TBD Meeting (2962-23)

BOSTON – Atogepant helped reduce the number of mean migraine days among adults with episodic migraine who failed multiple other oral migraine medications, according to findings from a study presented at the 2023 annual meeting of the American Academy of Neurology.

Initial results from the double-blind ELEVATE trial showed the oral atogepant group had significantly fewer mean monthly migraine days (MMD) compared with a placebo group. There was also a significant difference in the number of participants who achieved 50% or greater reduction in the number of mean MMDs and a significant reduction in acute medication use days compared with the placebo group, according to Patricia Pozo-Rosich, MD, PhD, a headache specialist in the neurology department and director of the headache and craniofacial pain clinical unit and the Migraine Adaptive Brain Center at the Vall d’Hebron University Hospital in Barcelona, and colleagues.

Vall d’Hebron University Hospital

The oral calcitonin gene-related peptide (CGRP) receptor antagonist is currently approved in the United States by the Food and Drug Administration as a preventative for both episodic and chronic migraine.
 

Results from ELEVATE

Overall, ELEVATE’s initial efficacy analysis population consisted of 309 adults aged between 18 and 80 years from North America and Europe with episodic migraine who had 4-14 MMDs and had treatment failure with at least two classes of conventional oral medication. After a 28-day screening period, participants received either 60 mg of oral atogepant once per day (154 participants) or a placebo (155 participants). In the efficacy analysis population, 56.0% of participants had failed two oral migraine preventative medication classes, while 44.0% failed three or more classes of medication. Dr. Pozo-Rosich noted that participants were taking a number of different oral preventatives across different medication classes, including flunarizine, beta blockers, topiramate, and amitriptyline, but data are not yet available on which participants had received certain combinations of oral medications.

“[T]hese people have already taken some type of prevention, so they’re not naive patients,” she said. “They’re usually more or less well treated in the sense of having had a contact with specialists or a general neurologist, someone that actually tries to do some prevention.”

The researchers examined change from MMDs at baseline and at 12 weeks as a primary outcome, with 50% or greater MMD reduction, change in mean monthly headache days, and change in acute medication use days as secondary outcomes. Regarding the different acute medications used, Dr. Pozo-Rosich said the main three types were analgesics, nonsteroid anti-inflammatory drugs, and triptans, with participants excluded from the trial if they were taking opioids.

The results showed participants in the atogepant group had significantly fewer mean MMDs compared with the placebo group at 12 weeks compared with baseline (–4.20 vs. –1.85 days; P < .0001). Researchers also found statistically significant improvement in the atogepant group for 50% or greater reduction in MMD, change in mean monthly headache days, and change in acute medication use days across 12 weeks of treatment compared with the placebo group. While the specific data analyses for secondary outcomes were not conducted in the initial analysis, Dr. Pozo-Rosich said the numbers “correlate with the primary outcome” as seen in other migraine trials.

Compared with the placebo group, participants in the atogepant group had higher rates of constipation (10.3% vs. 2.5%), COVID-19 (9.6% vs. 8.3%), and nausea (7.1% vs. 3.2%), while the placebo group had a higher rate of nasopharyngitis (5.1% vs. 7.6%).*

Migraine is a prevalent and undertreated disease, and patients around the world with migraine are in need of treatment options that are both safe and effective, Dr. Pozo-Rosich said in an interview. “[E]ven in these hard-to-treat or difficult-to-treat migraine patients, you have a drug that works, and is safe, and well tolerated and effective,” she said.

That’s “kind of good news for all of us,” she said. Patients “need this type of good news and solution,” she explained, because they may not tolerate or have access to injectable medications. Atogepant would also give clinicians have another option to offer patients with difficult-to-treat migraine cases, she noted. “It makes life easier for many physicians and many patients for many different reasons,” she said.

Dr. Pozo-Rosich said the likely next step in the research is to conduct the main analysis as well as post hoc analyses with accumulated data from pathology trials “to understand patterns of response, understand the sustainability of the response, [and] adherence to the treatment in the long term.”
 

‘Exciting that it works well’ in difficult-to-treat patients

Commenting on the study, Alan M. Rapoport, MD, clinical professor of neurology at University of California, Los Angeles, and past president of the International Headache Society, agreed that better options in migraine treatment and prevention are needed.

“We needed something that was going to be better than what we had before,” he said.

Dr. Rapoport noted the study was well designed with strongly positive results. “It looks like it’s an effective drug, and it looks really good in that it’s effective for people that have failed all these preventives that have very little hope for the future,” he said.

He specifically praised the inclusion of older participants in the population. “You never see a study on 80-year-olds,” he said, “but I like that, because they felt it would be safe. There are 80-year-old patients – fewer of them than 40-year-old patients – but there are 80-year-old patients who still have migraine, so I’m really glad they put older patients in it,” he said.

For atogepant, he noted that “some patients won’t get the side effects, and some patients will tolerate the side effects because it’s working really well.” While the study was not a head-to-head comparison against other oral migraine preventatives, he pointed out the high rate of constipation among participants in the trial setting may be a warning sign of future issues, as seen with other CGRP receptor agonists.

“I can tell you that with erenumab, the monoclonal antibody that was injected in the double-blind studies, they didn’t find any significant increase in constipation,” he explained. However, some clinicians using erenumab in the real world have reported up to 20% of their patients are constipated. “It’s not good that they’re reporting 10% are constipated” in the study, he said.

Overall, “all you can really say is it does work well,” Dr. Rapoport said. “It’s exciting that it works well in such difficult-to-treat patients, and it does come with some side effects.”

Dr. Pozo-Rosich reports serving as a consultant and developing education materials for AbbVie, Eli Lilly, Novartis, Teva Pharmaceuticals, and Pfizer. Dr. Rapoport is the editor-in-chief of Neurology Reviews; he reports being a consultant for AbbVie, the developer of atogepant. The ELEVATE trial is supported by AbbVie.

*Correction, 5/4/23: An earlier version of this article misstated the percentage of COVID-positive patients in the study population. 

BOSTON – Atogepant helped reduce the number of mean migraine days among adults with episodic migraine who failed multiple other oral migraine medications, according to findings from a study presented at the 2023 annual meeting of the American Academy of Neurology.

Initial results from the double-blind ELEVATE trial showed the oral atogepant group had significantly fewer mean monthly migraine days (MMD) compared with a placebo group. There was also a significant difference in the number of participants who achieved 50% or greater reduction in the number of mean MMDs and a significant reduction in acute medication use days compared with the placebo group, according to Patricia Pozo-Rosich, MD, PhD, a headache specialist in the neurology department and director of the headache and craniofacial pain clinical unit and the Migraine Adaptive Brain Center at the Vall d’Hebron University Hospital in Barcelona, and colleagues.

Vall d’Hebron University Hospital

The oral calcitonin gene-related peptide (CGRP) receptor antagonist is currently approved in the United States by the Food and Drug Administration as a preventative for both episodic and chronic migraine.
 

Results from ELEVATE

Overall, ELEVATE’s initial efficacy analysis population consisted of 309 adults aged between 18 and 80 years from North America and Europe with episodic migraine who had 4-14 MMDs and had treatment failure with at least two classes of conventional oral medication. After a 28-day screening period, participants received either 60 mg of oral atogepant once per day (154 participants) or a placebo (155 participants). In the efficacy analysis population, 56.0% of participants had failed two oral migraine preventative medication classes, while 44.0% failed three or more classes of medication. Dr. Pozo-Rosich noted that participants were taking a number of different oral preventatives across different medication classes, including flunarizine, beta blockers, topiramate, and amitriptyline, but data are not yet available on which participants had received certain combinations of oral medications.

“[T]hese people have already taken some type of prevention, so they’re not naive patients,” she said. “They’re usually more or less well treated in the sense of having had a contact with specialists or a general neurologist, someone that actually tries to do some prevention.”

The researchers examined change from MMDs at baseline and at 12 weeks as a primary outcome, with 50% or greater MMD reduction, change in mean monthly headache days, and change in acute medication use days as secondary outcomes. Regarding the different acute medications used, Dr. Pozo-Rosich said the main three types were analgesics, nonsteroid anti-inflammatory drugs, and triptans, with participants excluded from the trial if they were taking opioids.

The results showed participants in the atogepant group had significantly fewer mean MMDs compared with the placebo group at 12 weeks compared with baseline (–4.20 vs. –1.85 days; P < .0001). Researchers also found statistically significant improvement in the atogepant group for 50% or greater reduction in MMD, change in mean monthly headache days, and change in acute medication use days across 12 weeks of treatment compared with the placebo group. While the specific data analyses for secondary outcomes were not conducted in the initial analysis, Dr. Pozo-Rosich said the numbers “correlate with the primary outcome” as seen in other migraine trials.

Compared with the placebo group, participants in the atogepant group had higher rates of constipation (10.3% vs. 2.5%), COVID-19 (9.6% vs. 8.3%), and nausea (7.1% vs. 3.2%), while the placebo group had a higher rate of nasopharyngitis (5.1% vs. 7.6%).*

Migraine is a prevalent and undertreated disease, and patients around the world with migraine are in need of treatment options that are both safe and effective, Dr. Pozo-Rosich said in an interview. “[E]ven in these hard-to-treat or difficult-to-treat migraine patients, you have a drug that works, and is safe, and well tolerated and effective,” she said.

That’s “kind of good news for all of us,” she said. Patients “need this type of good news and solution,” she explained, because they may not tolerate or have access to injectable medications. Atogepant would also give clinicians have another option to offer patients with difficult-to-treat migraine cases, she noted. “It makes life easier for many physicians and many patients for many different reasons,” she said.

Dr. Pozo-Rosich said the likely next step in the research is to conduct the main analysis as well as post hoc analyses with accumulated data from pathology trials “to understand patterns of response, understand the sustainability of the response, [and] adherence to the treatment in the long term.”
 

‘Exciting that it works well’ in difficult-to-treat patients

Commenting on the study, Alan M. Rapoport, MD, clinical professor of neurology at University of California, Los Angeles, and past president of the International Headache Society, agreed that better options in migraine treatment and prevention are needed.

“We needed something that was going to be better than what we had before,” he said.

Dr. Rapoport noted the study was well designed with strongly positive results. “It looks like it’s an effective drug, and it looks really good in that it’s effective for people that have failed all these preventives that have very little hope for the future,” he said.

He specifically praised the inclusion of older participants in the population. “You never see a study on 80-year-olds,” he said, “but I like that, because they felt it would be safe. There are 80-year-old patients – fewer of them than 40-year-old patients – but there are 80-year-old patients who still have migraine, so I’m really glad they put older patients in it,” he said.

For atogepant, he noted that “some patients won’t get the side effects, and some patients will tolerate the side effects because it’s working really well.” While the study was not a head-to-head comparison against other oral migraine preventatives, he pointed out the high rate of constipation among participants in the trial setting may be a warning sign of future issues, as seen with other CGRP receptor agonists.

“I can tell you that with erenumab, the monoclonal antibody that was injected in the double-blind studies, they didn’t find any significant increase in constipation,” he explained. However, some clinicians using erenumab in the real world have reported up to 20% of their patients are constipated. “It’s not good that they’re reporting 10% are constipated” in the study, he said.

Overall, “all you can really say is it does work well,” Dr. Rapoport said. “It’s exciting that it works well in such difficult-to-treat patients, and it does come with some side effects.”

Dr. Pozo-Rosich reports serving as a consultant and developing education materials for AbbVie, Eli Lilly, Novartis, Teva Pharmaceuticals, and Pfizer. Dr. Rapoport is the editor-in-chief of Neurology Reviews; he reports being a consultant for AbbVie, the developer of atogepant. The ELEVATE trial is supported by AbbVie.

*Correction, 5/4/23: An earlier version of this article misstated the percentage of COVID-positive patients in the study population. 

BOSTON – Atogepant helped reduce the number of mean migraine days among adults with episodic migraine who failed multiple other oral migraine medications, according to findings from a study presented at the 2023 annual meeting of the American Academy of Neurology.

Initial results from the double-blind ELEVATE trial showed the oral atogepant group had significantly fewer mean monthly migraine days (MMD) compared with a placebo group. There was also a significant difference in the number of participants who achieved 50% or greater reduction in the number of mean MMDs and a significant reduction in acute medication use days compared with the placebo group, according to Patricia Pozo-Rosich, MD, PhD, a headache specialist in the neurology department and director of the headache and craniofacial pain clinical unit and the Migraine Adaptive Brain Center at the Vall d’Hebron University Hospital in Barcelona, and colleagues.

Vall d’Hebron University Hospital

The oral calcitonin gene-related peptide (CGRP) receptor antagonist is currently approved in the United States by the Food and Drug Administration as a preventative for both episodic and chronic migraine.
 

Results from ELEVATE

Overall, ELEVATE’s initial efficacy analysis population consisted of 309 adults aged between 18 and 80 years from North America and Europe with episodic migraine who had 4-14 MMDs and had treatment failure with at least two classes of conventional oral medication. After a 28-day screening period, participants received either 60 mg of oral atogepant once per day (154 participants) or a placebo (155 participants). In the efficacy analysis population, 56.0% of participants had failed two oral migraine preventative medication classes, while 44.0% failed three or more classes of medication. Dr. Pozo-Rosich noted that participants were taking a number of different oral preventatives across different medication classes, including flunarizine, beta blockers, topiramate, and amitriptyline, but data are not yet available on which participants had received certain combinations of oral medications.

“[T]hese people have already taken some type of prevention, so they’re not naive patients,” she said. “They’re usually more or less well treated in the sense of having had a contact with specialists or a general neurologist, someone that actually tries to do some prevention.”

The researchers examined change from MMDs at baseline and at 12 weeks as a primary outcome, with 50% or greater MMD reduction, change in mean monthly headache days, and change in acute medication use days as secondary outcomes. Regarding the different acute medications used, Dr. Pozo-Rosich said the main three types were analgesics, nonsteroid anti-inflammatory drugs, and triptans, with participants excluded from the trial if they were taking opioids.

The results showed participants in the atogepant group had significantly fewer mean MMDs compared with the placebo group at 12 weeks compared with baseline (–4.20 vs. –1.85 days; P < .0001). Researchers also found statistically significant improvement in the atogepant group for 50% or greater reduction in MMD, change in mean monthly headache days, and change in acute medication use days across 12 weeks of treatment compared with the placebo group. While the specific data analyses for secondary outcomes were not conducted in the initial analysis, Dr. Pozo-Rosich said the numbers “correlate with the primary outcome” as seen in other migraine trials.

Compared with the placebo group, participants in the atogepant group had higher rates of constipation (10.3% vs. 2.5%), COVID-19 (9.6% vs. 8.3%), and nausea (7.1% vs. 3.2%), while the placebo group had a higher rate of nasopharyngitis (5.1% vs. 7.6%).*

Migraine is a prevalent and undertreated disease, and patients around the world with migraine are in need of treatment options that are both safe and effective, Dr. Pozo-Rosich said in an interview. “[E]ven in these hard-to-treat or difficult-to-treat migraine patients, you have a drug that works, and is safe, and well tolerated and effective,” she said.

That’s “kind of good news for all of us,” she said. Patients “need this type of good news and solution,” she explained, because they may not tolerate or have access to injectable medications. Atogepant would also give clinicians have another option to offer patients with difficult-to-treat migraine cases, she noted. “It makes life easier for many physicians and many patients for many different reasons,” she said.

Dr. Pozo-Rosich said the likely next step in the research is to conduct the main analysis as well as post hoc analyses with accumulated data from pathology trials “to understand patterns of response, understand the sustainability of the response, [and] adherence to the treatment in the long term.”
 

‘Exciting that it works well’ in difficult-to-treat patients

Commenting on the study, Alan M. Rapoport, MD, clinical professor of neurology at University of California, Los Angeles, and past president of the International Headache Society, agreed that better options in migraine treatment and prevention are needed.

“We needed something that was going to be better than what we had before,” he said.

Dr. Rapoport noted the study was well designed with strongly positive results. “It looks like it’s an effective drug, and it looks really good in that it’s effective for people that have failed all these preventives that have very little hope for the future,” he said.

He specifically praised the inclusion of older participants in the population. “You never see a study on 80-year-olds,” he said, “but I like that, because they felt it would be safe. There are 80-year-old patients – fewer of them than 40-year-old patients – but there are 80-year-old patients who still have migraine, so I’m really glad they put older patients in it,” he said.

For atogepant, he noted that “some patients won’t get the side effects, and some patients will tolerate the side effects because it’s working really well.” While the study was not a head-to-head comparison against other oral migraine preventatives, he pointed out the high rate of constipation among participants in the trial setting may be a warning sign of future issues, as seen with other CGRP receptor agonists.

“I can tell you that with erenumab, the monoclonal antibody that was injected in the double-blind studies, they didn’t find any significant increase in constipation,” he explained. However, some clinicians using erenumab in the real world have reported up to 20% of their patients are constipated. “It’s not good that they’re reporting 10% are constipated” in the study, he said.

Overall, “all you can really say is it does work well,” Dr. Rapoport said. “It’s exciting that it works well in such difficult-to-treat patients, and it does come with some side effects.”

Dr. Pozo-Rosich reports serving as a consultant and developing education materials for AbbVie, Eli Lilly, Novartis, Teva Pharmaceuticals, and Pfizer. Dr. Rapoport is the editor-in-chief of Neurology Reviews; he reports being a consultant for AbbVie, the developer of atogepant. The ELEVATE trial is supported by AbbVie.

*Correction, 5/4/23: An earlier version of this article misstated the percentage of COVID-positive patients in the study population. 

BOSTON – Treating atrial fibrillation with catheter ablation in addition to medical management may offer greater protection against cognitive impairment than medical management alone, new research suggests.

Investigators found adults who had previously undergone catheter ablation were significantly less likely to be cognitively impaired during the 2-year study period, compared with those who receive medical management alone.

“Catheter ablation is intended to stop atrial fibrillation and restore the normal rhythm of the heart. By doing so, there is an improved cerebral hemodynamic profile,” said Bahadar S. Srichawla, DO, department of neurology, University of Massachusetts, Worcester.

“Thus, long-term cognitive outcomes may be improved due to improved blood flow to the brain by restoring the normal rhythm of the heart,” he added.

This research was presented at the 2023 annual meeting of the American Academy of Neurology.
 

Heart-brain connection

The study involved 887 older adults (mean age 75; 49% women) with atrial fibrillation participating in the SAGE-AF (Systematic Assessment of Geriatric Elements) study. A total of 193 (22%) participants underwent catheter ablation prior to enrollment. These individuals more frequently had an implantable cardiac device (46% vs. 28%, P < .001) and persistent atrial fibrillation (31% vs. 23%, P < .05).

Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA) tool at baseline and 1 and 2 years, with cognitive impairment defined as a MoCA score of 23 or below. Individuals who had catheter ablation had an average MoCA score of 25, compared with an average score of 23 in those who didn’t have catheter ablation.

After adjusting for potential confounding factors such as heart disease, renal disease, sleep apnea, and atrial fibrillation risk score, those who underwent catheter ablation were 36% less likely to develop cognitive impairment over 2 years than those who were treated only with medication (adjusted odds ratio, 0.64; 95% CI, 0.46-0.88).

During his presentation, Dr. Srichawla noted there is a hypothesis that individuals who are anticoagulated with warfarin may be prone to cerebral microbleeds and may be more cognitively impaired over time.

However, in a subgroup analysis, “cognitive function was similar at 2-year follow-up in those anticoagulated with warfarin, compared with all other anticoagulants. However, it should be noted that in this study, a direct head-to-head comparison was not done,” Dr. Srichawla told attendees.

“In patients with atrial fibrillation, catheter ablation should be discussed as a potential treatment strategy, particularly in patients who have or are at risk for cognitive decline and dementia,” Dr. Srichawla said.
 

Intriguing findings

Commenting on the research, Percy Griffin, PhD, Alzheimer’s Association director of scientific engagement, said the study is “intriguing and adds to what we know from previous research connecting cardiovascular and cognitive health.”

“However, there are limitations to this study,” Dr. Griffin said, “including its predominantly White cohort and the use of only neuropsychiatric testing to diagnose dementia. More research is needed to fully understand the impact of atrial fibrillation on cognitive outcomes in all people.”

“It’s well known that the heart and the brain are intimately connected. Individuals experiencing any cardiovascular issues should speak to their doctor,” Dr. Griffin added.

Shaheen Lakhan, MD, PhD, a neurologist and researcher in Boston, agreed. “If you ever get up too quickly and feel woozy, that is your brain not getting enough blood flow and you are getting all the warning signs to correct that – or else! Similarly, with atrial fibrillation, the heart is contracting, but not effectively pumping blood to the brain,” he said.

“This line of research shows that correcting the abnormal heart rhythm by zapping the faulty circuit with a catheter is actually better for your brain health than just taking medications alone,” added Dr. Lakhan, who was not involved with the study.

The study had no commercial funding. Dr. Srichawla, Dr. Griffin, and Dr. Lakhan report no relevant financial relationships.

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

BOSTON – Treating atrial fibrillation with catheter ablation in addition to medical management may offer greater protection against cognitive impairment than medical management alone, new research suggests.

Investigators found adults who had previously undergone catheter ablation were significantly less likely to be cognitively impaired during the 2-year study period, compared with those who receive medical management alone.

“Catheter ablation is intended to stop atrial fibrillation and restore the normal rhythm of the heart. By doing so, there is an improved cerebral hemodynamic profile,” said Bahadar S. Srichawla, DO, department of neurology, University of Massachusetts, Worcester.

“Thus, long-term cognitive outcomes may be improved due to improved blood flow to the brain by restoring the normal rhythm of the heart,” he added.

This research was presented at the 2023 annual meeting of the American Academy of Neurology.
 

Heart-brain connection

The study involved 887 older adults (mean age 75; 49% women) with atrial fibrillation participating in the SAGE-AF (Systematic Assessment of Geriatric Elements) study. A total of 193 (22%) participants underwent catheter ablation prior to enrollment. These individuals more frequently had an implantable cardiac device (46% vs. 28%, P < .001) and persistent atrial fibrillation (31% vs. 23%, P < .05).

Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA) tool at baseline and 1 and 2 years, with cognitive impairment defined as a MoCA score of 23 or below. Individuals who had catheter ablation had an average MoCA score of 25, compared with an average score of 23 in those who didn’t have catheter ablation.

After adjusting for potential confounding factors such as heart disease, renal disease, sleep apnea, and atrial fibrillation risk score, those who underwent catheter ablation were 36% less likely to develop cognitive impairment over 2 years than those who were treated only with medication (adjusted odds ratio, 0.64; 95% CI, 0.46-0.88).

During his presentation, Dr. Srichawla noted there is a hypothesis that individuals who are anticoagulated with warfarin may be prone to cerebral microbleeds and may be more cognitively impaired over time.

However, in a subgroup analysis, “cognitive function was similar at 2-year follow-up in those anticoagulated with warfarin, compared with all other anticoagulants. However, it should be noted that in this study, a direct head-to-head comparison was not done,” Dr. Srichawla told attendees.

“In patients with atrial fibrillation, catheter ablation should be discussed as a potential treatment strategy, particularly in patients who have or are at risk for cognitive decline and dementia,” Dr. Srichawla said.
 

Intriguing findings

Commenting on the research, Percy Griffin, PhD, Alzheimer’s Association director of scientific engagement, said the study is “intriguing and adds to what we know from previous research connecting cardiovascular and cognitive health.”

“However, there are limitations to this study,” Dr. Griffin said, “including its predominantly White cohort and the use of only neuropsychiatric testing to diagnose dementia. More research is needed to fully understand the impact of atrial fibrillation on cognitive outcomes in all people.”

“It’s well known that the heart and the brain are intimately connected. Individuals experiencing any cardiovascular issues should speak to their doctor,” Dr. Griffin added.

Shaheen Lakhan, MD, PhD, a neurologist and researcher in Boston, agreed. “If you ever get up too quickly and feel woozy, that is your brain not getting enough blood flow and you are getting all the warning signs to correct that – or else! Similarly, with atrial fibrillation, the heart is contracting, but not effectively pumping blood to the brain,” he said.

“This line of research shows that correcting the abnormal heart rhythm by zapping the faulty circuit with a catheter is actually better for your brain health than just taking medications alone,” added Dr. Lakhan, who was not involved with the study.

The study had no commercial funding. Dr. Srichawla, Dr. Griffin, and Dr. Lakhan report no relevant financial relationships.

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

BOSTON – Treating atrial fibrillation with catheter ablation in addition to medical management may offer greater protection against cognitive impairment than medical management alone, new research suggests.

Investigators found adults who had previously undergone catheter ablation were significantly less likely to be cognitively impaired during the 2-year study period, compared with those who receive medical management alone.

“Catheter ablation is intended to stop atrial fibrillation and restore the normal rhythm of the heart. By doing so, there is an improved cerebral hemodynamic profile,” said Bahadar S. Srichawla, DO, department of neurology, University of Massachusetts, Worcester.

“Thus, long-term cognitive outcomes may be improved due to improved blood flow to the brain by restoring the normal rhythm of the heart,” he added.

This research was presented at the 2023 annual meeting of the American Academy of Neurology.
 

Heart-brain connection

The study involved 887 older adults (mean age 75; 49% women) with atrial fibrillation participating in the SAGE-AF (Systematic Assessment of Geriatric Elements) study. A total of 193 (22%) participants underwent catheter ablation prior to enrollment. These individuals more frequently had an implantable cardiac device (46% vs. 28%, P < .001) and persistent atrial fibrillation (31% vs. 23%, P < .05).

Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA) tool at baseline and 1 and 2 years, with cognitive impairment defined as a MoCA score of 23 or below. Individuals who had catheter ablation had an average MoCA score of 25, compared with an average score of 23 in those who didn’t have catheter ablation.

After adjusting for potential confounding factors such as heart disease, renal disease, sleep apnea, and atrial fibrillation risk score, those who underwent catheter ablation were 36% less likely to develop cognitive impairment over 2 years than those who were treated only with medication (adjusted odds ratio, 0.64; 95% CI, 0.46-0.88).

During his presentation, Dr. Srichawla noted there is a hypothesis that individuals who are anticoagulated with warfarin may be prone to cerebral microbleeds and may be more cognitively impaired over time.

However, in a subgroup analysis, “cognitive function was similar at 2-year follow-up in those anticoagulated with warfarin, compared with all other anticoagulants. However, it should be noted that in this study, a direct head-to-head comparison was not done,” Dr. Srichawla told attendees.

“In patients with atrial fibrillation, catheter ablation should be discussed as a potential treatment strategy, particularly in patients who have or are at risk for cognitive decline and dementia,” Dr. Srichawla said.
 

Intriguing findings

Commenting on the research, Percy Griffin, PhD, Alzheimer’s Association director of scientific engagement, said the study is “intriguing and adds to what we know from previous research connecting cardiovascular and cognitive health.”

“However, there are limitations to this study,” Dr. Griffin said, “including its predominantly White cohort and the use of only neuropsychiatric testing to diagnose dementia. More research is needed to fully understand the impact of atrial fibrillation on cognitive outcomes in all people.”

“It’s well known that the heart and the brain are intimately connected. Individuals experiencing any cardiovascular issues should speak to their doctor,” Dr. Griffin added.

Shaheen Lakhan, MD, PhD, a neurologist and researcher in Boston, agreed. “If you ever get up too quickly and feel woozy, that is your brain not getting enough blood flow and you are getting all the warning signs to correct that – or else! Similarly, with atrial fibrillation, the heart is contracting, but not effectively pumping blood to the brain,” he said.

“This line of research shows that correcting the abnormal heart rhythm by zapping the faulty circuit with a catheter is actually better for your brain health than just taking medications alone,” added Dr. Lakhan, who was not involved with the study.

The study had no commercial funding. Dr. Srichawla, Dr. Griffin, and Dr. Lakhan report no relevant financial relationships.

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

BOSTON – A new subcutaneous system for infusing levodopa-carbidopa continuously over 24 hours to control Parkinson’s disease met its primary and secondary endpoints in a double-blind, double-dummy phase 3 multicenter trial presented at the 2023 annual meeting of the American Academy of Neurology.

When compared with optimized oral immediate-release medication, the delivery system, called ND0612 (NeuroDerm, Rehovot, Israel), improved ON time without troublesome dyskinesias while improving symptoms according to ratings from both patients and clinicians, according to Alberto J. Espay, MD, professor of neurology and director of the Gardner Family Center for Parkinson’s Disease and Movement Disorders, University of Cincinnati.

Ted Bosworth/MDedge News

The new delivery system addresses the challenge of reducing the variability in levodopa plasma concentrations, a major factor in motor fluctuations and diminishing benefit from orally administered drug, according to Dr. Espay. He said that continuous infusion strategies have long been sought as a method to preserve levodopa efficacy.
 

BouNDless findings

There were two phases to this multinational trial, called BouNDless. In the first, an open-label run-in phase, 381 patients with Parkinson’s disease were dose titrated for optimization of oral immediate-release levodopa and carbidopa. They were then optimized for the same drugs delivered with ND0612. The study was conducted over 12 weeks; 122 patients left the study after this phase due to adverse events, lack of efficacy, or withdrawal of consent.

In the second phase, the 259 remaining patients were randomized to the continuous infusion arm or to immediate release oral therapy. In this double-blind, double-dummy phase, those randomized to the ND0612 infusion also received oral placebos. Those randomized to oral therapy received a placebo infusion. Efficacy and safety were assessed at the end of 12 weeks.

At the end of phase 1, the ON time increased by about 3 hours when levodopa-carbidopa dosing was optimized on either delivery method. Dr. Espay attributed the improvement to the value of optimized dosing even in patients with relatively advanced disease.

However, for the purposes of the double-blind comparison, this improvement in ON time provided a new baseline for comparison of the two delivery methods. This is important for interpreting the primary result, which was a 1.72-hour difference in ON time at the end of the study. The difference was created when ON time was maintained with ND0612 continuous drug delivery but eroded in the group randomized to oral immediate-release treatment.

Several secondary endpoints supported the greater efficacy of continuous subcutaneous delivery. These included lower OFF time (0.50 vs. 1.90 hours), less accumulation of disability on the United Parkinson’s Disease Rating Scale part II-M-EDL (-0.30 vs. +2.75 points), and greater improvement on the Patient Global Impression of Change (+0.31 vs. +0.70 points), and the Clinical Global Impression of change (+0.31 vs. +0.77 points). The differences were highly statistically significant (all P < .0001).

The patients participating in the double-blind phase of the study were similar with a mean age of 63.5 years in both groups and time since Parkinson’s disease diagnosis (> 9 years). The median ON time without troublesome dyskinesias was about 12 hours at baseline in both groups and the median OFF time was about 3.5 hours.

The higher rate of treatment-related adverse events in the ND0612 group (67.2% vs. 52.7%) was largely explained by the greater rate of infusion site reactions (57.0% vs. 42.7%). The rates of severe reactions in the two groups were the same (0.8%), but both mild (43.8% vs. 36.6%) and moderate (12.5% vs. 5.3%) reactions occurred more commonly in the group receiving active therapy.

“Infusion reactions are the Achilles heel of all subcutaneous therapies,” acknowledged Dr. Espay, who expects other infusion systems in development to share this risk. He suggested that the clinical impact can be attenuated to some degree by rotating infusion sites.
 

BeyoND extension study

Data from an open-label extension (OLE) of the phase 2b BeyoND trial were also presented at the AAN meeting and generated generally similar results. Largely a safety study, there was no active control in the initial BeyoND or the BeyoND OLE. In BeyoND, the improvement in ON time from baseline was even greater than that seen in BouNDless, but, again, the optimization of dosing in the BouNDless run-in established a greater baseline of disease control.

In the OLE of BeyoND, presented by Aaron Ellenbogen, DO, a neurologist in Farmington, Mich., one of the notable findings was the retention of patients. After 2 years of follow-up, 82% completed at least 2 years of follow-up and 66.7% have now remained on treatment for at least 3 years. Dr. Ellenbogen maintains that this retention rate provides compelling evidence of a favorable benefit-to-risk ratio.
 

Fulfilling an unmet need

The favorable efficacy data from this trial represent “a big advance,” according to Ihtsham Ul Haq, MD, chief, movement disorders division, University of Miami, who was reached for comment. He noted that continuous infusion delivery has been anticipated for some time, and he expects these types of systems to fulfill an unmet need.

“This will be a useful option in a carefully selected group of patients,” said Dr. Haq, who considers the types of improvement in ON time to be highly clinically meaningful.

However, he cautioned that the nodules created by injection site reactions might limit the utility of this treatment option in at least some patients. Wearing the external device might also be a limiting factor for some patients.

In complex Parkinson’s disease, a stage that can be reached fairly rapidly in some patients but might take 15 years or more in others, all of the options involve a careful benefit-to-risk calculation, according to Dr. Haq. Deep brain stimulation is among the most effective options, but continuous infusion might appeal to some patients for delaying this procedure or as an alternative.

“We need multiple options for these types of patients, and it appears that continuous infusion will be one of them,” Dr. Haq said.

Dr. Espay has financial relationships with Acadia, Acorda, Amneal, AskBio, Bexion, Kyowa Kirin, Neuroderm, Neurocrine, and Sunovion. Dr. Ellenbogen has financial relationships with Allergan, Acorda, Supernus, and Teva. Dr. Haq reports no potential conflicts of interest.

BOSTON – A new subcutaneous system for infusing levodopa-carbidopa continuously over 24 hours to control Parkinson’s disease met its primary and secondary endpoints in a double-blind, double-dummy phase 3 multicenter trial presented at the 2023 annual meeting of the American Academy of Neurology.

When compared with optimized oral immediate-release medication, the delivery system, called ND0612 (NeuroDerm, Rehovot, Israel), improved ON time without troublesome dyskinesias while improving symptoms according to ratings from both patients and clinicians, according to Alberto J. Espay, MD, professor of neurology and director of the Gardner Family Center for Parkinson’s Disease and Movement Disorders, University of Cincinnati.

Ted Bosworth/MDedge News

The new delivery system addresses the challenge of reducing the variability in levodopa plasma concentrations, a major factor in motor fluctuations and diminishing benefit from orally administered drug, according to Dr. Espay. He said that continuous infusion strategies have long been sought as a method to preserve levodopa efficacy.
 

BouNDless findings

There were two phases to this multinational trial, called BouNDless. In the first, an open-label run-in phase, 381 patients with Parkinson’s disease were dose titrated for optimization of oral immediate-release levodopa and carbidopa. They were then optimized for the same drugs delivered with ND0612. The study was conducted over 12 weeks; 122 patients left the study after this phase due to adverse events, lack of efficacy, or withdrawal of consent.

In the second phase, the 259 remaining patients were randomized to the continuous infusion arm or to immediate release oral therapy. In this double-blind, double-dummy phase, those randomized to the ND0612 infusion also received oral placebos. Those randomized to oral therapy received a placebo infusion. Efficacy and safety were assessed at the end of 12 weeks.

At the end of phase 1, the ON time increased by about 3 hours when levodopa-carbidopa dosing was optimized on either delivery method. Dr. Espay attributed the improvement to the value of optimized dosing even in patients with relatively advanced disease.

However, for the purposes of the double-blind comparison, this improvement in ON time provided a new baseline for comparison of the two delivery methods. This is important for interpreting the primary result, which was a 1.72-hour difference in ON time at the end of the study. The difference was created when ON time was maintained with ND0612 continuous drug delivery but eroded in the group randomized to oral immediate-release treatment.

Several secondary endpoints supported the greater efficacy of continuous subcutaneous delivery. These included lower OFF time (0.50 vs. 1.90 hours), less accumulation of disability on the United Parkinson’s Disease Rating Scale part II-M-EDL (-0.30 vs. +2.75 points), and greater improvement on the Patient Global Impression of Change (+0.31 vs. +0.70 points), and the Clinical Global Impression of change (+0.31 vs. +0.77 points). The differences were highly statistically significant (all P < .0001).

The patients participating in the double-blind phase of the study were similar with a mean age of 63.5 years in both groups and time since Parkinson’s disease diagnosis (> 9 years). The median ON time without troublesome dyskinesias was about 12 hours at baseline in both groups and the median OFF time was about 3.5 hours.

The higher rate of treatment-related adverse events in the ND0612 group (67.2% vs. 52.7%) was largely explained by the greater rate of infusion site reactions (57.0% vs. 42.7%). The rates of severe reactions in the two groups were the same (0.8%), but both mild (43.8% vs. 36.6%) and moderate (12.5% vs. 5.3%) reactions occurred more commonly in the group receiving active therapy.

“Infusion reactions are the Achilles heel of all subcutaneous therapies,” acknowledged Dr. Espay, who expects other infusion systems in development to share this risk. He suggested that the clinical impact can be attenuated to some degree by rotating infusion sites.
 

BeyoND extension study

Data from an open-label extension (OLE) of the phase 2b BeyoND trial were also presented at the AAN meeting and generated generally similar results. Largely a safety study, there was no active control in the initial BeyoND or the BeyoND OLE. In BeyoND, the improvement in ON time from baseline was even greater than that seen in BouNDless, but, again, the optimization of dosing in the BouNDless run-in established a greater baseline of disease control.

In the OLE of BeyoND, presented by Aaron Ellenbogen, DO, a neurologist in Farmington, Mich., one of the notable findings was the retention of patients. After 2 years of follow-up, 82% completed at least 2 years of follow-up and 66.7% have now remained on treatment for at least 3 years. Dr. Ellenbogen maintains that this retention rate provides compelling evidence of a favorable benefit-to-risk ratio.
 

Fulfilling an unmet need

The favorable efficacy data from this trial represent “a big advance,” according to Ihtsham Ul Haq, MD, chief, movement disorders division, University of Miami, who was reached for comment. He noted that continuous infusion delivery has been anticipated for some time, and he expects these types of systems to fulfill an unmet need.

“This will be a useful option in a carefully selected group of patients,” said Dr. Haq, who considers the types of improvement in ON time to be highly clinically meaningful.

However, he cautioned that the nodules created by injection site reactions might limit the utility of this treatment option in at least some patients. Wearing the external device might also be a limiting factor for some patients.

In complex Parkinson’s disease, a stage that can be reached fairly rapidly in some patients but might take 15 years or more in others, all of the options involve a careful benefit-to-risk calculation, according to Dr. Haq. Deep brain stimulation is among the most effective options, but continuous infusion might appeal to some patients for delaying this procedure or as an alternative.

“We need multiple options for these types of patients, and it appears that continuous infusion will be one of them,” Dr. Haq said.

Dr. Espay has financial relationships with Acadia, Acorda, Amneal, AskBio, Bexion, Kyowa Kirin, Neuroderm, Neurocrine, and Sunovion. Dr. Ellenbogen has financial relationships with Allergan, Acorda, Supernus, and Teva. Dr. Haq reports no potential conflicts of interest.

BOSTON – A new subcutaneous system for infusing levodopa-carbidopa continuously over 24 hours to control Parkinson’s disease met its primary and secondary endpoints in a double-blind, double-dummy phase 3 multicenter trial presented at the 2023 annual meeting of the American Academy of Neurology.

When compared with optimized oral immediate-release medication, the delivery system, called ND0612 (NeuroDerm, Rehovot, Israel), improved ON time without troublesome dyskinesias while improving symptoms according to ratings from both patients and clinicians, according to Alberto J. Espay, MD, professor of neurology and director of the Gardner Family Center for Parkinson’s Disease and Movement Disorders, University of Cincinnati.

Ted Bosworth/MDedge News

The new delivery system addresses the challenge of reducing the variability in levodopa plasma concentrations, a major factor in motor fluctuations and diminishing benefit from orally administered drug, according to Dr. Espay. He said that continuous infusion strategies have long been sought as a method to preserve levodopa efficacy.
 

BouNDless findings

There were two phases to this multinational trial, called BouNDless. In the first, an open-label run-in phase, 381 patients with Parkinson’s disease were dose titrated for optimization of oral immediate-release levodopa and carbidopa. They were then optimized for the same drugs delivered with ND0612. The study was conducted over 12 weeks; 122 patients left the study after this phase due to adverse events, lack of efficacy, or withdrawal of consent.

In the second phase, the 259 remaining patients were randomized to the continuous infusion arm or to immediate release oral therapy. In this double-blind, double-dummy phase, those randomized to the ND0612 infusion also received oral placebos. Those randomized to oral therapy received a placebo infusion. Efficacy and safety were assessed at the end of 12 weeks.

At the end of phase 1, the ON time increased by about 3 hours when levodopa-carbidopa dosing was optimized on either delivery method. Dr. Espay attributed the improvement to the value of optimized dosing even in patients with relatively advanced disease.

However, for the purposes of the double-blind comparison, this improvement in ON time provided a new baseline for comparison of the two delivery methods. This is important for interpreting the primary result, which was a 1.72-hour difference in ON time at the end of the study. The difference was created when ON time was maintained with ND0612 continuous drug delivery but eroded in the group randomized to oral immediate-release treatment.

Several secondary endpoints supported the greater efficacy of continuous subcutaneous delivery. These included lower OFF time (0.50 vs. 1.90 hours), less accumulation of disability on the United Parkinson’s Disease Rating Scale part II-M-EDL (-0.30 vs. +2.75 points), and greater improvement on the Patient Global Impression of Change (+0.31 vs. +0.70 points), and the Clinical Global Impression of change (+0.31 vs. +0.77 points). The differences were highly statistically significant (all P < .0001).

The patients participating in the double-blind phase of the study were similar with a mean age of 63.5 years in both groups and time since Parkinson’s disease diagnosis (> 9 years). The median ON time without troublesome dyskinesias was about 12 hours at baseline in both groups and the median OFF time was about 3.5 hours.

The higher rate of treatment-related adverse events in the ND0612 group (67.2% vs. 52.7%) was largely explained by the greater rate of infusion site reactions (57.0% vs. 42.7%). The rates of severe reactions in the two groups were the same (0.8%), but both mild (43.8% vs. 36.6%) and moderate (12.5% vs. 5.3%) reactions occurred more commonly in the group receiving active therapy.

“Infusion reactions are the Achilles heel of all subcutaneous therapies,” acknowledged Dr. Espay, who expects other infusion systems in development to share this risk. He suggested that the clinical impact can be attenuated to some degree by rotating infusion sites.
 

BeyoND extension study

Data from an open-label extension (OLE) of the phase 2b BeyoND trial were also presented at the AAN meeting and generated generally similar results. Largely a safety study, there was no active control in the initial BeyoND or the BeyoND OLE. In BeyoND, the improvement in ON time from baseline was even greater than that seen in BouNDless, but, again, the optimization of dosing in the BouNDless run-in established a greater baseline of disease control.

In the OLE of BeyoND, presented by Aaron Ellenbogen, DO, a neurologist in Farmington, Mich., one of the notable findings was the retention of patients. After 2 years of follow-up, 82% completed at least 2 years of follow-up and 66.7% have now remained on treatment for at least 3 years. Dr. Ellenbogen maintains that this retention rate provides compelling evidence of a favorable benefit-to-risk ratio.
 

Fulfilling an unmet need

The favorable efficacy data from this trial represent “a big advance,” according to Ihtsham Ul Haq, MD, chief, movement disorders division, University of Miami, who was reached for comment. He noted that continuous infusion delivery has been anticipated for some time, and he expects these types of systems to fulfill an unmet need.

“This will be a useful option in a carefully selected group of patients,” said Dr. Haq, who considers the types of improvement in ON time to be highly clinically meaningful.

However, he cautioned that the nodules created by injection site reactions might limit the utility of this treatment option in at least some patients. Wearing the external device might also be a limiting factor for some patients.

In complex Parkinson’s disease, a stage that can be reached fairly rapidly in some patients but might take 15 years or more in others, all of the options involve a careful benefit-to-risk calculation, according to Dr. Haq. Deep brain stimulation is among the most effective options, but continuous infusion might appeal to some patients for delaying this procedure or as an alternative.

“We need multiple options for these types of patients, and it appears that continuous infusion will be one of them,” Dr. Haq said.

Dr. Espay has financial relationships with Acadia, Acorda, Amneal, AskBio, Bexion, Kyowa Kirin, Neuroderm, Neurocrine, and Sunovion. Dr. Ellenbogen has financial relationships with Allergan, Acorda, Supernus, and Teva. Dr. Haq reports no potential conflicts of interest.

BOSTON – An experimental neural cell therapy is safe and led to greater than 90% reduction in seizures in two patients with drug-resistant mesial temporal lobe epilepsy (MTLE) in the first-in-human test of the novel therapy.

“It is notable that the early significant seizure reduction observed in this study appears to be durable in these first two patients treated with a single administration of NRTX-1001,” principal investigator Robert Beach, MD, PhD, said in a news release.

“It is also encouraging that the first patient has been free from disabling seizures from the second month on and has shown improved memory performance on multiple cognitive tests, as memory problems can be an issue for individuals with drug-resistant MTLE,” said Dr. Beach, chief of epilepsy and professor of neurology at State University of New York, Syracuse.

The findings were presented at the annual meeting of the American Academy of Neurology.
 

Restorative not destructive

NRTX-1001 therapy (Neurona Therapeutics) is a one-time dose of an injectable suspension of high-purity inhibitory interneurons that secrete the inhibitory neurotransmitter gamma-aminobutyric acid (GABA). The interneurons are intended to integrate and innervate on-target, providing long-term GABAergic inhibition to repair hyperexcitable neural networks.

Preclinical work in animal models of epilepsy has provided strong support for both the safety and the efficacy of boosting inhibition in the seizure focus using implanted human inhibitory interneurons.

This therapy is “potentially restorative instead of just destructive, like epilepsy surgery,” study investigator David Spencer, MD, professor of neurology and director of the Comprehensive Epilepsy Center, Oregon Health & Science University in Portland, said during a press briefing.

In the first two patients, the cells were implanted in the seizure focus using MRI guidance through a tiny opening in the back of the skull. The patients recovered overnight and went home the next day.

The first patient had a 9-year history of drug-resistant epilepsy and was averaging 30 seizures per month at baseline. Testing confirmed that the seizures were coming from a single focus on the right temporal lobe. The implant was uncomplicated, and the cells were delivered to the seizure focus on target.

To date, there have been no serious or unexpected adverse events from the implant. At 9 months of follow-up the patient has had a 93% reduction in seizures overall and is free of all seizures causing impairment of awareness, “which was the most debilitating seizure type for this patient,” Dr. Spencer noted.

Studies of brain metabolism in the area of the implant have shown favorable markers of increased inhibition and decreased inflammation. Cognitive testing at 6 months showed no worsening of memory function or cognition. And, in fact, there were some mild improvements, he said.

The second patient had an 8-year history of drug-resistant epilepsy, averaging 14 focal seizures per month at baseline. Testing also confirmed seizure onset in a single focus in the right temporal lobe and the cells were again implanted without complication on target. Five months after treatment, the patient has had a 94% reduction in seizures and no serious adverse events.
 

‘Hot off the press’

Epilepsy affects about 3.5 million people in the United States. About two-thirds of people with epilepsy get good control of their seizures using antiseizure medication.

For seizures that are uncontrolled with medication, identifying the seizure focus and removing it surgically can often result in seizure freedom in a high proportion of patients. But not all patients are candidates for epilepsy surgery, and for those who can have it the surgery itself carries some risks, including diminished cognition and memory.

“While these are still early days, we’re encouraged by the positive safety findings so far, and the early seizure responses” with neural cell therapy, Dr. Spencer told reporters.

Given the positive results in the first two patients, additional patients will be treated “with careful safety review all along the way. This is going to be rolling out over the next several years,” Dr. Spencer said. Patient recruitment is underway at epilepsy centers across the United States.

Briefing moderator Natalia Rost, MD, MPH, chair of the AAN science committee, said, “This is a true example of emerging science. It’s literally hot off the press,” and the preliminary results are “very promising.”

Dr. Rost, chief of the stroke division at Massachusetts General Hospital in Boston, noted that this type of cell therapy implant is “very novel and representative of where the field is moving, when no traditional solutions exist for common neurological problems.” 

The study was sponsored by Neurona Therapeutics and funded in part by the California Institute for Regenerative Medicine. Dr. Beach and Dr. Spencer report no relevant financial relationships. Several investigators are employees of Neurona Therapeutics. Dr. Rost reports no relevant financial relationships.

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

BOSTON – An experimental neural cell therapy is safe and led to greater than 90% reduction in seizures in two patients with drug-resistant mesial temporal lobe epilepsy (MTLE) in the first-in-human test of the novel therapy.

“It is notable that the early significant seizure reduction observed in this study appears to be durable in these first two patients treated with a single administration of NRTX-1001,” principal investigator Robert Beach, MD, PhD, said in a news release.

“It is also encouraging that the first patient has been free from disabling seizures from the second month on and has shown improved memory performance on multiple cognitive tests, as memory problems can be an issue for individuals with drug-resistant MTLE,” said Dr. Beach, chief of epilepsy and professor of neurology at State University of New York, Syracuse.

The findings were presented at the annual meeting of the American Academy of Neurology.
 

Restorative not destructive

NRTX-1001 therapy (Neurona Therapeutics) is a one-time dose of an injectable suspension of high-purity inhibitory interneurons that secrete the inhibitory neurotransmitter gamma-aminobutyric acid (GABA). The interneurons are intended to integrate and innervate on-target, providing long-term GABAergic inhibition to repair hyperexcitable neural networks.

Preclinical work in animal models of epilepsy has provided strong support for both the safety and the efficacy of boosting inhibition in the seizure focus using implanted human inhibitory interneurons.

This therapy is “potentially restorative instead of just destructive, like epilepsy surgery,” study investigator David Spencer, MD, professor of neurology and director of the Comprehensive Epilepsy Center, Oregon Health & Science University in Portland, said during a press briefing.

In the first two patients, the cells were implanted in the seizure focus using MRI guidance through a tiny opening in the back of the skull. The patients recovered overnight and went home the next day.

The first patient had a 9-year history of drug-resistant epilepsy and was averaging 30 seizures per month at baseline. Testing confirmed that the seizures were coming from a single focus on the right temporal lobe. The implant was uncomplicated, and the cells were delivered to the seizure focus on target.

To date, there have been no serious or unexpected adverse events from the implant. At 9 months of follow-up the patient has had a 93% reduction in seizures overall and is free of all seizures causing impairment of awareness, “which was the most debilitating seizure type for this patient,” Dr. Spencer noted.

Studies of brain metabolism in the area of the implant have shown favorable markers of increased inhibition and decreased inflammation. Cognitive testing at 6 months showed no worsening of memory function or cognition. And, in fact, there were some mild improvements, he said.

The second patient had an 8-year history of drug-resistant epilepsy, averaging 14 focal seizures per month at baseline. Testing also confirmed seizure onset in a single focus in the right temporal lobe and the cells were again implanted without complication on target. Five months after treatment, the patient has had a 94% reduction in seizures and no serious adverse events.
 

‘Hot off the press’

Epilepsy affects about 3.5 million people in the United States. About two-thirds of people with epilepsy get good control of their seizures using antiseizure medication.

For seizures that are uncontrolled with medication, identifying the seizure focus and removing it surgically can often result in seizure freedom in a high proportion of patients. But not all patients are candidates for epilepsy surgery, and for those who can have it the surgery itself carries some risks, including diminished cognition and memory.

“While these are still early days, we’re encouraged by the positive safety findings so far, and the early seizure responses” with neural cell therapy, Dr. Spencer told reporters.

Given the positive results in the first two patients, additional patients will be treated “with careful safety review all along the way. This is going to be rolling out over the next several years,” Dr. Spencer said. Patient recruitment is underway at epilepsy centers across the United States.

Briefing moderator Natalia Rost, MD, MPH, chair of the AAN science committee, said, “This is a true example of emerging science. It’s literally hot off the press,” and the preliminary results are “very promising.”

Dr. Rost, chief of the stroke division at Massachusetts General Hospital in Boston, noted that this type of cell therapy implant is “very novel and representative of where the field is moving, when no traditional solutions exist for common neurological problems.” 

The study was sponsored by Neurona Therapeutics and funded in part by the California Institute for Regenerative Medicine. Dr. Beach and Dr. Spencer report no relevant financial relationships. Several investigators are employees of Neurona Therapeutics. Dr. Rost reports no relevant financial relationships.

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

BOSTON – An experimental neural cell therapy is safe and led to greater than 90% reduction in seizures in two patients with drug-resistant mesial temporal lobe epilepsy (MTLE) in the first-in-human test of the novel therapy.

“It is notable that the early significant seizure reduction observed in this study appears to be durable in these first two patients treated with a single administration of NRTX-1001,” principal investigator Robert Beach, MD, PhD, said in a news release.

“It is also encouraging that the first patient has been free from disabling seizures from the second month on and has shown improved memory performance on multiple cognitive tests, as memory problems can be an issue for individuals with drug-resistant MTLE,” said Dr. Beach, chief of epilepsy and professor of neurology at State University of New York, Syracuse.

The findings were presented at the annual meeting of the American Academy of Neurology.
 

Restorative not destructive

NRTX-1001 therapy (Neurona Therapeutics) is a one-time dose of an injectable suspension of high-purity inhibitory interneurons that secrete the inhibitory neurotransmitter gamma-aminobutyric acid (GABA). The interneurons are intended to integrate and innervate on-target, providing long-term GABAergic inhibition to repair hyperexcitable neural networks.

Preclinical work in animal models of epilepsy has provided strong support for both the safety and the efficacy of boosting inhibition in the seizure focus using implanted human inhibitory interneurons.

This therapy is “potentially restorative instead of just destructive, like epilepsy surgery,” study investigator David Spencer, MD, professor of neurology and director of the Comprehensive Epilepsy Center, Oregon Health & Science University in Portland, said during a press briefing.

In the first two patients, the cells were implanted in the seizure focus using MRI guidance through a tiny opening in the back of the skull. The patients recovered overnight and went home the next day.

The first patient had a 9-year history of drug-resistant epilepsy and was averaging 30 seizures per month at baseline. Testing confirmed that the seizures were coming from a single focus on the right temporal lobe. The implant was uncomplicated, and the cells were delivered to the seizure focus on target.

To date, there have been no serious or unexpected adverse events from the implant. At 9 months of follow-up the patient has had a 93% reduction in seizures overall and is free of all seizures causing impairment of awareness, “which was the most debilitating seizure type for this patient,” Dr. Spencer noted.

Studies of brain metabolism in the area of the implant have shown favorable markers of increased inhibition and decreased inflammation. Cognitive testing at 6 months showed no worsening of memory function or cognition. And, in fact, there were some mild improvements, he said.

The second patient had an 8-year history of drug-resistant epilepsy, averaging 14 focal seizures per month at baseline. Testing also confirmed seizure onset in a single focus in the right temporal lobe and the cells were again implanted without complication on target. Five months after treatment, the patient has had a 94% reduction in seizures and no serious adverse events.
 

‘Hot off the press’

Epilepsy affects about 3.5 million people in the United States. About two-thirds of people with epilepsy get good control of their seizures using antiseizure medication.

For seizures that are uncontrolled with medication, identifying the seizure focus and removing it surgically can often result in seizure freedom in a high proportion of patients. But not all patients are candidates for epilepsy surgery, and for those who can have it the surgery itself carries some risks, including diminished cognition and memory.

“While these are still early days, we’re encouraged by the positive safety findings so far, and the early seizure responses” with neural cell therapy, Dr. Spencer told reporters.

Given the positive results in the first two patients, additional patients will be treated “with careful safety review all along the way. This is going to be rolling out over the next several years,” Dr. Spencer said. Patient recruitment is underway at epilepsy centers across the United States.

Briefing moderator Natalia Rost, MD, MPH, chair of the AAN science committee, said, “This is a true example of emerging science. It’s literally hot off the press,” and the preliminary results are “very promising.”

Dr. Rost, chief of the stroke division at Massachusetts General Hospital in Boston, noted that this type of cell therapy implant is “very novel and representative of where the field is moving, when no traditional solutions exist for common neurological problems.” 

The study was sponsored by Neurona Therapeutics and funded in part by the California Institute for Regenerative Medicine. Dr. Beach and Dr. Spencer report no relevant financial relationships. Several investigators are employees of Neurona Therapeutics. Dr. Rost reports no relevant financial relationships.

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

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

BOSTON – The neurologic symptoms of long COVID appear to be explained by a phenomenon known as antigenic imprinting, which involves a misdirected immune response to the SARS-CoV2 virus, according to a collaborative study presented at the 2023 annual meeting of the American Academy of Neurology.

Already documented in several other viral infections, such as influenza and human immunodeficiency virus, antigenic imprinting results in production of antibodies to previously encountered viral infections rather than to the immediate threat, according to Marianna Spatola, MD, PhD, a research fellow at the Ragon Institute, Harvard University, Cambridge, Mass.
 

Original antigenic sin

In the case of persistent neurologic symptoms after COVID, a condition known as neuroPASC (neurological postacute sequelae of SARS-CoV2 infection), antibodies produced for previously encountered coronaviruses rather than for SARS-CoV2 might explain most or all cases, according to the data Dr. Spatola presented.

The evidence for this explanation was drawn from a study of 112 patients evaluated months after an acute episode of COVID-19. Of these, 18 patients had persistent neurologic dysfunction. When compared with the 94 whose infection resolved without sequelae, the patients with prolonged neurologic impairments had relatively low systemic antibody response to SARS-CoV2. However, they showed relatively high antibody responses against other coronaviruses.

This is a pattern consistent with antigenic imprinting, a concept first described more than 60 years ago as original antigenic sin. When the immune system becomes imprinted with an antigen from the first encountered virus from a family of pathogens, it governs all subsequent antibody responses, according to several published studies that have described and evaluated this concept.
 

Additional evidence

In Dr. Spatola’s study, other differences, particularly in regard to the cerebrospinal fluid (CSF), further supported the role of antigenic imprinting as a cause of neuroPASC. For one, those with elevated immune responses to other common coronaviruses rather than SARS-CoV2 in the CSF relative to the periphery were more likely to have a bad outcome in regard to neurologic symptoms.

Moreover, the CSF in neuroPASC patients “was characterized by increased IgG1 and absence of IgM, suggesting compartmentalized humoral responses within the CSF through selective transfer of antibodies from the serum to the CSF across the blood-brain barrier rather than through intrathecal synthesis,” Dr. Spatola reported.

In the case of COVID-19, the propensity for antigenic imprinting is not difficult to understand.

“The common cold coronaviruses are pretty similar to SARS-CoV2, but they are not exactly the same,” Dr. Spatola said. Her work and studies by others suggest that when antigenic imprinting occurs, “it prevents full maturation of the antibody response.”

NeuroPASC is one of many manifestations of long COVID, but Dr. Spatola pointed out that the immune response in the CSF is unique and the causes of prolonged neurologic impairment after COVID-19 are likely to involve different mechanisms than other long-COVID symptoms.

“Antibodies in the brain are functionally different,” said Dr. Spatola, noting for example that antibody-directed defenses against viral threats show a greater relative reliance on phagocytosis. This might become important in the development of therapeutics for neurologic symptoms of long COVID.
 

A different phenomenon

The manifestations of neuroPASC are heterogeneous and can include confusion, cognitive dysfunction, headache, encephalitis, and other impairments. Neurologic symptoms occur during acute SARS-CoV2 infections, but neuroPASC appears to be a different phenomenon. These symptoms, which develop after the initial respiratory disease has resolved, were attributed by Dr. Spatola to persistent inflammation that is not necessarily directly related to ongoing infection.

“The reason why some patients develop neuroPASC is unknown, but I think the evidence has pointed to a role for the immune system rather than the virus itself,” Dr. Spatola said.

Currently, neuroPASC is a clinical diagnosis but Dr. Spatola and her coinvestigators are conducting research to identify biomarkers. A viable diagnostic test is not expected imminently. They have identified 150 different features with potential relevance to neuroPASC.

In their comparison of those who did relative to those who did not develop neuroPASC, the initial studies were undertaken 2-4 months after the acute COVID-19 symptoms had resolved. The patients with neuroPASC and those without neurologic sequelae have now been followed for 6-8 months, which Dr. Spatola said was too short to draw firm conclusions about outcomes.
 

An evolving concept

Despite the small sample size of this study, these are “very interesting data” for considering the pathogenesis of neuroPASC, which is “a concept that is still evolving,” according to Natalia S. Rost, MD, chief of the stroke division, department of neurology, Massachusetts General Hospital, Boston.

Applied to SARS-CoV2, the concept of original antigenic sin “is new” but Dr. Rost said that it might help differentiate neuroPASC from acute neurologic symptoms of COVID-19, which include stroke. She indicated that the work performed by Dr. Spatola and others might eventually explain the pathology while leading to treatment strategies. She cautioned that the concepts explored in this study “need to be further developed” through larger sample sizes and the exploration of other variables that support the hypothesis.

Dr. Spatola and Dr. Rost report no potential conflicts of interest.

Adopting a Mediterranean diet may improve cognition in patients who have multiple sclerosis (MS) due to a potential neuroprotective mechanism, according to findings of a study that was released early, ahead of presentation at the annual meting of the American Academy of Neurology.

“We were most surprised by the magnitude of the results,” said Ilana Katz Sand, MD, associate professor of neurology at the Corinne Goldsmith Dickinson Center for MS at Mount Sinai in New York. “We hypothesized a significant association between Mediterranean diet and cognition in MS, but we did not anticipate the 20% absolute difference, particularly because we rigorously controlled the demographic and health-related factors, like socioeconomic status, body mass index, and exercise habits.”

Corinne Goldsmith Dickinson Center for MS at Mount Sinai

The Mediterranean diet consists of predominately vegetables, fruits, legumes, fish, and healthy fats while minimizing the consumption of dairy products, meats, and saturated acids. Previous literature has drawn an association between diet and MS symptomology, notably with regard to the Mediterranean diet. These studies indicated a connection between thalamic volume in patients with early MS as well as objectively captured MS-related disability. In this study, researchers have continued their investigation by exploring how the Mediterranean diet affects cognition.

In this cross-sectional observational study, investigators evaluated 563 people with MS ranging in age from 18 to 65 years (n = 563; 71% women; aged 44.2 ± 11.3 years). To accomplish this task, researchers conducted a retrospective chart review capturing data from patients with MS who had undergone neurobehavioral screenings. Qualifying subjects completed the Mediterranean Diet Adherence Screener (MEDAS) to determine the extent to which they adhered to the Mediterranean diet. A 14-item questionnaire, MEDAS assess a person’s usual intake of healthful foods such as vegetables and olive oil, as well as minimization of unhealthy foods such as butter and red meat. They also completed an analogue of the CICMAS cognitive battery comprised of a composite of Symbol Digit Modalities Test, Hopkins Verbal Learning Test, Revised, and CANTAB Paired Associate Learning.

Researchers evaluated patient-reported outcomes adjusted based on demographics (i.e., age, sex, race, ethnicity, and socioeconomic status) and health-related factors. These elements included body mass index, exercise, sleep disturbance, hypertension, diabetes, hyperlipidemia, and smoking.

The study excluded patients who had another primary neurological condition in addition to MS (n = 24), serious psychiatric illness such as schizophrenia (n = 5) or clinical relapse within 6 weeks (n = 2), or missing data (n = 13).

Based on the diet scores, investigators stratified participants into four groups. Those with the scores ranging from 0 to 4 were classified into the lowest group, while scores of 9 or greater qualified participants for the high group.

Investigators observed a significant association between a higher Mediterranean diet score and condition in the population sampled. They found a mean z-score of –0.67 (0.95). In addition, a higher MEDAS proved an independent indicator of better cognition (B = 0.08 [95% confidence interval (CI), 0.05, 0.11], beta = 0.20, P < .001). In fact, a high MEDAS independently correlated to a 20% lower risk for cognitive impairment (odds ratio [OR] = .80 {95% CI, 0.73, 0.89}, P < .001). Ultimately, the study’s findings demonstrated MEDAS served as the strongest health-related indicator of z-score and cognitive impairment. Moreover, dietary modification based on effect suggested stronger associations between diet and cognition with progressive disease as opposed to relapsing disease, as noted by the relationship between the z-score and cognition.

“Further research is needed,” Dr. Katz Sand said. “But because the progressive phenotype reflects more prominent neurodegeneration, the greater observed effect size in those with progressive MS suggests a potential neuroprotective mechanism.”

This study was funded in part by an Irma T. Hirschl/Monique Weill-Caulier Research Award to Dr. Katz Sand. Dr. Katz Sand and coauthors also received funding from the National Multiple Sclerosis Society.

Adopting a Mediterranean diet may improve cognition in patients who have multiple sclerosis (MS) due to a potential neuroprotective mechanism, according to findings of a study that was released early, ahead of presentation at the annual meting of the American Academy of Neurology.

“We were most surprised by the magnitude of the results,” said Ilana Katz Sand, MD, associate professor of neurology at the Corinne Goldsmith Dickinson Center for MS at Mount Sinai in New York. “We hypothesized a significant association between Mediterranean diet and cognition in MS, but we did not anticipate the 20% absolute difference, particularly because we rigorously controlled the demographic and health-related factors, like socioeconomic status, body mass index, and exercise habits.”

Corinne Goldsmith Dickinson Center for MS at Mount Sinai

The Mediterranean diet consists of predominately vegetables, fruits, legumes, fish, and healthy fats while minimizing the consumption of dairy products, meats, and saturated acids. Previous literature has drawn an association between diet and MS symptomology, notably with regard to the Mediterranean diet. These studies indicated a connection between thalamic volume in patients with early MS as well as objectively captured MS-related disability. In this study, researchers have continued their investigation by exploring how the Mediterranean diet affects cognition.

In this cross-sectional observational study, investigators evaluated 563 people with MS ranging in age from 18 to 65 years (n = 563; 71% women; aged 44.2 ± 11.3 years). To accomplish this task, researchers conducted a retrospective chart review capturing data from patients with MS who had undergone neurobehavioral screenings. Qualifying subjects completed the Mediterranean Diet Adherence Screener (MEDAS) to determine the extent to which they adhered to the Mediterranean diet. A 14-item questionnaire, MEDAS assess a person’s usual intake of healthful foods such as vegetables and olive oil, as well as minimization of unhealthy foods such as butter and red meat. They also completed an analogue of the CICMAS cognitive battery comprised of a composite of Symbol Digit Modalities Test, Hopkins Verbal Learning Test, Revised, and CANTAB Paired Associate Learning.

Researchers evaluated patient-reported outcomes adjusted based on demographics (i.e., age, sex, race, ethnicity, and socioeconomic status) and health-related factors. These elements included body mass index, exercise, sleep disturbance, hypertension, diabetes, hyperlipidemia, and smoking.

The study excluded patients who had another primary neurological condition in addition to MS (n = 24), serious psychiatric illness such as schizophrenia (n = 5) or clinical relapse within 6 weeks (n = 2), or missing data (n = 13).

Based on the diet scores, investigators stratified participants into four groups. Those with the scores ranging from 0 to 4 were classified into the lowest group, while scores of 9 or greater qualified participants for the high group.

Investigators observed a significant association between a higher Mediterranean diet score and condition in the population sampled. They found a mean z-score of –0.67 (0.95). In addition, a higher MEDAS proved an independent indicator of better cognition (B = 0.08 [95% confidence interval (CI), 0.05, 0.11], beta = 0.20, P < .001). In fact, a high MEDAS independently correlated to a 20% lower risk for cognitive impairment (odds ratio [OR] = .80 {95% CI, 0.73, 0.89}, P < .001). Ultimately, the study’s findings demonstrated MEDAS served as the strongest health-related indicator of z-score and cognitive impairment. Moreover, dietary modification based on effect suggested stronger associations between diet and cognition with progressive disease as opposed to relapsing disease, as noted by the relationship between the z-score and cognition.

“Further research is needed,” Dr. Katz Sand said. “But because the progressive phenotype reflects more prominent neurodegeneration, the greater observed effect size in those with progressive MS suggests a potential neuroprotective mechanism.”

This study was funded in part by an Irma T. Hirschl/Monique Weill-Caulier Research Award to Dr. Katz Sand. Dr. Katz Sand and coauthors also received funding from the National Multiple Sclerosis Society.

Adopting a Mediterranean diet may improve cognition in patients who have multiple sclerosis (MS) due to a potential neuroprotective mechanism, according to findings of a study that was released early, ahead of presentation at the annual meting of the American Academy of Neurology.

“We were most surprised by the magnitude of the results,” said Ilana Katz Sand, MD, associate professor of neurology at the Corinne Goldsmith Dickinson Center for MS at Mount Sinai in New York. “We hypothesized a significant association between Mediterranean diet and cognition in MS, but we did not anticipate the 20% absolute difference, particularly because we rigorously controlled the demographic and health-related factors, like socioeconomic status, body mass index, and exercise habits.”

Corinne Goldsmith Dickinson Center for MS at Mount Sinai

The Mediterranean diet consists of predominately vegetables, fruits, legumes, fish, and healthy fats while minimizing the consumption of dairy products, meats, and saturated acids. Previous literature has drawn an association between diet and MS symptomology, notably with regard to the Mediterranean diet. These studies indicated a connection between thalamic volume in patients with early MS as well as objectively captured MS-related disability. In this study, researchers have continued their investigation by exploring how the Mediterranean diet affects cognition.

In this cross-sectional observational study, investigators evaluated 563 people with MS ranging in age from 18 to 65 years (n = 563; 71% women; aged 44.2 ± 11.3 years). To accomplish this task, researchers conducted a retrospective chart review capturing data from patients with MS who had undergone neurobehavioral screenings. Qualifying subjects completed the Mediterranean Diet Adherence Screener (MEDAS) to determine the extent to which they adhered to the Mediterranean diet. A 14-item questionnaire, MEDAS assess a person’s usual intake of healthful foods such as vegetables and olive oil, as well as minimization of unhealthy foods such as butter and red meat. They also completed an analogue of the CICMAS cognitive battery comprised of a composite of Symbol Digit Modalities Test, Hopkins Verbal Learning Test, Revised, and CANTAB Paired Associate Learning.

Researchers evaluated patient-reported outcomes adjusted based on demographics (i.e., age, sex, race, ethnicity, and socioeconomic status) and health-related factors. These elements included body mass index, exercise, sleep disturbance, hypertension, diabetes, hyperlipidemia, and smoking.

The study excluded patients who had another primary neurological condition in addition to MS (n = 24), serious psychiatric illness such as schizophrenia (n = 5) or clinical relapse within 6 weeks (n = 2), or missing data (n = 13).

Based on the diet scores, investigators stratified participants into four groups. Those with the scores ranging from 0 to 4 were classified into the lowest group, while scores of 9 or greater qualified participants for the high group.

Investigators observed a significant association between a higher Mediterranean diet score and condition in the population sampled. They found a mean z-score of –0.67 (0.95). In addition, a higher MEDAS proved an independent indicator of better cognition (B = 0.08 [95% confidence interval (CI), 0.05, 0.11], beta = 0.20, P < .001). In fact, a high MEDAS independently correlated to a 20% lower risk for cognitive impairment (odds ratio [OR] = .80 {95% CI, 0.73, 0.89}, P < .001). Ultimately, the study’s findings demonstrated MEDAS served as the strongest health-related indicator of z-score and cognitive impairment. Moreover, dietary modification based on effect suggested stronger associations between diet and cognition with progressive disease as opposed to relapsing disease, as noted by the relationship between the z-score and cognition.

“Further research is needed,” Dr. Katz Sand said. “But because the progressive phenotype reflects more prominent neurodegeneration, the greater observed effect size in those with progressive MS suggests a potential neuroprotective mechanism.”

This study was funded in part by an Irma T. Hirschl/Monique Weill-Caulier Research Award to Dr. Katz Sand. Dr. Katz Sand and coauthors also received funding from the National Multiple Sclerosis Society.

Both pain relief and neurological improvements persisted in patients with diabetic neuropathy 2 years after they began receiving treatment with 10 kHz of spinal cord stimulation, according to research that released early, prior to its presentation at the annual meeting of the American Academy of Neurology.

The data represents the longest follow-up available for spinal cord stimulation at a frequency higher than the 60 Hz initially approved for diabetic neuropathy by the Food and Drug Administration, according to lead author Erika A. Petersen, MD, a professor of neurosurgery and the residency program director at the University of Arkansas for Medical Sciences, Little Rock.

University of Arkansas

“You would expect that somebody who continues to have diabetes for 24 months and has neuropathy would have worse neuropathy after 2 years, and what we’re seeing is that people were stable or better in terms of their nerve function at 2 years,” Dr. Petersen said in an interview. “So that’s really revolutionary.”
 

Encouraging preliminary findings

The findings are “promising and preliminary,” John D. Markman, MD, a professor in neurology and neurosurgery, vice chair for clinical research, and director of the Translational Pain Research Program at the University of Rochester (N.Y.) Medical Center, said in an interview. Dr. Markman, who was not involved in this study, said that, though the results are encouraging, it’s “less clear how much of [the pain improvement] is due to what we would consider to be on-target, pain-relieving benefit from stimulation versus other factors like expectation.” The crossover rate and amount of reduction in pain intensity are promising, but “I think that excitement is weighed against the fact that this is an open-label study.”

An underused treatment

Although spinal cord stimulation has been around since the late 1960s, its use only picked up steam in the 2000s, when it became more frequently used to treat chronic nerve damage related to neuropathic pain syndromes, Dr. Petersen explained. The FDA approved the treatment’s new indication for diabetic neuropathy in 2015, and data from Abbott and Medtronic have shown benefits from spinal cord stimulation at 60 Hz, but some patients are uncomfortable with the vibration or tingling feelings the devices can cause at that frequency.

“They describe creepy crawlies or ants crawling over the feet, or pins and needles, and painful sensitivity,” Dr. Petersen said. “You create a vibration feeling in the same zone where they already have those feelings of buzzing and pain and vibration, and it’s sometimes actually even more uncomfortable and less satisfying to them in terms of relief” with the spinal cord stimulation at 60 Hz, she said, “so there’s a lot of attrition in terms of who will actually use it.”

At 10 kHz, however, “people don’t feel any vibration or tingling associated with it; it just jams the signal of the pain,” she said. The difference between the frequencies is like that between “a lifeguard whistle and a dog whistle.”
 

Testing high-frequency stimulation

The new findings included the 24-month follow-up data from a randomized controlled trial that assessed the effectiveness of high-frequency spinal cord stimulation for painful diabetic neuropathy. The original 216 participants enrolled in the trial had diabetic neuropathy symptoms for at least 12 months and either could no not tolerate or did not respond to medications. Enrollment criteria also included lower-limb pain intensity of at least 5 on a 0-10 visual analogy scale and hemoglobin A1c of no more than 10%.

For the first 6 months of the trial – before crossover was offered – participants were randomly assigned to receive either 10 kHz of spinal cord stimulation along with conventional medical management or to receive conventional medical management alone. The 6-month data from 187 patients, as reported in April 2021 in JAMA Neurology, revealed that 79% of those receiving spinal cord stimulation experienced at least 50% improved pain relief without worsening of their baseline neurologic deficits, compared with only 5% of those receiving only conventional treatments.

Average pain levels increased 2% in the control participants compared with a decrease of 76% in those with the spinal cord stimulation devices. In addition, 62% of the patients receiving spinal cord stimulation demonstration neurologic improvement in reflexes, strength, movement and sensation, compared with 3% of those in the control group. The study’s findings led the FDA to approve the device using 10 kHz.

At 6 months, 93% of control patients crossed over to receiving spinal cord stimulation while none with the devices opted to stop their spinal cord stimulation. The 12-month data revealed that 85% of those receiving spinal cord stimulation experienced at least 50% pain relief, with the average pain relief at 74%. Patients also reported statistically significant improved quality of life as well as less interference with sleep, mood, and daily activities from pain.

Two years after baseline, patients’ pain relief was maintained with average 80% improvement, and 66% of patients showed neurologic improvement since baseline. Though no patients had devices removed because of ineffectiveness, five patients’ devices were removed because of infection while infections in three other patients resolved.

“Being able to offer something that is not a pharmaceutical, without the side effects, that shows an even longer durability to that response is a really important finding at this point,” Dr. Petersen said.
 

Surgical considerations

Among the estimated 37 million Americans with type 1 or 2 diabetes, approximately one quarter of them experience some level of painful diabetic neuropathy, but medication and other medical management strategies are not always adequate in treating their pain. After a 1-week trial of spinal cord stimulation, the devices are implanted under the skin and rechargeable through the skin for up to 10 years, after which they can be replaced.

An appropriate candidate for spinal cord stimulation would be someone for whom existing non-invasive pain relief options, including medications, are ineffective or intolerable, Dr. Petersen and Dr. Markman both said. An adequate trial of medication is not “one size fits all” and will vary by each patient, added Dr. Markman, who is also interested in whether this study’s participants were able to have a reduction in use of pain relief medications.

“I think there’s a significant number of patients out there who can benefit from this, so I think that’s why it’s promising and exciting,” Dr. Markman said. “I do think it’s important to see if this actually allows them to be on less medication or whether stimulation turns out to be another treatment in addition to their baseline treatments.” The challenge is identifying “which patients are most likely to be benefiting from this and which are most likely to be harmed.”

Aside from infection from implantation, other possible risks include pain at the battery site and, in rare cases, a need for reoperation because of migration of the leads, he said.
 

Improvement in symptom severity and quality of life

After the wound from the implant has completely healed, Dr. Petersen said patients using the devices do not have any activity restrictions outside of magnetic interference, such as MRIs. “I’ve had people go back-country kayaking, scuba diving, fishing with their grandkids, all sorts of all sorts of things. If patients need to go through a scanner of any kind, they should ask whether it’s safe for pacemakers since these devices are like a “pacemaker for pain.

“I had a patient bring solar chargers with him so that he could recharge his battery in the backwoods while kayaking because that’s the level of improvement in pain that he got – from barely being able to walk down the hall to feeling comfortable being off the grid and active again,” Dr. Petersen said. “Those kinds of improvements in quality of life are massive.”

The study findings may also suggest that spinal cord stimulation can benefit a broader population of patients experiencing neuropathic pain, Dr. Markman said.

“There’s an extraordinary unmet need for treatments for neuropathy, and one important question here is the extent to which diabetic peripheral neuropathy and the response that we’re seeing here is a proxy for a broader effect across many neuropathies that are caused by other conditions other than diabetes,” Dr. Markman said. “There’s a lot of reason to think that this will be helpful not just for diabetes-related neuropathic pain, but for other types of neuropathic pain that have similar clinical presentations or clinical symptom patterns to diabetic peripheral neuropathy.”

The study was funded by Nevro, who manufactures the devices. Dr. Petersen and Dr. Markman both reported consulting with, receiving support from, holding stock options with, and serving on the data safety monitoring boards and advisory boards of numerous pharmaceutical companies.

Both pain relief and neurological improvements persisted in patients with diabetic neuropathy 2 years after they began receiving treatment with 10 kHz of spinal cord stimulation, according to research that released early, prior to its presentation at the annual meeting of the American Academy of Neurology.

The data represents the longest follow-up available for spinal cord stimulation at a frequency higher than the 60 Hz initially approved for diabetic neuropathy by the Food and Drug Administration, according to lead author Erika A. Petersen, MD, a professor of neurosurgery and the residency program director at the University of Arkansas for Medical Sciences, Little Rock.

University of Arkansas

“You would expect that somebody who continues to have diabetes for 24 months and has neuropathy would have worse neuropathy after 2 years, and what we’re seeing is that people were stable or better in terms of their nerve function at 2 years,” Dr. Petersen said in an interview. “So that’s really revolutionary.”
 

Encouraging preliminary findings

The findings are “promising and preliminary,” John D. Markman, MD, a professor in neurology and neurosurgery, vice chair for clinical research, and director of the Translational Pain Research Program at the University of Rochester (N.Y.) Medical Center, said in an interview. Dr. Markman, who was not involved in this study, said that, though the results are encouraging, it’s “less clear how much of [the pain improvement] is due to what we would consider to be on-target, pain-relieving benefit from stimulation versus other factors like expectation.” The crossover rate and amount of reduction in pain intensity are promising, but “I think that excitement is weighed against the fact that this is an open-label study.”

An underused treatment

Although spinal cord stimulation has been around since the late 1960s, its use only picked up steam in the 2000s, when it became more frequently used to treat chronic nerve damage related to neuropathic pain syndromes, Dr. Petersen explained. The FDA approved the treatment’s new indication for diabetic neuropathy in 2015, and data from Abbott and Medtronic have shown benefits from spinal cord stimulation at 60 Hz, but some patients are uncomfortable with the vibration or tingling feelings the devices can cause at that frequency.

“They describe creepy crawlies or ants crawling over the feet, or pins and needles, and painful sensitivity,” Dr. Petersen said. “You create a vibration feeling in the same zone where they already have those feelings of buzzing and pain and vibration, and it’s sometimes actually even more uncomfortable and less satisfying to them in terms of relief” with the spinal cord stimulation at 60 Hz, she said, “so there’s a lot of attrition in terms of who will actually use it.”

At 10 kHz, however, “people don’t feel any vibration or tingling associated with it; it just jams the signal of the pain,” she said. The difference between the frequencies is like that between “a lifeguard whistle and a dog whistle.”
 

Testing high-frequency stimulation

The new findings included the 24-month follow-up data from a randomized controlled trial that assessed the effectiveness of high-frequency spinal cord stimulation for painful diabetic neuropathy. The original 216 participants enrolled in the trial had diabetic neuropathy symptoms for at least 12 months and either could no not tolerate or did not respond to medications. Enrollment criteria also included lower-limb pain intensity of at least 5 on a 0-10 visual analogy scale and hemoglobin A1c of no more than 10%.

For the first 6 months of the trial – before crossover was offered – participants were randomly assigned to receive either 10 kHz of spinal cord stimulation along with conventional medical management or to receive conventional medical management alone. The 6-month data from 187 patients, as reported in April 2021 in JAMA Neurology, revealed that 79% of those receiving spinal cord stimulation experienced at least 50% improved pain relief without worsening of their baseline neurologic deficits, compared with only 5% of those receiving only conventional treatments.

Average pain levels increased 2% in the control participants compared with a decrease of 76% in those with the spinal cord stimulation devices. In addition, 62% of the patients receiving spinal cord stimulation demonstration neurologic improvement in reflexes, strength, movement and sensation, compared with 3% of those in the control group. The study’s findings led the FDA to approve the device using 10 kHz.

At 6 months, 93% of control patients crossed over to receiving spinal cord stimulation while none with the devices opted to stop their spinal cord stimulation. The 12-month data revealed that 85% of those receiving spinal cord stimulation experienced at least 50% pain relief, with the average pain relief at 74%. Patients also reported statistically significant improved quality of life as well as less interference with sleep, mood, and daily activities from pain.

Two years after baseline, patients’ pain relief was maintained with average 80% improvement, and 66% of patients showed neurologic improvement since baseline. Though no patients had devices removed because of ineffectiveness, five patients’ devices were removed because of infection while infections in three other patients resolved.

“Being able to offer something that is not a pharmaceutical, without the side effects, that shows an even longer durability to that response is a really important finding at this point,” Dr. Petersen said.
 

Surgical considerations

Among the estimated 37 million Americans with type 1 or 2 diabetes, approximately one quarter of them experience some level of painful diabetic neuropathy, but medication and other medical management strategies are not always adequate in treating their pain. After a 1-week trial of spinal cord stimulation, the devices are implanted under the skin and rechargeable through the skin for up to 10 years, after which they can be replaced.

An appropriate candidate for spinal cord stimulation would be someone for whom existing non-invasive pain relief options, including medications, are ineffective or intolerable, Dr. Petersen and Dr. Markman both said. An adequate trial of medication is not “one size fits all” and will vary by each patient, added Dr. Markman, who is also interested in whether this study’s participants were able to have a reduction in use of pain relief medications.

“I think there’s a significant number of patients out there who can benefit from this, so I think that’s why it’s promising and exciting,” Dr. Markman said. “I do think it’s important to see if this actually allows them to be on less medication or whether stimulation turns out to be another treatment in addition to their baseline treatments.” The challenge is identifying “which patients are most likely to be benefiting from this and which are most likely to be harmed.”

Aside from infection from implantation, other possible risks include pain at the battery site and, in rare cases, a need for reoperation because of migration of the leads, he said.
 

Improvement in symptom severity and quality of life

After the wound from the implant has completely healed, Dr. Petersen said patients using the devices do not have any activity restrictions outside of magnetic interference, such as MRIs. “I’ve had people go back-country kayaking, scuba diving, fishing with their grandkids, all sorts of all sorts of things. If patients need to go through a scanner of any kind, they should ask whether it’s safe for pacemakers since these devices are like a “pacemaker for pain.

“I had a patient bring solar chargers with him so that he could recharge his battery in the backwoods while kayaking because that’s the level of improvement in pain that he got – from barely being able to walk down the hall to feeling comfortable being off the grid and active again,” Dr. Petersen said. “Those kinds of improvements in quality of life are massive.”

The study findings may also suggest that spinal cord stimulation can benefit a broader population of patients experiencing neuropathic pain, Dr. Markman said.

“There’s an extraordinary unmet need for treatments for neuropathy, and one important question here is the extent to which diabetic peripheral neuropathy and the response that we’re seeing here is a proxy for a broader effect across many neuropathies that are caused by other conditions other than diabetes,” Dr. Markman said. “There’s a lot of reason to think that this will be helpful not just for diabetes-related neuropathic pain, but for other types of neuropathic pain that have similar clinical presentations or clinical symptom patterns to diabetic peripheral neuropathy.”

The study was funded by Nevro, who manufactures the devices. Dr. Petersen and Dr. Markman both reported consulting with, receiving support from, holding stock options with, and serving on the data safety monitoring boards and advisory boards of numerous pharmaceutical companies.

Both pain relief and neurological improvements persisted in patients with diabetic neuropathy 2 years after they began receiving treatment with 10 kHz of spinal cord stimulation, according to research that released early, prior to its presentation at the annual meeting of the American Academy of Neurology.

The data represents the longest follow-up available for spinal cord stimulation at a frequency higher than the 60 Hz initially approved for diabetic neuropathy by the Food and Drug Administration, according to lead author Erika A. Petersen, MD, a professor of neurosurgery and the residency program director at the University of Arkansas for Medical Sciences, Little Rock.

University of Arkansas

“You would expect that somebody who continues to have diabetes for 24 months and has neuropathy would have worse neuropathy after 2 years, and what we’re seeing is that people were stable or better in terms of their nerve function at 2 years,” Dr. Petersen said in an interview. “So that’s really revolutionary.”
 

Encouraging preliminary findings

The findings are “promising and preliminary,” John D. Markman, MD, a professor in neurology and neurosurgery, vice chair for clinical research, and director of the Translational Pain Research Program at the University of Rochester (N.Y.) Medical Center, said in an interview. Dr. Markman, who was not involved in this study, said that, though the results are encouraging, it’s “less clear how much of [the pain improvement] is due to what we would consider to be on-target, pain-relieving benefit from stimulation versus other factors like expectation.” The crossover rate and amount of reduction in pain intensity are promising, but “I think that excitement is weighed against the fact that this is an open-label study.”

An underused treatment

Although spinal cord stimulation has been around since the late 1960s, its use only picked up steam in the 2000s, when it became more frequently used to treat chronic nerve damage related to neuropathic pain syndromes, Dr. Petersen explained. The FDA approved the treatment’s new indication for diabetic neuropathy in 2015, and data from Abbott and Medtronic have shown benefits from spinal cord stimulation at 60 Hz, but some patients are uncomfortable with the vibration or tingling feelings the devices can cause at that frequency.

“They describe creepy crawlies or ants crawling over the feet, or pins and needles, and painful sensitivity,” Dr. Petersen said. “You create a vibration feeling in the same zone where they already have those feelings of buzzing and pain and vibration, and it’s sometimes actually even more uncomfortable and less satisfying to them in terms of relief” with the spinal cord stimulation at 60 Hz, she said, “so there’s a lot of attrition in terms of who will actually use it.”

At 10 kHz, however, “people don’t feel any vibration or tingling associated with it; it just jams the signal of the pain,” she said. The difference between the frequencies is like that between “a lifeguard whistle and a dog whistle.”
 

Testing high-frequency stimulation

The new findings included the 24-month follow-up data from a randomized controlled trial that assessed the effectiveness of high-frequency spinal cord stimulation for painful diabetic neuropathy. The original 216 participants enrolled in the trial had diabetic neuropathy symptoms for at least 12 months and either could no not tolerate or did not respond to medications. Enrollment criteria also included lower-limb pain intensity of at least 5 on a 0-10 visual analogy scale and hemoglobin A1c of no more than 10%.

For the first 6 months of the trial – before crossover was offered – participants were randomly assigned to receive either 10 kHz of spinal cord stimulation along with conventional medical management or to receive conventional medical management alone. The 6-month data from 187 patients, as reported in April 2021 in JAMA Neurology, revealed that 79% of those receiving spinal cord stimulation experienced at least 50% improved pain relief without worsening of their baseline neurologic deficits, compared with only 5% of those receiving only conventional treatments.

Average pain levels increased 2% in the control participants compared with a decrease of 76% in those with the spinal cord stimulation devices. In addition, 62% of the patients receiving spinal cord stimulation demonstration neurologic improvement in reflexes, strength, movement and sensation, compared with 3% of those in the control group. The study’s findings led the FDA to approve the device using 10 kHz.

At 6 months, 93% of control patients crossed over to receiving spinal cord stimulation while none with the devices opted to stop their spinal cord stimulation. The 12-month data revealed that 85% of those receiving spinal cord stimulation experienced at least 50% pain relief, with the average pain relief at 74%. Patients also reported statistically significant improved quality of life as well as less interference with sleep, mood, and daily activities from pain.

Two years after baseline, patients’ pain relief was maintained with average 80% improvement, and 66% of patients showed neurologic improvement since baseline. Though no patients had devices removed because of ineffectiveness, five patients’ devices were removed because of infection while infections in three other patients resolved.

“Being able to offer something that is not a pharmaceutical, without the side effects, that shows an even longer durability to that response is a really important finding at this point,” Dr. Petersen said.
 

Surgical considerations

Among the estimated 37 million Americans with type 1 or 2 diabetes, approximately one quarter of them experience some level of painful diabetic neuropathy, but medication and other medical management strategies are not always adequate in treating their pain. After a 1-week trial of spinal cord stimulation, the devices are implanted under the skin and rechargeable through the skin for up to 10 years, after which they can be replaced.

An appropriate candidate for spinal cord stimulation would be someone for whom existing non-invasive pain relief options, including medications, are ineffective or intolerable, Dr. Petersen and Dr. Markman both said. An adequate trial of medication is not “one size fits all” and will vary by each patient, added Dr. Markman, who is also interested in whether this study’s participants were able to have a reduction in use of pain relief medications.

“I think there’s a significant number of patients out there who can benefit from this, so I think that’s why it’s promising and exciting,” Dr. Markman said. “I do think it’s important to see if this actually allows them to be on less medication or whether stimulation turns out to be another treatment in addition to their baseline treatments.” The challenge is identifying “which patients are most likely to be benefiting from this and which are most likely to be harmed.”

Aside from infection from implantation, other possible risks include pain at the battery site and, in rare cases, a need for reoperation because of migration of the leads, he said.
 

Improvement in symptom severity and quality of life

After the wound from the implant has completely healed, Dr. Petersen said patients using the devices do not have any activity restrictions outside of magnetic interference, such as MRIs. “I’ve had people go back-country kayaking, scuba diving, fishing with their grandkids, all sorts of all sorts of things. If patients need to go through a scanner of any kind, they should ask whether it’s safe for pacemakers since these devices are like a “pacemaker for pain.

“I had a patient bring solar chargers with him so that he could recharge his battery in the backwoods while kayaking because that’s the level of improvement in pain that he got – from barely being able to walk down the hall to feeling comfortable being off the grid and active again,” Dr. Petersen said. “Those kinds of improvements in quality of life are massive.”

The study findings may also suggest that spinal cord stimulation can benefit a broader population of patients experiencing neuropathic pain, Dr. Markman said.

“There’s an extraordinary unmet need for treatments for neuropathy, and one important question here is the extent to which diabetic peripheral neuropathy and the response that we’re seeing here is a proxy for a broader effect across many neuropathies that are caused by other conditions other than diabetes,” Dr. Markman said. “There’s a lot of reason to think that this will be helpful not just for diabetes-related neuropathic pain, but for other types of neuropathic pain that have similar clinical presentations or clinical symptom patterns to diabetic peripheral neuropathy.”

The study was funded by Nevro, who manufactures the devices. Dr. Petersen and Dr. Markman both reported consulting with, receiving support from, holding stock options with, and serving on the data safety monitoring boards and advisory boards of numerous pharmaceutical companies.

Older adults in cities are at lower risk of serious psychological distress – and potentially of later cognitive impairment and dementia – when they live close to so-called green and blue spaces, which can include public parks, community gardens, cemeteries, and bodies of water.

The findings of the study, which was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology, build on a growing understanding of the relationship between types and qualities of urban environments and dementia risk.

Adithya Vegaraju, a student at Washington State University, Spokane, led the study, which looked at data from the Washington State Behavioral Risk Factor Surveillance System to assess prevalence of serious psychological distress among 42,980 Washington state residents aged 65 and over.

The data, collected between 2011 and 2019, used a self-reported questionnaire to determine serious psychological distress, which is defined as a level of mental distress considered debilitating enough to warrant treatment.

Mr. Vegaraju and his coauthor Solmaz Amiri, DDes, also of Washington State University, used ZIP codes, along with U.S. census data, to approximate the urban adults’ proximity to green and blue spaces.

After controlling for potential confounders of age, sex, ethnicity, education, and marital status, the investigators found that people living within half a mile of green or blue spaces had a 17% lower risk of experiencing serious psychological distress, compared with people living farther from these spaces, the investigators said in a news release.
 

Implications for cognitive decline and dementia?

Psychological distress in adults has been linked in population-based longitudinal studies to later cognitive decline and dementia. One study in older adults found the risk of dementia to be more than 50% higher among adults aged 50-70 with persistent depression. Blue and green spaces have also been investigated in relation to neurodegenerative disease among older adults; a 2022 study looking at data from some 62 million Medicare beneficiaries found those living in areas with more vegetation saw lower risk of hospitalizations for Alzheimer’s disease and related dementias.

“Since we lack effective prevention methods or treatments for mild cognitive impairment and dementia, we need to get creative in how we look at these issues,” Dr. Amiri commented in a press statement about her and Mr. Vegaraju’s findings. “Our hope is that this study showing better mental health among people living close to parks and water will trigger other studies about how these benefits work and whether this proximity can help prevent or delay mild cognitive impairment and dementia.”

The investigators acknowledged that their findings were limited by reliance on a self-reported measure of psychological distress.
 

A bidirectional connection with depression and dementia

In a comment, Anjum Hajat, PhD, an epidemiologist at University of Washington School of Public Health in Seattle who has also studied the relationship between green space and dementia risk in older adults, noted some further apparent limitations of the new study, for which only an abstract was available at publication.

“It has been shown that people with depression are at higher risk for dementia, but the opposite is also true,” Dr. Hajat commented. “Those with dementia are more likely to develop depression. This bidirectionality makes this study abstract difficult to interpret since the study is based on cross-sectional data: Individuals are not followed over time to see which develops first, dementia or depression.”

Additionally, Dr. Hajat noted, the data used to determine proximity to green and blue spaces did not allow for the calculation of precise distances between subjects’ homes and these spaces.

Mr. Vegaraju and Dr. Amiri’s study had no outside support, and the investigators declared no conflicts of interest. Dr. Hajat declared no conflicts of interest.

Older adults in cities are at lower risk of serious psychological distress – and potentially of later cognitive impairment and dementia – when they live close to so-called green and blue spaces, which can include public parks, community gardens, cemeteries, and bodies of water.

The findings of the study, which was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology, build on a growing understanding of the relationship between types and qualities of urban environments and dementia risk.

Adithya Vegaraju, a student at Washington State University, Spokane, led the study, which looked at data from the Washington State Behavioral Risk Factor Surveillance System to assess prevalence of serious psychological distress among 42,980 Washington state residents aged 65 and over.

The data, collected between 2011 and 2019, used a self-reported questionnaire to determine serious psychological distress, which is defined as a level of mental distress considered debilitating enough to warrant treatment.

Mr. Vegaraju and his coauthor Solmaz Amiri, DDes, also of Washington State University, used ZIP codes, along with U.S. census data, to approximate the urban adults’ proximity to green and blue spaces.

After controlling for potential confounders of age, sex, ethnicity, education, and marital status, the investigators found that people living within half a mile of green or blue spaces had a 17% lower risk of experiencing serious psychological distress, compared with people living farther from these spaces, the investigators said in a news release.
 

Implications for cognitive decline and dementia?

Psychological distress in adults has been linked in population-based longitudinal studies to later cognitive decline and dementia. One study in older adults found the risk of dementia to be more than 50% higher among adults aged 50-70 with persistent depression. Blue and green spaces have also been investigated in relation to neurodegenerative disease among older adults; a 2022 study looking at data from some 62 million Medicare beneficiaries found those living in areas with more vegetation saw lower risk of hospitalizations for Alzheimer’s disease and related dementias.

“Since we lack effective prevention methods or treatments for mild cognitive impairment and dementia, we need to get creative in how we look at these issues,” Dr. Amiri commented in a press statement about her and Mr. Vegaraju’s findings. “Our hope is that this study showing better mental health among people living close to parks and water will trigger other studies about how these benefits work and whether this proximity can help prevent or delay mild cognitive impairment and dementia.”

The investigators acknowledged that their findings were limited by reliance on a self-reported measure of psychological distress.
 

A bidirectional connection with depression and dementia

In a comment, Anjum Hajat, PhD, an epidemiologist at University of Washington School of Public Health in Seattle who has also studied the relationship between green space and dementia risk in older adults, noted some further apparent limitations of the new study, for which only an abstract was available at publication.

“It has been shown that people with depression are at higher risk for dementia, but the opposite is also true,” Dr. Hajat commented. “Those with dementia are more likely to develop depression. This bidirectionality makes this study abstract difficult to interpret since the study is based on cross-sectional data: Individuals are not followed over time to see which develops first, dementia or depression.”

Additionally, Dr. Hajat noted, the data used to determine proximity to green and blue spaces did not allow for the calculation of precise distances between subjects’ homes and these spaces.

Mr. Vegaraju and Dr. Amiri’s study had no outside support, and the investigators declared no conflicts of interest. Dr. Hajat declared no conflicts of interest.

Older adults in cities are at lower risk of serious psychological distress – and potentially of later cognitive impairment and dementia – when they live close to so-called green and blue spaces, which can include public parks, community gardens, cemeteries, and bodies of water.

The findings of the study, which was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology, build on a growing understanding of the relationship between types and qualities of urban environments and dementia risk.

Adithya Vegaraju, a student at Washington State University, Spokane, led the study, which looked at data from the Washington State Behavioral Risk Factor Surveillance System to assess prevalence of serious psychological distress among 42,980 Washington state residents aged 65 and over.

The data, collected between 2011 and 2019, used a self-reported questionnaire to determine serious psychological distress, which is defined as a level of mental distress considered debilitating enough to warrant treatment.

Mr. Vegaraju and his coauthor Solmaz Amiri, DDes, also of Washington State University, used ZIP codes, along with U.S. census data, to approximate the urban adults’ proximity to green and blue spaces.

After controlling for potential confounders of age, sex, ethnicity, education, and marital status, the investigators found that people living within half a mile of green or blue spaces had a 17% lower risk of experiencing serious psychological distress, compared with people living farther from these spaces, the investigators said in a news release.
 

Implications for cognitive decline and dementia?

Psychological distress in adults has been linked in population-based longitudinal studies to later cognitive decline and dementia. One study in older adults found the risk of dementia to be more than 50% higher among adults aged 50-70 with persistent depression. Blue and green spaces have also been investigated in relation to neurodegenerative disease among older adults; a 2022 study looking at data from some 62 million Medicare beneficiaries found those living in areas with more vegetation saw lower risk of hospitalizations for Alzheimer’s disease and related dementias.

“Since we lack effective prevention methods or treatments for mild cognitive impairment and dementia, we need to get creative in how we look at these issues,” Dr. Amiri commented in a press statement about her and Mr. Vegaraju’s findings. “Our hope is that this study showing better mental health among people living close to parks and water will trigger other studies about how these benefits work and whether this proximity can help prevent or delay mild cognitive impairment and dementia.”

The investigators acknowledged that their findings were limited by reliance on a self-reported measure of psychological distress.
 

A bidirectional connection with depression and dementia

In a comment, Anjum Hajat, PhD, an epidemiologist at University of Washington School of Public Health in Seattle who has also studied the relationship between green space and dementia risk in older adults, noted some further apparent limitations of the new study, for which only an abstract was available at publication.

“It has been shown that people with depression are at higher risk for dementia, but the opposite is also true,” Dr. Hajat commented. “Those with dementia are more likely to develop depression. This bidirectionality makes this study abstract difficult to interpret since the study is based on cross-sectional data: Individuals are not followed over time to see which develops first, dementia or depression.”

Additionally, Dr. Hajat noted, the data used to determine proximity to green and blue spaces did not allow for the calculation of precise distances between subjects’ homes and these spaces.

Mr. Vegaraju and Dr. Amiri’s study had no outside support, and the investigators declared no conflicts of interest. Dr. Hajat declared no conflicts of interest.

Medicare beneficiaries living in the Mississippi–Ohio River valley had a higher risk of developing Parkinson’s disease, compared with other regions of the United States, according to findings from a study that was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

The association was attributed to concentrations of particulate matter (PM) _2.5 in the Mississippi–Ohio River valley, which was on average higher than in other areas, but that didn’t entirely explain the increase in Parkinson’s disease in that region, Brittany Krzyzanowski, PhD, a postdoctoral research fellow in the neuroepidemiology research program of the department of neurology at Barrow Neurological Institute, Dignity Health St. Joseph’s Hospital and Medical Center, Phoenix, said in an interview.

Barrow Neurological Institute

“This study revealed Parkinson’s disease hot spots in the Mississippi–Ohio River valley, a region that has some of the highest levels of air pollution in the nation,” she said, “but we also still find a relationship between air pollution and Parkinson’s risk in the regions in the western half of the United States where Parkinson’s disease and air pollution levels are relatively low.”

Dr. Krzyzanowski and colleagues evaluated 22,546,965 Medicare beneficiaries in 2009, using a multimethod approach that included geospatial analytical techniques to categorize their exposure to PM_2.5 based on age, sex, race, smoking status, and health care usage. The researchers also performed individual-level case-control analysis to assess PM_2.5 results at the county level. The Medicare beneficiaries were grouped according to average exposure, with the lowest group having an average annual exposure of 5 mcg/m³ and the group with the highest exposure having an average annual exposure of 19 mcg/m³.

In total, researchers identified 83,674 Medicare beneficiaries with incident Parkinson’s disease, with 434 new cases per 100,000 people in the highest exposure group, compared with 359 new cases per 100,000 people in the lowest-exposure group. The relative risk for Parkinson’s disease increased in the highest quartile of PM_2.5 by 25%, compared with the lowest quartile after adjusting for factors such as age, smoking status, and health care usage (95% confidence interval, 20%–29%).

The results showed the nationwide average annual PM_2.5 was associated with incident Parkinson’s disease, and the Rocky Mountain region carried a strong association between PM_2.5 and Parkson’s disease with a 16% increase in risk per level of exposure to PM_2.5. While the Mississippi-Ohio River valley was also associated with Parkinson’s disease, there was a weaker association between PM_2.5 and Parkinson’s disease, which the researchers attributed to a “ceiling effect” of PM_2.5 between approximately 12-19 mcg/m³.

Dr. Krzyzanowski said that use of a large-population-based dataset and high-resolution location data were major strengths of the study. “Having this level of information leaves less room for uncertainty in our measures and analyses,” she said. “Our study also leveraged innovative geographic information systems which allowed us to refine local patterns of disease by using population behavior and demographic information (such as smoking and age) to ensure that we could provide the most accurate map representation available to date.”
 

A focus on air pollution

Existing research in examining the etiology of Parkinson’s mainly focused on exposure to pesticides,* Dr. Krzyzanowski explained, and “consists of studies using relatively small populations and low-resolution air pollution data.” Genetics is another possible cause, she noted, but only explains some Parkinson’s disease cases.

“Our work suggests that we should also be looking at air pollution as a contributor in the development of Parkinson’s disease,” she said.

Ray Dorsey, MD, professor of neurology at the University of Rochester (N.Y.), who was not involved with the study, said that evidence is mounting that “air pollution may be an important causal factor in Parkinson’s and especially Alzheimer’s disease.”

“This study by a well-regarded group of researchers adds epidemiological evidence for that association,” he said. Another strength is that the study was conducted in the United States, as many epidemiological studies evaluating air pollution and Parkinson’s disease have been performed outside the country because of “a dearth of reliable data sources.”

“This study, along with others, suggest that some of the important environmental toxicants tied to brain disease may be inhaled,” Dr. Dorsey said. “The nose may be the front door to the brain.”

Dr. Krzyzanowski said the next step in their research is further examination of different types of air pollution. “Air pollution contains a variety of toxic components which vary from region to region. Understanding the different components in air pollution and how they interact with climate, temperature, and topography could help explain the regional differences we observed.”

One potential limitation in the study is a lag between air pollution exposure and development of Parkinson’s disease, Dr. Dorsey noted.

“Here, it looks like (but I am not certain) that the investigators looked at current air pollution levels and new cases of Parkinson’s. Ideally, for incident cases of Parkinson’s disease, we would want to know historical data on exposure to air pollution,” he said.

Future studies should include prospective evaluation of adults as well as babies and children who have been exposed to both high and low levels of air pollution. That kind of study “would be incredibly valuable for determining the role of an important environmental toxicant in many brain diseases, including stroke, Alzheimer’s, and Parkinson’s,” he said.

Dr. Krzyzanowski and Dr. Dorsey reported no relevant financial disclosures. This study was supported by grants from the Department of Defense, the National Institute of Environmental Health Sciences, and The Michael J. Fox Foundation for Parkinson’s Research.

*Correction, 4/14/23: An earlier version of this article mischaracterized the disease that was the subject of this research.

Medicare beneficiaries living in the Mississippi–Ohio River valley had a higher risk of developing Parkinson’s disease, compared with other regions of the United States, according to findings from a study that was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

The association was attributed to concentrations of particulate matter (PM) _2.5 in the Mississippi–Ohio River valley, which was on average higher than in other areas, but that didn’t entirely explain the increase in Parkinson’s disease in that region, Brittany Krzyzanowski, PhD, a postdoctoral research fellow in the neuroepidemiology research program of the department of neurology at Barrow Neurological Institute, Dignity Health St. Joseph’s Hospital and Medical Center, Phoenix, said in an interview.

Barrow Neurological Institute

“This study revealed Parkinson’s disease hot spots in the Mississippi–Ohio River valley, a region that has some of the highest levels of air pollution in the nation,” she said, “but we also still find a relationship between air pollution and Parkinson’s risk in the regions in the western half of the United States where Parkinson’s disease and air pollution levels are relatively low.”

Dr. Krzyzanowski and colleagues evaluated 22,546,965 Medicare beneficiaries in 2009, using a multimethod approach that included geospatial analytical techniques to categorize their exposure to PM_2.5 based on age, sex, race, smoking status, and health care usage. The researchers also performed individual-level case-control analysis to assess PM_2.5 results at the county level. The Medicare beneficiaries were grouped according to average exposure, with the lowest group having an average annual exposure of 5 mcg/m³ and the group with the highest exposure having an average annual exposure of 19 mcg/m³.

In total, researchers identified 83,674 Medicare beneficiaries with incident Parkinson’s disease, with 434 new cases per 100,000 people in the highest exposure group, compared with 359 new cases per 100,000 people in the lowest-exposure group. The relative risk for Parkinson’s disease increased in the highest quartile of PM_2.5 by 25%, compared with the lowest quartile after adjusting for factors such as age, smoking status, and health care usage (95% confidence interval, 20%–29%).

The results showed the nationwide average annual PM_2.5 was associated with incident Parkinson’s disease, and the Rocky Mountain region carried a strong association between PM_2.5 and Parkson’s disease with a 16% increase in risk per level of exposure to PM_2.5. While the Mississippi-Ohio River valley was also associated with Parkinson’s disease, there was a weaker association between PM_2.5 and Parkinson’s disease, which the researchers attributed to a “ceiling effect” of PM_2.5 between approximately 12-19 mcg/m³.

Dr. Krzyzanowski said that use of a large-population-based dataset and high-resolution location data were major strengths of the study. “Having this level of information leaves less room for uncertainty in our measures and analyses,” she said. “Our study also leveraged innovative geographic information systems which allowed us to refine local patterns of disease by using population behavior and demographic information (such as smoking and age) to ensure that we could provide the most accurate map representation available to date.”
 

A focus on air pollution

Existing research in examining the etiology of Parkinson’s mainly focused on exposure to pesticides,* Dr. Krzyzanowski explained, and “consists of studies using relatively small populations and low-resolution air pollution data.” Genetics is another possible cause, she noted, but only explains some Parkinson’s disease cases.

“Our work suggests that we should also be looking at air pollution as a contributor in the development of Parkinson’s disease,” she said.

Ray Dorsey, MD, professor of neurology at the University of Rochester (N.Y.), who was not involved with the study, said that evidence is mounting that “air pollution may be an important causal factor in Parkinson’s and especially Alzheimer’s disease.”

“This study by a well-regarded group of researchers adds epidemiological evidence for that association,” he said. Another strength is that the study was conducted in the United States, as many epidemiological studies evaluating air pollution and Parkinson’s disease have been performed outside the country because of “a dearth of reliable data sources.”

“This study, along with others, suggest that some of the important environmental toxicants tied to brain disease may be inhaled,” Dr. Dorsey said. “The nose may be the front door to the brain.”

Dr. Krzyzanowski said the next step in their research is further examination of different types of air pollution. “Air pollution contains a variety of toxic components which vary from region to region. Understanding the different components in air pollution and how they interact with climate, temperature, and topography could help explain the regional differences we observed.”

One potential limitation in the study is a lag between air pollution exposure and development of Parkinson’s disease, Dr. Dorsey noted.

“Here, it looks like (but I am not certain) that the investigators looked at current air pollution levels and new cases of Parkinson’s. Ideally, for incident cases of Parkinson’s disease, we would want to know historical data on exposure to air pollution,” he said.

Future studies should include prospective evaluation of adults as well as babies and children who have been exposed to both high and low levels of air pollution. That kind of study “would be incredibly valuable for determining the role of an important environmental toxicant in many brain diseases, including stroke, Alzheimer’s, and Parkinson’s,” he said.

Dr. Krzyzanowski and Dr. Dorsey reported no relevant financial disclosures. This study was supported by grants from the Department of Defense, the National Institute of Environmental Health Sciences, and The Michael J. Fox Foundation for Parkinson’s Research.

*Correction, 4/14/23: An earlier version of this article mischaracterized the disease that was the subject of this research.

Medicare beneficiaries living in the Mississippi–Ohio River valley had a higher risk of developing Parkinson’s disease, compared with other regions of the United States, according to findings from a study that was released ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

The association was attributed to concentrations of particulate matter (PM) _2.5 in the Mississippi–Ohio River valley, which was on average higher than in other areas, but that didn’t entirely explain the increase in Parkinson’s disease in that region, Brittany Krzyzanowski, PhD, a postdoctoral research fellow in the neuroepidemiology research program of the department of neurology at Barrow Neurological Institute, Dignity Health St. Joseph’s Hospital and Medical Center, Phoenix, said in an interview.

Barrow Neurological Institute

“This study revealed Parkinson’s disease hot spots in the Mississippi–Ohio River valley, a region that has some of the highest levels of air pollution in the nation,” she said, “but we also still find a relationship between air pollution and Parkinson’s risk in the regions in the western half of the United States where Parkinson’s disease and air pollution levels are relatively low.”

Dr. Krzyzanowski and colleagues evaluated 22,546,965 Medicare beneficiaries in 2009, using a multimethod approach that included geospatial analytical techniques to categorize their exposure to PM_2.5 based on age, sex, race, smoking status, and health care usage. The researchers also performed individual-level case-control analysis to assess PM_2.5 results at the county level. The Medicare beneficiaries were grouped according to average exposure, with the lowest group having an average annual exposure of 5 mcg/m³ and the group with the highest exposure having an average annual exposure of 19 mcg/m³.

In total, researchers identified 83,674 Medicare beneficiaries with incident Parkinson’s disease, with 434 new cases per 100,000 people in the highest exposure group, compared with 359 new cases per 100,000 people in the lowest-exposure group. The relative risk for Parkinson’s disease increased in the highest quartile of PM_2.5 by 25%, compared with the lowest quartile after adjusting for factors such as age, smoking status, and health care usage (95% confidence interval, 20%–29%).

The results showed the nationwide average annual PM_2.5 was associated with incident Parkinson’s disease, and the Rocky Mountain region carried a strong association between PM_2.5 and Parkson’s disease with a 16% increase in risk per level of exposure to PM_2.5. While the Mississippi-Ohio River valley was also associated with Parkinson’s disease, there was a weaker association between PM_2.5 and Parkinson’s disease, which the researchers attributed to a “ceiling effect” of PM_2.5 between approximately 12-19 mcg/m³.

Dr. Krzyzanowski said that use of a large-population-based dataset and high-resolution location data were major strengths of the study. “Having this level of information leaves less room for uncertainty in our measures and analyses,” she said. “Our study also leveraged innovative geographic information systems which allowed us to refine local patterns of disease by using population behavior and demographic information (such as smoking and age) to ensure that we could provide the most accurate map representation available to date.”
 

A focus on air pollution

Existing research in examining the etiology of Parkinson’s mainly focused on exposure to pesticides,* Dr. Krzyzanowski explained, and “consists of studies using relatively small populations and low-resolution air pollution data.” Genetics is another possible cause, she noted, but only explains some Parkinson’s disease cases.

“Our work suggests that we should also be looking at air pollution as a contributor in the development of Parkinson’s disease,” she said.

Ray Dorsey, MD, professor of neurology at the University of Rochester (N.Y.), who was not involved with the study, said that evidence is mounting that “air pollution may be an important causal factor in Parkinson’s and especially Alzheimer’s disease.”

“This study by a well-regarded group of researchers adds epidemiological evidence for that association,” he said. Another strength is that the study was conducted in the United States, as many epidemiological studies evaluating air pollution and Parkinson’s disease have been performed outside the country because of “a dearth of reliable data sources.”

“This study, along with others, suggest that some of the important environmental toxicants tied to brain disease may be inhaled,” Dr. Dorsey said. “The nose may be the front door to the brain.”

Dr. Krzyzanowski said the next step in their research is further examination of different types of air pollution. “Air pollution contains a variety of toxic components which vary from region to region. Understanding the different components in air pollution and how they interact with climate, temperature, and topography could help explain the regional differences we observed.”

One potential limitation in the study is a lag between air pollution exposure and development of Parkinson’s disease, Dr. Dorsey noted.

“Here, it looks like (but I am not certain) that the investigators looked at current air pollution levels and new cases of Parkinson’s. Ideally, for incident cases of Parkinson’s disease, we would want to know historical data on exposure to air pollution,” he said.

Future studies should include prospective evaluation of adults as well as babies and children who have been exposed to both high and low levels of air pollution. That kind of study “would be incredibly valuable for determining the role of an important environmental toxicant in many brain diseases, including stroke, Alzheimer’s, and Parkinson’s,” he said.

Dr. Krzyzanowski and Dr. Dorsey reported no relevant financial disclosures. This study was supported by grants from the Department of Defense, the National Institute of Environmental Health Sciences, and The Michael J. Fox Foundation for Parkinson’s Research.

*Correction, 4/14/23: An earlier version of this article mischaracterized the disease that was the subject of this research.

Women with better indicators of cardiovascular health at midlife saw reduced risk of later dementia, according to results of a study that was released early, ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

Epidemiologist Pamela M. Rist, ScD, assistant professor of medicine at Harvard Medical School and associate epidemiologist at Brigham and Women’s Hospital, both in Boston, and colleagues, used data from 13,720 women whose mean age was 54 when they enrolled in the Harvard-based Women’s Health Study between 1992 and 1995. Subjects in that study were followed up in 2004.

Brigham and Women&#039;s Hospital

Putting ‘Life’s Simple 7’ to the test

Dr. Rist and colleagues used the Harvard data to discern how well closely women conformed, during the initial study period and at 10-year follow up, to what the American Heart Association describes as “Life’s Simple 7,” a list of behavioral and biometric measures that indicate and predict cardiovascular health. The measures include four modifiable behaviors – not smoking, healthy weight, a healthy diet, and being physically active – along with three biometric measures of blood pressure, cholesterol, and blood sugar (AHA has since added a sleep component).

Researchers assigned women one point for each desirable habit or measure on the list, with subjects’ average Simple 7 score at baseline 4.3, and 4.2 at 10 years’ follow-up.

The investigators then looked at Medicare data for the study subjects from 2011 to 2018 – approximately 20 years after their enrollment in the Women’s Health Study – seeking dementia diagnoses. Some 13% of the study cohort (n = 1,771) had gone on to develop dementia.

Each point on the Simple 7 score at baseline corresponded with a 6% reduction in later dementia risk, Dr. Rist and her colleagues found after adjusting for variables including age and education (odds ratio per one unit change in score, 0.94; 95% CI, 0.90-0.98). This effect was similar for Simple 7 scores measured at 10 years of follow-up (OR, 0.95; 95% CI, 0.91-1.00).

“It can be empowering for people to know that by taking steps such as exercising for a half an hour a day or keeping their blood pressure under control, they can reduce their risk of dementia,” Dr. Rist said in a statement on the findings.
 

‘A simple take-home message’

Reached for comment, Andrew E. Budson, MD, chief of cognitive-behavioral neurology at the VA Boston Healthcare System, praised Dr. Rist and colleagues’ study as one that “builds on existing knowledge to provide a simple take-home message that empowers women to take control of their dementia risk.”

VA Boston Healthcare System

Each of the seven known risk factors – being active, eating better, maintaining a healthy weight, not smoking, maintaining a healthy blood pressure, controlling cholesterol, and having low blood sugar – “was associated with a 6% reduced risk of dementia,” Dr. Budson continued. “So, women who work to address all seven risk factors can reduce their risk of developing dementia by 42%: a huge amount. Moreover, although this study only looked at women, I am confident that if men follow this same advice they will also be able to reduce their risk of dementia, although we don’t know if the size of the effect will be the same.”

Dr. Rist and colleagues’ study was supported by the National Institutes of Health. None of the study authors reported conflicts of interest. Dr. Budson has reported receiving past compensation as a speaker for Eli Lilly.

Women with better indicators of cardiovascular health at midlife saw reduced risk of later dementia, according to results of a study that was released early, ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

Epidemiologist Pamela M. Rist, ScD, assistant professor of medicine at Harvard Medical School and associate epidemiologist at Brigham and Women’s Hospital, both in Boston, and colleagues, used data from 13,720 women whose mean age was 54 when they enrolled in the Harvard-based Women’s Health Study between 1992 and 1995. Subjects in that study were followed up in 2004.

Brigham and Women&#039;s Hospital

Putting ‘Life’s Simple 7’ to the test

Dr. Rist and colleagues used the Harvard data to discern how well closely women conformed, during the initial study period and at 10-year follow up, to what the American Heart Association describes as “Life’s Simple 7,” a list of behavioral and biometric measures that indicate and predict cardiovascular health. The measures include four modifiable behaviors – not smoking, healthy weight, a healthy diet, and being physically active – along with three biometric measures of blood pressure, cholesterol, and blood sugar (AHA has since added a sleep component).

Researchers assigned women one point for each desirable habit or measure on the list, with subjects’ average Simple 7 score at baseline 4.3, and 4.2 at 10 years’ follow-up.

The investigators then looked at Medicare data for the study subjects from 2011 to 2018 – approximately 20 years after their enrollment in the Women’s Health Study – seeking dementia diagnoses. Some 13% of the study cohort (n = 1,771) had gone on to develop dementia.

Each point on the Simple 7 score at baseline corresponded with a 6% reduction in later dementia risk, Dr. Rist and her colleagues found after adjusting for variables including age and education (odds ratio per one unit change in score, 0.94; 95% CI, 0.90-0.98). This effect was similar for Simple 7 scores measured at 10 years of follow-up (OR, 0.95; 95% CI, 0.91-1.00).

“It can be empowering for people to know that by taking steps such as exercising for a half an hour a day or keeping their blood pressure under control, they can reduce their risk of dementia,” Dr. Rist said in a statement on the findings.
 

‘A simple take-home message’

Reached for comment, Andrew E. Budson, MD, chief of cognitive-behavioral neurology at the VA Boston Healthcare System, praised Dr. Rist and colleagues’ study as one that “builds on existing knowledge to provide a simple take-home message that empowers women to take control of their dementia risk.”

VA Boston Healthcare System

Each of the seven known risk factors – being active, eating better, maintaining a healthy weight, not smoking, maintaining a healthy blood pressure, controlling cholesterol, and having low blood sugar – “was associated with a 6% reduced risk of dementia,” Dr. Budson continued. “So, women who work to address all seven risk factors can reduce their risk of developing dementia by 42%: a huge amount. Moreover, although this study only looked at women, I am confident that if men follow this same advice they will also be able to reduce their risk of dementia, although we don’t know if the size of the effect will be the same.”

Dr. Rist and colleagues’ study was supported by the National Institutes of Health. None of the study authors reported conflicts of interest. Dr. Budson has reported receiving past compensation as a speaker for Eli Lilly.

Women with better indicators of cardiovascular health at midlife saw reduced risk of later dementia, according to results of a study that was released early, ahead of its scheduled presentation at the annual meeting of the American Academy of Neurology.

Epidemiologist Pamela M. Rist, ScD, assistant professor of medicine at Harvard Medical School and associate epidemiologist at Brigham and Women’s Hospital, both in Boston, and colleagues, used data from 13,720 women whose mean age was 54 when they enrolled in the Harvard-based Women’s Health Study between 1992 and 1995. Subjects in that study were followed up in 2004.

Brigham and Women&#039;s Hospital

Putting ‘Life’s Simple 7’ to the test

Dr. Rist and colleagues used the Harvard data to discern how well closely women conformed, during the initial study period and at 10-year follow up, to what the American Heart Association describes as “Life’s Simple 7,” a list of behavioral and biometric measures that indicate and predict cardiovascular health. The measures include four modifiable behaviors – not smoking, healthy weight, a healthy diet, and being physically active – along with three biometric measures of blood pressure, cholesterol, and blood sugar (AHA has since added a sleep component).

Researchers assigned women one point for each desirable habit or measure on the list, with subjects’ average Simple 7 score at baseline 4.3, and 4.2 at 10 years’ follow-up.

The investigators then looked at Medicare data for the study subjects from 2011 to 2018 – approximately 20 years after their enrollment in the Women’s Health Study – seeking dementia diagnoses. Some 13% of the study cohort (n = 1,771) had gone on to develop dementia.

Each point on the Simple 7 score at baseline corresponded with a 6% reduction in later dementia risk, Dr. Rist and her colleagues found after adjusting for variables including age and education (odds ratio per one unit change in score, 0.94; 95% CI, 0.90-0.98). This effect was similar for Simple 7 scores measured at 10 years of follow-up (OR, 0.95; 95% CI, 0.91-1.00).

“It can be empowering for people to know that by taking steps such as exercising for a half an hour a day or keeping their blood pressure under control, they can reduce their risk of dementia,” Dr. Rist said in a statement on the findings.
 

‘A simple take-home message’

Reached for comment, Andrew E. Budson, MD, chief of cognitive-behavioral neurology at the VA Boston Healthcare System, praised Dr. Rist and colleagues’ study as one that “builds on existing knowledge to provide a simple take-home message that empowers women to take control of their dementia risk.”

VA Boston Healthcare System

Each of the seven known risk factors – being active, eating better, maintaining a healthy weight, not smoking, maintaining a healthy blood pressure, controlling cholesterol, and having low blood sugar – “was associated with a 6% reduced risk of dementia,” Dr. Budson continued. “So, women who work to address all seven risk factors can reduce their risk of developing dementia by 42%: a huge amount. Moreover, although this study only looked at women, I am confident that if men follow this same advice they will also be able to reduce their risk of dementia, although we don’t know if the size of the effect will be the same.”

Dr. Rist and colleagues’ study was supported by the National Institutes of Health. None of the study authors reported conflicts of interest. Dr. Budson has reported receiving past compensation as a speaker for Eli Lilly.