TBD Meeting (2962-24)

DENVER — After working for decades in a field littered with promising but failed clinical trials, a prominent researcher in amyotrophic lateral sclerosis (ALS) has decided to turn her attention to prevention, a direction of research that she thinks has more promise.

According to the gene-time hypothesis, duration of exposure to noxious chemicals and genetic susceptibility are key drivers of ALS risk, explained Eva Feldman, MD, PhD, director of the ALS Center of Excellence at the University of Michigan, Ann Arbor. She believes that existing research in risk modification is already promising.

“I think ALS prevention is real and attainable,” she said as this year’s recipient of the Sheila Essey Award for significant contributions in ALS research.

In describing her “pivot” to prevention from treatment at the 2024 annual meeting of the American Academy of Neurology, Dr. Feldman described her growing pessimism about treating a disease that has so consistently resisted even stabilization, let alone cure.

“I spent 10 years trying to repurpose IGF-1 as an ALS therapy. We took it from preclinical work all the way to a phase 3 multicenter trial, but in the end no effect was seen,” Dr. Feldman said,

This was followed by another 10 years spent on the promise of stem cells. In this case, she was eventually involved in two multicenter trials. In fact, trials are still ongoing in Europe, but Dr. Feldman said this strategy is “no longer going forward in the United States,” and she no longer anticipates favorable results.
 

The New Focus on Prevention

The basic concept in the prevention studies she is now working on with Stephen Goutman, MD, a frequent coauthor, and other colleagues at her center, is that the duration of exposure to persistent organic pollutants (POPs), along with some degree of genetic predisposition, determines risk for ALS. The simple idea is the reducing exposure will reduce ALS risk.

There is already substantial support for the underlying time-gene hypothesis, according to Dr. Feldman. Among several examples, she described work with 122 POPS that appear individually and in many cases collectively to correlate with ALS risk. Recent work with an environmental risk score (ERS) that permits studies of risk when accounting for exposure to families of pollutants, has supported these as potentially modifiable risks.

A high ERS “correlates with an ALS risk that is 3 to 4 times higher than a low score,” she said. In addition, those ALS patients with a high relative to a low ERS have a significant 0.6-year reduction in median survival.

Some specific POPs, such as pesticides, correlate with increased risk by themselves, but Dr. Feldman has begun focusing on occupational exposures, particularly in industries that are most likely to increase exposure POPs. Several of the POPs most implicated in ALS, such as polychlorinated biphenyls used in coolants and lubricants, organochlorine pesticides, and polybrominated diphenyl esters, are already banned or mostly banned in the United States, but they persist in the environment and remain legal elsewhere.

Dr. Feldman reported no potential conflicts of interest.

DENVER — After working for decades in a field littered with promising but failed clinical trials, a prominent researcher in amyotrophic lateral sclerosis (ALS) has decided to turn her attention to prevention, a direction of research that she thinks has more promise.

According to the gene-time hypothesis, duration of exposure to noxious chemicals and genetic susceptibility are key drivers of ALS risk, explained Eva Feldman, MD, PhD, director of the ALS Center of Excellence at the University of Michigan, Ann Arbor. She believes that existing research in risk modification is already promising.

“I think ALS prevention is real and attainable,” she said as this year’s recipient of the Sheila Essey Award for significant contributions in ALS research.

In describing her “pivot” to prevention from treatment at the 2024 annual meeting of the American Academy of Neurology, Dr. Feldman described her growing pessimism about treating a disease that has so consistently resisted even stabilization, let alone cure.

“I spent 10 years trying to repurpose IGF-1 as an ALS therapy. We took it from preclinical work all the way to a phase 3 multicenter trial, but in the end no effect was seen,” Dr. Feldman said,

This was followed by another 10 years spent on the promise of stem cells. In this case, she was eventually involved in two multicenter trials. In fact, trials are still ongoing in Europe, but Dr. Feldman said this strategy is “no longer going forward in the United States,” and she no longer anticipates favorable results.
 

The New Focus on Prevention

The basic concept in the prevention studies she is now working on with Stephen Goutman, MD, a frequent coauthor, and other colleagues at her center, is that the duration of exposure to persistent organic pollutants (POPs), along with some degree of genetic predisposition, determines risk for ALS. The simple idea is the reducing exposure will reduce ALS risk.

There is already substantial support for the underlying time-gene hypothesis, according to Dr. Feldman. Among several examples, she described work with 122 POPS that appear individually and in many cases collectively to correlate with ALS risk. Recent work with an environmental risk score (ERS) that permits studies of risk when accounting for exposure to families of pollutants, has supported these as potentially modifiable risks.

A high ERS “correlates with an ALS risk that is 3 to 4 times higher than a low score,” she said. In addition, those ALS patients with a high relative to a low ERS have a significant 0.6-year reduction in median survival.

Some specific POPs, such as pesticides, correlate with increased risk by themselves, but Dr. Feldman has begun focusing on occupational exposures, particularly in industries that are most likely to increase exposure POPs. Several of the POPs most implicated in ALS, such as polychlorinated biphenyls used in coolants and lubricants, organochlorine pesticides, and polybrominated diphenyl esters, are already banned or mostly banned in the United States, but they persist in the environment and remain legal elsewhere.

Dr. Feldman reported no potential conflicts of interest.

DENVER — After working for decades in a field littered with promising but failed clinical trials, a prominent researcher in amyotrophic lateral sclerosis (ALS) has decided to turn her attention to prevention, a direction of research that she thinks has more promise.

According to the gene-time hypothesis, duration of exposure to noxious chemicals and genetic susceptibility are key drivers of ALS risk, explained Eva Feldman, MD, PhD, director of the ALS Center of Excellence at the University of Michigan, Ann Arbor. She believes that existing research in risk modification is already promising.

“I think ALS prevention is real and attainable,” she said as this year’s recipient of the Sheila Essey Award for significant contributions in ALS research.

In describing her “pivot” to prevention from treatment at the 2024 annual meeting of the American Academy of Neurology, Dr. Feldman described her growing pessimism about treating a disease that has so consistently resisted even stabilization, let alone cure.

“I spent 10 years trying to repurpose IGF-1 as an ALS therapy. We took it from preclinical work all the way to a phase 3 multicenter trial, but in the end no effect was seen,” Dr. Feldman said,

This was followed by another 10 years spent on the promise of stem cells. In this case, she was eventually involved in two multicenter trials. In fact, trials are still ongoing in Europe, but Dr. Feldman said this strategy is “no longer going forward in the United States,” and she no longer anticipates favorable results.
 

The New Focus on Prevention

The basic concept in the prevention studies she is now working on with Stephen Goutman, MD, a frequent coauthor, and other colleagues at her center, is that the duration of exposure to persistent organic pollutants (POPs), along with some degree of genetic predisposition, determines risk for ALS. The simple idea is the reducing exposure will reduce ALS risk.

There is already substantial support for the underlying time-gene hypothesis, according to Dr. Feldman. Among several examples, she described work with 122 POPS that appear individually and in many cases collectively to correlate with ALS risk. Recent work with an environmental risk score (ERS) that permits studies of risk when accounting for exposure to families of pollutants, has supported these as potentially modifiable risks.

A high ERS “correlates with an ALS risk that is 3 to 4 times higher than a low score,” she said. In addition, those ALS patients with a high relative to a low ERS have a significant 0.6-year reduction in median survival.

Some specific POPs, such as pesticides, correlate with increased risk by themselves, but Dr. Feldman has begun focusing on occupational exposures, particularly in industries that are most likely to increase exposure POPs. Several of the POPs most implicated in ALS, such as polychlorinated biphenyls used in coolants and lubricants, organochlorine pesticides, and polybrominated diphenyl esters, are already banned or mostly banned in the United States, but they persist in the environment and remain legal elsewhere.

Dr. Feldman reported no potential conflicts of interest.

DENVER — Unlike traditional antidiabetic therapies, which have never been associated with a significant reduction in stroke in a major trial, some of the newer drugs are showing that benefit, but the protection is not linked to tighter glycemic control.

In patients with type 2 diabetes mellitus (T2DM), the evidence is strong that “they are not working through glycemic control per se,” according to Larry B. Goldstein, MD, chair of neurology, University of Kentucky School of Medicine, Louisville. “But it is not yet clear what the mechanism of benefit is.”

Ted Bosworth/MDedge News

Stroke Prevention With Antidiabetic Drugs

“What has changed is that we have new ways of glycemic control, and some of these do show protection against stroke,” Dr. Goldstein said. Yet, the newer drugs do not do a better job at sustained reductions of HbA1c or other measures of reaching lower blood glucose reductions when adherence is similar.

“The level of glucose control with the newer agents is really about the same,” Dr. Goldstein said at the annual meeting of the American Academy of Neurology, where he led a symposium called Controversies in Stroke Treatment and Prevention.

The newer agents, such as sodium glucose co-transport-2 inhibitors (SGLT-2i) and glucagon-like peptide-1 receptor agonists (GLP-1RA), have been associated with significant and clinically meaningful reductions in cardiovascular events. However, it is not clear that even these two medications perform similarly for stroke prevention specifically.

Of these two drug classes, Dr. Goldstein said the evidence most strongly supports GLP-1 receptor agonists. He cited one meta-analysis of eight randomized studies that calculated a risk reduction of about 15% whether calculated for fatal or nonfatal strokes. For each the protection was highly statistically significant (P = .0002 and P < .001, respectively).

In contrast, the effect of SGLT-2 inhibitors is weaker. In a study that distilled data from large cardiovascular trials with GLP-1RA, SGLT2i, dipeptidyl peptidase-4 inhibitors (DPP4i), and pioglitazone, a thiazolidinedione, only GLP-1RA drugs were associated with a highly significant (P < .001) reduction in risk of stroke. The risk reduction for pioglitazone reached significance (P = .025), but there was no signal of risk reduction for SGLT2i (P = .88) or for DPP4i (P = .5).
 

Weight Loss Is Potential Mechanism

Looking to explain the protection from stroke associated with some of the newer antidiabetic therapies, Gordon Kelley, MD, who leads the stroke program for AdventHealth Medical Group, Shawnee Mission, Kansas, suggested that weight loss is probably important.

“In our group, we work as a team to manage stroke risk in patients with diabetes, so I am not much involved in the choice of antidiabetic therapies, but it does seem that SGLT2 inhibitors and the GLP-1 receptor agonists share weight loss as an effect beyond glucose control,” he said.

Dr. Goldstein agreed that weight loss is a potential contributor to the cardiovascular benefits of GLP-1RA and SGLT2i, but he indicated that it might not help explain the reduction in stroke, an effect demonstrated repeatedly with GLP-1RA but inconsistently with SGLT2i.

The argument against weight loss as the critical mechanism of stroke prevention from newer antidiabetic drugs is strengthened by studies that suggest weight loss with SGLT2i appears to be even better than on GLP-1RA. In a study published in a pharmacy journal, weight loss was about twice as great among T2DM patients after 6 months of treatment managed with SGLT2i relative to those on a GLP-1RA (-2.8 vs 1.15 kg; P = .014).
 

Newer Antidiabetic Agents Guideline Recommended

In the 2019 American College of Cardiology/American Heart Association guidelines on the Primary Prevention of Cardiovascular Disease, stroke reduction is not discussed as an isolated risk, but these guidelines do recommend GLP-1RA or SGLT2i after metformin for glycemic control in T2DM patients with atherosclerotic cardiovascular disease (ASCVD) risk factors. This is based on evidence that drugs of both classes reduce risk for ASCVD events. The risk reduction has been particularly strong for heart failure.

For the risk of stroke specifically in patients with T2DM, Dr. Goldstein recommended calculating the ASCVD risk with the simple but well validated ACC risk calculator that is available online and is quickly completed when values for patient risk factors are readily available. For those with greater than 10% risk of an event in the next 10 years, he thinks GLP-1RA are a reasonable choice for prevention of stroke and other ASCVD events.

“GLP-1RA is mentioned in the guidelines, so this is supported,” said Dr. Goldstein, although adding that his choice of this class over SGLT2i is a personal if informed recommendation. He believes that the data favor GLP-1RA even if the exact mechanism of this protection is yet to be identified.

Dr. Goldstein and Dr. Kelley report no potential conflicts of interest.

DENVER — Unlike traditional antidiabetic therapies, which have never been associated with a significant reduction in stroke in a major trial, some of the newer drugs are showing that benefit, but the protection is not linked to tighter glycemic control.

In patients with type 2 diabetes mellitus (T2DM), the evidence is strong that “they are not working through glycemic control per se,” according to Larry B. Goldstein, MD, chair of neurology, University of Kentucky School of Medicine, Louisville. “But it is not yet clear what the mechanism of benefit is.”

Ted Bosworth/MDedge News

Stroke Prevention With Antidiabetic Drugs

“What has changed is that we have new ways of glycemic control, and some of these do show protection against stroke,” Dr. Goldstein said. Yet, the newer drugs do not do a better job at sustained reductions of HbA1c or other measures of reaching lower blood glucose reductions when adherence is similar.

“The level of glucose control with the newer agents is really about the same,” Dr. Goldstein said at the annual meeting of the American Academy of Neurology, where he led a symposium called Controversies in Stroke Treatment and Prevention.

The newer agents, such as sodium glucose co-transport-2 inhibitors (SGLT-2i) and glucagon-like peptide-1 receptor agonists (GLP-1RA), have been associated with significant and clinically meaningful reductions in cardiovascular events. However, it is not clear that even these two medications perform similarly for stroke prevention specifically.

Of these two drug classes, Dr. Goldstein said the evidence most strongly supports GLP-1 receptor agonists. He cited one meta-analysis of eight randomized studies that calculated a risk reduction of about 15% whether calculated for fatal or nonfatal strokes. For each the protection was highly statistically significant (P = .0002 and P < .001, respectively).

In contrast, the effect of SGLT-2 inhibitors is weaker. In a study that distilled data from large cardiovascular trials with GLP-1RA, SGLT2i, dipeptidyl peptidase-4 inhibitors (DPP4i), and pioglitazone, a thiazolidinedione, only GLP-1RA drugs were associated with a highly significant (P < .001) reduction in risk of stroke. The risk reduction for pioglitazone reached significance (P = .025), but there was no signal of risk reduction for SGLT2i (P = .88) or for DPP4i (P = .5).
 

Weight Loss Is Potential Mechanism

Looking to explain the protection from stroke associated with some of the newer antidiabetic therapies, Gordon Kelley, MD, who leads the stroke program for AdventHealth Medical Group, Shawnee Mission, Kansas, suggested that weight loss is probably important.

“In our group, we work as a team to manage stroke risk in patients with diabetes, so I am not much involved in the choice of antidiabetic therapies, but it does seem that SGLT2 inhibitors and the GLP-1 receptor agonists share weight loss as an effect beyond glucose control,” he said.

Dr. Goldstein agreed that weight loss is a potential contributor to the cardiovascular benefits of GLP-1RA and SGLT2i, but he indicated that it might not help explain the reduction in stroke, an effect demonstrated repeatedly with GLP-1RA but inconsistently with SGLT2i.

The argument against weight loss as the critical mechanism of stroke prevention from newer antidiabetic drugs is strengthened by studies that suggest weight loss with SGLT2i appears to be even better than on GLP-1RA. In a study published in a pharmacy journal, weight loss was about twice as great among T2DM patients after 6 months of treatment managed with SGLT2i relative to those on a GLP-1RA (-2.8 vs 1.15 kg; P = .014).
 

Newer Antidiabetic Agents Guideline Recommended

In the 2019 American College of Cardiology/American Heart Association guidelines on the Primary Prevention of Cardiovascular Disease, stroke reduction is not discussed as an isolated risk, but these guidelines do recommend GLP-1RA or SGLT2i after metformin for glycemic control in T2DM patients with atherosclerotic cardiovascular disease (ASCVD) risk factors. This is based on evidence that drugs of both classes reduce risk for ASCVD events. The risk reduction has been particularly strong for heart failure.

For the risk of stroke specifically in patients with T2DM, Dr. Goldstein recommended calculating the ASCVD risk with the simple but well validated ACC risk calculator that is available online and is quickly completed when values for patient risk factors are readily available. For those with greater than 10% risk of an event in the next 10 years, he thinks GLP-1RA are a reasonable choice for prevention of stroke and other ASCVD events.

“GLP-1RA is mentioned in the guidelines, so this is supported,” said Dr. Goldstein, although adding that his choice of this class over SGLT2i is a personal if informed recommendation. He believes that the data favor GLP-1RA even if the exact mechanism of this protection is yet to be identified.

Dr. Goldstein and Dr. Kelley report no potential conflicts of interest.

DENVER — Unlike traditional antidiabetic therapies, which have never been associated with a significant reduction in stroke in a major trial, some of the newer drugs are showing that benefit, but the protection is not linked to tighter glycemic control.

In patients with type 2 diabetes mellitus (T2DM), the evidence is strong that “they are not working through glycemic control per se,” according to Larry B. Goldstein, MD, chair of neurology, University of Kentucky School of Medicine, Louisville. “But it is not yet clear what the mechanism of benefit is.”

Ted Bosworth/MDedge News

Stroke Prevention With Antidiabetic Drugs

“What has changed is that we have new ways of glycemic control, and some of these do show protection against stroke,” Dr. Goldstein said. Yet, the newer drugs do not do a better job at sustained reductions of HbA1c or other measures of reaching lower blood glucose reductions when adherence is similar.

“The level of glucose control with the newer agents is really about the same,” Dr. Goldstein said at the annual meeting of the American Academy of Neurology, where he led a symposium called Controversies in Stroke Treatment and Prevention.

The newer agents, such as sodium glucose co-transport-2 inhibitors (SGLT-2i) and glucagon-like peptide-1 receptor agonists (GLP-1RA), have been associated with significant and clinically meaningful reductions in cardiovascular events. However, it is not clear that even these two medications perform similarly for stroke prevention specifically.

Of these two drug classes, Dr. Goldstein said the evidence most strongly supports GLP-1 receptor agonists. He cited one meta-analysis of eight randomized studies that calculated a risk reduction of about 15% whether calculated for fatal or nonfatal strokes. For each the protection was highly statistically significant (P = .0002 and P < .001, respectively).

In contrast, the effect of SGLT-2 inhibitors is weaker. In a study that distilled data from large cardiovascular trials with GLP-1RA, SGLT2i, dipeptidyl peptidase-4 inhibitors (DPP4i), and pioglitazone, a thiazolidinedione, only GLP-1RA drugs were associated with a highly significant (P < .001) reduction in risk of stroke. The risk reduction for pioglitazone reached significance (P = .025), but there was no signal of risk reduction for SGLT2i (P = .88) or for DPP4i (P = .5).
 

Weight Loss Is Potential Mechanism

Looking to explain the protection from stroke associated with some of the newer antidiabetic therapies, Gordon Kelley, MD, who leads the stroke program for AdventHealth Medical Group, Shawnee Mission, Kansas, suggested that weight loss is probably important.

“In our group, we work as a team to manage stroke risk in patients with diabetes, so I am not much involved in the choice of antidiabetic therapies, but it does seem that SGLT2 inhibitors and the GLP-1 receptor agonists share weight loss as an effect beyond glucose control,” he said.

Dr. Goldstein agreed that weight loss is a potential contributor to the cardiovascular benefits of GLP-1RA and SGLT2i, but he indicated that it might not help explain the reduction in stroke, an effect demonstrated repeatedly with GLP-1RA but inconsistently with SGLT2i.

The argument against weight loss as the critical mechanism of stroke prevention from newer antidiabetic drugs is strengthened by studies that suggest weight loss with SGLT2i appears to be even better than on GLP-1RA. In a study published in a pharmacy journal, weight loss was about twice as great among T2DM patients after 6 months of treatment managed with SGLT2i relative to those on a GLP-1RA (-2.8 vs 1.15 kg; P = .014).
 

Newer Antidiabetic Agents Guideline Recommended

In the 2019 American College of Cardiology/American Heart Association guidelines on the Primary Prevention of Cardiovascular Disease, stroke reduction is not discussed as an isolated risk, but these guidelines do recommend GLP-1RA or SGLT2i after metformin for glycemic control in T2DM patients with atherosclerotic cardiovascular disease (ASCVD) risk factors. This is based on evidence that drugs of both classes reduce risk for ASCVD events. The risk reduction has been particularly strong for heart failure.

For the risk of stroke specifically in patients with T2DM, Dr. Goldstein recommended calculating the ASCVD risk with the simple but well validated ACC risk calculator that is available online and is quickly completed when values for patient risk factors are readily available. For those with greater than 10% risk of an event in the next 10 years, he thinks GLP-1RA are a reasonable choice for prevention of stroke and other ASCVD events.

“GLP-1RA is mentioned in the guidelines, so this is supported,” said Dr. Goldstein, although adding that his choice of this class over SGLT2i is a personal if informed recommendation. He believes that the data favor GLP-1RA even if the exact mechanism of this protection is yet to be identified.

Dr. Goldstein and Dr. Kelley report no potential conflicts of interest.

DENVER — Among residents of urban environments, the highest levels of exposure to environmental trichloroethylene (TCE) is associated with a 24% increase in risk of Parkinson’s disease, according to results from a new nationwide analysis of a Medicare population.

TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.

Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.

Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
 

From Population Data to Individual Risk

In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.

In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.

Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.

“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.

The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.

‘More Substantial’ Data Adds to Previous Evidence

The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.

It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.

Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.

DENVER — Among residents of urban environments, the highest levels of exposure to environmental trichloroethylene (TCE) is associated with a 24% increase in risk of Parkinson’s disease, according to results from a new nationwide analysis of a Medicare population.

TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.

Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.

Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
 

From Population Data to Individual Risk

In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.

In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.

Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.

“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.

The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.

‘More Substantial’ Data Adds to Previous Evidence

The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.

It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.

Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.

DENVER — Among residents of urban environments, the highest levels of exposure to environmental trichloroethylene (TCE) is associated with a 24% increase in risk of Parkinson’s disease, according to results from a new nationwide analysis of a Medicare population.

TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.

Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.

Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
 

From Population Data to Individual Risk

In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.

In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.

Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.

“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.

The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.

‘More Substantial’ Data Adds to Previous Evidence

The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.

It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.

Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.

Black people, men, older adults, and those living in rural communities are less likely to receive thrombolytic therapy after ischemic stroke, early research shows.

“The findings should serve as an eye-opener that social determinants of health seem to be playing a role in who receives thrombolytic therapy, said study investigator Chanaka Kahathuduwa, MD, PhD, resident physician, Department of Neurology, School of Medicine, Texas Tech University Health Sciences Center, Lubbock. 

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Contributor to Poor Outcomes

Social determinants of health are important contributors to poor stroke-related outcomes, the investigators noted. They pointed out that previous research has yielded conflicting results as to the cause.

Whereas some studies suggest poor social determinants of health drive increased stroke incidence, others raise the question of whether there are disparities in acute stroke care. 

To investigate, the researchers used a publicly available database and diagnostic and procedure codes to identify patients presenting at emergency departments in Texas from 2016 to 2019 with ischemic stroke who did and did not receive thrombolytic therapy.

“We focused on Texas, which has a very large area but few places where people have easy access to health care, which is a problem,” said study co-investigator Chathurika Dhanasekara, MD, PhD, research assistant professor in the Department of Surgery, School of Medicine, Texas Tech University Health Sciences Center.

The study included 63,983 stroke patients, of whom 51.6% were female, 66.6% were White, and 17.7% were Black. Of these, 7198 (11.2%) received thrombolytic therapy; such therapies include the tissue plasminogen activators (tPAs) alteplase and tenecteplace.

Researchers collected information on social determinants of health such as age, race, gender, insurance type, and residence based on zip codes. They computed risk ratios (RRs) of administering thrombolysis on the basis of these variables.

Results showed that Black patients were less likely than their White counterparts to receive thrombolysis (RR, 0.90; 95% CI, 0.85-0.96). In addition, patients older than 65 years were less likely those aged 18-45 years to receive thrombolysis (RR, 0.47; 95% CI, 0.44-0.51), and rural residents were less likely than urban dwellers to receive the intervention (RR, 0.60; 95% CI, 0.55-0.65).

It makes some sense, the researchers said, that rural stroke patients would be less likely to get thrombolysis because there’s a limited time window — within 4.5 hours — during which this therapy can be given, and such patients may live a long distance from a hospital.

Two other groups less likely to receive thrombolysis were Hispanic persons versus non-Hispanic persons (RR, 0.93; 95% CI, 0.87-0.98) and Medicare/Medicaid/Veterans Administration patients (RR, 0.77; 95% CI, 0.73-0.81) or uninsured patients (RR, 0.90; 95% CI, 0.94-0.87) vs those with private insurance.

Interestingly, male patients were less likely than female patients to receive thrombolysis (RR, 0.95; 95% CI, 0.90-0.99).
 

Surprising Findings

With the exception of the discrepancy in thrombolysis rates between rural versus urban dwellers, the study’s findings were surprising, said Dr. Kahathuduwa. 

Researchers divided participants into quartiles, from least to most disadvantaged, based on the Social Vulnerability Index (SVI), created by the Centers for Disease Control and Prevention to determine social vulnerability or factors that can negatively affect a community’s health. 

Among the 7930 individuals in the least disadvantaged group, 1037 received thrombolysis. In comparison, among the 7966 persons in the most disadvantaged group, 964 received thrombolysis.

After adjusting for age, sex, and education, investigators found that patients in the first quartile based on SVI were more likely to be associated with thrombolysis vs those in the second and third quartiles (RR, 1.13; 95% CI, 1.04-1.22).

The researchers also examined the impact of comorbidities using the Charlson Comorbidity Index. Patients with diabetes, hypertension, and high cholesterol in addition to signs of stroke would rouse a higher degree of suspicion and be more likely to be treated with tPA or tenecteplase, said Dr. Kahathuduwa.

“But even when we controlled for those comorbidities, the relationships we identified between health disparities and the likelihood of receiving thrombolysis remained the same,” said Dr. Kahathuduwa.

It’s not clear from this study what factors contribute to the disparities in stroke treatment. “All we know is these relationships exist,” said Dr. Kahathuduwa. “We should use this as a foundation to understand what’s really going on at the grassroots level.”

However, he added, it’s possible that accessibility plays a role. He noted that Lubbock has the only Level 1 stroke center in west Texas; most stroke centers in the state are concentrated in cities in east and central Texas.

The investigators are embarking on further research to assess the impact of determinants of health on receipt of endovascular therapy and the role of stroke severity.

“In an ideal world, all patients who need thrombolytic therapy would get thrombolytic therapy within the recommended time window because the benefits are very clear,” said Dr. Kahathuduwa.

The findings may not be generalizable because they come from a single database. “Our findings need to be validated in another independent dataset before we can confidently determine what’s going on,” said Dr. Kahathuduwa.

A limitation of the study was that it is unknown how many of the participants were seen at the hospital within the recommended time frame and would thus be eligible to receive the treatment.

Commenting on the research, Martinson Arnan, MD , a vascular neurologist at Bronson Neuroscience Center, Kalamazoo, Michigan, said the study’s “exploratory finding” is important and “illuminates the potential impact of social determinants of health on disparities in acute stroke treatment.”

Neurologists consistently emphasize the principle that “time is brain” — that timely restoration of blood flow is crucial for minimizing morbidity associated with ischemic stroke. This study offers a potential opportunity to investigate how social determinants of health may affect stroke care, said Dr. Arnan.

However, he added, further research is needed “to understand whether the differences in outcomes observed here are influenced by levels of health education, concordance between patients and their treating providers, or other issues related to access barriers.” 

The investigators and Dr. Arnan report no relevant conflicts of interest.

A version of this article appeared on Medscape.com.

Black people, men, older adults, and those living in rural communities are less likely to receive thrombolytic therapy after ischemic stroke, early research shows.

“The findings should serve as an eye-opener that social determinants of health seem to be playing a role in who receives thrombolytic therapy, said study investigator Chanaka Kahathuduwa, MD, PhD, resident physician, Department of Neurology, School of Medicine, Texas Tech University Health Sciences Center, Lubbock. 

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Contributor to Poor Outcomes

Social determinants of health are important contributors to poor stroke-related outcomes, the investigators noted. They pointed out that previous research has yielded conflicting results as to the cause.

Whereas some studies suggest poor social determinants of health drive increased stroke incidence, others raise the question of whether there are disparities in acute stroke care. 

To investigate, the researchers used a publicly available database and diagnostic and procedure codes to identify patients presenting at emergency departments in Texas from 2016 to 2019 with ischemic stroke who did and did not receive thrombolytic therapy.

“We focused on Texas, which has a very large area but few places where people have easy access to health care, which is a problem,” said study co-investigator Chathurika Dhanasekara, MD, PhD, research assistant professor in the Department of Surgery, School of Medicine, Texas Tech University Health Sciences Center.

The study included 63,983 stroke patients, of whom 51.6% were female, 66.6% were White, and 17.7% were Black. Of these, 7198 (11.2%) received thrombolytic therapy; such therapies include the tissue plasminogen activators (tPAs) alteplase and tenecteplace.

Researchers collected information on social determinants of health such as age, race, gender, insurance type, and residence based on zip codes. They computed risk ratios (RRs) of administering thrombolysis on the basis of these variables.

Results showed that Black patients were less likely than their White counterparts to receive thrombolysis (RR, 0.90; 95% CI, 0.85-0.96). In addition, patients older than 65 years were less likely those aged 18-45 years to receive thrombolysis (RR, 0.47; 95% CI, 0.44-0.51), and rural residents were less likely than urban dwellers to receive the intervention (RR, 0.60; 95% CI, 0.55-0.65).

It makes some sense, the researchers said, that rural stroke patients would be less likely to get thrombolysis because there’s a limited time window — within 4.5 hours — during which this therapy can be given, and such patients may live a long distance from a hospital.

Two other groups less likely to receive thrombolysis were Hispanic persons versus non-Hispanic persons (RR, 0.93; 95% CI, 0.87-0.98) and Medicare/Medicaid/Veterans Administration patients (RR, 0.77; 95% CI, 0.73-0.81) or uninsured patients (RR, 0.90; 95% CI, 0.94-0.87) vs those with private insurance.

Interestingly, male patients were less likely than female patients to receive thrombolysis (RR, 0.95; 95% CI, 0.90-0.99).
 

Surprising Findings

With the exception of the discrepancy in thrombolysis rates between rural versus urban dwellers, the study’s findings were surprising, said Dr. Kahathuduwa. 

Researchers divided participants into quartiles, from least to most disadvantaged, based on the Social Vulnerability Index (SVI), created by the Centers for Disease Control and Prevention to determine social vulnerability or factors that can negatively affect a community’s health. 

Among the 7930 individuals in the least disadvantaged group, 1037 received thrombolysis. In comparison, among the 7966 persons in the most disadvantaged group, 964 received thrombolysis.

After adjusting for age, sex, and education, investigators found that patients in the first quartile based on SVI were more likely to be associated with thrombolysis vs those in the second and third quartiles (RR, 1.13; 95% CI, 1.04-1.22).

The researchers also examined the impact of comorbidities using the Charlson Comorbidity Index. Patients with diabetes, hypertension, and high cholesterol in addition to signs of stroke would rouse a higher degree of suspicion and be more likely to be treated with tPA or tenecteplase, said Dr. Kahathuduwa.

“But even when we controlled for those comorbidities, the relationships we identified between health disparities and the likelihood of receiving thrombolysis remained the same,” said Dr. Kahathuduwa.

It’s not clear from this study what factors contribute to the disparities in stroke treatment. “All we know is these relationships exist,” said Dr. Kahathuduwa. “We should use this as a foundation to understand what’s really going on at the grassroots level.”

However, he added, it’s possible that accessibility plays a role. He noted that Lubbock has the only Level 1 stroke center in west Texas; most stroke centers in the state are concentrated in cities in east and central Texas.

The investigators are embarking on further research to assess the impact of determinants of health on receipt of endovascular therapy and the role of stroke severity.

“In an ideal world, all patients who need thrombolytic therapy would get thrombolytic therapy within the recommended time window because the benefits are very clear,” said Dr. Kahathuduwa.

The findings may not be generalizable because they come from a single database. “Our findings need to be validated in another independent dataset before we can confidently determine what’s going on,” said Dr. Kahathuduwa.

A limitation of the study was that it is unknown how many of the participants were seen at the hospital within the recommended time frame and would thus be eligible to receive the treatment.

Commenting on the research, Martinson Arnan, MD , a vascular neurologist at Bronson Neuroscience Center, Kalamazoo, Michigan, said the study’s “exploratory finding” is important and “illuminates the potential impact of social determinants of health on disparities in acute stroke treatment.”

Neurologists consistently emphasize the principle that “time is brain” — that timely restoration of blood flow is crucial for minimizing morbidity associated with ischemic stroke. This study offers a potential opportunity to investigate how social determinants of health may affect stroke care, said Dr. Arnan.

However, he added, further research is needed “to understand whether the differences in outcomes observed here are influenced by levels of health education, concordance between patients and their treating providers, or other issues related to access barriers.” 

The investigators and Dr. Arnan report no relevant conflicts of interest.

A version of this article appeared on Medscape.com.

Black people, men, older adults, and those living in rural communities are less likely to receive thrombolytic therapy after ischemic stroke, early research shows.

“The findings should serve as an eye-opener that social determinants of health seem to be playing a role in who receives thrombolytic therapy, said study investigator Chanaka Kahathuduwa, MD, PhD, resident physician, Department of Neurology, School of Medicine, Texas Tech University Health Sciences Center, Lubbock. 

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Contributor to Poor Outcomes

Social determinants of health are important contributors to poor stroke-related outcomes, the investigators noted. They pointed out that previous research has yielded conflicting results as to the cause.

Whereas some studies suggest poor social determinants of health drive increased stroke incidence, others raise the question of whether there are disparities in acute stroke care. 

To investigate, the researchers used a publicly available database and diagnostic and procedure codes to identify patients presenting at emergency departments in Texas from 2016 to 2019 with ischemic stroke who did and did not receive thrombolytic therapy.

“We focused on Texas, which has a very large area but few places where people have easy access to health care, which is a problem,” said study co-investigator Chathurika Dhanasekara, MD, PhD, research assistant professor in the Department of Surgery, School of Medicine, Texas Tech University Health Sciences Center.

The study included 63,983 stroke patients, of whom 51.6% were female, 66.6% were White, and 17.7% were Black. Of these, 7198 (11.2%) received thrombolytic therapy; such therapies include the tissue plasminogen activators (tPAs) alteplase and tenecteplace.

Researchers collected information on social determinants of health such as age, race, gender, insurance type, and residence based on zip codes. They computed risk ratios (RRs) of administering thrombolysis on the basis of these variables.

Results showed that Black patients were less likely than their White counterparts to receive thrombolysis (RR, 0.90; 95% CI, 0.85-0.96). In addition, patients older than 65 years were less likely those aged 18-45 years to receive thrombolysis (RR, 0.47; 95% CI, 0.44-0.51), and rural residents were less likely than urban dwellers to receive the intervention (RR, 0.60; 95% CI, 0.55-0.65).

It makes some sense, the researchers said, that rural stroke patients would be less likely to get thrombolysis because there’s a limited time window — within 4.5 hours — during which this therapy can be given, and such patients may live a long distance from a hospital.

Two other groups less likely to receive thrombolysis were Hispanic persons versus non-Hispanic persons (RR, 0.93; 95% CI, 0.87-0.98) and Medicare/Medicaid/Veterans Administration patients (RR, 0.77; 95% CI, 0.73-0.81) or uninsured patients (RR, 0.90; 95% CI, 0.94-0.87) vs those with private insurance.

Interestingly, male patients were less likely than female patients to receive thrombolysis (RR, 0.95; 95% CI, 0.90-0.99).
 

Surprising Findings

With the exception of the discrepancy in thrombolysis rates between rural versus urban dwellers, the study’s findings were surprising, said Dr. Kahathuduwa. 

Researchers divided participants into quartiles, from least to most disadvantaged, based on the Social Vulnerability Index (SVI), created by the Centers for Disease Control and Prevention to determine social vulnerability or factors that can negatively affect a community’s health. 

Among the 7930 individuals in the least disadvantaged group, 1037 received thrombolysis. In comparison, among the 7966 persons in the most disadvantaged group, 964 received thrombolysis.

After adjusting for age, sex, and education, investigators found that patients in the first quartile based on SVI were more likely to be associated with thrombolysis vs those in the second and third quartiles (RR, 1.13; 95% CI, 1.04-1.22).

The researchers also examined the impact of comorbidities using the Charlson Comorbidity Index. Patients with diabetes, hypertension, and high cholesterol in addition to signs of stroke would rouse a higher degree of suspicion and be more likely to be treated with tPA or tenecteplase, said Dr. Kahathuduwa.

“But even when we controlled for those comorbidities, the relationships we identified between health disparities and the likelihood of receiving thrombolysis remained the same,” said Dr. Kahathuduwa.

It’s not clear from this study what factors contribute to the disparities in stroke treatment. “All we know is these relationships exist,” said Dr. Kahathuduwa. “We should use this as a foundation to understand what’s really going on at the grassroots level.”

However, he added, it’s possible that accessibility plays a role. He noted that Lubbock has the only Level 1 stroke center in west Texas; most stroke centers in the state are concentrated in cities in east and central Texas.

The investigators are embarking on further research to assess the impact of determinants of health on receipt of endovascular therapy and the role of stroke severity.

“In an ideal world, all patients who need thrombolytic therapy would get thrombolytic therapy within the recommended time window because the benefits are very clear,” said Dr. Kahathuduwa.

The findings may not be generalizable because they come from a single database. “Our findings need to be validated in another independent dataset before we can confidently determine what’s going on,” said Dr. Kahathuduwa.

A limitation of the study was that it is unknown how many of the participants were seen at the hospital within the recommended time frame and would thus be eligible to receive the treatment.

Commenting on the research, Martinson Arnan, MD , a vascular neurologist at Bronson Neuroscience Center, Kalamazoo, Michigan, said the study’s “exploratory finding” is important and “illuminates the potential impact of social determinants of health on disparities in acute stroke treatment.”

Neurologists consistently emphasize the principle that “time is brain” — that timely restoration of blood flow is crucial for minimizing morbidity associated with ischemic stroke. This study offers a potential opportunity to investigate how social determinants of health may affect stroke care, said Dr. Arnan.

However, he added, further research is needed “to understand whether the differences in outcomes observed here are influenced by levels of health education, concordance between patients and their treating providers, or other issues related to access barriers.” 

The investigators and Dr. Arnan report no relevant conflicts of interest.

A version of this article appeared on Medscape.com.

Breastfeeding by women with multiple sclerosis (MS) or neuromyelitis optica spectrum disorder (NMOSD) who are taking monoclonal antibodies (mAbs) appears to be safe for infants, new research confirmed.

Registry data showed no differences in health or development in the first 3 years of life among infants exposed to natalizumab, ocrelizumab, rituximab, or ofatumumab, compared with unexposed infants.

“Most monoclonal antibody medications for multiple sclerosis are not currently approved for use while a mother is breastfeeding,” even though the disease can develop during a person’s reproductive years, study investigator Kerstin Hellwig, MD, with Ruhr University in Bochum, Germany, said in a news release.

“Our data show infants exposed to these medications through breastfeeding experienced no negative effects on health or development within the first 3 years of life,” Dr. Hellwig said.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Registry Data and Analysis

Using the German MS and Pregnancy Registry, researchers identified 183 infants born to mothers taking mAbs while breastfeeding — 180 with a diagnosis of MS and three with a diagnosis of NMOSD. The infants were matched to 183 unexposed infants (control group).

Exposure to mAbs during lactation started a median of 19 days postpartum and lasted for a median of 172 days. The most commonly used mAb during lactation was natalizumab (125 women), followed by ocrelizumab (34 women), rituximab (11 women), and ofatumumab (10 women).

Among the entire infant cohort, two were first exposed to natalizumab and then ocrelizumab; one was exposed to rituximab and then ocrelizumab; three had been previously breastfed on glatiramer acetate and two on interferons.

The primary outcomes were hospitalizations, antibiotic use, developmental delay, and weight during the first 3 years of life in mAb-exposed versus unexposed infants.

In adjusted regression analyses, mAb exposure during breastfeeding was not significantly associated with annual hospitalization (rate ratio [RR], 1.23; P = .473), annual systemic antibiotic use (RR, 1.55; P = .093), developmental delay (odds ratio, 1.16; P = .716), or weight.

A limitation of the study was that only about a third of the infants were followed for the full 3 years. Therefore, Dr. Hellwig said, the results for the third year of life are less meaningful than for years 1 and 2.
 

‘Reassuring’ Data

Reached for comment, Edith L. Graham, MD, Department of Neurology, Multiple Sclerosis and Neuroimmunology, Northwestern University, Chicago, Illinois, noted that this is the largest group of breastfed infants exposed to mAbs used to treat MS and said the data provide “reassuring infant outcomes with no increase in hospitalization, antibiotic use, or developmental delay.”

Dr. Graham noted that recent publications have reported more on the use of anti-CD20 mAbs (ocrelizumab/rituximab/ofatumumab) while breastfeeding, “and this study adds data for patients on natalizumab.”

“It will be important to know how infusion timing after birth impacts transfer of monoclonal antibodies depending on the milk stage as it transitions from colostrum to mature milk in the first month postpartum,” Dr. Graham said.

“While infection rates of infants are reassuring, data on allergies in the exposed infants would be interesting to look at as well,” she added. “While these infusions are not orally bioavailable, we do not know the full extent of impact on the neonatal gut microbiome.”

In addition, Dr. Graham said it would be important to know whether drugs administered monthly, such as natalizumab and ofatumumab, accumulate in the breast milk at higher levels than medications such as ocrelizumab and rituximab, which are administered twice a year.

The German MS and pregnancy registry was partly supported by the Innovation Fund of the Federal Joint Committee, Almirall Hermal GmbH, Biogen GmbH Germany, Hexal AG, Merck Serono GmbH, Novartis Pharma GmbH, Roche Deutschland GmbH, Sanofi Genzyme, and Teva GmbH. Dr. Hellwig and Dr. Graham had no relevant disclosures.

A version of this article appeared on Medscape.com.

Breastfeeding by women with multiple sclerosis (MS) or neuromyelitis optica spectrum disorder (NMOSD) who are taking monoclonal antibodies (mAbs) appears to be safe for infants, new research confirmed.

Registry data showed no differences in health or development in the first 3 years of life among infants exposed to natalizumab, ocrelizumab, rituximab, or ofatumumab, compared with unexposed infants.

“Most monoclonal antibody medications for multiple sclerosis are not currently approved for use while a mother is breastfeeding,” even though the disease can develop during a person’s reproductive years, study investigator Kerstin Hellwig, MD, with Ruhr University in Bochum, Germany, said in a news release.

“Our data show infants exposed to these medications through breastfeeding experienced no negative effects on health or development within the first 3 years of life,” Dr. Hellwig said.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Registry Data and Analysis

Using the German MS and Pregnancy Registry, researchers identified 183 infants born to mothers taking mAbs while breastfeeding — 180 with a diagnosis of MS and three with a diagnosis of NMOSD. The infants were matched to 183 unexposed infants (control group).

Exposure to mAbs during lactation started a median of 19 days postpartum and lasted for a median of 172 days. The most commonly used mAb during lactation was natalizumab (125 women), followed by ocrelizumab (34 women), rituximab (11 women), and ofatumumab (10 women).

Among the entire infant cohort, two were first exposed to natalizumab and then ocrelizumab; one was exposed to rituximab and then ocrelizumab; three had been previously breastfed on glatiramer acetate and two on interferons.

The primary outcomes were hospitalizations, antibiotic use, developmental delay, and weight during the first 3 years of life in mAb-exposed versus unexposed infants.

In adjusted regression analyses, mAb exposure during breastfeeding was not significantly associated with annual hospitalization (rate ratio [RR], 1.23; P = .473), annual systemic antibiotic use (RR, 1.55; P = .093), developmental delay (odds ratio, 1.16; P = .716), or weight.

A limitation of the study was that only about a third of the infants were followed for the full 3 years. Therefore, Dr. Hellwig said, the results for the third year of life are less meaningful than for years 1 and 2.
 

‘Reassuring’ Data

Reached for comment, Edith L. Graham, MD, Department of Neurology, Multiple Sclerosis and Neuroimmunology, Northwestern University, Chicago, Illinois, noted that this is the largest group of breastfed infants exposed to mAbs used to treat MS and said the data provide “reassuring infant outcomes with no increase in hospitalization, antibiotic use, or developmental delay.”

Dr. Graham noted that recent publications have reported more on the use of anti-CD20 mAbs (ocrelizumab/rituximab/ofatumumab) while breastfeeding, “and this study adds data for patients on natalizumab.”

“It will be important to know how infusion timing after birth impacts transfer of monoclonal antibodies depending on the milk stage as it transitions from colostrum to mature milk in the first month postpartum,” Dr. Graham said.

“While infection rates of infants are reassuring, data on allergies in the exposed infants would be interesting to look at as well,” she added. “While these infusions are not orally bioavailable, we do not know the full extent of impact on the neonatal gut microbiome.”

In addition, Dr. Graham said it would be important to know whether drugs administered monthly, such as natalizumab and ofatumumab, accumulate in the breast milk at higher levels than medications such as ocrelizumab and rituximab, which are administered twice a year.

The German MS and pregnancy registry was partly supported by the Innovation Fund of the Federal Joint Committee, Almirall Hermal GmbH, Biogen GmbH Germany, Hexal AG, Merck Serono GmbH, Novartis Pharma GmbH, Roche Deutschland GmbH, Sanofi Genzyme, and Teva GmbH. Dr. Hellwig and Dr. Graham had no relevant disclosures.

A version of this article appeared on Medscape.com.

Breastfeeding by women with multiple sclerosis (MS) or neuromyelitis optica spectrum disorder (NMOSD) who are taking monoclonal antibodies (mAbs) appears to be safe for infants, new research confirmed.

Registry data showed no differences in health or development in the first 3 years of life among infants exposed to natalizumab, ocrelizumab, rituximab, or ofatumumab, compared with unexposed infants.

“Most monoclonal antibody medications for multiple sclerosis are not currently approved for use while a mother is breastfeeding,” even though the disease can develop during a person’s reproductive years, study investigator Kerstin Hellwig, MD, with Ruhr University in Bochum, Germany, said in a news release.

“Our data show infants exposed to these medications through breastfeeding experienced no negative effects on health or development within the first 3 years of life,” Dr. Hellwig said.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Registry Data and Analysis

Using the German MS and Pregnancy Registry, researchers identified 183 infants born to mothers taking mAbs while breastfeeding — 180 with a diagnosis of MS and three with a diagnosis of NMOSD. The infants were matched to 183 unexposed infants (control group).

Exposure to mAbs during lactation started a median of 19 days postpartum and lasted for a median of 172 days. The most commonly used mAb during lactation was natalizumab (125 women), followed by ocrelizumab (34 women), rituximab (11 women), and ofatumumab (10 women).

Among the entire infant cohort, two were first exposed to natalizumab and then ocrelizumab; one was exposed to rituximab and then ocrelizumab; three had been previously breastfed on glatiramer acetate and two on interferons.

The primary outcomes were hospitalizations, antibiotic use, developmental delay, and weight during the first 3 years of life in mAb-exposed versus unexposed infants.

In adjusted regression analyses, mAb exposure during breastfeeding was not significantly associated with annual hospitalization (rate ratio [RR], 1.23; P = .473), annual systemic antibiotic use (RR, 1.55; P = .093), developmental delay (odds ratio, 1.16; P = .716), or weight.

A limitation of the study was that only about a third of the infants were followed for the full 3 years. Therefore, Dr. Hellwig said, the results for the third year of life are less meaningful than for years 1 and 2.
 

‘Reassuring’ Data

Reached for comment, Edith L. Graham, MD, Department of Neurology, Multiple Sclerosis and Neuroimmunology, Northwestern University, Chicago, Illinois, noted that this is the largest group of breastfed infants exposed to mAbs used to treat MS and said the data provide “reassuring infant outcomes with no increase in hospitalization, antibiotic use, or developmental delay.”

Dr. Graham noted that recent publications have reported more on the use of anti-CD20 mAbs (ocrelizumab/rituximab/ofatumumab) while breastfeeding, “and this study adds data for patients on natalizumab.”

“It will be important to know how infusion timing after birth impacts transfer of monoclonal antibodies depending on the milk stage as it transitions from colostrum to mature milk in the first month postpartum,” Dr. Graham said.

“While infection rates of infants are reassuring, data on allergies in the exposed infants would be interesting to look at as well,” she added. “While these infusions are not orally bioavailable, we do not know the full extent of impact on the neonatal gut microbiome.”

In addition, Dr. Graham said it would be important to know whether drugs administered monthly, such as natalizumab and ofatumumab, accumulate in the breast milk at higher levels than medications such as ocrelizumab and rituximab, which are administered twice a year.

The German MS and pregnancy registry was partly supported by the Innovation Fund of the Federal Joint Committee, Almirall Hermal GmbH, Biogen GmbH Germany, Hexal AG, Merck Serono GmbH, Novartis Pharma GmbH, Roche Deutschland GmbH, Sanofi Genzyme, and Teva GmbH. Dr. Hellwig and Dr. Graham had no relevant disclosures.

A version of this article appeared on Medscape.com.

Symptoms of sleep apnea, including snorting, gasping, or paused breathing during sleep, are associated with a significantly greater risk for problems with cognitive and memory problems, results from a large study showed.

Data from a representative sample of US adults show that those who reported sleep apnea symptoms were about 50% more likely to also report cognitive issues versus their counterparts without such symptoms.

“For clinicians, these findings suggest a potential benefit of considering sleep apnea as a possible contributing or exacerbating factor in individuals experiencing memory or cognitive problems. This could prompt further evaluation for sleep apnea, particularly in at-risk individuals,” said study investigator Dominique Low, MD, MPH, Department of Neurology, Boston Medical Center.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Need to Raise Awareness

The findings are based on 4257 adults who participated in the 2017-2018 National Health and Nutrition Examination Survey and completed questionnaires covering sleep, memory, cognition, and decision-making abilities.

Those who reported snorting, gasping, or breathing pauses during sleep were categorized as experiencing sleep apnea symptoms. Those who reported memory trouble, periods of confusion, difficulty concentrating, or decision-making problems were classified as having memory or cognitive symptoms.

Overall, 1079 participants reported symptoms of sleep apnea. Compared with people without sleep apnea, those with symptoms were more likely to have cognitive problems (33% vs 20%) and have greater odds of having memory or cognitive symptoms, even after adjusting for age, gender, race, and education (adjusted odds ratio, 2.02; P < .001).

“While the study did not establish a cause-and-effect relationship, the findings suggest the importance of raising awareness about the potential link between sleep and cognitive function. Early identification and treatment may improve overall health and potentially lead to a better quality of life,” Dr. Low said.

Limitations of the study include self-reported data on sleep apnea symptoms and cognitive issues sourced from one survey.
 

Consistent Data

Reached for comment, Matthew Pase, PhD, with the Turner Institute for Brain and Mental Health, Monash University, Melbourne, Australia, said the results are similar to earlier work that found a link between obstructive sleep apnea and cognition.

For example, in a recent study, the presence of mild to severe OSA, identified using overnight polysomnography in five community-based cohorts with more than 5900 adults, was associated with poorer cognitive test performance, Dr. Pase said.

“These and other results underscore the importance of healthy sleep for optimal brain health. Future research is needed to test if treating OSA and other sleep disorders can reduce the risk of cognitive impairment,” Dr. Pase said.

Yet, in its latest statement on the topic, the US Preventive Services Task Force concluded there remains insufficient evidence to weigh the balance of benefits and harms of screening for OSA among asymptomatic adults and those with unrecognized symptoms.

The study had no specific funding. Dr. Low and Dr. Pase had no relevant disclosures.
 

A version of this article appeared on Medscape.com.

Symptoms of sleep apnea, including snorting, gasping, or paused breathing during sleep, are associated with a significantly greater risk for problems with cognitive and memory problems, results from a large study showed.

Data from a representative sample of US adults show that those who reported sleep apnea symptoms were about 50% more likely to also report cognitive issues versus their counterparts without such symptoms.

“For clinicians, these findings suggest a potential benefit of considering sleep apnea as a possible contributing or exacerbating factor in individuals experiencing memory or cognitive problems. This could prompt further evaluation for sleep apnea, particularly in at-risk individuals,” said study investigator Dominique Low, MD, MPH, Department of Neurology, Boston Medical Center.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Need to Raise Awareness

The findings are based on 4257 adults who participated in the 2017-2018 National Health and Nutrition Examination Survey and completed questionnaires covering sleep, memory, cognition, and decision-making abilities.

Those who reported snorting, gasping, or breathing pauses during sleep were categorized as experiencing sleep apnea symptoms. Those who reported memory trouble, periods of confusion, difficulty concentrating, or decision-making problems were classified as having memory or cognitive symptoms.

Overall, 1079 participants reported symptoms of sleep apnea. Compared with people without sleep apnea, those with symptoms were more likely to have cognitive problems (33% vs 20%) and have greater odds of having memory or cognitive symptoms, even after adjusting for age, gender, race, and education (adjusted odds ratio, 2.02; P < .001).

“While the study did not establish a cause-and-effect relationship, the findings suggest the importance of raising awareness about the potential link between sleep and cognitive function. Early identification and treatment may improve overall health and potentially lead to a better quality of life,” Dr. Low said.

Limitations of the study include self-reported data on sleep apnea symptoms and cognitive issues sourced from one survey.
 

Consistent Data

Reached for comment, Matthew Pase, PhD, with the Turner Institute for Brain and Mental Health, Monash University, Melbourne, Australia, said the results are similar to earlier work that found a link between obstructive sleep apnea and cognition.

For example, in a recent study, the presence of mild to severe OSA, identified using overnight polysomnography in five community-based cohorts with more than 5900 adults, was associated with poorer cognitive test performance, Dr. Pase said.

“These and other results underscore the importance of healthy sleep for optimal brain health. Future research is needed to test if treating OSA and other sleep disorders can reduce the risk of cognitive impairment,” Dr. Pase said.

Yet, in its latest statement on the topic, the US Preventive Services Task Force concluded there remains insufficient evidence to weigh the balance of benefits and harms of screening for OSA among asymptomatic adults and those with unrecognized symptoms.

The study had no specific funding. Dr. Low and Dr. Pase had no relevant disclosures.
 

A version of this article appeared on Medscape.com.

Symptoms of sleep apnea, including snorting, gasping, or paused breathing during sleep, are associated with a significantly greater risk for problems with cognitive and memory problems, results from a large study showed.

Data from a representative sample of US adults show that those who reported sleep apnea symptoms were about 50% more likely to also report cognitive issues versus their counterparts without such symptoms.

“For clinicians, these findings suggest a potential benefit of considering sleep apnea as a possible contributing or exacerbating factor in individuals experiencing memory or cognitive problems. This could prompt further evaluation for sleep apnea, particularly in at-risk individuals,” said study investigator Dominique Low, MD, MPH, Department of Neurology, Boston Medical Center.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Need to Raise Awareness

The findings are based on 4257 adults who participated in the 2017-2018 National Health and Nutrition Examination Survey and completed questionnaires covering sleep, memory, cognition, and decision-making abilities.

Those who reported snorting, gasping, or breathing pauses during sleep were categorized as experiencing sleep apnea symptoms. Those who reported memory trouble, periods of confusion, difficulty concentrating, or decision-making problems were classified as having memory or cognitive symptoms.

Overall, 1079 participants reported symptoms of sleep apnea. Compared with people without sleep apnea, those with symptoms were more likely to have cognitive problems (33% vs 20%) and have greater odds of having memory or cognitive symptoms, even after adjusting for age, gender, race, and education (adjusted odds ratio, 2.02; P < .001).

“While the study did not establish a cause-and-effect relationship, the findings suggest the importance of raising awareness about the potential link between sleep and cognitive function. Early identification and treatment may improve overall health and potentially lead to a better quality of life,” Dr. Low said.

Limitations of the study include self-reported data on sleep apnea symptoms and cognitive issues sourced from one survey.
 

Consistent Data

Reached for comment, Matthew Pase, PhD, with the Turner Institute for Brain and Mental Health, Monash University, Melbourne, Australia, said the results are similar to earlier work that found a link between obstructive sleep apnea and cognition.

For example, in a recent study, the presence of mild to severe OSA, identified using overnight polysomnography in five community-based cohorts with more than 5900 adults, was associated with poorer cognitive test performance, Dr. Pase said.

“These and other results underscore the importance of healthy sleep for optimal brain health. Future research is needed to test if treating OSA and other sleep disorders can reduce the risk of cognitive impairment,” Dr. Pase said.

Yet, in its latest statement on the topic, the US Preventive Services Task Force concluded there remains insufficient evidence to weigh the balance of benefits and harms of screening for OSA among asymptomatic adults and those with unrecognized symptoms.

The study had no specific funding. Dr. Low and Dr. Pase had no relevant disclosures.
 

A version of this article appeared on Medscape.com.

People with essential tremor (ET) have nearly three times increased risk of developing dementia, compared with the general population, new research showed.

In a prospective, longitudinal study, incidence of dementia was nearly 20% among older adults with ET. However, the rates were lower than those in adults with Parkinson’s disease.

The study is “the most complete exposition of the longitudinal trajectory of cognitive impairment in an ET cohort,” said the authors, led by Elan D. Louis, MD, MSc, from University of Texas Southwestern Medical Center in Dallas, Texas.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Mild Cognitive Impairment Prevalence Nearly Double

For the study, 222 adults with ET with an average age of 79 years at baseline underwent detailed cognitive assessments and were followed for an average of 5 years.

At baseline, 168 people had normal cognitive skills, 35 had mild cognitive impairment (MCI), and 19 had dementia. During the follow-up, 59 individuals developed MCI and 41 developed dementia.

During the follow-up, the cumulative prevalence of dementia was 18.5%, and the average annual conversion rate of MCI to dementia was 12.2% — nearly threefold higher than rates in the general population and roughly one-half the magnitude of those reported for adults with Parkinson’s disease.

The cumulative prevalence of MCI (26.6%) was nearly double that of the general population but less than that in patients with Parkinson’s disease.

“Our data indicate that the prevalence of and conversion rates to dementia in ET fall between those associated with the natural course of aging and the more pronounced rates observed in individuals with Parkinson’s disease,” the researchers wrote in their conference abstract.
 

Far From Trivial

Reached for comment, Shaheen Lakhan, MD, a neurologist and researcher based in Miami, Florida, said, “The days of viewing ET as just a ‘nuisance tremor’ are over. This study shatters the notion that essential tremor is a trivial condition.”

“Moving forward, the research agenda must further elucidate the link between ET and dementia and develop neuroprotective strategies. But this study represents a seismic shift in how we understand essential tremor,” Dr. Lakhan said.

“The benign label no longer applies given the cognitive risks ET patients face. Our clinical practice and communication with patients must adapt accordingly,” he added.

The study was supported by the National Institutes of Health. Drs. Louis and Lakhan had no relevant disclosures.

A version of this article appeared on Medscape.com.

People with essential tremor (ET) have nearly three times increased risk of developing dementia, compared with the general population, new research showed.

In a prospective, longitudinal study, incidence of dementia was nearly 20% among older adults with ET. However, the rates were lower than those in adults with Parkinson’s disease.

The study is “the most complete exposition of the longitudinal trajectory of cognitive impairment in an ET cohort,” said the authors, led by Elan D. Louis, MD, MSc, from University of Texas Southwestern Medical Center in Dallas, Texas.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Mild Cognitive Impairment Prevalence Nearly Double

For the study, 222 adults with ET with an average age of 79 years at baseline underwent detailed cognitive assessments and were followed for an average of 5 years.

At baseline, 168 people had normal cognitive skills, 35 had mild cognitive impairment (MCI), and 19 had dementia. During the follow-up, 59 individuals developed MCI and 41 developed dementia.

During the follow-up, the cumulative prevalence of dementia was 18.5%, and the average annual conversion rate of MCI to dementia was 12.2% — nearly threefold higher than rates in the general population and roughly one-half the magnitude of those reported for adults with Parkinson’s disease.

The cumulative prevalence of MCI (26.6%) was nearly double that of the general population but less than that in patients with Parkinson’s disease.

“Our data indicate that the prevalence of and conversion rates to dementia in ET fall between those associated with the natural course of aging and the more pronounced rates observed in individuals with Parkinson’s disease,” the researchers wrote in their conference abstract.
 

Far From Trivial

Reached for comment, Shaheen Lakhan, MD, a neurologist and researcher based in Miami, Florida, said, “The days of viewing ET as just a ‘nuisance tremor’ are over. This study shatters the notion that essential tremor is a trivial condition.”

“Moving forward, the research agenda must further elucidate the link between ET and dementia and develop neuroprotective strategies. But this study represents a seismic shift in how we understand essential tremor,” Dr. Lakhan said.

“The benign label no longer applies given the cognitive risks ET patients face. Our clinical practice and communication with patients must adapt accordingly,” he added.

The study was supported by the National Institutes of Health. Drs. Louis and Lakhan had no relevant disclosures.

A version of this article appeared on Medscape.com.

People with essential tremor (ET) have nearly three times increased risk of developing dementia, compared with the general population, new research showed.

In a prospective, longitudinal study, incidence of dementia was nearly 20% among older adults with ET. However, the rates were lower than those in adults with Parkinson’s disease.

The study is “the most complete exposition of the longitudinal trajectory of cognitive impairment in an ET cohort,” said the authors, led by Elan D. Louis, MD, MSc, from University of Texas Southwestern Medical Center in Dallas, Texas.

The findings were released ahead of the study’s scheduled presentation at the annual meeting of the American Academy of Neurology.
 

Mild Cognitive Impairment Prevalence Nearly Double

For the study, 222 adults with ET with an average age of 79 years at baseline underwent detailed cognitive assessments and were followed for an average of 5 years.

At baseline, 168 people had normal cognitive skills, 35 had mild cognitive impairment (MCI), and 19 had dementia. During the follow-up, 59 individuals developed MCI and 41 developed dementia.

During the follow-up, the cumulative prevalence of dementia was 18.5%, and the average annual conversion rate of MCI to dementia was 12.2% — nearly threefold higher than rates in the general population and roughly one-half the magnitude of those reported for adults with Parkinson’s disease.

The cumulative prevalence of MCI (26.6%) was nearly double that of the general population but less than that in patients with Parkinson’s disease.

“Our data indicate that the prevalence of and conversion rates to dementia in ET fall between those associated with the natural course of aging and the more pronounced rates observed in individuals with Parkinson’s disease,” the researchers wrote in their conference abstract.
 

Far From Trivial

Reached for comment, Shaheen Lakhan, MD, a neurologist and researcher based in Miami, Florida, said, “The days of viewing ET as just a ‘nuisance tremor’ are over. This study shatters the notion that essential tremor is a trivial condition.”

“Moving forward, the research agenda must further elucidate the link between ET and dementia and develop neuroprotective strategies. But this study represents a seismic shift in how we understand essential tremor,” Dr. Lakhan said.

“The benign label no longer applies given the cognitive risks ET patients face. Our clinical practice and communication with patients must adapt accordingly,” he added.

The study was supported by the National Institutes of Health. Drs. Louis and Lakhan had no relevant disclosures.

A version of this article appeared on Medscape.com.