terms of factors that might influence the development of dementia, we still have to be cautious before assuming that the vaccine is indeed causally reducing the risk of onset of dementia,” Dr. Harrison warned. 

The researchers say the results would need to be confirmed in a randomized trial, which may have to be conducted in a slightly younger age group, as currently shingles vaccine is recommended for all older individuals in the United Kingdom. 

Vaccine recommendations vary from country to country, Dr. Harrison added. In the United States, the Centers for Disease Control and Prevention recommends the recombinant shingles vaccine for all adults aged 50 years or older. 

In the meantime, it would be interesting to see whether further observational studies in other countries find similar results as this US study, Dr. Harrison said.  
 

Mechanism Uncertain

Speculating on a possible mechanism behind the findings, Dr. Harrison suggested two plausible explanations.

“First, it is thought that the herpes virus could be one of many factors that could promote dementia, so a vaccine that stops reactivation of this virus might therefore be delaying that process,” he noted. 

The other possibility is that adjuvants included in the recombinant vaccine to stimulate the immune system might have played a role. 

“We don’t have any data on the mechanism, and thus study did not address that, so further studies are needed to look into this,” Dr. Harrison said. 
 

Stronger Effect in Women

Another intriguing finding is that the association with the recombinant vaccine and delayed dementia diagnosis seemed to be stronger in women vs men. 

In the original study of the live shingles vaccine, a protective effect against dementia was shown only in women. 

In the current study, the delay in dementia diagnosis was seen in both sexes but was stronger in women, showing a 22% increased time without dementia in women versus a 13% increased time in men with the recombinant versus the live vaccine. 

As expected, the recombinant vaccine was associated with a lower risk for shingles disease vs the live vaccine (2.5% versus 3.5%), but women did not have a better response than men did in this respect. 

“The better protection against shingles with the recombinant vaccine was similar in men and women, an observation that might be one reason to question the possible mechanism behind the dementia effect being better suppression of the herpes zoster virus by the recombinant vaccine,” Dr. Harrison commented. 

Though these findings are not likely to lead to any immediate changes in policy regarding the shingles vaccine, Dr. Harrison said it would be interesting to see whether uptake of the vaccine increased after this study. 

He estimated that, currently in the United Kingdom, about 60% of older adults choose to have the shingles vaccine. A 2020 study in the United States found that only about one-third of US adults over 60 had received the vaccine. 

“It will be interesting to see if that figure increases after these data are publicized, but I am not recommending that people have the vaccine specifically to lower their risk of dementia because of the caveats about the study that we have discussed,” he commented. 
 

Outside Experts Positive 

Outside experts, providing comment to the Science Media Centre, welcomed the new research. 

“ The study is very well-conducted and adds to previous data indicating that vaccination against shingles is associated with lower dementia risk. More research is needed in future to determine why this vaccine is associated with lower dementia risk,” said Tara Spires-Jones, FMedSci, president of the British Neuroscience Association. 

The high number of patients in the study and the adjustments for potential confounders are also strong points, noted Andrew Doig, PhD, professor of biochemistry, University of Manchester, Manchester, England.

“This is a significant result, comparable in effectiveness to the recent antibody drugs for Alzheimer’s disease,” Dr. Doig said. “Administering the recombinant shingles vaccine could well be a simple and cheap way to lower the risk of Alzheimer’s disease.”

Dr. Doig noted that a link between herpes zoster infection and the onset of dementia has been suspected for some time, and a trial of the antiviral drug valacyclovir against Alzheimer’s disease is currently underway.

In regard to the shingles vaccine, he said a placebo-controlled trial would be needed to prove causality. 

“We also need to see how many years the effect might last and whether we should vaccinate people at a younger age. We know that the path to Alzheimer’s can start decades before any symptoms are apparent, so the vaccine might be even more effective if given to people in their 40s or 50s,” he said.

Dr. Harrison and Dr. Taquet reported no disclosures. Dr. Doig is a founder, director, and consultant for PharmaKure, which works on Alzheimer’s drugs and diagnostics. Other commentators declared no disclosures.

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

Proposed clinical criteria for a memory loss disorder that is often misdiagnosed as Alzheimer’s disease (AD) have been published.

The new criteria for limbic-predominant amnestic neurodegenerative syndrome (LANS) provide a framework for neurologists and other experts to classify the condition and offer a more precise diagnosis and potential treatments.

“In our clinical work, we see patients whose memory symptoms appear to mimic Alzheimer’s disease, but when you look at their brain imaging or biomarkers, it’s clear they don’t have Alzheimer’s. Until now, there has not been a specific medical diagnosis to point to, but now we can offer them some answers,” senior investigator David T. Jones, MD, said in a release.

The proposed criteria and the research behind it were published online in Brain Communications and will be presented at the Alzheimer›s Association International Conference in Philadelphia.
 

Already in Use

Predominant limbic degeneration has been linked to various underlying etiologies, older age, predominant impairment of episodic memory, and slow clinical progression, the investigators noted. However, they added, the neurologic syndrome associated with predominant limbic degeneration is undefined.

Developing clinical criteria and validating them “is critical to distinguish such a syndrome from those originating from neocortical degeneration, which may differ in underlying etiology, disease course, and therapeutic needs,” the investigators wrote.

The newly proposed clinical criteria apply to LANS, which is “highly associated with limbic-predominant age-related TDP-43 encephalopathy but also other pathologic entities.”

The criteria incorporate core, standard, and advanced features including older age at evaluation, mild clinical syndrome, disproportionate hippocampal atrophy, impaired semantic memory, limbic hypometabolism, absence of endocortical degeneration, and low likelihood of neocortical tau with highest, high, moderate, and low degrees of certainty.

“A detailed history of the clinical symptoms, which may be supported by neuropsychological testing, with the observation of disproportionate hippocampal atrophy and limbic degeneration on MRI/FDG yields a high confidence in a diagnosis of LANS, where the most likely symptom-driving proteinopathy is TDP-43 and not Alzheimer’s associated proteins,” the first author, Nick Corriveau-Lecavalier, PhD, assistant professor of neurology and psychology at Mayo Clinic, Rochester, Minnesota, told this news organization.

To validate the criteria, the investigators screened autopsied patients from Mayo Clinic and Alzheimer’s Disease Neuroimaging Initiative cohorts and applied the criteria to those with a predominant amnestic syndrome and those who had AD neuropathologic change, limbic-predominant age-related TDP-43 encephalopathy, or both pathologies at autopsy.

“The criteria effectively categorized these cases, with Alzheimer’s disease having the lowest likelihoods, limbic-predominant age-related TDP-43 encephalopathy patients having the highest likelihoods, and patients with both pathologies having intermediate likelihoods,” the investigators reported.

“Patients with high likelihoods had a milder and slower clinical course and more severe temporo-limbic degeneration compared to those with low likelihoods,” they added.

Dr. Corriveau-Lecavalier said the team is currently analyzing longitudinal cognitive and imaging trajectories in LANS over several years. “This will help us better understand how LANS and Alzheimer’s differ in their sequence of symptoms over time.”

It is important to understand that memory symptoms in old age are not “unequivocally” driven by Alzheimer’s and that LANS progresses more slowly and has a better prognosis than AD, he noted.

In addition, in vivo markers of TDP-43 are “on the horizon and can hopefully make their way to human research settings soon. This will help better understand the underlying molecular etiologies causing LANS and associated symptoms,” he said.

Dr. Corriveau-Lecavalier said the LANS criteria are ready for clinical use by experts in neurologic care. These criteria can be used to inform not only diagnosis but also prognosis, where this syndrome is associated with slow and mild progression and a memory-dominant profile.

He added that “the new criteria are also routinely used in our practice to make decisions about anti-amyloid treatment eligibility.”

Commenting on the research for this news organization, Rebecca M. Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said the research “exemplifies the great need to develop objective criteria for diagnosis and staging of Alzheimer’s and all other types of dementia and to create an integrated biological and clinical staging scheme that can be used effectively by physicians.”

“Advances in biomarkers will help to differentiate all types of dementia when incorporated into the diagnostic workup, but until those tools are available, a more succinct clinical criteria for diagnosis can be used to support a more personalized medicine approach to treatment, care, and enrollment into clinical studies,” said Dr. Edelmayer, who wasn’t involved in the research.

The research was funded in part by the National Institutes of Health and by the Robert Wood Johnson Foundation, the Elsie & Marvin Dekelboum Family Foundation, the Liston Family Foundation, the Edson Family, the Gerald A. and Henrietta Rauenhorst Foundation, and the Foundation Dr Corinne Schuler. Dr. Corriveau-Lecavalier and Dr. Edelmayer had no relevant conflicts of interest.

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

Proposed clinical criteria for a memory loss disorder that is often misdiagnosed as Alzheimer’s disease (AD) have been published.

The new criteria for limbic-predominant amnestic neurodegenerative syndrome (LANS) provide a framework for neurologists and other experts to classify the condition and offer a more precise diagnosis and potential treatments.

“In our clinical work, we see patients whose memory symptoms appear to mimic Alzheimer’s disease, but when you look at their brain imaging or biomarkers, it’s clear they don’t have Alzheimer’s. Until now, there has not been a specific medical diagnosis to point to, but now we can offer them some answers,” senior investigator David T. Jones, MD, said in a release.

The proposed criteria and the research behind it were published online in Brain Communications and will be presented at the Alzheimer›s Association International Conference in Philadelphia.
 

Already in Use

Predominant limbic degeneration has been linked to various underlying etiologies, older age, predominant impairment of episodic memory, and slow clinical progression, the investigators noted. However, they added, the neurologic syndrome associated with predominant limbic degeneration is undefined.

Developing clinical criteria and validating them “is critical to distinguish such a syndrome from those originating from neocortical degeneration, which may differ in underlying etiology, disease course, and therapeutic needs,” the investigators wrote.

The newly proposed clinical criteria apply to LANS, which is “highly associated with limbic-predominant age-related TDP-43 encephalopathy but also other pathologic entities.”

The criteria incorporate core, standard, and advanced features including older age at evaluation, mild clinical syndrome, disproportionate hippocampal atrophy, impaired semantic memory, limbic hypometabolism, absence of endocortical degeneration, and low likelihood of neocortical tau with highest, high, moderate, and low degrees of certainty.

“A detailed history of the clinical symptoms, which may be supported by neuropsychological testing, with the observation of disproportionate hippocampal atrophy and limbic degeneration on MRI/FDG yields a high confidence in a diagnosis of LANS, where the most likely symptom-driving proteinopathy is TDP-43 and not Alzheimer’s associated proteins,” the first author, Nick Corriveau-Lecavalier, PhD, assistant professor of neurology and psychology at Mayo Clinic, Rochester, Minnesota, told this news organization.

To validate the criteria, the investigators screened autopsied patients from Mayo Clinic and Alzheimer’s Disease Neuroimaging Initiative cohorts and applied the criteria to those with a predominant amnestic syndrome and those who had AD neuropathologic change, limbic-predominant age-related TDP-43 encephalopathy, or both pathologies at autopsy.

“The criteria effectively categorized these cases, with Alzheimer’s disease having the lowest likelihoods, limbic-predominant age-related TDP-43 encephalopathy patients having the highest likelihoods, and patients with both pathologies having intermediate likelihoods,” the investigators reported.

“Patients with high likelihoods had a milder and slower clinical course and more severe temporo-limbic degeneration compared to those with low likelihoods,” they added.

Dr. Corriveau-Lecavalier said the team is currently analyzing longitudinal cognitive and imaging trajectories in LANS over several years. “This will help us better understand how LANS and Alzheimer’s differ in their sequence of symptoms over time.”

It is important to understand that memory symptoms in old age are not “unequivocally” driven by Alzheimer’s and that LANS progresses more slowly and has a better prognosis than AD, he noted.

In addition, in vivo markers of TDP-43 are “on the horizon and can hopefully make their way to human research settings soon. This will help better understand the underlying molecular etiologies causing LANS and associated symptoms,” he said.

Dr. Corriveau-Lecavalier said the LANS criteria are ready for clinical use by experts in neurologic care. These criteria can be used to inform not only diagnosis but also prognosis, where this syndrome is associated with slow and mild progression and a memory-dominant profile.

He added that “the new criteria are also routinely used in our practice to make decisions about anti-amyloid treatment eligibility.”

Commenting on the research for this news organization, Rebecca M. Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said the research “exemplifies the great need to develop objective criteria for diagnosis and staging of Alzheimer’s and all other types of dementia and to create an integrated biological and clinical staging scheme that can be used effectively by physicians.”

“Advances in biomarkers will help to differentiate all types of dementia when incorporated into the diagnostic workup, but until those tools are available, a more succinct clinical criteria for diagnosis can be used to support a more personalized medicine approach to treatment, care, and enrollment into clinical studies,” said Dr. Edelmayer, who wasn’t involved in the research.

The research was funded in part by the National Institutes of Health and by the Robert Wood Johnson Foundation, the Elsie & Marvin Dekelboum Family Foundation, the Liston Family Foundation, the Edson Family, the Gerald A. and Henrietta Rauenhorst Foundation, and the Foundation Dr Corinne Schuler. Dr. Corriveau-Lecavalier and Dr. Edelmayer had no relevant conflicts of interest.

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

Proposed clinical criteria for a memory loss disorder that is often misdiagnosed as Alzheimer’s disease (AD) have been published.

The new criteria for limbic-predominant amnestic neurodegenerative syndrome (LANS) provide a framework for neurologists and other experts to classify the condition and offer a more precise diagnosis and potential treatments.

“In our clinical work, we see patients whose memory symptoms appear to mimic Alzheimer’s disease, but when you look at their brain imaging or biomarkers, it’s clear they don’t have Alzheimer’s. Until now, there has not been a specific medical diagnosis to point to, but now we can offer them some answers,” senior investigator David T. Jones, MD, said in a release.

The proposed criteria and the research behind it were published online in Brain Communications and will be presented at the Alzheimer›s Association International Conference in Philadelphia.
 

Already in Use

Predominant limbic degeneration has been linked to various underlying etiologies, older age, predominant impairment of episodic memory, and slow clinical progression, the investigators noted. However, they added, the neurologic syndrome associated with predominant limbic degeneration is undefined.

Developing clinical criteria and validating them “is critical to distinguish such a syndrome from those originating from neocortical degeneration, which may differ in underlying etiology, disease course, and therapeutic needs,” the investigators wrote.

The newly proposed clinical criteria apply to LANS, which is “highly associated with limbic-predominant age-related TDP-43 encephalopathy but also other pathologic entities.”

The criteria incorporate core, standard, and advanced features including older age at evaluation, mild clinical syndrome, disproportionate hippocampal atrophy, impaired semantic memory, limbic hypometabolism, absence of endocortical degeneration, and low likelihood of neocortical tau with highest, high, moderate, and low degrees of certainty.

“A detailed history of the clinical symptoms, which may be supported by neuropsychological testing, with the observation of disproportionate hippocampal atrophy and limbic degeneration on MRI/FDG yields a high confidence in a diagnosis of LANS, where the most likely symptom-driving proteinopathy is TDP-43 and not Alzheimer’s associated proteins,” the first author, Nick Corriveau-Lecavalier, PhD, assistant professor of neurology and psychology at Mayo Clinic, Rochester, Minnesota, told this news organization.

To validate the criteria, the investigators screened autopsied patients from Mayo Clinic and Alzheimer’s Disease Neuroimaging Initiative cohorts and applied the criteria to those with a predominant amnestic syndrome and those who had AD neuropathologic change, limbic-predominant age-related TDP-43 encephalopathy, or both pathologies at autopsy.

“The criteria effectively categorized these cases, with Alzheimer’s disease having the lowest likelihoods, limbic-predominant age-related TDP-43 encephalopathy patients having the highest likelihoods, and patients with both pathologies having intermediate likelihoods,” the investigators reported.

“Patients with high likelihoods had a milder and slower clinical course and more severe temporo-limbic degeneration compared to those with low likelihoods,” they added.

Dr. Corriveau-Lecavalier said the team is currently analyzing longitudinal cognitive and imaging trajectories in LANS over several years. “This will help us better understand how LANS and Alzheimer’s differ in their sequence of symptoms over time.”

It is important to understand that memory symptoms in old age are not “unequivocally” driven by Alzheimer’s and that LANS progresses more slowly and has a better prognosis than AD, he noted.

In addition, in vivo markers of TDP-43 are “on the horizon and can hopefully make their way to human research settings soon. This will help better understand the underlying molecular etiologies causing LANS and associated symptoms,” he said.

Dr. Corriveau-Lecavalier said the LANS criteria are ready for clinical use by experts in neurologic care. These criteria can be used to inform not only diagnosis but also prognosis, where this syndrome is associated with slow and mild progression and a memory-dominant profile.

He added that “the new criteria are also routinely used in our practice to make decisions about anti-amyloid treatment eligibility.”

Commenting on the research for this news organization, Rebecca M. Edelmayer, PhD, Alzheimer’s Association senior director of scientific engagement, said the research “exemplifies the great need to develop objective criteria for diagnosis and staging of Alzheimer’s and all other types of dementia and to create an integrated biological and clinical staging scheme that can be used effectively by physicians.”

“Advances in biomarkers will help to differentiate all types of dementia when incorporated into the diagnostic workup, but until those tools are available, a more succinct clinical criteria for diagnosis can be used to support a more personalized medicine approach to treatment, care, and enrollment into clinical studies,” said Dr. Edelmayer, who wasn’t involved in the research.

The research was funded in part by the National Institutes of Health and by the Robert Wood Johnson Foundation, the Elsie & Marvin Dekelboum Family Foundation, the Liston Family Foundation, the Edson Family, the Gerald A. and Henrietta Rauenhorst Foundation, and the Foundation Dr Corinne Schuler. Dr. Corriveau-Lecavalier and Dr. Edelmayer had no relevant conflicts of interest.

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

High blood pressure is an established risk factor for neurodegeneration and cognitive decline. Long-standing evidence shows that treating hypertension can reduce its vascular consequences, but whether that is true for neurodegeneration is less clear.

Valentin Fuster, MD, president of Mount Sinai Fuster Heart Hospital in New York City, told this news organization. “There is no question in the literature that untreated high blood pressure may lead to dementia,” he said. “The open question is whether treating blood pressure is sufficient to decrease or stop the progress of dementia.”

Studies are mixed, but recent research suggests that addressing hypertension does affect the risk for dementia. A secondary analysis of the China Rural Hypertension Control Project reported at the American Heart Association (AHA) Scientific Sessions in 2023 but not yet published showed that the 4-year blood pressure–lowering program in adults aged 40 or older significantly reduced the risk for all-cause dementia and cognitive impairment.

Similarly, a post hoc analysis of the SPRINT MIND trial found that participants aged 50 or older who underwent intensive (< 120 mm Hg) vs standard (< 140 mm Hg) blood pressure lowering had a lower rate of probable dementia or mild cognitive impairment.

Other studies pointing to a benefit included a pooled individual participant analysis of five randomized controlled trials, which found class I evidence to support antihypertensive treatment to reduce the risk for incident dementia, and an earlier systematic review and meta-analysis of the association of blood pressure lowering with newly diagnosed dementia or cognitive impairment.
 

How It Might Work

Some possible mechanisms underlying the connection have emerged.

“Vascular disease caused by hypertension is clearly implicated in one form of dementia, called vascular cognitive impairment and dementia,” Andrew Moran, MD, PhD, associate professor of medicine at Columbia University Vagelos College of Physicians and Surgeons in New York City, told this news organization. “This category includes dementia following a stroke caused by uncontrolled hypertension.” 

“At the same time, we now know that hypertension and other vascular risk factors can also contribute, along with other factors, to developing Alzheimer dementia,” he said. “Even without causing clinically evident stroke, vascular disease from hypertension can lead to subtle damage to the brain via ischemia, microhemorrhage, and atrophy.”

“It is well known that hypertension affects the vasculature, and the vasculature of the brain is not spared,” agreed Eileen Handberg, PhD, ARNP, a member of the Hypertension Workgroup at the American College of Cardiology (ACC) and a professor of medicine and director of the Cardiovascular Clinical Trials Program in the University of Florida, Gainesville, Florida. “Combine this with other mechanisms like inflammation and endothelial dysfunction, and add amyloid accumulation, and there is a deterioration in vascular beds leading to decreased cerebral blood flow,” she said.

Treating hypertension likely helps lower dementia risk through “a combination of reduced risk of stroke and also benefits on blood flow, blood vessel health, and reduction in neurodegeneration,” suggested Mitchell S.V. Elkind, MD, chief clinical science officer and past president of the AHA and a professor of neurology and epidemiology at Columbia University Irving Medical Center in New York City. “Midlife blood pressure elevations are associated with deposition of amyloid in the brain, so controlling blood pressure may reduce amyloid deposits and neurodegeneration.”
 

Time in Range or Treat to Target?

With respect to dementia risk, does treating hypertension to a specific target make a difference, or is it the time spent in a healthy blood pressure range? 

“Observational studies and a post hoc analysis of the SPRINT MIND trial suggest that more time spent in a healthy blood pressure range or more stable blood pressure are associated with lower dementia risk,” Dr. Moran said. Citing results of the CHRC program and SPRINT MIND trial, he suggested that while a dose-response effect (the lower the blood pressure, the lower the dementia risk) hasn’t been definitively demonstrated, it is likely the case.

In his practice, Dr. Moran follows ACC/AHA guidelines and prescribes antihypertensives to get blood pressure below 130/80 mm Hg in individuals with hypertension who have other high-risk factors (cardiovascular disease, diabetes, chronic kidney disease, or high risk for these conditions). “The treatment rule for people with hypertension without these other risk factors is less clear — lowering blood pressure below 140/90 mm Hg is a must; I will discuss with patients whether to go lower than that.”

“The relative contributions of time in range versus treating to a target for blood pressure require further study,” said Dr. Elkind. “It is likely that the cumulative effect of blood pressure over time has a big role to play — and it does seem clear that midlife blood pressure is even more important than blood pressure late in life.”

That said, he added, “In general and all things being equal, I would treat to a blood pressure of < 120/80 mmHg,” given the SPRINT trial findings of greater benefits when treating to this systolic blood pressure goal. “Of course, if patients have side effects such as lightheadedness or dizziness or other medical conditions that require a higher target, then one would need to adjust the treatment targets.”

According to Dr. Fuster, targets should not be the focus because they vary. For example, the ACC/AHA guidelines use < 130/80 mm Hg, whereas the European Society of Hypertension guidelines and those of the American Academy of Family Physicians specify < 140/90 mm Hg and include age-based criteria. Because there are no studies comparing the outcomes of one set of guidelines vs another, Dr. Fuster thinks the focus should be on starting treatment as early as possible to prevent hypertension leading to dementia.

He pointed to the ongoing PESA trial, which uses brain MRI and other tests to characterize longitudinal associations among cerebral glucose metabolism, subclinical atherosclerosis, and cardiovascular risk factors in asymptomatic individuals aged 40-54. Most did not have hypertension at baseline.

A recently published analysis of a subcohort of 370 PESA participants found that those with persistent high cardiovascular risk and subclinical carotid atherosclerosis already had signs of brain metabolic decline, “suggesting that maintenance of cardiovascular health during midlife could contribute to reductions in neurodegenerative disease burden later in life,” wrote the investigators.
 

Is It Ever Too Late?

If starting hypertension treatment in midlife can help reduce the risk for cognitive impairment later, can treating later in life also help? “It’s theoretically possible, but it has to be proven,” Dr. Fuster said. “There are no data on whether there’s less chance to prevent the development of dementia if you start treating hypertension at age 70, for example. And we have no idea whether hypertension treatment will prevent progression in those who already have dementia.”

“Treating high blood pressure in older adults could affect the course of further progressive cognitive decline by improving vascular health and preventing strokes, which likely exacerbate nonvascular dementia,” Dr. Elkind suggested. “Most people with dementia have a combination of vascular and nonvascular dementia, so treating reversible causes wherever possible makes a difference.”

Dr. Elkind treats older patients with this in mind, he said, “even though most of the evidence points to the fact that it is blood pressure in middle age, not older age, that seems to have the biggest impact on later-life cognitive decline and dementia.” Like Dr. Fuster, he said, “the best strategy is to identify and treat blood pressure in midlife, before damage to the brain has advanced.”

Dr. Moran noted, “The latest science on dementia causes suggests it is difficult to draw a border between vascular and nonvascular dementia. So, as a practical matter, healthcare providers should consider that hypertension treatment is one of the best ways to prevent any category of dementia. This dementia prevention is added to the well-known benefits of hypertension treatment to prevent heart attacks, strokes, and kidney disease: ‘Healthy heart, healthy brain.’ ”

“Our BP [blood pressure] control rates overall are still abysmal,” Dr. Handberg added. Currently around one in four US adults with hypertension have it under control. Studies have shown that blood pressure control rates of 70%-80% are achievable, she said. “We can’t let patient or provider inertia continue.”

Dr. Handberg, Dr. Elkind, Dr. Moran, and Dr. Fuster declared no relevant conflicts of interest.

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

High blood pressure is an established risk factor for neurodegeneration and cognitive decline. Long-standing evidence shows that treating hypertension can reduce its vascular consequences, but whether that is true for neurodegeneration is less clear.

Valentin Fuster, MD, president of Mount Sinai Fuster Heart Hospital in New York City, told this news organization. “There is no question in the literature that untreated high blood pressure may lead to dementia,” he said. “The open question is whether treating blood pressure is sufficient to decrease or stop the progress of dementia.”

Studies are mixed, but recent research suggests that addressing hypertension does affect the risk for dementia. A secondary analysis of the China Rural Hypertension Control Project reported at the American Heart Association (AHA) Scientific Sessions in 2023 but not yet published showed that the 4-year blood pressure–lowering program in adults aged 40 or older significantly reduced the risk for all-cause dementia and cognitive impairment.

Similarly, a post hoc analysis of the SPRINT MIND trial found that participants aged 50 or older who underwent intensive (< 120 mm Hg) vs standard (< 140 mm Hg) blood pressure lowering had a lower rate of probable dementia or mild cognitive impairment.

Other studies pointing to a benefit included a pooled individual participant analysis of five randomized controlled trials, which found class I evidence to support antihypertensive treatment to reduce the risk for incident dementia, and an earlier systematic review and meta-analysis of the association of blood pressure lowering with newly diagnosed dementia or cognitive impairment.
 

How It Might Work

Some possible mechanisms underlying the connection have emerged.

“Vascular disease caused by hypertension is clearly implicated in one form of dementia, called vascular cognitive impairment and dementia,” Andrew Moran, MD, PhD, associate professor of medicine at Columbia University Vagelos College of Physicians and Surgeons in New York City, told this news organization. “This category includes dementia following a stroke caused by uncontrolled hypertension.” 

“At the same time, we now know that hypertension and other vascular risk factors can also contribute, along with other factors, to developing Alzheimer dementia,” he said. “Even without causing clinically evident stroke, vascular disease from hypertension can lead to subtle damage to the brain via ischemia, microhemorrhage, and atrophy.”

“It is well known that hypertension affects the vasculature, and the vasculature of the brain is not spared,” agreed Eileen Handberg, PhD, ARNP, a member of the Hypertension Workgroup at the American College of Cardiology (ACC) and a professor of medicine and director of the Cardiovascular Clinical Trials Program in the University of Florida, Gainesville, Florida. “Combine this with other mechanisms like inflammation and endothelial dysfunction, and add amyloid accumulation, and there is a deterioration in vascular beds leading to decreased cerebral blood flow,” she said.

Treating hypertension likely helps lower dementia risk through “a combination of reduced risk of stroke and also benefits on blood flow, blood vessel health, and reduction in neurodegeneration,” suggested Mitchell S.V. Elkind, MD, chief clinical science officer and past president of the AHA and a professor of neurology and epidemiology at Columbia University Irving Medical Center in New York City. “Midlife blood pressure elevations are associated with deposition of amyloid in the brain, so controlling blood pressure may reduce amyloid deposits and neurodegeneration.”
 

Time in Range or Treat to Target?

With respect to dementia risk, does treating hypertension to a specific target make a difference, or is it the time spent in a healthy blood pressure range? 

“Observational studies and a post hoc analysis of the SPRINT MIND trial suggest that more time spent in a healthy blood pressure range or more stable blood pressure are associated with lower dementia risk,” Dr. Moran said. Citing results of the CHRC program and SPRINT MIND trial, he suggested that while a dose-response effect (the lower the blood pressure, the lower the dementia risk) hasn’t been definitively demonstrated, it is likely the case.

In his practice, Dr. Moran follows ACC/AHA guidelines and prescribes antihypertensives to get blood pressure below 130/80 mm Hg in individuals with hypertension who have other high-risk factors (cardiovascular disease, diabetes, chronic kidney disease, or high risk for these conditions). “The treatment rule for people with hypertension without these other risk factors is less clear — lowering blood pressure below 140/90 mm Hg is a must; I will discuss with patients whether to go lower than that.”

“The relative contributions of time in range versus treating to a target for blood pressure require further study,” said Dr. Elkind. “It is likely that the cumulative effect of blood pressure over time has a big role to play — and it does seem clear that midlife blood pressure is even more important than blood pressure late in life.”

That said, he added, “In general and all things being equal, I would treat to a blood pressure of < 120/80 mmHg,” given the SPRINT trial findings of greater benefits when treating to this systolic blood pressure goal. “Of course, if patients have side effects such as lightheadedness or dizziness or other medical conditions that require a higher target, then one would need to adjust the treatment targets.”

According to Dr. Fuster, targets should not be the focus because they vary. For example, the ACC/AHA guidelines use < 130/80 mm Hg, whereas the European Society of Hypertension guidelines and those of the American Academy of Family Physicians specify < 140/90 mm Hg and include age-based criteria. Because there are no studies comparing the outcomes of one set of guidelines vs another, Dr. Fuster thinks the focus should be on starting treatment as early as possible to prevent hypertension leading to dementia.

He pointed to the ongoing PESA trial, which uses brain MRI and other tests to characterize longitudinal associations among cerebral glucose metabolism, subclinical atherosclerosis, and cardiovascular risk factors in asymptomatic individuals aged 40-54. Most did not have hypertension at baseline.

A recently published analysis of a subcohort of 370 PESA participants found that those with persistent high cardiovascular risk and subclinical carotid atherosclerosis already had signs of brain metabolic decline, “suggesting that maintenance of cardiovascular health during midlife could contribute to reductions in neurodegenerative disease burden later in life,” wrote the investigators.
 

Is It Ever Too Late?

If starting hypertension treatment in midlife can help reduce the risk for cognitive impairment later, can treating later in life also help? “It’s theoretically possible, but it has to be proven,” Dr. Fuster said. “There are no data on whether there’s less chance to prevent the development of dementia if you start treating hypertension at age 70, for example. And we have no idea whether hypertension treatment will prevent progression in those who already have dementia.”

“Treating high blood pressure in older adults could affect the course of further progressive cognitive decline by improving vascular health and preventing strokes, which likely exacerbate nonvascular dementia,” Dr. Elkind suggested. “Most people with dementia have a combination of vascular and nonvascular dementia, so treating reversible causes wherever possible makes a difference.”

Dr. Elkind treats older patients with this in mind, he said, “even though most of the evidence points to the fact that it is blood pressure in middle age, not older age, that seems to have the biggest impact on later-life cognitive decline and dementia.” Like Dr. Fuster, he said, “the best strategy is to identify and treat blood pressure in midlife, before damage to the brain has advanced.”

Dr. Moran noted, “The latest science on dementia causes suggests it is difficult to draw a border between vascular and nonvascular dementia. So, as a practical matter, healthcare providers should consider that hypertension treatment is one of the best ways to prevent any category of dementia. This dementia prevention is added to the well-known benefits of hypertension treatment to prevent heart attacks, strokes, and kidney disease: ‘Healthy heart, healthy brain.’ ”

“Our BP [blood pressure] control rates overall are still abysmal,” Dr. Handberg added. Currently around one in four US adults with hypertension have it under control. Studies have shown that blood pressure control rates of 70%-80% are achievable, she said. “We can’t let patient or provider inertia continue.”

Dr. Handberg, Dr. Elkind, Dr. Moran, and Dr. Fuster declared no relevant conflicts of interest.

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

High blood pressure is an established risk factor for neurodegeneration and cognitive decline. Long-standing evidence shows that treating hypertension can reduce its vascular consequences, but whether that is true for neurodegeneration is less clear.

Valentin Fuster, MD, president of Mount Sinai Fuster Heart Hospital in New York City, told this news organization. “There is no question in the literature that untreated high blood pressure may lead to dementia,” he said. “The open question is whether treating blood pressure is sufficient to decrease or stop the progress of dementia.”

Studies are mixed, but recent research suggests that addressing hypertension does affect the risk for dementia. A secondary analysis of the China Rural Hypertension Control Project reported at the American Heart Association (AHA) Scientific Sessions in 2023 but not yet published showed that the 4-year blood pressure–lowering program in adults aged 40 or older significantly reduced the risk for all-cause dementia and cognitive impairment.

Similarly, a post hoc analysis of the SPRINT MIND trial found that participants aged 50 or older who underwent intensive (< 120 mm Hg) vs standard (< 140 mm Hg) blood pressure lowering had a lower rate of probable dementia or mild cognitive impairment.

Other studies pointing to a benefit included a pooled individual participant analysis of five randomized controlled trials, which found class I evidence to support antihypertensive treatment to reduce the risk for incident dementia, and an earlier systematic review and meta-analysis of the association of blood pressure lowering with newly diagnosed dementia or cognitive impairment.
 

How It Might Work

Some possible mechanisms underlying the connection have emerged.

“Vascular disease caused by hypertension is clearly implicated in one form of dementia, called vascular cognitive impairment and dementia,” Andrew Moran, MD, PhD, associate professor of medicine at Columbia University Vagelos College of Physicians and Surgeons in New York City, told this news organization. “This category includes dementia following a stroke caused by uncontrolled hypertension.” 

“At the same time, we now know that hypertension and other vascular risk factors can also contribute, along with other factors, to developing Alzheimer dementia,” he said. “Even without causing clinically evident stroke, vascular disease from hypertension can lead to subtle damage to the brain via ischemia, microhemorrhage, and atrophy.”

“It is well known that hypertension affects the vasculature, and the vasculature of the brain is not spared,” agreed Eileen Handberg, PhD, ARNP, a member of the Hypertension Workgroup at the American College of Cardiology (ACC) and a professor of medicine and director of the Cardiovascular Clinical Trials Program in the University of Florida, Gainesville, Florida. “Combine this with other mechanisms like inflammation and endothelial dysfunction, and add amyloid accumulation, and there is a deterioration in vascular beds leading to decreased cerebral blood flow,” she said.

Treating hypertension likely helps lower dementia risk through “a combination of reduced risk of stroke and also benefits on blood flow, blood vessel health, and reduction in neurodegeneration,” suggested Mitchell S.V. Elkind, MD, chief clinical science officer and past president of the AHA and a professor of neurology and epidemiology at Columbia University Irving Medical Center in New York City. “Midlife blood pressure elevations are associated with deposition of amyloid in the brain, so controlling blood pressure may reduce amyloid deposits and neurodegeneration.”
 

Time in Range or Treat to Target?

With respect to dementia risk, does treating hypertension to a specific target make a difference, or is it the time spent in a healthy blood pressure range? 

“Observational studies and a post hoc analysis of the SPRINT MIND trial suggest that more time spent in a healthy blood pressure range or more stable blood pressure are associated with lower dementia risk,” Dr. Moran said. Citing results of the CHRC program and SPRINT MIND trial, he suggested that while a dose-response effect (the lower the blood pressure, the lower the dementia risk) hasn’t been definitively demonstrated, it is likely the case.

In his practice, Dr. Moran follows ACC/AHA guidelines and prescribes antihypertensives to get blood pressure below 130/80 mm Hg in individuals with hypertension who have other high-risk factors (cardiovascular disease, diabetes, chronic kidney disease, or high risk for these conditions). “The treatment rule for people with hypertension without these other risk factors is less clear — lowering blood pressure below 140/90 mm Hg is a must; I will discuss with patients whether to go lower than that.”

“The relative contributions of time in range versus treating to a target for blood pressure require further study,” said Dr. Elkind. “It is likely that the cumulative effect of blood pressure over time has a big role to play — and it does seem clear that midlife blood pressure is even more important than blood pressure late in life.”

That said, he added, “In general and all things being equal, I would treat to a blood pressure of < 120/80 mmHg,” given the SPRINT trial findings of greater benefits when treating to this systolic blood pressure goal. “Of course, if patients have side effects such as lightheadedness or dizziness or other medical conditions that require a higher target, then one would need to adjust the treatment targets.”

According to Dr. Fuster, targets should not be the focus because they vary. For example, the ACC/AHA guidelines use < 130/80 mm Hg, whereas the European Society of Hypertension guidelines and those of the American Academy of Family Physicians specify < 140/90 mm Hg and include age-based criteria. Because there are no studies comparing the outcomes of one set of guidelines vs another, Dr. Fuster thinks the focus should be on starting treatment as early as possible to prevent hypertension leading to dementia.

He pointed to the ongoing PESA trial, which uses brain MRI and other tests to characterize longitudinal associations among cerebral glucose metabolism, subclinical atherosclerosis, and cardiovascular risk factors in asymptomatic individuals aged 40-54. Most did not have hypertension at baseline.

A recently published analysis of a subcohort of 370 PESA participants found that those with persistent high cardiovascular risk and subclinical carotid atherosclerosis already had signs of brain metabolic decline, “suggesting that maintenance of cardiovascular health during midlife could contribute to reductions in neurodegenerative disease burden later in life,” wrote the investigators.
 

Is It Ever Too Late?

If starting hypertension treatment in midlife can help reduce the risk for cognitive impairment later, can treating later in life also help? “It’s theoretically possible, but it has to be proven,” Dr. Fuster said. “There are no data on whether there’s less chance to prevent the development of dementia if you start treating hypertension at age 70, for example. And we have no idea whether hypertension treatment will prevent progression in those who already have dementia.”

“Treating high blood pressure in older adults could affect the course of further progressive cognitive decline by improving vascular health and preventing strokes, which likely exacerbate nonvascular dementia,” Dr. Elkind suggested. “Most people with dementia have a combination of vascular and nonvascular dementia, so treating reversible causes wherever possible makes a difference.”

Dr. Elkind treats older patients with this in mind, he said, “even though most of the evidence points to the fact that it is blood pressure in middle age, not older age, that seems to have the biggest impact on later-life cognitive decline and dementia.” Like Dr. Fuster, he said, “the best strategy is to identify and treat blood pressure in midlife, before damage to the brain has advanced.”

Dr. Moran noted, “The latest science on dementia causes suggests it is difficult to draw a border between vascular and nonvascular dementia. So, as a practical matter, healthcare providers should consider that hypertension treatment is one of the best ways to prevent any category of dementia. This dementia prevention is added to the well-known benefits of hypertension treatment to prevent heart attacks, strokes, and kidney disease: ‘Healthy heart, healthy brain.’ ”

“Our BP [blood pressure] control rates overall are still abysmal,” Dr. Handberg added. Currently around one in four US adults with hypertension have it under control. Studies have shown that blood pressure control rates of 70%-80% are achievable, she said. “We can’t let patient or provider inertia continue.”

Dr. Handberg, Dr. Elkind, Dr. Moran, and Dr. Fuster declared no relevant conflicts of interest.

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

Patients with dementia may instead have hepatic encephalopathy and should be screened with the Fibrosis-4 (FIB-4) index for cirrhosis, one of the main causes of the condition, new research suggests.

The study of more than 68,000 individuals in the general population diagnosed with dementia between 2009 and 2019 found that almost 13% had FIB-4 scores indicative of cirrhosis and potential hepatic encephalopathy.

The findings, recently published online in The American Journal of Medicine, corroborate and extend the researchers’ previous work, which showed that about 10% of US veterans with a dementia diagnosis may in fact have hepatic encephalopathy.

“We need to increase awareness that cirrhosis and related brain complications are common, silent, but treatable when found,” said corresponding author Jasmohan Bajaj, MD, of Virginia Commonwealth University and Richmond VA Medical Center, Richmond, Virginia. “Moreover, these are being increasingly diagnosed in older individuals.”

“Cirrhosis can also predispose patients to liver cancer and other complications, so diagnosing it in all patients is important, regardless of the hepatic encephalopathy-dementia connection,” he said.
 

FIB-4 Is Key

Dr. Bajaj and colleagues analyzed data from 72 healthcare centers on 68,807 nonveteran patients diagnosed with dementia at two or more physician visits between 2009 and 2019. Patients had no prior cirrhosis diagnosis, the mean age was 73 years, 44.7% were men, and 78% were White.

The team measured the prevalence of two high FIB-4 scores (> 2.67 and > 3.25), selected for their strong predictive value for advanced cirrhosis. Researchers also examined associations between high scores and multiple comorbidities and demographic factors.

Alanine aminotransferase (ALT), aspartate aminotransferase (AST), and platelet labs were collected up to 2 years after the index dementia diagnosis because they are used to calculate FIB-4.

The mean FIB-4 score was 1.78, mean ALT was 23.72 U/L, mean AST was 27.42 U/L, and mean platelets were 243.51 × 109/µL.

A total of 8683 participants (12.8%) had a FIB-4 score greater than 2.67 and 5185 (7.6%) had a score greater than 3.25.

In multivariable logistic regression models, FIB-4 greater than 3.25 was associated with viral hepatitis (odds ratio [OR], 2.23), congestive heart failure (OR,1.73), HIV (OR, 1.72), male gender (OR, 1.42), alcohol use disorder (OR, 1.39), and chronic kidney disease (OR, 1.38).

FIB-4 greater than 3.25 was inversely associated with White race (OR, 0.76) and diabetes (OR, 0.82).

The associations were similar when using a threshold score of greater than 2.67.

“With the aging population, including those with cirrhosis, the potential for overlap between hepatic encephalopathy and dementia has risen and should be considered in the differential diagnosis,” the authors wrote. “Undiagnosed cirrhosis and potential hepatic encephalopathy can be a treatable cause of or contributor towards cognitive impairment in patients diagnosed with dementia.”

Providers should use the FIB-4 index as a screening tool to detect cirrhosis in patients with dementia, they concluded.

The team’s next steps will include investigating barriers to the use of FIB-4 among practitioners, Dr. Bajaj said.

Incorporating use of the FIB-4 index into screening guidelines “with input from all stakeholders, including geriatricians, primary care providers, and neurologists … would greatly expand the diagnosis of cirrhosis and potentially hepatic encephalopathy in dementia patients,” Dr. Bajaj said.

The study had a few limitations, including the selected centers in the cohort database, lack of chart review to confirm diagnoses in individual cases, and the use of a modified FIB-4, with age capped at 65 years.
 

‘Easy to Miss’

Commenting on the research, Nancy Reau, MD, section chief of hepatology at Rush University Medical Center in Chicago, said that it is easy for physicians to miss asymptomatic liver disease that could progress and lead to cognitive decline.

“Most of my patients are already labeled with liver disease; however, it is not uncommon to receive a patient from another specialist who felt their presentation was more consistent with liver disease than the issue they were referred for,” she said.

Still, even in metabolic dysfunction–associated steatotic liver disease, which affects nearly one third of the population, the condition isn’t advanced enough in most patients to cause symptoms similar to those of dementia, said Dr. Reau, who was not associated with the study.

“It is more important for specialists in neurology to exclude liver disease and for hepatologists or gastroenterologists to be equipped with tools to exclude alternative explanations for neurocognitive presentations,” she said. “It is important to not label a patient as having HE and then miss alternative explanations.”

“Every presentation has a differential diagnosis. Using easy tools like FIB-4 can make sure you don’t miss liver disease as a contributing factor in a patient that presents with neurocognitive symptoms,” Dr. Reau said.

This work was partly supported by grants from Department of Veterans Affairs merit review program and the National Institutes of Health’s National Center for Advancing Translational Science. Dr. Bajaj and Dr. Reau reported no conflicts of interest.
 

A version of this article appeared on Medscape.com.

Patients with dementia may instead have hepatic encephalopathy and should be screened with the Fibrosis-4 (FIB-4) index for cirrhosis, one of the main causes of the condition, new research suggests.

The study of more than 68,000 individuals in the general population diagnosed with dementia between 2009 and 2019 found that almost 13% had FIB-4 scores indicative of cirrhosis and potential hepatic encephalopathy.

The findings, recently published online in The American Journal of Medicine, corroborate and extend the researchers’ previous work, which showed that about 10% of US veterans with a dementia diagnosis may in fact have hepatic encephalopathy.

“We need to increase awareness that cirrhosis and related brain complications are common, silent, but treatable when found,” said corresponding author Jasmohan Bajaj, MD, of Virginia Commonwealth University and Richmond VA Medical Center, Richmond, Virginia. “Moreover, these are being increasingly diagnosed in older individuals.”

“Cirrhosis can also predispose patients to liver cancer and other complications, so diagnosing it in all patients is important, regardless of the hepatic encephalopathy-dementia connection,” he said.
 

FIB-4 Is Key

Dr. Bajaj and colleagues analyzed data from 72 healthcare centers on 68,807 nonveteran patients diagnosed with dementia at two or more physician visits between 2009 and 2019. Patients had no prior cirrhosis diagnosis, the mean age was 73 years, 44.7% were men, and 78% were White.

The team measured the prevalence of two high FIB-4 scores (> 2.67 and > 3.25), selected for their strong predictive value for advanced cirrhosis. Researchers also examined associations between high scores and multiple comorbidities and demographic factors.

Alanine aminotransferase (ALT), aspartate aminotransferase (AST), and platelet labs were collected up to 2 years after the index dementia diagnosis because they are used to calculate FIB-4.

The mean FIB-4 score was 1.78, mean ALT was 23.72 U/L, mean AST was 27.42 U/L, and mean platelets were 243.51 × 109/µL.

A total of 8683 participants (12.8%) had a FIB-4 score greater than 2.67 and 5185 (7.6%) had a score greater than 3.25.

In multivariable logistic regression models, FIB-4 greater than 3.25 was associated with viral hepatitis (odds ratio [OR], 2.23), congestive heart failure (OR,1.73), HIV (OR, 1.72), male gender (OR, 1.42), alcohol use disorder (OR, 1.39), and chronic kidney disease (OR, 1.38).

FIB-4 greater than 3.25 was inversely associated with White race (OR, 0.76) and diabetes (OR, 0.82).

The associations were similar when using a threshold score of greater than 2.67.

“With the aging population, including those with cirrhosis, the potential for overlap between hepatic encephalopathy and dementia has risen and should be considered in the differential diagnosis,” the authors wrote. “Undiagnosed cirrhosis and potential hepatic encephalopathy can be a treatable cause of or contributor towards cognitive impairment in patients diagnosed with dementia.”

Providers should use the FIB-4 index as a screening tool to detect cirrhosis in patients with dementia, they concluded.

The team’s next steps will include investigating barriers to the use of FIB-4 among practitioners, Dr. Bajaj said.

Incorporating use of the FIB-4 index into screening guidelines “with input from all stakeholders, including geriatricians, primary care providers, and neurologists … would greatly expand the diagnosis of cirrhosis and potentially hepatic encephalopathy in dementia patients,” Dr. Bajaj said.

The study had a few limitations, including the selected centers in the cohort database, lack of chart review to confirm diagnoses in individual cases, and the use of a modified FIB-4, with age capped at 65 years.
 

‘Easy to Miss’

Commenting on the research, Nancy Reau, MD, section chief of hepatology at Rush University Medical Center in Chicago, said that it is easy for physicians to miss asymptomatic liver disease that could progress and lead to cognitive decline.

“Most of my patients are already labeled with liver disease; however, it is not uncommon to receive a patient from another specialist who felt their presentation was more consistent with liver disease than the issue they were referred for,” she said.

Still, even in metabolic dysfunction–associated steatotic liver disease, which affects nearly one third of the population, the condition isn’t advanced enough in most patients to cause symptoms similar to those of dementia, said Dr. Reau, who was not associated with the study.

“It is more important for specialists in neurology to exclude liver disease and for hepatologists or gastroenterologists to be equipped with tools to exclude alternative explanations for neurocognitive presentations,” she said. “It is important to not label a patient as having HE and then miss alternative explanations.”

“Every presentation has a differential diagnosis. Using easy tools like FIB-4 can make sure you don’t miss liver disease as a contributing factor in a patient that presents with neurocognitive symptoms,” Dr. Reau said.

This work was partly supported by grants from Department of Veterans Affairs merit review program and the National Institutes of Health’s National Center for Advancing Translational Science. Dr. Bajaj and Dr. Reau reported no conflicts of interest.
 

A version of this article appeared on Medscape.com.

Patients with dementia may instead have hepatic encephalopathy and should be screened with the Fibrosis-4 (FIB-4) index for cirrhosis, one of the main causes of the condition, new research suggests.

The study of more than 68,000 individuals in the general population diagnosed with dementia between 2009 and 2019 found that almost 13% had FIB-4 scores indicative of cirrhosis and potential hepatic encephalopathy.

The findings, recently published online in The American Journal of Medicine, corroborate and extend the researchers’ previous work, which showed that about 10% of US veterans with a dementia diagnosis may in fact have hepatic encephalopathy.

“We need to increase awareness that cirrhosis and related brain complications are common, silent, but treatable when found,” said corresponding author Jasmohan Bajaj, MD, of Virginia Commonwealth University and Richmond VA Medical Center, Richmond, Virginia. “Moreover, these are being increasingly diagnosed in older individuals.”

“Cirrhosis can also predispose patients to liver cancer and other complications, so diagnosing it in all patients is important, regardless of the hepatic encephalopathy-dementia connection,” he said.
 

FIB-4 Is Key

Dr. Bajaj and colleagues analyzed data from 72 healthcare centers on 68,807 nonveteran patients diagnosed with dementia at two or more physician visits between 2009 and 2019. Patients had no prior cirrhosis diagnosis, the mean age was 73 years, 44.7% were men, and 78% were White.

The team measured the prevalence of two high FIB-4 scores (> 2.67 and > 3.25), selected for their strong predictive value for advanced cirrhosis. Researchers also examined associations between high scores and multiple comorbidities and demographic factors.

Alanine aminotransferase (ALT), aspartate aminotransferase (AST), and platelet labs were collected up to 2 years after the index dementia diagnosis because they are used to calculate FIB-4.

The mean FIB-4 score was 1.78, mean ALT was 23.72 U/L, mean AST was 27.42 U/L, and mean platelets were 243.51 × 109/µL.

A total of 8683 participants (12.8%) had a FIB-4 score greater than 2.67 and 5185 (7.6%) had a score greater than 3.25.

In multivariable logistic regression models, FIB-4 greater than 3.25 was associated with viral hepatitis (odds ratio [OR], 2.23), congestive heart failure (OR,1.73), HIV (OR, 1.72), male gender (OR, 1.42), alcohol use disorder (OR, 1.39), and chronic kidney disease (OR, 1.38).

FIB-4 greater than 3.25 was inversely associated with White race (OR, 0.76) and diabetes (OR, 0.82).

The associations were similar when using a threshold score of greater than 2.67.

“With the aging population, including those with cirrhosis, the potential for overlap between hepatic encephalopathy and dementia has risen and should be considered in the differential diagnosis,” the authors wrote. “Undiagnosed cirrhosis and potential hepatic encephalopathy can be a treatable cause of or contributor towards cognitive impairment in patients diagnosed with dementia.”

Providers should use the FIB-4 index as a screening tool to detect cirrhosis in patients with dementia, they concluded.

The team’s next steps will include investigating barriers to the use of FIB-4 among practitioners, Dr. Bajaj said.

Incorporating use of the FIB-4 index into screening guidelines “with input from all stakeholders, including geriatricians, primary care providers, and neurologists … would greatly expand the diagnosis of cirrhosis and potentially hepatic encephalopathy in dementia patients,” Dr. Bajaj said.

The study had a few limitations, including the selected centers in the cohort database, lack of chart review to confirm diagnoses in individual cases, and the use of a modified FIB-4, with age capped at 65 years.
 

‘Easy to Miss’

Commenting on the research, Nancy Reau, MD, section chief of hepatology at Rush University Medical Center in Chicago, said that it is easy for physicians to miss asymptomatic liver disease that could progress and lead to cognitive decline.

“Most of my patients are already labeled with liver disease; however, it is not uncommon to receive a patient from another specialist who felt their presentation was more consistent with liver disease than the issue they were referred for,” she said.

Still, even in metabolic dysfunction–associated steatotic liver disease, which affects nearly one third of the population, the condition isn’t advanced enough in most patients to cause symptoms similar to those of dementia, said Dr. Reau, who was not associated with the study.

“It is more important for specialists in neurology to exclude liver disease and for hepatologists or gastroenterologists to be equipped with tools to exclude alternative explanations for neurocognitive presentations,” she said. “It is important to not label a patient as having HE and then miss alternative explanations.”

“Every presentation has a differential diagnosis. Using easy tools like FIB-4 can make sure you don’t miss liver disease as a contributing factor in a patient that presents with neurocognitive symptoms,” Dr. Reau said.

This work was partly supported by grants from Department of Veterans Affairs merit review program and the National Institutes of Health’s National Center for Advancing Translational Science. Dr. Bajaj and Dr. Reau reported no conflicts of interest.
 

A version of this article appeared on Medscape.com.

Neurologic symptoms of long COVID are vast, common, hard to treat, disabling, and can mimic dozens of other syndromes, with some symptoms as serious as those seen in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS).

Now, recent evidence has suggested long COVID is primarily an autonomic nervous system disorder.

Patients with long COVID increasingly complain of extreme fatigue, brain fog, cognitive issues, dizziness, irregular heart rhythms, and high or low blood pressure, all features seen with dysautonomia — dysregulation of the autonomic nervous system.

Their lives may never be the same.

Lindsay S. McAlpine, MD, a specialist in the neurologic sequelae of COVID-19 at the Yale School of Medicine and director of the Yale NeuroCOVID Clinic, New Haven, Connecticut, treats patients who struggle with neurologic symptoms even after disease recovery.

“Some people have the brain fog and the shortness of breath; some have the palpitations and the headaches ... it’s kind of a mix and match,” she said.

Dr. McAlpine’s research has been slowly building up into what could bring about a significant breakthrough in treating some of the most misunderstood and difficult-to-treat symptoms of long COVID.
 

The Effect of Vascular Inflammation on Long COVID

The National Institute of Neurological Disorders and Stroke recently awarded her a 5-year K23 grant to support her ongoing study, “Magnetic Resonance Imaging Biomarkers of Post-COVID-19 Cerebral Microvascular Dysfunction.”

Using advanced MRI techniques to identify microvascular dysfunction biomarkers in the brain, McAlpine hopes to unearth and better understand the pathophysiology behind neurologic issues post-COVID.

Dr. McAlpine said, “What we’re seeing is that there’s a unique signature of vascular inflammation in long COVID that is distinct from acute COVID. And it has to do with endothelial apathy and platelet dysfunction.”

She’s also looking into whether microvascular dysfunction could increase one’s risk for small vessel disease. Her research is quantitatively building an overall pathophysiology piece by piece.

“We’re quantifying cognitive dysfunction and using objective testing ... a very rigorous 3-hour protocol to really identify the patterns of weakness until we find deficits in memory working and declarative memory, deficits in executive functioning, and others. Those are the three pieces that I’m trying to piece together: The MRI, the blood work, and the cognitive testing,” she said.

Ultimately, Dr. McAlpine believes long COVID will eventually be classified as a peripheral autonomic disorder. The damage being wrought to the whole body also damages the brain’s vasculature, and Dr. McAlpine’s MRI techniques probe at this connection.

“Some of my MRI techniques are dependent on the very subtle changes in blood flow to different regions in response to demand. Brain fog has been a key symptom of POTS and ME/CFS. And it’s now a key symptom of long COVID ... what I’m looking at in some of my studies is how and in which parts of the brain are affected by this,” she said.

Dr. McAlpine’s interest in COVID’s effect on our nervous system goes back all the way to the first wave of patients with COVID, where she noticed an unusually high incidence of ischemic stroke.

“We recognized that COVID really has a huge impact on the vessels ... there’s quite a bit of vascular inflammation. In terms of neurology, we were seeing quite a bit of ischemic stroke, which is unusual,” she said.

Patients don’t normally present with stroke while infected with a virus. Seeking answers, she conducted a stroke study in patients with acute COVID and found profound endotheliopathy — damage to key cells in the lining of blood vessels — leading to a cascade of dysfunction and clotting.
 

A Constellation of Neuropsychiatric Symptoms

In early June, Dr. McAlpine gave a presentation of her research at the Demystifying Long COVID North American Conference 2024 in Boston. She’s been hard at work in extrapolating the causes of neuropsychiatric long COVID, a tangled web of symptoms seen in patients with long COVID that range from cognitive dysfunction to headaches, neuropathy, mental health, and the aforementioned dysautonomia.

Amid the sea of neurologic long COVID symptoms, she said “symptoms that are mixing and matching are very similar. So, I wanted to specifically look at a symptom that I could definitely isolate to the brain, and that is brain fog and cognitive dysfunction and impairment.”

In September 2021, the journal Translational Psychiatry published a study titled “Neuropsychiatric manifestations of COVID-19, potential neurotropic mechanisms, and therapeutic interventions.”

Going back all the way to the first cases of COVID in March 2020, the initial symptoms most patients complained of during an acute viral infection were around the respiratory system. Yet delirium, confusion, and neurocognitive disorders were also reported, puzzling experts and inciting a well-founded fear among many.

Even worse, after recovery, these neuropsychiatric symptoms persisted. The study found that coronavirus was able to invade the central nervous system through blood vessels and neuronal retrograde pathways, leading to brain injury and dysfunction of the cardiorespiratory center in the brainstem.

The study concluded by reporting that neuroimaging and neurochemical evidence indicated neuroimmune dysfunction and brain injury in severe patients with COVID-19. Suggested treatments included immunosuppressive therapies, vaccines to target the coronavirus’ spike protein, and pharmacological agents to improve endothelial integrity.

But there was still much that was unknown, and the study’s authors stressed the need for multidisciplinary research going forward.
 

How Immune Dysfunction Plays a Role

Similarly, Dr. McAlpine and her research team are still trying to sift their way through this opaque web to see why long COVID can cause autoimmune flare-ups.

In a study published in April, Dr. McAlpine and others found that small fiber neuropathy (SFN) after COVID is autoimmune-mediated and a dysfunction of the immune system.

Notably, they found that SFN could be a key pathologic finding in long COVID. SFN before the pandemic had been linked to ME/CFS and POTS, and the basic hypothesis revolved around an inflammatory immune response during a viral illness that may lead to immune dysregulation (dysimmunity) and damage to small fiber nerves.

But much still remains to be answered.

“We’ve seen quite a bit of that, but we still haven’t figured it out,” Dr. McAlpine said. “My big question is, how is this autonomic dysfunction related to the immune dysfunction, and how is that related to the vascular inflammation? There’s quite a bit of overlap in individuals with autoimmune disease and those who go on to develop this long COVID,” she added.

Still, a large portion of patients with long COVID don’t show autoimmune dysfunction, and those patients lack common biomarkers for an autoimmune condition.

“When we look at the spinal fluid in those individuals [with multiple sclerosis or a neuroinfectious disease], there’s inflammation going on ... the white blood cell count is elevated, the protein is elevated, the antibodies, the bands are elevated. I’ve been seeing long COVID patients now for 4 years, and their presentation is so distinctly different compared to my individuals that I see my patients with MS, or a neuroinfectious disease,” she said.

The mechanisms behind how all of this is interlaced remain unclear, and there may not be a one-size-fits-all treatment or definite pathogenesis for everyone.

“It’s that intersection of the immune system and the vessel wall ... Next is to figure out what do we treat, what are the targets, all of that, but there’s so many different presentations, and everybody has kind of a unique case,” she said.
 

How Physician Can Treat Common Symptoms Now

Though a cure for symptoms still eludes the scientific community, recent evidence has suggested that a combination of N-acetyl cysteine (NAC) and guanfacine has been successful in easing neurologic symptoms.

In November 2023, Arman Fesharaki-Zadeh, MD, PhD, a Yale Medicine behavioral neurologist and neuropsychiatrist, published a small study in Neuroimmunology Reports with his colleague, Yale neuroscientist Amy Arnsten, PhD. The two researchers showed how among 12 patients given 600 mg NAC daily, along with 1 mg guanfacine (increased to 2 mg after a month if well-tolerated), eight demonstrated improved cognitive abilities.

In patients who stayed on guanfacine + NAC, improved working memory, concentration, and executive functions were seen.

Also, they resumed their normal work schedule. Interruption and inability to work has been a significant factor in the lower quality-of-life long COVID patients experience.

Placebo-controlled trials will be needed going forward, but their small study has established safety and could open up a larger study in the future. For the moment, NAC can be gotten over the counter, and patients could get a prescription off-label from their doctor.

Dr. McAlpine has seen this combination work well for her own patients at Yale’s NeuroCOVID clinic.

Additionally, lifestyle practices such as quitting tobacco, increased exercise, exercising the mind, lowering alcohol intake, and even vitamin D supplementation (1000-2000 IU daily) could prove beneficial in tamping down persistent brain fog.

Vitamin D supports brain and nerve function through its reduction of brain aging biomarkers, regulating genes important for brain function, activating and deactivating enzymes important for neurotransmitter synthesis, and supporting neuronal growth and survival.

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

Neurologic symptoms of long COVID are vast, common, hard to treat, disabling, and can mimic dozens of other syndromes, with some symptoms as serious as those seen in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS).

Now, recent evidence has suggested long COVID is primarily an autonomic nervous system disorder.

Patients with long COVID increasingly complain of extreme fatigue, brain fog, cognitive issues, dizziness, irregular heart rhythms, and high or low blood pressure, all features seen with dysautonomia — dysregulation of the autonomic nervous system.

Their lives may never be the same.

Lindsay S. McAlpine, MD, a specialist in the neurologic sequelae of COVID-19 at the Yale School of Medicine and director of the Yale NeuroCOVID Clinic, New Haven, Connecticut, treats patients who struggle with neurologic symptoms even after disease recovery.

“Some people have the brain fog and the shortness of breath; some have the palpitations and the headaches ... it’s kind of a mix and match,” she said.

Dr. McAlpine’s research has been slowly building up into what could bring about a significant breakthrough in treating some of the most misunderstood and difficult-to-treat symptoms of long COVID.
 

The Effect of Vascular Inflammation on Long COVID

The National Institute of Neurological Disorders and Stroke recently awarded her a 5-year K23 grant to support her ongoing study, “Magnetic Resonance Imaging Biomarkers of Post-COVID-19 Cerebral Microvascular Dysfunction.”

Using advanced MRI techniques to identify microvascular dysfunction biomarkers in the brain, McAlpine hopes to unearth and better understand the pathophysiology behind neurologic issues post-COVID.

Dr. McAlpine said, “What we’re seeing is that there’s a unique signature of vascular inflammation in long COVID that is distinct from acute COVID. And it has to do with endothelial apathy and platelet dysfunction.”

She’s also looking into whether microvascular dysfunction could increase one’s risk for small vessel disease. Her research is quantitatively building an overall pathophysiology piece by piece.

“We’re quantifying cognitive dysfunction and using objective testing ... a very rigorous 3-hour protocol to really identify the patterns of weakness until we find deficits in memory working and declarative memory, deficits in executive functioning, and others. Those are the three pieces that I’m trying to piece together: The MRI, the blood work, and the cognitive testing,” she said.

Ultimately, Dr. McAlpine believes long COVID will eventually be classified as a peripheral autonomic disorder. The damage being wrought to the whole body also damages the brain’s vasculature, and Dr. McAlpine’s MRI techniques probe at this connection.

“Some of my MRI techniques are dependent on the very subtle changes in blood flow to different regions in response to demand. Brain fog has been a key symptom of POTS and ME/CFS. And it’s now a key symptom of long COVID ... what I’m looking at in some of my studies is how and in which parts of the brain are affected by this,” she said.

Dr. McAlpine’s interest in COVID’s effect on our nervous system goes back all the way to the first wave of patients with COVID, where she noticed an unusually high incidence of ischemic stroke.

“We recognized that COVID really has a huge impact on the vessels ... there’s quite a bit of vascular inflammation. In terms of neurology, we were seeing quite a bit of ischemic stroke, which is unusual,” she said.

Patients don’t normally present with stroke while infected with a virus. Seeking answers, she conducted a stroke study in patients with acute COVID and found profound endotheliopathy — damage to key cells in the lining of blood vessels — leading to a cascade of dysfunction and clotting.
 

A Constellation of Neuropsychiatric Symptoms

In early June, Dr. McAlpine gave a presentation of her research at the Demystifying Long COVID North American Conference 2024 in Boston. She’s been hard at work in extrapolating the causes of neuropsychiatric long COVID, a tangled web of symptoms seen in patients with long COVID that range from cognitive dysfunction to headaches, neuropathy, mental health, and the aforementioned dysautonomia.

Amid the sea of neurologic long COVID symptoms, she said “symptoms that are mixing and matching are very similar. So, I wanted to specifically look at a symptom that I could definitely isolate to the brain, and that is brain fog and cognitive dysfunction and impairment.”

In September 2021, the journal Translational Psychiatry published a study titled “Neuropsychiatric manifestations of COVID-19, potential neurotropic mechanisms, and therapeutic interventions.”

Going back all the way to the first cases of COVID in March 2020, the initial symptoms most patients complained of during an acute viral infection were around the respiratory system. Yet delirium, confusion, and neurocognitive disorders were also reported, puzzling experts and inciting a well-founded fear among many.

Even worse, after recovery, these neuropsychiatric symptoms persisted. The study found that coronavirus was able to invade the central nervous system through blood vessels and neuronal retrograde pathways, leading to brain injury and dysfunction of the cardiorespiratory center in the brainstem.

The study concluded by reporting that neuroimaging and neurochemical evidence indicated neuroimmune dysfunction and brain injury in severe patients with COVID-19. Suggested treatments included immunosuppressive therapies, vaccines to target the coronavirus’ spike protein, and pharmacological agents to improve endothelial integrity.

But there was still much that was unknown, and the study’s authors stressed the need for multidisciplinary research going forward.
 

How Immune Dysfunction Plays a Role

Similarly, Dr. McAlpine and her research team are still trying to sift their way through this opaque web to see why long COVID can cause autoimmune flare-ups.

In a study published in April, Dr. McAlpine and others found that small fiber neuropathy (SFN) after COVID is autoimmune-mediated and a dysfunction of the immune system.

Notably, they found that SFN could be a key pathologic finding in long COVID. SFN before the pandemic had been linked to ME/CFS and POTS, and the basic hypothesis revolved around an inflammatory immune response during a viral illness that may lead to immune dysregulation (dysimmunity) and damage to small fiber nerves.

But much still remains to be answered.

“We’ve seen quite a bit of that, but we still haven’t figured it out,” Dr. McAlpine said. “My big question is, how is this autonomic dysfunction related to the immune dysfunction, and how is that related to the vascular inflammation? There’s quite a bit of overlap in individuals with autoimmune disease and those who go on to develop this long COVID,” she added.

Still, a large portion of patients with long COVID don’t show autoimmune dysfunction, and those patients lack common biomarkers for an autoimmune condition.

“When we look at the spinal fluid in those individuals [with multiple sclerosis or a neuroinfectious disease], there’s inflammation going on ... the white blood cell count is elevated, the protein is elevated, the antibodies, the bands are elevated. I’ve been seeing long COVID patients now for 4 years, and their presentation is so distinctly different compared to my individuals that I see my patients with MS, or a neuroinfectious disease,” she said.

The mechanisms behind how all of this is interlaced remain unclear, and there may not be a one-size-fits-all treatment or definite pathogenesis for everyone.

“It’s that intersection of the immune system and the vessel wall ... Next is to figure out what do we treat, what are the targets, all of that, but there’s so many different presentations, and everybody has kind of a unique case,” she said.
 

How Physician Can Treat Common Symptoms Now

Though a cure for symptoms still eludes the scientific community, recent evidence has suggested that a combination of N-acetyl cysteine (NAC) and guanfacine has been successful in easing neurologic symptoms.

In November 2023, Arman Fesharaki-Zadeh, MD, PhD, a Yale Medicine behavioral neurologist and neuropsychiatrist, published a small study in Neuroimmunology Reports with his colleague, Yale neuroscientist Amy Arnsten, PhD. The two researchers showed how among 12 patients given 600 mg NAC daily, along with 1 mg guanfacine (increased to 2 mg after a month if well-tolerated), eight demonstrated improved cognitive abilities.

In patients who stayed on guanfacine + NAC, improved working memory, concentration, and executive functions were seen.

Also, they resumed their normal work schedule. Interruption and inability to work has been a significant factor in the lower quality-of-life long COVID patients experience.

Placebo-controlled trials will be needed going forward, but their small study has established safety and could open up a larger study in the future. For the moment, NAC can be gotten over the counter, and patients could get a prescription off-label from their doctor.

Dr. McAlpine has seen this combination work well for her own patients at Yale’s NeuroCOVID clinic.

Additionally, lifestyle practices such as quitting tobacco, increased exercise, exercising the mind, lowering alcohol intake, and even vitamin D supplementation (1000-2000 IU daily) could prove beneficial in tamping down persistent brain fog.

Vitamin D supports brain and nerve function through its reduction of brain aging biomarkers, regulating genes important for brain function, activating and deactivating enzymes important for neurotransmitter synthesis, and supporting neuronal growth and survival.

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

Neurologic symptoms of long COVID are vast, common, hard to treat, disabling, and can mimic dozens of other syndromes, with some symptoms as serious as those seen in myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) and postural orthostatic tachycardia syndrome (POTS).

Now, recent evidence has suggested long COVID is primarily an autonomic nervous system disorder.

Patients with long COVID increasingly complain of extreme fatigue, brain fog, cognitive issues, dizziness, irregular heart rhythms, and high or low blood pressure, all features seen with dysautonomia — dysregulation of the autonomic nervous system.

Their lives may never be the same.

Lindsay S. McAlpine, MD, a specialist in the neurologic sequelae of COVID-19 at the Yale School of Medicine and director of the Yale NeuroCOVID Clinic, New Haven, Connecticut, treats patients who struggle with neurologic symptoms even after disease recovery.

“Some people have the brain fog and the shortness of breath; some have the palpitations and the headaches ... it’s kind of a mix and match,” she said.

Dr. McAlpine’s research has been slowly building up into what could bring about a significant breakthrough in treating some of the most misunderstood and difficult-to-treat symptoms of long COVID.
 

The Effect of Vascular Inflammation on Long COVID

The National Institute of Neurological Disorders and Stroke recently awarded her a 5-year K23 grant to support her ongoing study, “Magnetic Resonance Imaging Biomarkers of Post-COVID-19 Cerebral Microvascular Dysfunction.”

Using advanced MRI techniques to identify microvascular dysfunction biomarkers in the brain, McAlpine hopes to unearth and better understand the pathophysiology behind neurologic issues post-COVID.

Dr. McAlpine said, “What we’re seeing is that there’s a unique signature of vascular inflammation in long COVID that is distinct from acute COVID. And it has to do with endothelial apathy and platelet dysfunction.”

She’s also looking into whether microvascular dysfunction could increase one’s risk for small vessel disease. Her research is quantitatively building an overall pathophysiology piece by piece.

“We’re quantifying cognitive dysfunction and using objective testing ... a very rigorous 3-hour protocol to really identify the patterns of weakness until we find deficits in memory working and declarative memory, deficits in executive functioning, and others. Those are the three pieces that I’m trying to piece together: The MRI, the blood work, and the cognitive testing,” she said.

Ultimately, Dr. McAlpine believes long COVID will eventually be classified as a peripheral autonomic disorder. The damage being wrought to the whole body also damages the brain’s vasculature, and Dr. McAlpine’s MRI techniques probe at this connection.

“Some of my MRI techniques are dependent on the very subtle changes in blood flow to different regions in response to demand. Brain fog has been a key symptom of POTS and ME/CFS. And it’s now a key symptom of long COVID ... what I’m looking at in some of my studies is how and in which parts of the brain are affected by this,” she said.

Dr. McAlpine’s interest in COVID’s effect on our nervous system goes back all the way to the first wave of patients with COVID, where she noticed an unusually high incidence of ischemic stroke.

“We recognized that COVID really has a huge impact on the vessels ... there’s quite a bit of vascular inflammation. In terms of neurology, we were seeing quite a bit of ischemic stroke, which is unusual,” she said.

Patients don’t normally present with stroke while infected with a virus. Seeking answers, she conducted a stroke study in patients with acute COVID and found profound endotheliopathy — damage to key cells in the lining of blood vessels — leading to a cascade of dysfunction and clotting.
 

A Constellation of Neuropsychiatric Symptoms

In early June, Dr. McAlpine gave a presentation of her research at the Demystifying Long COVID North American Conference 2024 in Boston. She’s been hard at work in extrapolating the causes of neuropsychiatric long COVID, a tangled web of symptoms seen in patients with long COVID that range from cognitive dysfunction to headaches, neuropathy, mental health, and the aforementioned dysautonomia.

Amid the sea of neurologic long COVID symptoms, she said “symptoms that are mixing and matching are very similar. So, I wanted to specifically look at a symptom that I could definitely isolate to the brain, and that is brain fog and cognitive dysfunction and impairment.”

In September 2021, the journal Translational Psychiatry published a study titled “Neuropsychiatric manifestations of COVID-19, potential neurotropic mechanisms, and therapeutic interventions.”

Going back all the way to the first cases of COVID in March 2020, the initial symptoms most patients complained of during an acute viral infection were around the respiratory system. Yet delirium, confusion, and neurocognitive disorders were also reported, puzzling experts and inciting a well-founded fear among many.

Even worse, after recovery, these neuropsychiatric symptoms persisted. The study found that coronavirus was able to invade the central nervous system through blood vessels and neuronal retrograde pathways, leading to brain injury and dysfunction of the cardiorespiratory center in the brainstem.

The study concluded by reporting that neuroimaging and neurochemical evidence indicated neuroimmune dysfunction and brain injury in severe patients with COVID-19. Suggested treatments included immunosuppressive therapies, vaccines to target the coronavirus’ spike protein, and pharmacological agents to improve endothelial integrity.

But there was still much that was unknown, and the study’s authors stressed the need for multidisciplinary research going forward.
 

How Immune Dysfunction Plays a Role

Similarly, Dr. McAlpine and her research team are still trying to sift their way through this opaque web to see why long COVID can cause autoimmune flare-ups.

In a study published in April, Dr. McAlpine and others found that small fiber neuropathy (SFN) after COVID is autoimmune-mediated and a dysfunction of the immune system.

Notably, they found that SFN could be a key pathologic finding in long COVID. SFN before the pandemic had been linked to ME/CFS and POTS, and the basic hypothesis revolved around an inflammatory immune response during a viral illness that may lead to immune dysregulation (dysimmunity) and damage to small fiber nerves.

But much still remains to be answered.

“We’ve seen quite a bit of that, but we still haven’t figured it out,” Dr. McAlpine said. “My big question is, how is this autonomic dysfunction related to the immune dysfunction, and how is that related to the vascular inflammation? There’s quite a bit of overlap in individuals with autoimmune disease and those who go on to develop this long COVID,” she added.

Still, a large portion of patients with long COVID don’t show autoimmune dysfunction, and those patients lack common biomarkers for an autoimmune condition.

“When we look at the spinal fluid in those individuals [with multiple sclerosis or a neuroinfectious disease], there’s inflammation going on ... the white blood cell count is elevated, the protein is elevated, the antibodies, the bands are elevated. I’ve been seeing long COVID patients now for 4 years, and their presentation is so distinctly different compared to my individuals that I see my patients with MS, or a neuroinfectious disease,” she said.

The mechanisms behind how all of this is interlaced remain unclear, and there may not be a one-size-fits-all treatment or definite pathogenesis for everyone.

“It’s that intersection of the immune system and the vessel wall ... Next is to figure out what do we treat, what are the targets, all of that, but there’s so many different presentations, and everybody has kind of a unique case,” she said.
 

How Physician Can Treat Common Symptoms Now

Though a cure for symptoms still eludes the scientific community, recent evidence has suggested that a combination of N-acetyl cysteine (NAC) and guanfacine has been successful in easing neurologic symptoms.

In November 2023, Arman Fesharaki-Zadeh, MD, PhD, a Yale Medicine behavioral neurologist and neuropsychiatrist, published a small study in Neuroimmunology Reports with his colleague, Yale neuroscientist Amy Arnsten, PhD. The two researchers showed how among 12 patients given 600 mg NAC daily, along with 1 mg guanfacine (increased to 2 mg after a month if well-tolerated), eight demonstrated improved cognitive abilities.

In patients who stayed on guanfacine + NAC, improved working memory, concentration, and executive functions were seen.

Also, they resumed their normal work schedule. Interruption and inability to work has been a significant factor in the lower quality-of-life long COVID patients experience.

Placebo-controlled trials will be needed going forward, but their small study has established safety and could open up a larger study in the future. For the moment, NAC can be gotten over the counter, and patients could get a prescription off-label from their doctor.

Dr. McAlpine has seen this combination work well for her own patients at Yale’s NeuroCOVID clinic.

Additionally, lifestyle practices such as quitting tobacco, increased exercise, exercising the mind, lowering alcohol intake, and even vitamin D supplementation (1000-2000 IU daily) could prove beneficial in tamping down persistent brain fog.

Vitamin D supports brain and nerve function through its reduction of brain aging biomarkers, regulating genes important for brain function, activating and deactivating enzymes important for neurotransmitter synthesis, and supporting neuronal growth and survival.

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

Individuals who are more active in the evening performed better on cognitive tests than did those who are typically more active in the morning hours, new research suggests. 

“Rather than just being personal preferences, these chronotypes could impact our cognitive function,” said study investigator, Raha West, MBChB, with Imperial College London, London, England, in a statement.

But the researchers also urged caution when interpreting the findings.

“It’s important to note that this doesn’t mean all morning people have worse cognitive performance. The findings reflect an overall trend where the majority might lean toward better cognition in the evening types,” Dr. West added. 

In addition, across the board, getting the recommended 7-9 hours of nightly sleep was best for cognitive function, and sleeping for less than 7 or more than 9 hours had detrimental effects on brain function regardless of whether an individual was a night owl or lark. 

The study was published online in BMJ Public Health. 
 

A UK Biobank Cohort Study 

The findings are based on a cross-sectional analysis of 26,820 adults aged 53-86 years from the UK Biobank database, who were categorized into two cohorts. 

Cohort 1 had 10,067 participants (56% women) who completed four cognitive tests measuring fluid intelligence/reasoning, pairs matching, reaction time, and prospective memory. Cohort 2 had 16,753 participants (56% women) who completed two cognitive assessments (pairs matching and reaction time).

Participants self-reported sleep duration, chronotype, and quality. Cognitive test scores were evaluated against sleep parameters and health and lifestyle factors including sex, age, vascular and cardiac conditions, diabetes,alcohol use, smoking habits, and body mass index.

The results revealed a positive association between normal sleep duration (7-9 hours) and cognitive scores in Cohort 1 (beta, 0.0567), while extended sleep duration negatively impacted scores across in Cohort 1 and 2 (beta, –0.188 and beta, –0.2619, respectively). 

An individual’s preference for evening or morning activity correlated strongly with their test scores. In particular, night owls consistently performed better on cognitive tests than early birds. 

“While understanding and working with your natural sleep tendencies is essential, it’s equally important to remember to get just enough sleep, not too long or too short,” Dr. West noted. “This is crucial for keeping your brain healthy and functioning at its best.”

Contrary to some previous findings, the study did not find a significant relationship between sleep, sleepiness/insomnia, and cognitive performance. This may be because specific aspects of insomnia, such as severity and chronicity, as well as comorbid conditions need to be considered, the investigators wrote. 

They added that age and diabetes consistently emerged as negative predictors of cognitive functioning across both cohorts, in line with previous research. 

Limitations of the study include the cross-sectional design, which limits causal inferences; the possibility of residual confounding; and reliance on self-reported sleep data.

Also, the study did not adjust for educational attainment, a factor potentially influential on cognitive performance and sleep patterns, because of incomplete data. The study also did not factor in depression and social isolation, which have been shown to increase the risk for cognitive decline.
 

No Real-World Implications

Several outside experts offered their perspective on the study in a statement from the UK nonprofit Science Media Centre. 

The study provides “interesting insights” into the difference in memory and thinking in people who identify themselves as a “morning” or “evening” person, Jacqui Hanley, PhD, with Alzheimer’s Research UK, said in the statement. 

However, without a detailed picture of what is going on in the brain, it’s not clear whether being a morning or evening person affects memory and thinking or whether a decline in cognition is causing changes to sleeping patterns, Dr. Hanley added. 

Roi Cohen Kadosh, PhD, CPsychol, professor of cognitive neuroscience, University of Surrey, Guildford, England, cautioned that there are “multiple potential reasons” for these associations. 

“Therefore, there are no implications in my view for the real world. I fear that the general public will not be able to understand that and will change their sleep pattern, while this study does not give any evidence that this will lead to any benefit,” Dr. Cohen Kadosh said. 

Jessica Chelekis, PhD, MBA, a sleep expert from Brunel University London, Uxbridge, England, said that the “main takeaway should be that the cultural belief that early risers are more productive than ‘night owls’ does not hold up to scientific scrutiny.” 

“While everyone should aim to get good-quality sleep each night, we should also try to be aware of what time of day we are at our (cognitive) best and work in ways that suit us. Night owls, in particular, should not be shamed into fitting a stereotype that favors an ‘early to bed, early to rise’ practice,” Dr. Chelekis said. 

Funding for the study was provided by the Korea Institute of Oriental Medicine in collaboration with Imperial College London. Dr. Hanley, Dr. Cohen Kadosh, and Dr. Chelekis have no relevant disclosures.

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

Individuals who are more active in the evening performed better on cognitive tests than did those who are typically more active in the morning hours, new research suggests. 

“Rather than just being personal preferences, these chronotypes could impact our cognitive function,” said study investigator, Raha West, MBChB, with Imperial College London, London, England, in a statement.

But the researchers also urged caution when interpreting the findings.

“It’s important to note that this doesn’t mean all morning people have worse cognitive performance. The findings reflect an overall trend where the majority might lean toward better cognition in the evening types,” Dr. West added. 

In addition, across the board, getting the recommended 7-9 hours of nightly sleep was best for cognitive function, and sleeping for less than 7 or more than 9 hours had detrimental effects on brain function regardless of whether an individual was a night owl or lark. 

The study was published online in BMJ Public Health. 
 

A UK Biobank Cohort Study 

The findings are based on a cross-sectional analysis of 26,820 adults aged 53-86 years from the UK Biobank database, who were categorized into two cohorts. 

Cohort 1 had 10,067 participants (56% women) who completed four cognitive tests measuring fluid intelligence/reasoning, pairs matching, reaction time, and prospective memory. Cohort 2 had 16,753 participants (56% women) who completed two cognitive assessments (pairs matching and reaction time).

Participants self-reported sleep duration, chronotype, and quality. Cognitive test scores were evaluated against sleep parameters and health and lifestyle factors including sex, age, vascular and cardiac conditions, diabetes,alcohol use, smoking habits, and body mass index.

The results revealed a positive association between normal sleep duration (7-9 hours) and cognitive scores in Cohort 1 (beta, 0.0567), while extended sleep duration negatively impacted scores across in Cohort 1 and 2 (beta, –0.188 and beta, –0.2619, respectively). 

An individual’s preference for evening or morning activity correlated strongly with their test scores. In particular, night owls consistently performed better on cognitive tests than early birds. 

“While understanding and working with your natural sleep tendencies is essential, it’s equally important to remember to get just enough sleep, not too long or too short,” Dr. West noted. “This is crucial for keeping your brain healthy and functioning at its best.”

Contrary to some previous findings, the study did not find a significant relationship between sleep, sleepiness/insomnia, and cognitive performance. This may be because specific aspects of insomnia, such as severity and chronicity, as well as comorbid conditions need to be considered, the investigators wrote. 

They added that age and diabetes consistently emerged as negative predictors of cognitive functioning across both cohorts, in line with previous research. 

Limitations of the study include the cross-sectional design, which limits causal inferences; the possibility of residual confounding; and reliance on self-reported sleep data.

Also, the study did not adjust for educational attainment, a factor potentially influential on cognitive performance and sleep patterns, because of incomplete data. The study also did not factor in depression and social isolation, which have been shown to increase the risk for cognitive decline.
 

No Real-World Implications

Several outside experts offered their perspective on the study in a statement from the UK nonprofit Science Media Centre. 

The study provides “interesting insights” into the difference in memory and thinking in people who identify themselves as a “morning” or “evening” person, Jacqui Hanley, PhD, with Alzheimer’s Research UK, said in the statement. 

However, without a detailed picture of what is going on in the brain, it’s not clear whether being a morning or evening person affects memory and thinking or whether a decline in cognition is causing changes to sleeping patterns, Dr. Hanley added. 

Roi Cohen Kadosh, PhD, CPsychol, professor of cognitive neuroscience, University of Surrey, Guildford, England, cautioned that there are “multiple potential reasons” for these associations. 

“Therefore, there are no implications in my view for the real world. I fear that the general public will not be able to understand that and will change their sleep pattern, while this study does not give any evidence that this will lead to any benefit,” Dr. Cohen Kadosh said. 

Jessica Chelekis, PhD, MBA, a sleep expert from Brunel University London, Uxbridge, England, said that the “main takeaway should be that the cultural belief that early risers are more productive than ‘night owls’ does not hold up to scientific scrutiny.” 

“While everyone should aim to get good-quality sleep each night, we should also try to be aware of what time of day we are at our (cognitive) best and work in ways that suit us. Night owls, in particular, should not be shamed into fitting a stereotype that favors an ‘early to bed, early to rise’ practice,” Dr. Chelekis said. 

Funding for the study was provided by the Korea Institute of Oriental Medicine in collaboration with Imperial College London. Dr. Hanley, Dr. Cohen Kadosh, and Dr. Chelekis have no relevant disclosures.

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

Individuals who are more active in the evening performed better on cognitive tests than did those who are typically more active in the morning hours, new research suggests. 

“Rather than just being personal preferences, these chronotypes could impact our cognitive function,” said study investigator, Raha West, MBChB, with Imperial College London, London, England, in a statement.

But the researchers also urged caution when interpreting the findings.

“It’s important to note that this doesn’t mean all morning people have worse cognitive performance. The findings reflect an overall trend where the majority might lean toward better cognition in the evening types,” Dr. West added. 

In addition, across the board, getting the recommended 7-9 hours of nightly sleep was best for cognitive function, and sleeping for less than 7 or more than 9 hours had detrimental effects on brain function regardless of whether an individual was a night owl or lark. 

The study was published online in BMJ Public Health. 
 

A UK Biobank Cohort Study 

The findings are based on a cross-sectional analysis of 26,820 adults aged 53-86 years from the UK Biobank database, who were categorized into two cohorts. 

Cohort 1 had 10,067 participants (56% women) who completed four cognitive tests measuring fluid intelligence/reasoning, pairs matching, reaction time, and prospective memory. Cohort 2 had 16,753 participants (56% women) who completed two cognitive assessments (pairs matching and reaction time).

Participants self-reported sleep duration, chronotype, and quality. Cognitive test scores were evaluated against sleep parameters and health and lifestyle factors including sex, age, vascular and cardiac conditions, diabetes,alcohol use, smoking habits, and body mass index.

The results revealed a positive association between normal sleep duration (7-9 hours) and cognitive scores in Cohort 1 (beta, 0.0567), while extended sleep duration negatively impacted scores across in Cohort 1 and 2 (beta, –0.188 and beta, –0.2619, respectively). 

An individual’s preference for evening or morning activity correlated strongly with their test scores. In particular, night owls consistently performed better on cognitive tests than early birds. 

“While understanding and working with your natural sleep tendencies is essential, it’s equally important to remember to get just enough sleep, not too long or too short,” Dr. West noted. “This is crucial for keeping your brain healthy and functioning at its best.”

Contrary to some previous findings, the study did not find a significant relationship between sleep, sleepiness/insomnia, and cognitive performance. This may be because specific aspects of insomnia, such as severity and chronicity, as well as comorbid conditions need to be considered, the investigators wrote. 

They added that age and diabetes consistently emerged as negative predictors of cognitive functioning across both cohorts, in line with previous research. 

Limitations of the study include the cross-sectional design, which limits causal inferences; the possibility of residual confounding; and reliance on self-reported sleep data.

Also, the study did not adjust for educational attainment, a factor potentially influential on cognitive performance and sleep patterns, because of incomplete data. The study also did not factor in depression and social isolation, which have been shown to increase the risk for cognitive decline.
 

No Real-World Implications

Several outside experts offered their perspective on the study in a statement from the UK nonprofit Science Media Centre. 

The study provides “interesting insights” into the difference in memory and thinking in people who identify themselves as a “morning” or “evening” person, Jacqui Hanley, PhD, with Alzheimer’s Research UK, said in the statement. 

However, without a detailed picture of what is going on in the brain, it’s not clear whether being a morning or evening person affects memory and thinking or whether a decline in cognition is causing changes to sleeping patterns, Dr. Hanley added. 

Roi Cohen Kadosh, PhD, CPsychol, professor of cognitive neuroscience, University of Surrey, Guildford, England, cautioned that there are “multiple potential reasons” for these associations. 

“Therefore, there are no implications in my view for the real world. I fear that the general public will not be able to understand that and will change their sleep pattern, while this study does not give any evidence that this will lead to any benefit,” Dr. Cohen Kadosh said. 

Jessica Chelekis, PhD, MBA, a sleep expert from Brunel University London, Uxbridge, England, said that the “main takeaway should be that the cultural belief that early risers are more productive than ‘night owls’ does not hold up to scientific scrutiny.” 

“While everyone should aim to get good-quality sleep each night, we should also try to be aware of what time of day we are at our (cognitive) best and work in ways that suit us. Night owls, in particular, should not be shamed into fitting a stereotype that favors an ‘early to bed, early to rise’ practice,” Dr. Chelekis said. 

Funding for the study was provided by the Korea Institute of Oriental Medicine in collaboration with Imperial College London. Dr. Hanley, Dr. Cohen Kadosh, and Dr. Chelekis have no relevant disclosures.

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

Parkinson’s disease (PD) and dementia with Lewy bodies are currently defined by clinical features, which can be heterogeneous and do not capture the presymptomatic phase of neurodegeneration.

Recent advances have enabled the detection of misfolded and aggregated alpha-synuclein protein (synucleinopathy) — a key pathologic feature of these diseases — allowing for earlier and more accurate diagnosis. This has led two international research groups to propose a major shift from a clinical to a biological definition of the disease.

Both groups emphasized the detection of alpha-synuclein through recently developed seed amplification assays as a key diagnostic and staging tool, although they differ in their approaches and criteria.
 

NSD-ISS

A team led by Tanya Simuni, MD, with Northwestern University, Chicago, proposed a biological definition that combines PD and dementia with Lewy bodies under the term neuronal alpha-synuclein disease (NSD).

NSD is defined by the presence during life of pathologic neuronal alpha-synuclein (S, the first biological anchor) in cerebrospinal fluid (CSF), regardless of the presence of any specific clinical syndrome. Individuals with pathologic neuronal alpha-synuclein aggregates are at a high risk for dopaminergic neuronal dysfunction (D, the second key biological anchor).

Dr. Simuni and colleagues also proposed the NSD integrated staging system (NSD-ISS) rooted in the S and D biological anchors coupled with the degree of functional impairment caused by clinical signs or symptoms.

Stages 0-1 occur without signs or symptoms and are defined by the presence of pathogenic variants in the SNCA gene (stage 0), S alone (stage 1A), or S and D (stage 1B).

The presence of clinical manifestations marks the transition to stage 2 and beyond, with stage 2 characterized by subtle signs or symptoms but without functional impairment. Stages 2B-6 require both S and D and stage-specific increases in functional impairment.

“An advantage of the NSD-ISS will be to reduce heterogeneity in clinical trials by requiring biological consistency within the study cohort rather than identifying study participants on the basis of clinical criteria for Parkinson’s disease and dementia with Lewy bodies,” Dr. Simuni and colleagues pointed out in a position paper describing the NSD-ISS published online earlier this year in The Lancet Neurology.

The NSD-ISS will “evolve to include the incorporation of data-driven definitions of stage-specific functional anchors and additional biomarkers as they emerge and are validated.”

For now, the NSD-ISS is intended for research use only and not in the clinic.
 

The SynNeurGe Research Diagnostic Criteria

Separately, a team led by Anthony Lang, MD, with the Krembil Brain Institute at Toronto Western Hospital, Toronto, Ontario, Canada, proposed the SynNeurGe biological classification of PD.

Described in a companion paper published online in The Lancet Neurology, their “S-N-G” classification emphasizes the important interactions between three biological factors that contribute to disease: The presence or absence of pathologic alpha-synuclein (S) in tissues or CSF, an evidence of underlying neurodegeneration (N) defined by neuroimaging procedures, and the documentation of pathogenic gene variants (G) that cause or strongly predispose to PD.

These three components link to a clinical component, defined either by a single high-specificity clinical feature or by multiple lower-specificity clinical features.

As with the NSD-ISS, the SynNeurGe model is intended for research purposes only and is not ready for immediate application in the clinic.

Both groups acknowledged the need for studies to test and validate the proposed classification systems.
 

Caveats, Cautionary Notes

Adopting a biological definition of PD would represent a shift as the field has prompted considerable discussion and healthy debate.

Commenting for this news organization, James Beck, PhD, chief scientific officer at the Parkinson’s Foundation, said the principle behind the proposed classifications is where “the field needs to go.”

“Right now, people with Parkinson’s take too long to get a confirmed diagnosis of their disease, and despite best efforts, clinicians can get it wrong, not diagnosing people or maybe misdiagnosing people,” Dr. Beck said. “Moving to a biological basis, where we have better certainty, is going to be really important.”

Beck noted that the NSD-ISS “goes all in on alpha-synuclein,” which does play a big role in PD, but added, “I don’t know if I want to declare a winner after the first heat. There are other biomarkers that are coming to fruition but still need validation, and alpha-synuclein may be just one of many to help determine whether someone has Parkinson’s disease or not.”

Un Kang, MD, director of translational research at the Fresco Institute for Parkinson’s & Movement Disorders at NYU Langone Health, New York City, told this news organization that alpha-synuclein has “very high diagnostic accuracy” but cautioned that the adoption of a biological definition for PD would not usurp a clinical diagnosis.

“We need both,” Dr. Kang said. “But knowing the underlying pathology is important for earlier diagnosis and testing of potential therapies to treat the molecular pathology. If a patient doesn’t have abnormal synuclein, you may be treating the wrong disease.”

The coauthors of recent JAMA Neurology perspective said the biological definitions are “exciting, but there is “wisdom” in tapping the brakes when attempting to establish a biological definition and classification system for PD.

“Although these two proposals represent significant steps forward, a sprint toward the finish line may not be wise,” wrote Njideka U. Okubadejo, MD, with University of Lagos, Nigeria; Joseph Jankovic, MD, with Baylor College of Medicine, Houston; and Michael S. Okun, MD, with University of Florida Health, Gainesville, Florida.

“A process that embraces inclusivity and weaves in evolving technological advancements will be important. Who benefits if implementation of a biologically based staging system for PD is hurried?” they continued.

The proposals rely heavily on alpha-synuclein assays, they noted, which currently require subjective interpretation and lack extensive validation. They also worry that the need for expensive and, in some regions, unattainable biological fluids (CSF) or imaging studies (dopamine transporter scan) may limit global access to both PD trials and future therapeutics.

They also worry about retiring the name Parkinson’s disease.

“Beyond the historical importance of the term Parkinson disease, any classification that proposes abandoning the two words in either clinical or research descriptions could have unintended global repercussions,” Dr. Okubadejo, Dr. Jankovic, and Dr. Okun cautioned.

Dr. Beck told this news organization he’s spoken to clinicians at meetings about this and “no one really likes the idea” of retiring the term Parkinson’s disease.

Frederick Ketchum, MD, and Nathaniel Chin, MD, with University of Wisconsin–Madison, worry about the “lived” experience of the asymptomatic patient after receiving a biological diagnosis.

“Biological diagnosis might enable effective prognostication and treatment in the future but will substantially change the experience of illness for patients now as new frameworks are slowly adopted and knowledge is gained,” they said in a correspondence in The Lancet Neurology.

“Understanding and addressing this lived experience remains a core task for health professionals and must be made central as we begin an era in which neurological diseases are redefined on a biological basis,” Dr. Ketchum and Dr. Chin advised.

A complete list of agencies that supported this work and author disclosures are available with the original articles. Dr. Beck and Dr. Kang had no relevant disclosures.

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

Parkinson’s disease (PD) and dementia with Lewy bodies are currently defined by clinical features, which can be heterogeneous and do not capture the presymptomatic phase of neurodegeneration.

Recent advances have enabled the detection of misfolded and aggregated alpha-synuclein protein (synucleinopathy) — a key pathologic feature of these diseases — allowing for earlier and more accurate diagnosis. This has led two international research groups to propose a major shift from a clinical to a biological definition of the disease.

Both groups emphasized the detection of alpha-synuclein through recently developed seed amplification assays as a key diagnostic and staging tool, although they differ in their approaches and criteria.
 

NSD-ISS

A team led by Tanya Simuni, MD, with Northwestern University, Chicago, proposed a biological definition that combines PD and dementia with Lewy bodies under the term neuronal alpha-synuclein disease (NSD).

NSD is defined by the presence during life of pathologic neuronal alpha-synuclein (S, the first biological anchor) in cerebrospinal fluid (CSF), regardless of the presence of any specific clinical syndrome. Individuals with pathologic neuronal alpha-synuclein aggregates are at a high risk for dopaminergic neuronal dysfunction (D, the second key biological anchor).

Dr. Simuni and colleagues also proposed the NSD integrated staging system (NSD-ISS) rooted in the S and D biological anchors coupled with the degree of functional impairment caused by clinical signs or symptoms.

Stages 0-1 occur without signs or symptoms and are defined by the presence of pathogenic variants in the SNCA gene (stage 0), S alone (stage 1A), or S and D (stage 1B).

The presence of clinical manifestations marks the transition to stage 2 and beyond, with stage 2 characterized by subtle signs or symptoms but without functional impairment. Stages 2B-6 require both S and D and stage-specific increases in functional impairment.

“An advantage of the NSD-ISS will be to reduce heterogeneity in clinical trials by requiring biological consistency within the study cohort rather than identifying study participants on the basis of clinical criteria for Parkinson’s disease and dementia with Lewy bodies,” Dr. Simuni and colleagues pointed out in a position paper describing the NSD-ISS published online earlier this year in The Lancet Neurology.

The NSD-ISS will “evolve to include the incorporation of data-driven definitions of stage-specific functional anchors and additional biomarkers as they emerge and are validated.”

For now, the NSD-ISS is intended for research use only and not in the clinic.
 

The SynNeurGe Research Diagnostic Criteria

Separately, a team led by Anthony Lang, MD, with the Krembil Brain Institute at Toronto Western Hospital, Toronto, Ontario, Canada, proposed the SynNeurGe biological classification of PD.

Described in a companion paper published online in The Lancet Neurology, their “S-N-G” classification emphasizes the important interactions between three biological factors that contribute to disease: The presence or absence of pathologic alpha-synuclein (S) in tissues or CSF, an evidence of underlying neurodegeneration (N) defined by neuroimaging procedures, and the documentation of pathogenic gene variants (G) that cause or strongly predispose to PD.

These three components link to a clinical component, defined either by a single high-specificity clinical feature or by multiple lower-specificity clinical features.

As with the NSD-ISS, the SynNeurGe model is intended for research purposes only and is not ready for immediate application in the clinic.

Both groups acknowledged the need for studies to test and validate the proposed classification systems.
 

Caveats, Cautionary Notes

Adopting a biological definition of PD would represent a shift as the field has prompted considerable discussion and healthy debate.

Commenting for this news organization, James Beck, PhD, chief scientific officer at the Parkinson’s Foundation, said the principle behind the proposed classifications is where “the field needs to go.”

“Right now, people with Parkinson’s take too long to get a confirmed diagnosis of their disease, and despite best efforts, clinicians can get it wrong, not diagnosing people or maybe misdiagnosing people,” Dr. Beck said. “Moving to a biological basis, where we have better certainty, is going to be really important.”

Beck noted that the NSD-ISS “goes all in on alpha-synuclein,” which does play a big role in PD, but added, “I don’t know if I want to declare a winner after the first heat. There are other biomarkers that are coming to fruition but still need validation, and alpha-synuclein may be just one of many to help determine whether someone has Parkinson’s disease or not.”

Un Kang, MD, director of translational research at the Fresco Institute for Parkinson’s & Movement Disorders at NYU Langone Health, New York City, told this news organization that alpha-synuclein has “very high diagnostic accuracy” but cautioned that the adoption of a biological definition for PD would not usurp a clinical diagnosis.

“We need both,” Dr. Kang said. “But knowing the underlying pathology is important for earlier diagnosis and testing of potential therapies to treat the molecular pathology. If a patient doesn’t have abnormal synuclein, you may be treating the wrong disease.”

The coauthors of recent JAMA Neurology perspective said the biological definitions are “exciting, but there is “wisdom” in tapping the brakes when attempting to establish a biological definition and classification system for PD.

“Although these two proposals represent significant steps forward, a sprint toward the finish line may not be wise,” wrote Njideka U. Okubadejo, MD, with University of Lagos, Nigeria; Joseph Jankovic, MD, with Baylor College of Medicine, Houston; and Michael S. Okun, MD, with University of Florida Health, Gainesville, Florida.

“A process that embraces inclusivity and weaves in evolving technological advancements will be important. Who benefits if implementation of a biologically based staging system for PD is hurried?” they continued.

The proposals rely heavily on alpha-synuclein assays, they noted, which currently require subjective interpretation and lack extensive validation. They also worry that the need for expensive and, in some regions, unattainable biological fluids (CSF) or imaging studies (dopamine transporter scan) may limit global access to both PD trials and future therapeutics.

They also worry about retiring the name Parkinson’s disease.

“Beyond the historical importance of the term Parkinson disease, any classification that proposes abandoning the two words in either clinical or research descriptions could have unintended global repercussions,” Dr. Okubadejo, Dr. Jankovic, and Dr. Okun cautioned.

Dr. Beck told this news organization he’s spoken to clinicians at meetings about this and “no one really likes the idea” of retiring the term Parkinson’s disease.

Frederick Ketchum, MD, and Nathaniel Chin, MD, with University of Wisconsin–Madison, worry about the “lived” experience of the asymptomatic patient after receiving a biological diagnosis.

“Biological diagnosis might enable effective prognostication and treatment in the future but will substantially change the experience of illness for patients now as new frameworks are slowly adopted and knowledge is gained,” they said in a correspondence in The Lancet Neurology.

“Understanding and addressing this lived experience remains a core task for health professionals and must be made central as we begin an era in which neurological diseases are redefined on a biological basis,” Dr. Ketchum and Dr. Chin advised.

A complete list of agencies that supported this work and author disclosures are available with the original articles. Dr. Beck and Dr. Kang had no relevant disclosures.

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

Parkinson’s disease (PD) and dementia with Lewy bodies are currently defined by clinical features, which can be heterogeneous and do not capture the presymptomatic phase of neurodegeneration.

Recent advances have enabled the detection of misfolded and aggregated alpha-synuclein protein (synucleinopathy) — a key pathologic feature of these diseases — allowing for earlier and more accurate diagnosis. This has led two international research groups to propose a major shift from a clinical to a biological definition of the disease.

Both groups emphasized the detection of alpha-synuclein through recently developed seed amplification assays as a key diagnostic and staging tool, although they differ in their approaches and criteria.
 

NSD-ISS

A team led by Tanya Simuni, MD, with Northwestern University, Chicago, proposed a biological definition that combines PD and dementia with Lewy bodies under the term neuronal alpha-synuclein disease (NSD).

NSD is defined by the presence during life of pathologic neuronal alpha-synuclein (S, the first biological anchor) in cerebrospinal fluid (CSF), regardless of the presence of any specific clinical syndrome. Individuals with pathologic neuronal alpha-synuclein aggregates are at a high risk for dopaminergic neuronal dysfunction (D, the second key biological anchor).

Dr. Simuni and colleagues also proposed the NSD integrated staging system (NSD-ISS) rooted in the S and D biological anchors coupled with the degree of functional impairment caused by clinical signs or symptoms.

Stages 0-1 occur without signs or symptoms and are defined by the presence of pathogenic variants in the SNCA gene (stage 0), S alone (stage 1A), or S and D (stage 1B).

The presence of clinical manifestations marks the transition to stage 2 and beyond, with stage 2 characterized by subtle signs or symptoms but without functional impairment. Stages 2B-6 require both S and D and stage-specific increases in functional impairment.

“An advantage of the NSD-ISS will be to reduce heterogeneity in clinical trials by requiring biological consistency within the study cohort rather than identifying study participants on the basis of clinical criteria for Parkinson’s disease and dementia with Lewy bodies,” Dr. Simuni and colleagues pointed out in a position paper describing the NSD-ISS published online earlier this year in The Lancet Neurology.

The NSD-ISS will “evolve to include the incorporation of data-driven definitions of stage-specific functional anchors and additional biomarkers as they emerge and are validated.”

For now, the NSD-ISS is intended for research use only and not in the clinic.
 

The SynNeurGe Research Diagnostic Criteria

Separately, a team led by Anthony Lang, MD, with the Krembil Brain Institute at Toronto Western Hospital, Toronto, Ontario, Canada, proposed the SynNeurGe biological classification of PD.

Described in a companion paper published online in The Lancet Neurology, their “S-N-G” classification emphasizes the important interactions between three biological factors that contribute to disease: The presence or absence of pathologic alpha-synuclein (S) in tissues or CSF, an evidence of underlying neurodegeneration (N) defined by neuroimaging procedures, and the documentation of pathogenic gene variants (G) that cause or strongly predispose to PD.

These three components link to a clinical component, defined either by a single high-specificity clinical feature or by multiple lower-specificity clinical features.

As with the NSD-ISS, the SynNeurGe model is intended for research purposes only and is not ready for immediate application in the clinic.

Both groups acknowledged the need for studies to test and validate the proposed classification systems.
 

Caveats, Cautionary Notes

Adopting a biological definition of PD would represent a shift as the field has prompted considerable discussion and healthy debate.

Commenting for this news organization, James Beck, PhD, chief scientific officer at the Parkinson’s Foundation, said the principle behind the proposed classifications is where “the field needs to go.”

“Right now, people with Parkinson’s take too long to get a confirmed diagnosis of their disease, and despite best efforts, clinicians can get it wrong, not diagnosing people or maybe misdiagnosing people,” Dr. Beck said. “Moving to a biological basis, where we have better certainty, is going to be really important.”

Beck noted that the NSD-ISS “goes all in on alpha-synuclein,” which does play a big role in PD, but added, “I don’t know if I want to declare a winner after the first heat. There are other biomarkers that are coming to fruition but still need validation, and alpha-synuclein may be just one of many to help determine whether someone has Parkinson’s disease or not.”

Un Kang, MD, director of translational research at the Fresco Institute for Parkinson’s & Movement Disorders at NYU Langone Health, New York City, told this news organization that alpha-synuclein has “very high diagnostic accuracy” but cautioned that the adoption of a biological definition for PD would not usurp a clinical diagnosis.

“We need both,” Dr. Kang said. “But knowing the underlying pathology is important for earlier diagnosis and testing of potential therapies to treat the molecular pathology. If a patient doesn’t have abnormal synuclein, you may be treating the wrong disease.”

The coauthors of recent JAMA Neurology perspective said the biological definitions are “exciting, but there is “wisdom” in tapping the brakes when attempting to establish a biological definition and classification system for PD.

“Although these two proposals represent significant steps forward, a sprint toward the finish line may not be wise,” wrote Njideka U. Okubadejo, MD, with University of Lagos, Nigeria; Joseph Jankovic, MD, with Baylor College of Medicine, Houston; and Michael S. Okun, MD, with University of Florida Health, Gainesville, Florida.

“A process that embraces inclusivity and weaves in evolving technological advancements will be important. Who benefits if implementation of a biologically based staging system for PD is hurried?” they continued.

The proposals rely heavily on alpha-synuclein assays, they noted, which currently require subjective interpretation and lack extensive validation. They also worry that the need for expensive and, in some regions, unattainable biological fluids (CSF) or imaging studies (dopamine transporter scan) may limit global access to both PD trials and future therapeutics.

They also worry about retiring the name Parkinson’s disease.

“Beyond the historical importance of the term Parkinson disease, any classification that proposes abandoning the two words in either clinical or research descriptions could have unintended global repercussions,” Dr. Okubadejo, Dr. Jankovic, and Dr. Okun cautioned.

Dr. Beck told this news organization he’s spoken to clinicians at meetings about this and “no one really likes the idea” of retiring the term Parkinson’s disease.

Frederick Ketchum, MD, and Nathaniel Chin, MD, with University of Wisconsin–Madison, worry about the “lived” experience of the asymptomatic patient after receiving a biological diagnosis.

“Biological diagnosis might enable effective prognostication and treatment in the future but will substantially change the experience of illness for patients now as new frameworks are slowly adopted and knowledge is gained,” they said in a correspondence in The Lancet Neurology.

“Understanding and addressing this lived experience remains a core task for health professionals and must be made central as we begin an era in which neurological diseases are redefined on a biological basis,” Dr. Ketchum and Dr. Chin advised.

A complete list of agencies that supported this work and author disclosures are available with the original articles. Dr. Beck and Dr. Kang had no relevant disclosures.

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

TOPLINE:

New-onset atrial fibrillation (AF) is associated with a substantially higher risk for all-cause dementia in patients with type 2 diabetes (T2D).

METHODOLOGY:

• Studies suggest a potential link between AF and dementia in the broader population, but evidence is scarce in people with diabetes, who are at increased risk for both conditions.
• This longitudinal observational study assessed the association between new-onset AF and dementia in 22,989 patients with T2D (median age at enrollment, 61.0 years; 62.3% men; 86.3% White individuals).
• New-onset AF was identified through hospital admission records using the International Classification of Diseases – 9th Revision (ICD-9) and ICD-10 codes, and dementia cases were identified using an algorithm developed by the UK Biobank.
• Time-varying Cox proportional hazard regression models were used to determine the association between incident dementia and new-onset AF.

TAKEAWAY:

• Over a median follow-up duration of about 12 years, 844 patients developed all-cause dementia, 342 were diagnosed with Alzheimer’s disease, and 246 had vascular dementia.
• Patients with incident AF had a higher risk of developing all-cause dementia (hazard ratio [HR], 2.15; 95% CI, 1.80-2.57), Alzheimer’s disease (HR, 1.44; 95% CI, 1.06-1.96), and vascular dementia (HR, 3.11; 95% CI, 2.32-4.17) than those without incident AF.
• The results are independent of common dementia risk factors, such as sociodemographic characteristics and lifestyle factors.
• The mean time intervals from the onset of AF to all-cause dementia, Alzheimer’s disease and vascular dementia were 2.95, 2.81, and 3.37 years, respectively.

IN PRACTICE:

“AF is a significant risk factor for dementia in patients with type 2 diabetes, suggesting the importance of timely and effective treatment of AF, such as early rhythm control strategies and anticoagulant use, in preventing dementia among this demographic,” the authors wrote.
 

SOURCE:

The study, led by Ying Zhou, PhD, School of Public Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China, was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

The study could not explore the link between different AF subtypes and dementia owing to its small sample size. The effects of AF treatment on the risk for dementia in patients with type 2 diabetes were not considered because of lack of information. The mostly White study population limits the generalizability of the findings to other races and ethnicities.

DISCLOSURES:

The study was supported by the National Social Science Fund of China. The authors declared no conflicts of interest.

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

TOPLINE:

New-onset atrial fibrillation (AF) is associated with a substantially higher risk for all-cause dementia in patients with type 2 diabetes (T2D).

METHODOLOGY:

• Studies suggest a potential link between AF and dementia in the broader population, but evidence is scarce in people with diabetes, who are at increased risk for both conditions.
• This longitudinal observational study assessed the association between new-onset AF and dementia in 22,989 patients with T2D (median age at enrollment, 61.0 years; 62.3% men; 86.3% White individuals).
• New-onset AF was identified through hospital admission records using the International Classification of Diseases – 9th Revision (ICD-9) and ICD-10 codes, and dementia cases were identified using an algorithm developed by the UK Biobank.
• Time-varying Cox proportional hazard regression models were used to determine the association between incident dementia and new-onset AF.

TAKEAWAY:

• Over a median follow-up duration of about 12 years, 844 patients developed all-cause dementia, 342 were diagnosed with Alzheimer’s disease, and 246 had vascular dementia.
• Patients with incident AF had a higher risk of developing all-cause dementia (hazard ratio [HR], 2.15; 95% CI, 1.80-2.57), Alzheimer’s disease (HR, 1.44; 95% CI, 1.06-1.96), and vascular dementia (HR, 3.11; 95% CI, 2.32-4.17) than those without incident AF.
• The results are independent of common dementia risk factors, such as sociodemographic characteristics and lifestyle factors.
• The mean time intervals from the onset of AF to all-cause dementia, Alzheimer’s disease and vascular dementia were 2.95, 2.81, and 3.37 years, respectively.

IN PRACTICE:

“AF is a significant risk factor for dementia in patients with type 2 diabetes, suggesting the importance of timely and effective treatment of AF, such as early rhythm control strategies and anticoagulant use, in preventing dementia among this demographic,” the authors wrote.
 

SOURCE:

The study, led by Ying Zhou, PhD, School of Public Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China, was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

The study could not explore the link between different AF subtypes and dementia owing to its small sample size. The effects of AF treatment on the risk for dementia in patients with type 2 diabetes were not considered because of lack of information. The mostly White study population limits the generalizability of the findings to other races and ethnicities.

DISCLOSURES:

The study was supported by the National Social Science Fund of China. The authors declared no conflicts of interest.

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

TOPLINE:

New-onset atrial fibrillation (AF) is associated with a substantially higher risk for all-cause dementia in patients with type 2 diabetes (T2D).

METHODOLOGY:

• Studies suggest a potential link between AF and dementia in the broader population, but evidence is scarce in people with diabetes, who are at increased risk for both conditions.
• This longitudinal observational study assessed the association between new-onset AF and dementia in 22,989 patients with T2D (median age at enrollment, 61.0 years; 62.3% men; 86.3% White individuals).
• New-onset AF was identified through hospital admission records using the International Classification of Diseases – 9th Revision (ICD-9) and ICD-10 codes, and dementia cases were identified using an algorithm developed by the UK Biobank.
• Time-varying Cox proportional hazard regression models were used to determine the association between incident dementia and new-onset AF.

TAKEAWAY:

• Over a median follow-up duration of about 12 years, 844 patients developed all-cause dementia, 342 were diagnosed with Alzheimer’s disease, and 246 had vascular dementia.
• Patients with incident AF had a higher risk of developing all-cause dementia (hazard ratio [HR], 2.15; 95% CI, 1.80-2.57), Alzheimer’s disease (HR, 1.44; 95% CI, 1.06-1.96), and vascular dementia (HR, 3.11; 95% CI, 2.32-4.17) than those without incident AF.
• The results are independent of common dementia risk factors, such as sociodemographic characteristics and lifestyle factors.
• The mean time intervals from the onset of AF to all-cause dementia, Alzheimer’s disease and vascular dementia were 2.95, 2.81, and 3.37 years, respectively.

IN PRACTICE:

“AF is a significant risk factor for dementia in patients with type 2 diabetes, suggesting the importance of timely and effective treatment of AF, such as early rhythm control strategies and anticoagulant use, in preventing dementia among this demographic,” the authors wrote.
 

SOURCE:

The study, led by Ying Zhou, PhD, School of Public Health, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China, was published online in Diabetes, Obesity and Metabolism.

LIMITATIONS:

The study could not explore the link between different AF subtypes and dementia owing to its small sample size. The effects of AF treatment on the risk for dementia in patients with type 2 diabetes were not considered because of lack of information. The mostly White study population limits the generalizability of the findings to other races and ethnicities.

DISCLOSURES:

The study was supported by the National Social Science Fund of China. The authors declared no conflicts of interest.

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

Agitation is a neuropsychiatric symptom in patients with Alzheimer’s disease (AD), the most common form of dementia. The prevalence of this symptom is about 40%-65%, with the higher end of the range applying to patients who have moderate to severe dementia. Agitation often begins early in the course of the disease and is persistent, which contributes to increased healthcare costs and significantly increases both caregiver burden and patient distress. The DICE approach is a collaborative process for managing behavioral symptoms in dementia, wherein the caregiver describes the behaviors, the provider investigates the etiology, the provider and caregiver create a treatment plan, and the provider evaluates the outcome of the interventions. We use this widely adopted approach as the framework for discussing recent advances in the management of agitation.

Here are five things to know about managing agitation in AD.
 

1. There is a new operational definition for agitation in dementia.

Agitation in dementia is a syndrome that encompasses specific behaviors across all dementia types. The 2023 operational definition of agitation in dementia by the International Psychogeriatric Association (IPA) includes three domains: excessive motor activity (including pacing, rocking, restlessness, and performing repetitious mannerisms), verbal aggression (including using profanity, screaming, and shouting), and physical aggression (including interpersonal aggression and mishandling or destruction of property). These behaviors must be persistent or recurrent for at least 2 weeks or represent a dramatic change from the person’s baseline behavior, must be associated with excessive distress or disability beyond what is caused by the cognitive impairment itself, and result in significant impairment in at least one of the three specified functional domains. Behavioral symptoms in dementia frequently co-occur, which affects treatment and prognosis. For instance, the risk for stroke associated with antipsychotic treatments appears to be higher in dementia-related psychosis without agitation than in agitation alone or in psychosis with agitation. Therefore, the use of a rating scale such as the Neuropsychiatric Inventory–Questionnaire (NPI-Q), which takes 5 minutes or less to administer, is recommended to identify and track behavioral symptoms and caregiver distress.

2. The etiology of agitation in dementia may be multifactorial.

It is important in every case to identify all underlying etiologies so that presumed causal and/or exacerbating factors are not inadvertently missed. Agitation may be a means of communicating distress owing to unmet needs or a patient-environment mismatch (function-focused approach) or may be a direct consequence of the dementia itself (behavioral-symptom approach). These approaches are not mutually exclusive. A patient can present with agitation as a direct consequence of dementia and inadequately treated pain concurrently. 

The new IPA definition specifies several exclusion criteria for agitation in dementia, including underlying medical conditions, delirium, substance use, and suboptimal care conditions. It is especially crucial to accurately identify delirium because dementia is an independent risk factor for delirium, which in turn may accelerate the progression of cognitive and functional decline. Even subsyndromal delirium in older adults leads to a higher 3-year mortality rate that is comparable to that seen in delirium. Older adults with acute-onset agitation in the context of dementia should undergo a comprehensive assessment for delirium, as agitation may be the only indication of a serious underlying medical condition. 
 

3. Nonpharmacologic interventions should be used whenever possible. 

The wider adoption of nonpharmacologic interventions in clinical practice has been greatly limited by the heterogeneity in study protocols, including in selection of participants, in the types of dementias included, and in defining and applying the intervention strategies. Nevertheless, there is general consensus that individualized behavioral strategies that build on the patients’ interests and preserved abilities are more effective, at least in the short term. Patients best suited for these interventions are those with less cognitive decline, better communication skills, less impairment in activities of daily living, and higher responsiveness. A systematic review of systematic reviews found music therapy to be the most effective intervention for reducing agitation and aggression in dementia, along with behavioral management techniques when supervised by healthcare professionals. On the other hand, physical restraints are best avoided, as their use in hospitalized patients has been associated with longer stays, higher costs, lower odds of being discharged to home, and in long-term care patients with longer stays, with increased risk for medical complications and functional decline. 

4. Antidepressants are not all equally safe or efficacious in managing agitation.

In a network meta-analysis that looked at the effects of several antidepressants on agitation in dementia, citalopram had just under 95% probability of efficacy and was the only antidepressant that was significantly more efficacious than placebo. In the multicenter CitAD trial, citalopram was efficacious and well tolerated for the treatment of agitation in AD, but the mean dose of citalopram used, 30 mg/d, was higher than the maximum dose of 20 mg/d recommended by the US Food and Drug Administration (FDA) in those aged 60 years or above. The optimal candidates for citalopram were those under the age of 85 with mild to moderate AD and mild to moderate nonpsychotic agitation, and it took up to 9 weeks for it to be fully effective. Due to the risk for dose-dependent QTc prolongation with citalopram, a baseline ECG must be done, and a second ECG is recommended if a clinical decision is made to exceed the recommended maximum daily dose. In the CitAD trial, 66% of patients in the citalopram arm received cholinesterase inhibitors concurrently while 44% received memantine, so these symptomatic treatments for AD should not be stopped solely for initiating a citalopram trial. 

The antiagitation effect of citalopram may well be a class effect of all selective serotonin reuptake inhibitors (SSRIs), given that there is also evidence favoring the use of sertraline and escitalopram. The S-CitAD trial, the first large, randomized controlled study of escitalopram for the treatment of agitation in dementia, is expected to announce its top-line results sometime this year. However, not all antidepressant classes appear to be equally efficacious or safe. In the large, 12-week randomized placebo-controlled trial SYMBAD, mirtazapine was not only ineffective in treating nonpsychotic agitation in AD but was also associated with a higher mortality rate that just missed statistical significance. Trazodone is also often used for treating agitation, but there is insufficient evidence regarding efficacy and a high probability of adverse effects, even at low doses.
 

5. Antipsychotics may be effective drugs for treating severe dementia-related agitation.

The CATIE-AD study found that the small beneficial effects of antipsychotics for treating agitation and psychosis in AD were offset by their adverse effects and high discontinuation rates, and the FDA-imposed boxed warnings in 2005 and 2008 cautioned against the use of both first- and second-generation antipsychotics to manage dementia-related psychosis owing to an increased risk for death. Subsequently, the quest for safer and more effective alternatives culminated in the FDA approval of brexpiprazole in 2023 for the treatment of agitation in AD, but the black box warning was left in place. Three randomized controlled trials found brexpiprazole to be relatively safe, with statistically significant improvement in agitation. It was especially efficacious for severe agitation, but there is controversy about whether such improvement is clinically meaningful and whether brexpiprazole is truly superior to other antipsychotics for treating dementia-related agitation. As in the previously mentioned citalopram studies, most patients in the brexpiprazole studies received the drug as an add-on to memantine and/or a cholinesterase inhibitor, and it was proven effective over a period of up to 12 weeks across the three trials. Regarding other antipsychotics, aripiprazole and risperidone have been shown to be effective in treating agitation in patients with mixed dementia, but risperidone has also been associated with the highest risk for strokes (about 80% probability). Unfortunately, an unintended consequence of the boxed warnings on antipsychotics has been an increase in off-label substitution of psychotropic drugs with unproven efficacy and a questionable safety profile, such as valproic acid preparations, that have been linked to an increased short-term risk for accelerated brain volume loss and rapid cognitive decline, as well as a higher risk for mortality.

Lisa M. Wise, assistant professor, Psychiatry, at Oregon Health & Science University, and staff psychiatrist, Department of Psychiatry, Portland VA Medical Center, Portland, Oregon, and Vimal M. Aga, adjunct assistant professor, Department of Neurology, Oregon Health & Science University, and geriatric psychiatrist, Layton Aging and Alzheimer’s Disease Center, Portland, Oregon, have disclosed no relevant financial relationships.

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

Agitation is a neuropsychiatric symptom in patients with Alzheimer’s disease (AD), the most common form of dementia. The prevalence of this symptom is about 40%-65%, with the higher end of the range applying to patients who have moderate to severe dementia. Agitation often begins early in the course of the disease and is persistent, which contributes to increased healthcare costs and significantly increases both caregiver burden and patient distress. The DICE approach is a collaborative process for managing behavioral symptoms in dementia, wherein the caregiver describes the behaviors, the provider investigates the etiology, the provider and caregiver create a treatment plan, and the provider evaluates the outcome of the interventions. We use this widely adopted approach as the framework for discussing recent advances in the management of agitation.

Here are five things to know about managing agitation in AD.
 

1. There is a new operational definition for agitation in dementia.

Agitation in dementia is a syndrome that encompasses specific behaviors across all dementia types. The 2023 operational definition of agitation in dementia by the International Psychogeriatric Association (IPA) includes three domains: excessive motor activity (including pacing, rocking, restlessness, and performing repetitious mannerisms), verbal aggression (including using profanity, screaming, and shouting), and physical aggression (including interpersonal aggression and mishandling or destruction of property). These behaviors must be persistent or recurrent for at least 2 weeks or represent a dramatic change from the person’s baseline behavior, must be associated with excessive distress or disability beyond what is caused by the cognitive impairment itself, and result in significant impairment in at least one of the three specified functional domains. Behavioral symptoms in dementia frequently co-occur, which affects treatment and prognosis. For instance, the risk for stroke associated with antipsychotic treatments appears to be higher in dementia-related psychosis without agitation than in agitation alone or in psychosis with agitation. Therefore, the use of a rating scale such as the Neuropsychiatric Inventory–Questionnaire (NPI-Q), which takes 5 minutes or less to administer, is recommended to identify and track behavioral symptoms and caregiver distress.

2. The etiology of agitation in dementia may be multifactorial.

It is important in every case to identify all underlying etiologies so that presumed causal and/or exacerbating factors are not inadvertently missed. Agitation may be a means of communicating distress owing to unmet needs or a patient-environment mismatch (function-focused approach) or may be a direct consequence of the dementia itself (behavioral-symptom approach). These approaches are not mutually exclusive. A patient can present with agitation as a direct consequence of dementia and inadequately treated pain concurrently. 

The new IPA definition specifies several exclusion criteria for agitation in dementia, including underlying medical conditions, delirium, substance use, and suboptimal care conditions. It is especially crucial to accurately identify delirium because dementia is an independent risk factor for delirium, which in turn may accelerate the progression of cognitive and functional decline. Even subsyndromal delirium in older adults leads to a higher 3-year mortality rate that is comparable to that seen in delirium. Older adults with acute-onset agitation in the context of dementia should undergo a comprehensive assessment for delirium, as agitation may be the only indication of a serious underlying medical condition. 
 

3. Nonpharmacologic interventions should be used whenever possible. 

The wider adoption of nonpharmacologic interventions in clinical practice has been greatly limited by the heterogeneity in study protocols, including in selection of participants, in the types of dementias included, and in defining and applying the intervention strategies. Nevertheless, there is general consensus that individualized behavioral strategies that build on the patients’ interests and preserved abilities are more effective, at least in the short term. Patients best suited for these interventions are those with less cognitive decline, better communication skills, less impairment in activities of daily living, and higher responsiveness. A systematic review of systematic reviews found music therapy to be the most effective intervention for reducing agitation and aggression in dementia, along with behavioral management techniques when supervised by healthcare professionals. On the other hand, physical restraints are best avoided, as their use in hospitalized patients has been associated with longer stays, higher costs, lower odds of being discharged to home, and in long-term care patients with longer stays, with increased risk for medical complications and functional decline. 

4. Antidepressants are not all equally safe or efficacious in managing agitation.

In a network meta-analysis that looked at the effects of several antidepressants on agitation in dementia, citalopram had just under 95% probability of efficacy and was the only antidepressant that was significantly more efficacious than placebo. In the multicenter CitAD trial, citalopram was efficacious and well tolerated for the treatment of agitation in AD, but the mean dose of citalopram used, 30 mg/d, was higher than the maximum dose of 20 mg/d recommended by the US Food and Drug Administration (FDA) in those aged 60 years or above. The optimal candidates for citalopram were those under the age of 85 with mild to moderate AD and mild to moderate nonpsychotic agitation, and it took up to 9 weeks for it to be fully effective. Due to the risk for dose-dependent QTc prolongation with citalopram, a baseline ECG must be done, and a second ECG is recommended if a clinical decision is made to exceed the recommended maximum daily dose. In the CitAD trial, 66% of patients in the citalopram arm received cholinesterase inhibitors concurrently while 44% received memantine, so these symptomatic treatments for AD should not be stopped solely for initiating a citalopram trial. 

The antiagitation effect of citalopram may well be a class effect of all selective serotonin reuptake inhibitors (SSRIs), given that there is also evidence favoring the use of sertraline and escitalopram. The S-CitAD trial, the first large, randomized controlled study of escitalopram for the treatment of agitation in dementia, is expected to announce its top-line results sometime this year. However, not all antidepressant classes appear to be equally efficacious or safe. In the large, 12-week randomized placebo-controlled trial SYMBAD, mirtazapine was not only ineffective in treating nonpsychotic agitation in AD but was also associated with a higher mortality rate that just missed statistical significance. Trazodone is also often used for treating agitation, but there is insufficient evidence regarding efficacy and a high probability of adverse effects, even at low doses.
 

5. Antipsychotics may be effective drugs for treating severe dementia-related agitation.

The CATIE-AD study found that the small beneficial effects of antipsychotics for treating agitation and psychosis in AD were offset by their adverse effects and high discontinuation rates, and the FDA-imposed boxed warnings in 2005 and 2008 cautioned against the use of both first- and second-generation antipsychotics to manage dementia-related psychosis owing to an increased risk for death. Subsequently, the quest for safer and more effective alternatives culminated in the FDA approval of brexpiprazole in 2023 for the treatment of agitation in AD, but the black box warning was left in place. Three randomized controlled trials found brexpiprazole to be relatively safe, with statistically significant improvement in agitation. It was especially efficacious for severe agitation, but there is controversy about whether such improvement is clinically meaningful and whether brexpiprazole is truly superior to other antipsychotics for treating dementia-related agitation. As in the previously mentioned citalopram studies, most patients in the brexpiprazole studies received the drug as an add-on to memantine and/or a cholinesterase inhibitor, and it was proven effective over a period of up to 12 weeks across the three trials. Regarding other antipsychotics, aripiprazole and risperidone have been shown to be effective in treating agitation in patients with mixed dementia, but risperidone has also been associated with the highest risk for strokes (about 80% probability). Unfortunately, an unintended consequence of the boxed warnings on antipsychotics has been an increase in off-label substitution of psychotropic drugs with unproven efficacy and a questionable safety profile, such as valproic acid preparations, that have been linked to an increased short-term risk for accelerated brain volume loss and rapid cognitive decline, as well as a higher risk for mortality.

Lisa M. Wise, assistant professor, Psychiatry, at Oregon Health & Science University, and staff psychiatrist, Department of Psychiatry, Portland VA Medical Center, Portland, Oregon, and Vimal M. Aga, adjunct assistant professor, Department of Neurology, Oregon Health & Science University, and geriatric psychiatrist, Layton Aging and Alzheimer’s Disease Center, Portland, Oregon, have disclosed no relevant financial relationships.

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

Agitation is a neuropsychiatric symptom in patients with Alzheimer’s disease (AD), the most common form of dementia. The prevalence of this symptom is about 40%-65%, with the higher end of the range applying to patients who have moderate to severe dementia. Agitation often begins early in the course of the disease and is persistent, which contributes to increased healthcare costs and significantly increases both caregiver burden and patient distress. The DICE approach is a collaborative process for managing behavioral symptoms in dementia, wherein the caregiver describes the behaviors, the provider investigates the etiology, the provider and caregiver create a treatment plan, and the provider evaluates the outcome of the interventions. We use this widely adopted approach as the framework for discussing recent advances in the management of agitation.

Here are five things to know about managing agitation in AD.
 

1. There is a new operational definition for agitation in dementia.

Agitation in dementia is a syndrome that encompasses specific behaviors across all dementia types. The 2023 operational definition of agitation in dementia by the International Psychogeriatric Association (IPA) includes three domains: excessive motor activity (including pacing, rocking, restlessness, and performing repetitious mannerisms), verbal aggression (including using profanity, screaming, and shouting), and physical aggression (including interpersonal aggression and mishandling or destruction of property). These behaviors must be persistent or recurrent for at least 2 weeks or represent a dramatic change from the person’s baseline behavior, must be associated with excessive distress or disability beyond what is caused by the cognitive impairment itself, and result in significant impairment in at least one of the three specified functional domains. Behavioral symptoms in dementia frequently co-occur, which affects treatment and prognosis. For instance, the risk for stroke associated with antipsychotic treatments appears to be higher in dementia-related psychosis without agitation than in agitation alone or in psychosis with agitation. Therefore, the use of a rating scale such as the Neuropsychiatric Inventory–Questionnaire (NPI-Q), which takes 5 minutes or less to administer, is recommended to identify and track behavioral symptoms and caregiver distress.

2. The etiology of agitation in dementia may be multifactorial.

It is important in every case to identify all underlying etiologies so that presumed causal and/or exacerbating factors are not inadvertently missed. Agitation may be a means of communicating distress owing to unmet needs or a patient-environment mismatch (function-focused approach) or may be a direct consequence of the dementia itself (behavioral-symptom approach). These approaches are not mutually exclusive. A patient can present with agitation as a direct consequence of dementia and inadequately treated pain concurrently. 

The new IPA definition specifies several exclusion criteria for agitation in dementia, including underlying medical conditions, delirium, substance use, and suboptimal care conditions. It is especially crucial to accurately identify delirium because dementia is an independent risk factor for delirium, which in turn may accelerate the progression of cognitive and functional decline. Even subsyndromal delirium in older adults leads to a higher 3-year mortality rate that is comparable to that seen in delirium. Older adults with acute-onset agitation in the context of dementia should undergo a comprehensive assessment for delirium, as agitation may be the only indication of a serious underlying medical condition. 
 

3. Nonpharmacologic interventions should be used whenever possible. 

The wider adoption of nonpharmacologic interventions in clinical practice has been greatly limited by the heterogeneity in study protocols, including in selection of participants, in the types of dementias included, and in defining and applying the intervention strategies. Nevertheless, there is general consensus that individualized behavioral strategies that build on the patients’ interests and preserved abilities are more effective, at least in the short term. Patients best suited for these interventions are those with less cognitive decline, better communication skills, less impairment in activities of daily living, and higher responsiveness. A systematic review of systematic reviews found music therapy to be the most effective intervention for reducing agitation and aggression in dementia, along with behavioral management techniques when supervised by healthcare professionals. On the other hand, physical restraints are best avoided, as their use in hospitalized patients has been associated with longer stays, higher costs, lower odds of being discharged to home, and in long-term care patients with longer stays, with increased risk for medical complications and functional decline. 

4. Antidepressants are not all equally safe or efficacious in managing agitation.

In a network meta-analysis that looked at the effects of several antidepressants on agitation in dementia, citalopram had just under 95% probability of efficacy and was the only antidepressant that was significantly more efficacious than placebo. In the multicenter CitAD trial, citalopram was efficacious and well tolerated for the treatment of agitation in AD, but the mean dose of citalopram used, 30 mg/d, was higher than the maximum dose of 20 mg/d recommended by the US Food and Drug Administration (FDA) in those aged 60 years or above. The optimal candidates for citalopram were those under the age of 85 with mild to moderate AD and mild to moderate nonpsychotic agitation, and it took up to 9 weeks for it to be fully effective. Due to the risk for dose-dependent QTc prolongation with citalopram, a baseline ECG must be done, and a second ECG is recommended if a clinical decision is made to exceed the recommended maximum daily dose. In the CitAD trial, 66% of patients in the citalopram arm received cholinesterase inhibitors concurrently while 44% received memantine, so these symptomatic treatments for AD should not be stopped solely for initiating a citalopram trial. 

The antiagitation effect of citalopram may well be a class effect of all selective serotonin reuptake inhibitors (SSRIs), given that there is also evidence favoring the use of sertraline and escitalopram. The S-CitAD trial, the first large, randomized controlled study of escitalopram for the treatment of agitation in dementia, is expected to announce its top-line results sometime this year. However, not all antidepressant classes appear to be equally efficacious or safe. In the large, 12-week randomized placebo-controlled trial SYMBAD, mirtazapine was not only ineffective in treating nonpsychotic agitation in AD but was also associated with a higher mortality rate that just missed statistical significance. Trazodone is also often used for treating agitation, but there is insufficient evidence regarding efficacy and a high probability of adverse effects, even at low doses.
 

5. Antipsychotics may be effective drugs for treating severe dementia-related agitation.

The CATIE-AD study found that the small beneficial effects of antipsychotics for treating agitation and psychosis in AD were offset by their adverse effects and high discontinuation rates, and the FDA-imposed boxed warnings in 2005 and 2008 cautioned against the use of both first- and second-generation antipsychotics to manage dementia-related psychosis owing to an increased risk for death. Subsequently, the quest for safer and more effective alternatives culminated in the FDA approval of brexpiprazole in 2023 for the treatment of agitation in AD, but the black box warning was left in place. Three randomized controlled trials found brexpiprazole to be relatively safe, with statistically significant improvement in agitation. It was especially efficacious for severe agitation, but there is controversy about whether such improvement is clinically meaningful and whether brexpiprazole is truly superior to other antipsychotics for treating dementia-related agitation. As in the previously mentioned citalopram studies, most patients in the brexpiprazole studies received the drug as an add-on to memantine and/or a cholinesterase inhibitor, and it was proven effective over a period of up to 12 weeks across the three trials. Regarding other antipsychotics, aripiprazole and risperidone have been shown to be effective in treating agitation in patients with mixed dementia, but risperidone has also been associated with the highest risk for strokes (about 80% probability). Unfortunately, an unintended consequence of the boxed warnings on antipsychotics has been an increase in off-label substitution of psychotropic drugs with unproven efficacy and a questionable safety profile, such as valproic acid preparations, that have been linked to an increased short-term risk for accelerated brain volume loss and rapid cognitive decline, as well as a higher risk for mortality.

Lisa M. Wise, assistant professor, Psychiatry, at Oregon Health & Science University, and staff psychiatrist, Department of Psychiatry, Portland VA Medical Center, Portland, Oregon, and Vimal M. Aga, adjunct assistant professor, Department of Neurology, Oregon Health & Science University, and geriatric psychiatrist, Layton Aging and Alzheimer’s Disease Center, Portland, Oregon, have disclosed no relevant financial relationships.

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