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GLP-1s Reduced Secondary Stroke Risk in Patients With Diabetes, Obesity
study was published online in the International Journal of Stoke.
, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. TheExtending Longevity
Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.
“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”
Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).
Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.
Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).
“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”
Addressing Underutilization
Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.
“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”
Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”
Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”
To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.
Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”
Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.
study was published online in the International Journal of Stoke.
, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. TheExtending Longevity
Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.
“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”
Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).
Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.
Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).
“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”
Addressing Underutilization
Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.
“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”
Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”
Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”
To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.
Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”
Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.
study was published online in the International Journal of Stoke.
, according to authors of a recent meta-analysis. With benefits across administration routes, dosing regimens, type 2 diabetes status, and total and nonfatal strokes, the findings could improve GLP-1 RA implementation by stroke specialists in patients with stroke history and concurrent type 2 diabetes or obesity, authors said. TheExtending Longevity
Agents including GLP-1 RAs that have been found to reduce cardiovascular events among patients with type 2 diabetes and patients who are overweight or obese also reduce risk of recurrent stroke among patients with a history of stroke who are overweight, obese, or have metabolic disease, said American Heart Association (AHA) Chief Clinical Science Officer Mitchell S. V. Elkind, MD, who was not involved with the study but was asked to comment.
“Stroke is a leading cause of mortality and the leading cause of serious long-term disability,” he added, “so medications that help to reduce that risk can play an important role in improving overall health and well-being and hopefully reducing premature mortality.”
Investigators Anastasia Adamou, MD, an internal medicine resident at AHEPA University Hospital in Thessaloniki, Greece, and colleagues searched MEDLINE and Scopus for cardiovascular outcome trials involving adults randomly assigned to GLP-1 RAs or placebo through November 2023, ultimately analyzing 11 randomized controlled trials (RCTs).
Among 60,380 participants in the nine studies that assessed total strokes, 2.5% of the GLP-1 RA group experienced strokes during follow-up, versus 3% in the placebo group (relative risk [RR] 0.85, 95% confidence interval [CI] 0.77-0.93). Regarding secondary outcomes, the GLP-1 RA group showed a significantly lower rate of nonfatal strokes versus patients on placebo (RR 0.87, 95% CI 0.79-0.95). Conversely, investigators observed no significant risk difference among the groups regarding fatal strokes, probably due to the low rate of events — 0.3% and 0.4% for treated and untreated patients, respectively.
Subgroup analyses revealed no interaction between dosing frequency and total, nonfatal, or fatal strokes. The investigators observed no difference in nonfatal strokes among participants by type 2 diabetes status and medication administration route (oral versus subcutaneous).
“The oral administration route could provide the advantage of lower local ecchymoses and allergic reactions due to subcutaneous infusions,” Dr. Adamou said in an interview. But because oral administration demands daily intake, she added, treatment adherence might be affected. “For this reason, our team performed another subgroup analysis to compare the once-a-day to the once-a-month administration. No interaction effect was again presented between the two subgroups. This outcome allows for personalization of the administration method for each patient.”
Addressing Underutilization
Despite more than 2 decades of widespread use and well-established effects on body weight, HbA1c, and cardiovascular risk, GLP-1 RAs remain underutilized, authors wrote. This is especially true in primary care, noted one study published in Clinical Diabetes.
“GLP-1 RAs have been used for many years to treat diabetic patients,” said Dr. Adamou. But because their impact on cardiovascular health regardless of diabetic status is only recently known, she said, physicians are exercising caution when prescribing this medication to patients without diabetes. “This is why more studies need to be available, especially RCTs.”
Most neurologists traditionally have left management of type 2 diabetes and other metabolic disorders to primary care doctors, said Dr. Elkind. “However, these medications are increasingly important to vascular risk reduction and should be considered part of the stroke specialist’s armamentarium.”
Vascular neurologists can play an important role in managing metabolic disease and obesity by recommending GLP-1 RAs for patients with a history of stroke, or by initiating these medications themselves, Dr. Elkind said. “These drugs are likely to become an important part of stroke patients’ medication regimens, along with antithrombotic agents, blood pressure control, and statins. Neurologists are well-positioned to educate other physicians about the important connections among brain, heart, and metabolic health.”
To that end, he said, the AHA will update guidelines for both primary and secondary stroke prevention as warranted by evidence supporting GLP-1 RAs and other medications that could impact stroke risk in type 2 diabetes and related metabolic disorders. However, no guidelines concerning use of GLP-1 RAs for secondary stroke prevention in obesity exist. Here, said Dr. Elkind, the AHA will continue building on its innovative Cardiovascular-Kidney Metabolic Health program, which includes clinical suggestions and may include more formal clinical practice guidelines as the evidence evolves.
Among the main drivers of the initiative, he said, is the recognition that cardiovascular disease — including stroke — is the major cause of death and morbidity among patients with obesity, type 2 diabetes, and metabolic disorders. “Stroke should be considered an important part of overall cardiovascular risk, and the findings that these drugs can help to reduce the risk of stroke specifically is an important additional reason for their use.”
Dr. Elkind and Dr. Adamou reported no conflicting interests. The authors received no financial support for the study.
FROM THE INTERNATIONAL JOURNAL OF STROKE
‘Shockingly High’ Rate of TBI in Older Adults
TOPLINE:
, a new study showed.
METHODOLOGY:
- Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
- The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
- Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
- Codes corresponded with emergency department, CT, and/or fMRI visits.
TAKEAWAY:
- Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
- Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
- The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.
IN PRACTICE:
“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”
SOURCE:
The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.
LIMITATIONS:
The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.
DISCLOSURES:
The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
TOPLINE:
, a new study showed.
METHODOLOGY:
- Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
- The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
- Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
- Codes corresponded with emergency department, CT, and/or fMRI visits.
TAKEAWAY:
- Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
- Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
- The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.
IN PRACTICE:
“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”
SOURCE:
The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.
LIMITATIONS:
The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.
DISCLOSURES:
The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
TOPLINE:
, a new study showed.
METHODOLOGY:
- Researchers analyzed data from approximately 9200 Medicare enrollees who were part of the Health and Retirement Study (HRS), aged 65 years and older, from 2000 to 2018.
- The baseline date was the date of the first age eligible HRS core interview in the community in 2000 or later.
- Incident TBI cases came from an updated list of the International Classification of Diseases (ICD), 9th and 10th edition codes, from the Defense and Veterans Brain Injury Center and the Armed Forces Health Surveillance Branch for TBI surveillance.
- Codes corresponded with emergency department, CT, and/or fMRI visits.
TAKEAWAY:
- Almost 13% of older individuals (n = 797) experienced TBI during the study, highlighting its significant prevalence in this population.
- Older adults (mean age at baseline, 75 years) who experienced TBI during the study period were more likely to be women and White individuals as well as individuals having higher levels of education and normal cognition (P < .001), challenging previous assumptions about risk factors.
- The study underscored the need for targeted interventions and research focused on TBI prevention and postdischarge care in older adults.
IN PRACTICE:
“The number of people 65 and older with TBI is shockingly high,” senior author Raquel Gardner, MD, said in a press release. “We need evidence-based guidelines to inform postdischarge care of this very large Medicare population and more research on post-TBI dementia prevention and repeat injury prevention.”
SOURCE:
The study was led by Erica Kornblith, PhD, of the University of California, San Francisco. It was published online in JAMA Network Open.
LIMITATIONS:
The study’s reliance on ICD codes for TBI identification may not capture the full spectrum of TBI severity. Self-reported data on sociodemographic factors may have introduced bias, affecting the accuracy of associations with TBI incidence. In addition, the findings’ generalizability may be limited due to the study’s focus on Medicare enrollees, potentially excluding those from diverse socioeconomic backgrounds.
DISCLOSURES:
The study was funded by the Alzheimer’s Association, the US Department of Veterans Affairs, the National Institute on Aging, and the Department of Defense. Disclosures are noted in the original study.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
Early-Life Excess Weight Tied to Subsequent Stroke Risk
, new research suggested.
An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.
“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.
“Health care professionals should pay attention to overweight and obesity in young people and work with them to develop healthier eating patterns and physical activity — however, conversations with teens and young adults about weight should be approached in a nonjudgmental and nonstigmatizing manner,” she added.
The study was published online in Stroke.
Gender Differences
Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.
For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.
Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.
BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.
During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.
Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.
The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.
No similar associations were found among men, and the findings were independent of earlier or later BMI.
The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).
“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
Caveats
In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”
However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”
Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”
This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
, new research suggested.
An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.
“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.
“Health care professionals should pay attention to overweight and obesity in young people and work with them to develop healthier eating patterns and physical activity — however, conversations with teens and young adults about weight should be approached in a nonjudgmental and nonstigmatizing manner,” she added.
The study was published online in Stroke.
Gender Differences
Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.
For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.
Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.
BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.
During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.
Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.
The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.
No similar associations were found among men, and the findings were independent of earlier or later BMI.
The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).
“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
Caveats
In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”
However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”
Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”
This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
, new research suggested.
An analysis of more than five decades of health data on 10,000 adults revealed that close to 5% experienced a stroke during the follow-up period, with the risk for ischemic stroke being more than twice as high in women who had obesity as teens or young adults. The risk was even higher for hemorrhagic stroke in both men and women with a history of obesity in youth.
“Our findings suggest that being overweight may have long-term health effects, even if the excess weight is temporary,” lead author Ursula Mikkola, BM, an investigator in the Research Unit of Population Health at the University of Oulu, Oulu, Finland, said in a news release.
“Health care professionals should pay attention to overweight and obesity in young people and work with them to develop healthier eating patterns and physical activity — however, conversations with teens and young adults about weight should be approached in a nonjudgmental and nonstigmatizing manner,” she added.
The study was published online in Stroke.
Gender Differences
Childhood obesity has been associated with a heightened risk for cerebrovascular disease later in life, but most studies have focused on body mass index (BMI) at a single time point without considering its fluctuations throughout life, the investigators noted.
For the study, investigators used data from the Northern Finland Birth Cohort 1966, a prospective, general population-based birth cohort that followed 10,491 individuals (5185 women) until 2020 or the first stroke, death, or moving abroad, whichever came first.
Mean (SD) follow-up for each participant was 39 years from age 14 onward and 23 years from age 31 onward. The analysis was conducted between 1980 and 2020.
BMI data were collected from participants at the age of 14 and 31 years. Age 14 covariates included smoking, parental socioeconomic status, and age at menarche (for girls). Age 31 covariates included smoking and participants’ educational level.
During the follow-up period, 4.7% of participants experienced stroke. Of these events, 31% were ischemic strokes and 40% were transient ischemic attacks. The remainder were hemorrhagic or other cerebrovascular events.
Using normal weight as a reference, researchers found that the risk for ischemic stroke was over twice as high for women who had been overweight at ages 14 (hazard ratio [HR], 2.49; 95% confidence interval [CI], 1.44-4.31) and 31 (HR, 2.13; 95% CI, 1.14-3.97) years. The risk was also considerably higher for women who had obesity at ages 14 (HR, 1.87; 95% CI, 0.76-4.58) and 31 (HR, 2.67; 95% CI, 1.26-5.65) years.
The risk for hemorrhagic stroke was even higher, both among women (HR, 3.49; 95% CI, 1.13-10.7) and men (HR, 5.75; 95% CI, 1.43-23.1) who had obesity at age 31.
No similar associations were found among men, and the findings were independent of earlier or later BMI.
The risk for any cerebrovascular disease related to overweight at age 14 was twice as high among girls vs boys (HR, 2.09; 95% CI, 1.06-4.15), and the risk for ischemic stroke related to obesity at age 31 was nearly seven times higher among women vs men (HR, 6.96; 95% CI, 1.36-35.7).
“Stroke at a young age is rare, so the difference of just a few strokes could have an outsized impact on the risk estimates,” the study authors said. “Also, BMI relies solely on a person’s height and weight; therefore, a high BMI may be a misleading way to define obesity, especially in muscular people who may carry little fat even while weighing more.”
Caveats
In an accompanying editorial, Larry Goldstein, MD, chair of the Department of Neurology, University of Kentucky, Lexington, Kentucky, and codirector of the Kentucky Neuroscience Institute, said the study “provides additional evidence of an association between overweight/obesity and stroke in young adults.”
However, Dr. Goldstein added that “while it is tempting to assume that reductions in overweight/obesity in younger populations would translate to lower stroke rates in young adults, this remains to be proven.”
Moreover, it is “always important to acknowledge that associations found in observational studies may not reflect causality.”
This study was supported by Orion Research Foundation, Päivikki and Sakari Sohlberg Foundation, and Paulo Foundation. Dr. Mikkola reported no relevant financial relationships. The other authors’ disclosures are listed on the original paper. Dr. Goldstein reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
High-Frequency Electric Nerve Block Shows Promise in Postamputation Pain Management
TOPLINE:
in a new study, presenting a potential new therapeutic option for amputees.
METHODOLOGY:
- The study enrolled 180 patients with unilateral lower limb amputations who were experiencing severe post-procedure pain.
- Participants were randomized 1:1 to receive 3 months of treatment with either a high-frequency nerve block (Altius; Neuros Medical) or an active sham.
- Effectiveness was measured by the percentage of participants achieving at least a 50% reduction in pain in more than half of the treatment sessions.
- The researchers attempted to control for variables including pain type and baseline pain intensity.
TAKEAWAY:
- A total of 24.7% of patients in the group that received the nerve block were responders at 30 minutes post-treatment, significantly higher than 7.1% in the control group (P = .002).
- The rate of response rose to 46.8% in the treatment group at 120 minutes, compared with 22.2% in the sham group (P = .001).
- Patients who received the nerve block reported a greater improvement in their score on the Brief Pain Inventory than those in the sham arm — 2.3 ± 0.29 vs 1.3 ± 0.26, respectively (P = .01).
- Use of opioids trended toward a greater reduction in the treatment group, although that finding was not statistically significant.
IN PRACTICE:
The results suggested “high-frequency electric nerve block could be a viable option for managing chronic post-amputation pain, potentially improving patients’ quality of life and reducing reliance on opioids,” the authors wrote. “The study addresses a critical gap in treatment options for amputees suffering from persistent pain, offering evidence for a novel therapeutic approach.”
“We have never seen a study of this magnitude and rigor in this patient population,” said lead author Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, in a press release about the data. “The data demonstrated clear and lasting benefit of treatment for pain reduction and functional outcomes at 3 months, creating great optimism for the long-term study results. These findings represent a significant advancement for an at-risk and underserved patient population in desperate need of reliable and effective treatment.”
SOURCE:
The study was led by Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, and was published online in the Journal of Pain Research.
LIMITATIONS:
The sample size of 180 participants may limit the generalizability of the findings to all amputees. A 3-month duration for assessing treatment efficacy may not capture long-term outcomes and effects. The active-sham control design, while rigorous, may not fully account for the placebo effects inherent in pain perception studies.
DISCLOSURES:
The QUEST study was funded by Neuros Medical Inc. Dr. Kapural reported personal fees from various medical companies, unrelated to this work. No other conflicts of interest were reported in this work.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
TOPLINE:
in a new study, presenting a potential new therapeutic option for amputees.
METHODOLOGY:
- The study enrolled 180 patients with unilateral lower limb amputations who were experiencing severe post-procedure pain.
- Participants were randomized 1:1 to receive 3 months of treatment with either a high-frequency nerve block (Altius; Neuros Medical) or an active sham.
- Effectiveness was measured by the percentage of participants achieving at least a 50% reduction in pain in more than half of the treatment sessions.
- The researchers attempted to control for variables including pain type and baseline pain intensity.
TAKEAWAY:
- A total of 24.7% of patients in the group that received the nerve block were responders at 30 minutes post-treatment, significantly higher than 7.1% in the control group (P = .002).
- The rate of response rose to 46.8% in the treatment group at 120 minutes, compared with 22.2% in the sham group (P = .001).
- Patients who received the nerve block reported a greater improvement in their score on the Brief Pain Inventory than those in the sham arm — 2.3 ± 0.29 vs 1.3 ± 0.26, respectively (P = .01).
- Use of opioids trended toward a greater reduction in the treatment group, although that finding was not statistically significant.
IN PRACTICE:
The results suggested “high-frequency electric nerve block could be a viable option for managing chronic post-amputation pain, potentially improving patients’ quality of life and reducing reliance on opioids,” the authors wrote. “The study addresses a critical gap in treatment options for amputees suffering from persistent pain, offering evidence for a novel therapeutic approach.”
“We have never seen a study of this magnitude and rigor in this patient population,” said lead author Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, in a press release about the data. “The data demonstrated clear and lasting benefit of treatment for pain reduction and functional outcomes at 3 months, creating great optimism for the long-term study results. These findings represent a significant advancement for an at-risk and underserved patient population in desperate need of reliable and effective treatment.”
SOURCE:
The study was led by Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, and was published online in the Journal of Pain Research.
LIMITATIONS:
The sample size of 180 participants may limit the generalizability of the findings to all amputees. A 3-month duration for assessing treatment efficacy may not capture long-term outcomes and effects. The active-sham control design, while rigorous, may not fully account for the placebo effects inherent in pain perception studies.
DISCLOSURES:
The QUEST study was funded by Neuros Medical Inc. Dr. Kapural reported personal fees from various medical companies, unrelated to this work. No other conflicts of interest were reported in this work.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
TOPLINE:
in a new study, presenting a potential new therapeutic option for amputees.
METHODOLOGY:
- The study enrolled 180 patients with unilateral lower limb amputations who were experiencing severe post-procedure pain.
- Participants were randomized 1:1 to receive 3 months of treatment with either a high-frequency nerve block (Altius; Neuros Medical) or an active sham.
- Effectiveness was measured by the percentage of participants achieving at least a 50% reduction in pain in more than half of the treatment sessions.
- The researchers attempted to control for variables including pain type and baseline pain intensity.
TAKEAWAY:
- A total of 24.7% of patients in the group that received the nerve block were responders at 30 minutes post-treatment, significantly higher than 7.1% in the control group (P = .002).
- The rate of response rose to 46.8% in the treatment group at 120 minutes, compared with 22.2% in the sham group (P = .001).
- Patients who received the nerve block reported a greater improvement in their score on the Brief Pain Inventory than those in the sham arm — 2.3 ± 0.29 vs 1.3 ± 0.26, respectively (P = .01).
- Use of opioids trended toward a greater reduction in the treatment group, although that finding was not statistically significant.
IN PRACTICE:
The results suggested “high-frequency electric nerve block could be a viable option for managing chronic post-amputation pain, potentially improving patients’ quality of life and reducing reliance on opioids,” the authors wrote. “The study addresses a critical gap in treatment options for amputees suffering from persistent pain, offering evidence for a novel therapeutic approach.”
“We have never seen a study of this magnitude and rigor in this patient population,” said lead author Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, in a press release about the data. “The data demonstrated clear and lasting benefit of treatment for pain reduction and functional outcomes at 3 months, creating great optimism for the long-term study results. These findings represent a significant advancement for an at-risk and underserved patient population in desperate need of reliable and effective treatment.”
SOURCE:
The study was led by Leonardo Kapural, MD, PhD, of the Carolinas Pain Institute in Winston-Salem, North Carolina, and was published online in the Journal of Pain Research.
LIMITATIONS:
The sample size of 180 participants may limit the generalizability of the findings to all amputees. A 3-month duration for assessing treatment efficacy may not capture long-term outcomes and effects. The active-sham control design, while rigorous, may not fully account for the placebo effects inherent in pain perception studies.
DISCLOSURES:
The QUEST study was funded by Neuros Medical Inc. Dr. Kapural reported personal fees from various medical companies, unrelated to this work. No other conflicts of interest were reported in this work.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.
A version of this article appeared on Medscape.com.
New Blood Test for Large Vessel Stroke Could Be a ‘Game Changer’
When combined with clinical scores, a “game-changing” blood test can expedite the diagnosis and treatment of large vessel occlusion (LVO) stroke, potentially saving many lives, new data suggested.
Using cutoff levels of two blood biomarkers, glial fibrillary acidic protein (GFAP; 213 pg/mL) and D-dimer (600 ng/mL), and the field assessment stroke triage for emergency destination (FAST-ED) (score, > 2), investigators were able to detect LVOs with 81% sensitivity and 93% specificity less than 6 hours from the onset of symptoms.
GFAP has previously been linked to brain bleeds and traumatic brain injury.
The test also ruled out all patients with brain bleeds, and investigators noted that it could also be used to detect intracerebral hemorrhage.
“We have developed a game-changing, accessible tool that could help ensure that more people suffering from stroke are in the right place at the right time to receive critical, life-restoring care,” senior author Joshua Bernstock, MD, PhD, MPH, a clinical fellow in the department of neurosurgery at Brigham and Women’s Hospital in Boston, said in a press release.
The findings were published online on May 17 in Stroke: Vascular and Interventional Neurology.
Early Identification Crucial
Acute LVO stroke is one of the most treatable stroke types because of the availability of endovascular thrombectomy (EVT). However, EVT requires specialized equipment and teams that represent a small subset of accredited stroke centers and an even smaller subset of emergency medical facilities, so early identification of LVO is crucial, the investigators noted.
Dr. Bernstock and his team developed the TIME trial to assess the sensitivity and specificity of the blood biomarkers and scale cutoff values for identifying LVO vs non-LVO stroke.
As part of the observational prospective cohort trial, investigators included consecutive patients admitted to the Brandon Regional Hospital Emergency Department in Brandon, Florida, between May 2021 and August 2022 if they were referred for a suspected stroke and the time from symptom onset was under 18 hours.
Patients were excluded if they received thrombolytic therapy before blood was collected or if it was anticipated that blood collection would be difficult.
Investigators gathered information on patients’ clinical data, hematology results, time since last known well, and imaging findings to construct a clinical diagnosis (LVO, non-LVO, ischemic stroke, hemorrhagic stroke, or transient ischemic attack [TIA]).
In addition to the National Institutes of Health Stroke Scale, patients were assessed with the FAST-ED, the Rapid Arterial oCclusion Evaluation (RACE), the Cincinnati Stroke Triage Assessment Tool, and the Emergency Medical Stroke Assessment.
Of 323 patients in the final study sample, 29 (9%) had LVO ischemic stroke, and 48 (15%) had non-LVO ischemic stroke. Another 13 (4%) had hemorrhagic stroke, 12 had TIA (3.7%), and the largest proportion of patients had stroke mimic (n = 220; 68%), which included encephalopathy, hyperglycemia, hypertensive emergency, migraine, posterior reversible encephalopathy syndrome, and undetermined.
The Case for Biomarkers
When investigators looked at those with LVO ischemic stroke, they found the concentration of plasma D-dimer was significantly higher than that in patients with non-LVO suspected stroke (LVO suspected stroke, 1213 ng/mL; interquartile range [IQR], 733-1609 vs non-LVO suspected stroke, 617 ng/mL; IQR, 377-1345; P < .001).
In addition, GFAP was significantly increased in the plasma of patients with hemorrhagic stroke vs all other patients with suspected stroke (hemorrhagic stroke, 1464 pg/mL; IQR, 292-2580 vs nonhemorrhagic suspected stroke, 48 pg/mL; IQR, 12-98; P < .005).
Combinations of the blood biomarkers with the scales FAST-ED or RACE showed the best performance for LVO detection, with a specificity of 94% (for either scale combination) and a sensitivity of 71% for both scales.
When investigators analyzed data for just those patients identified within 6 hours of symptom onset, the combination of biomarkers plus FAST-ED resulted in a specificity of 93% and a sensitivity of 81%.
Given that clinical stroke scales in patients with hemorrhagic stroke frequently suggest LVO and that these patients are not candidates for EVT, a tool capable of ruling out hemorrhage and identifying only nonhemorrhagic ischemic LVO is essential, the investigators noted.
“In stroke care, time is brain,” Dr. Bernstock said. “The sooner a patient is put on the right care pathway, the better they are going to do. Whether that means ruling out bleeds or ruling in something that needs an intervention, being able to do this in a prehospital setting with the technology that we built is going to be truly transformative.”
The study was funded by the Innovate UK grant and private funding. Dr. Bernstock has positions and equity in Pockit Diagnostics Ltd. and Treovir Inc. and is on the boards of Centile Bio and NeuroX1. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
When combined with clinical scores, a “game-changing” blood test can expedite the diagnosis and treatment of large vessel occlusion (LVO) stroke, potentially saving many lives, new data suggested.
Using cutoff levels of two blood biomarkers, glial fibrillary acidic protein (GFAP; 213 pg/mL) and D-dimer (600 ng/mL), and the field assessment stroke triage for emergency destination (FAST-ED) (score, > 2), investigators were able to detect LVOs with 81% sensitivity and 93% specificity less than 6 hours from the onset of symptoms.
GFAP has previously been linked to brain bleeds and traumatic brain injury.
The test also ruled out all patients with brain bleeds, and investigators noted that it could also be used to detect intracerebral hemorrhage.
“We have developed a game-changing, accessible tool that could help ensure that more people suffering from stroke are in the right place at the right time to receive critical, life-restoring care,” senior author Joshua Bernstock, MD, PhD, MPH, a clinical fellow in the department of neurosurgery at Brigham and Women’s Hospital in Boston, said in a press release.
The findings were published online on May 17 in Stroke: Vascular and Interventional Neurology.
Early Identification Crucial
Acute LVO stroke is one of the most treatable stroke types because of the availability of endovascular thrombectomy (EVT). However, EVT requires specialized equipment and teams that represent a small subset of accredited stroke centers and an even smaller subset of emergency medical facilities, so early identification of LVO is crucial, the investigators noted.
Dr. Bernstock and his team developed the TIME trial to assess the sensitivity and specificity of the blood biomarkers and scale cutoff values for identifying LVO vs non-LVO stroke.
As part of the observational prospective cohort trial, investigators included consecutive patients admitted to the Brandon Regional Hospital Emergency Department in Brandon, Florida, between May 2021 and August 2022 if they were referred for a suspected stroke and the time from symptom onset was under 18 hours.
Patients were excluded if they received thrombolytic therapy before blood was collected or if it was anticipated that blood collection would be difficult.
Investigators gathered information on patients’ clinical data, hematology results, time since last known well, and imaging findings to construct a clinical diagnosis (LVO, non-LVO, ischemic stroke, hemorrhagic stroke, or transient ischemic attack [TIA]).
In addition to the National Institutes of Health Stroke Scale, patients were assessed with the FAST-ED, the Rapid Arterial oCclusion Evaluation (RACE), the Cincinnati Stroke Triage Assessment Tool, and the Emergency Medical Stroke Assessment.
Of 323 patients in the final study sample, 29 (9%) had LVO ischemic stroke, and 48 (15%) had non-LVO ischemic stroke. Another 13 (4%) had hemorrhagic stroke, 12 had TIA (3.7%), and the largest proportion of patients had stroke mimic (n = 220; 68%), which included encephalopathy, hyperglycemia, hypertensive emergency, migraine, posterior reversible encephalopathy syndrome, and undetermined.
The Case for Biomarkers
When investigators looked at those with LVO ischemic stroke, they found the concentration of plasma D-dimer was significantly higher than that in patients with non-LVO suspected stroke (LVO suspected stroke, 1213 ng/mL; interquartile range [IQR], 733-1609 vs non-LVO suspected stroke, 617 ng/mL; IQR, 377-1345; P < .001).
In addition, GFAP was significantly increased in the plasma of patients with hemorrhagic stroke vs all other patients with suspected stroke (hemorrhagic stroke, 1464 pg/mL; IQR, 292-2580 vs nonhemorrhagic suspected stroke, 48 pg/mL; IQR, 12-98; P < .005).
Combinations of the blood biomarkers with the scales FAST-ED or RACE showed the best performance for LVO detection, with a specificity of 94% (for either scale combination) and a sensitivity of 71% for both scales.
When investigators analyzed data for just those patients identified within 6 hours of symptom onset, the combination of biomarkers plus FAST-ED resulted in a specificity of 93% and a sensitivity of 81%.
Given that clinical stroke scales in patients with hemorrhagic stroke frequently suggest LVO and that these patients are not candidates for EVT, a tool capable of ruling out hemorrhage and identifying only nonhemorrhagic ischemic LVO is essential, the investigators noted.
“In stroke care, time is brain,” Dr. Bernstock said. “The sooner a patient is put on the right care pathway, the better they are going to do. Whether that means ruling out bleeds or ruling in something that needs an intervention, being able to do this in a prehospital setting with the technology that we built is going to be truly transformative.”
The study was funded by the Innovate UK grant and private funding. Dr. Bernstock has positions and equity in Pockit Diagnostics Ltd. and Treovir Inc. and is on the boards of Centile Bio and NeuroX1. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
When combined with clinical scores, a “game-changing” blood test can expedite the diagnosis and treatment of large vessel occlusion (LVO) stroke, potentially saving many lives, new data suggested.
Using cutoff levels of two blood biomarkers, glial fibrillary acidic protein (GFAP; 213 pg/mL) and D-dimer (600 ng/mL), and the field assessment stroke triage for emergency destination (FAST-ED) (score, > 2), investigators were able to detect LVOs with 81% sensitivity and 93% specificity less than 6 hours from the onset of symptoms.
GFAP has previously been linked to brain bleeds and traumatic brain injury.
The test also ruled out all patients with brain bleeds, and investigators noted that it could also be used to detect intracerebral hemorrhage.
“We have developed a game-changing, accessible tool that could help ensure that more people suffering from stroke are in the right place at the right time to receive critical, life-restoring care,” senior author Joshua Bernstock, MD, PhD, MPH, a clinical fellow in the department of neurosurgery at Brigham and Women’s Hospital in Boston, said in a press release.
The findings were published online on May 17 in Stroke: Vascular and Interventional Neurology.
Early Identification Crucial
Acute LVO stroke is one of the most treatable stroke types because of the availability of endovascular thrombectomy (EVT). However, EVT requires specialized equipment and teams that represent a small subset of accredited stroke centers and an even smaller subset of emergency medical facilities, so early identification of LVO is crucial, the investigators noted.
Dr. Bernstock and his team developed the TIME trial to assess the sensitivity and specificity of the blood biomarkers and scale cutoff values for identifying LVO vs non-LVO stroke.
As part of the observational prospective cohort trial, investigators included consecutive patients admitted to the Brandon Regional Hospital Emergency Department in Brandon, Florida, between May 2021 and August 2022 if they were referred for a suspected stroke and the time from symptom onset was under 18 hours.
Patients were excluded if they received thrombolytic therapy before blood was collected or if it was anticipated that blood collection would be difficult.
Investigators gathered information on patients’ clinical data, hematology results, time since last known well, and imaging findings to construct a clinical diagnosis (LVO, non-LVO, ischemic stroke, hemorrhagic stroke, or transient ischemic attack [TIA]).
In addition to the National Institutes of Health Stroke Scale, patients were assessed with the FAST-ED, the Rapid Arterial oCclusion Evaluation (RACE), the Cincinnati Stroke Triage Assessment Tool, and the Emergency Medical Stroke Assessment.
Of 323 patients in the final study sample, 29 (9%) had LVO ischemic stroke, and 48 (15%) had non-LVO ischemic stroke. Another 13 (4%) had hemorrhagic stroke, 12 had TIA (3.7%), and the largest proportion of patients had stroke mimic (n = 220; 68%), which included encephalopathy, hyperglycemia, hypertensive emergency, migraine, posterior reversible encephalopathy syndrome, and undetermined.
The Case for Biomarkers
When investigators looked at those with LVO ischemic stroke, they found the concentration of plasma D-dimer was significantly higher than that in patients with non-LVO suspected stroke (LVO suspected stroke, 1213 ng/mL; interquartile range [IQR], 733-1609 vs non-LVO suspected stroke, 617 ng/mL; IQR, 377-1345; P < .001).
In addition, GFAP was significantly increased in the plasma of patients with hemorrhagic stroke vs all other patients with suspected stroke (hemorrhagic stroke, 1464 pg/mL; IQR, 292-2580 vs nonhemorrhagic suspected stroke, 48 pg/mL; IQR, 12-98; P < .005).
Combinations of the blood biomarkers with the scales FAST-ED or RACE showed the best performance for LVO detection, with a specificity of 94% (for either scale combination) and a sensitivity of 71% for both scales.
When investigators analyzed data for just those patients identified within 6 hours of symptom onset, the combination of biomarkers plus FAST-ED resulted in a specificity of 93% and a sensitivity of 81%.
Given that clinical stroke scales in patients with hemorrhagic stroke frequently suggest LVO and that these patients are not candidates for EVT, a tool capable of ruling out hemorrhage and identifying only nonhemorrhagic ischemic LVO is essential, the investigators noted.
“In stroke care, time is brain,” Dr. Bernstock said. “The sooner a patient is put on the right care pathway, the better they are going to do. Whether that means ruling out bleeds or ruling in something that needs an intervention, being able to do this in a prehospital setting with the technology that we built is going to be truly transformative.”
The study was funded by the Innovate UK grant and private funding. Dr. Bernstock has positions and equity in Pockit Diagnostics Ltd. and Treovir Inc. and is on the boards of Centile Bio and NeuroX1. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
FROM STROKE: VASCULAR AND INTERVENTIONAL NEUROLOGY
Are Children Born Through ART at Higher Risk for Cancer?
The results of a large French study comparing the cancer risk in children conceived through assisted reproductive technology (ART) with that of naturally conceived children were published recently in JAMA Network Open. This study is one of the largest to date on this subject: It included 8,526,306 children born in France between 2010 and 2021, of whom 260,236 (3%) were conceived through ART, and followed them up to a median age of 6.7 years.
Motivations for the Study
ART (including artificial insemination, in vitro fertilization [IVF], or intracytoplasmic sperm injection [ICSI] with fresh or frozen embryo transfer) accounts for about 1 in 30 births in France. However, limited and heterogeneous data have suggested an increased risk for certain health disorders, including cancer, among children conceived through ART. Therefore, a large-scale evaluation of cancer risk in these children is important.
No Overall Increase
In all, 9256 children developed cancer, including 292 who were conceived through ART. Thus,
Nevertheless, a slight increase in the risk for leukemia was observed in children conceived through IVF or ICSI. The investigators observed approximately one additional case for every 5000 newborns conceived through IVF or ICSI who reached age 10 years.Epidemiological monitoring should be continued to better evaluate long-term risks and see whether the risk for leukemia is confirmed. If it is, then it will be useful to investigate the mechanisms related to ART techniques or the fertility disorders of parents that could lead to an increased risk for leukemia.
This story was translated from Univadis France, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
The results of a large French study comparing the cancer risk in children conceived through assisted reproductive technology (ART) with that of naturally conceived children were published recently in JAMA Network Open. This study is one of the largest to date on this subject: It included 8,526,306 children born in France between 2010 and 2021, of whom 260,236 (3%) were conceived through ART, and followed them up to a median age of 6.7 years.
Motivations for the Study
ART (including artificial insemination, in vitro fertilization [IVF], or intracytoplasmic sperm injection [ICSI] with fresh or frozen embryo transfer) accounts for about 1 in 30 births in France. However, limited and heterogeneous data have suggested an increased risk for certain health disorders, including cancer, among children conceived through ART. Therefore, a large-scale evaluation of cancer risk in these children is important.
No Overall Increase
In all, 9256 children developed cancer, including 292 who were conceived through ART. Thus,
Nevertheless, a slight increase in the risk for leukemia was observed in children conceived through IVF or ICSI. The investigators observed approximately one additional case for every 5000 newborns conceived through IVF or ICSI who reached age 10 years.Epidemiological monitoring should be continued to better evaluate long-term risks and see whether the risk for leukemia is confirmed. If it is, then it will be useful to investigate the mechanisms related to ART techniques or the fertility disorders of parents that could lead to an increased risk for leukemia.
This story was translated from Univadis France, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
The results of a large French study comparing the cancer risk in children conceived through assisted reproductive technology (ART) with that of naturally conceived children were published recently in JAMA Network Open. This study is one of the largest to date on this subject: It included 8,526,306 children born in France between 2010 and 2021, of whom 260,236 (3%) were conceived through ART, and followed them up to a median age of 6.7 years.
Motivations for the Study
ART (including artificial insemination, in vitro fertilization [IVF], or intracytoplasmic sperm injection [ICSI] with fresh or frozen embryo transfer) accounts for about 1 in 30 births in France. However, limited and heterogeneous data have suggested an increased risk for certain health disorders, including cancer, among children conceived through ART. Therefore, a large-scale evaluation of cancer risk in these children is important.
No Overall Increase
In all, 9256 children developed cancer, including 292 who were conceived through ART. Thus,
Nevertheless, a slight increase in the risk for leukemia was observed in children conceived through IVF or ICSI. The investigators observed approximately one additional case for every 5000 newborns conceived through IVF or ICSI who reached age 10 years.Epidemiological monitoring should be continued to better evaluate long-term risks and see whether the risk for leukemia is confirmed. If it is, then it will be useful to investigate the mechanisms related to ART techniques or the fertility disorders of parents that could lead to an increased risk for leukemia.
This story was translated from Univadis France, which is part of the Medscape Professional Network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
Commonly Used Meds Tied to Lower Risk for Brain Aneurysm Rupture
(aSAH), a drug-wide association study suggested.
The blood pressure drug lisinopril; the cholesterol drug simvastatin; the diabetes drug metformin; and the drug tamsulosin, prescribed for an enlarged prostate, were all associated with decreased aSAH risk, investigators found.
Conversely, four other drugs were associated with an increased risk for this severely morbid, often deadly, condition.
“The motivation for this study was the fact that we can currently prevent bleeding from intracranial aneurysms only by invasive treatment of those aneurysms with inherent complication risks,” said study investigator Ynte Ruigrok, MD, PhD, associate professor of neurology and neurosurgery, University Medical Center Utrecht, Utrecht, the Netherlands. “Drugs to reduce or eliminate this risk are not yet available. This study is a first step in identifying such drugs.”
The findings were published online in Neurology.
Surprising Results
For the study, the researchers used the Secure Anonymized Information Linkage data bank in Wales to identify 4879 patients with aSAH between January 2000 and December 2019 and 43,911 patients without aSAH matched on age, sex, and year of database entry. Clustering resulted in 2023 unique drugs, of which 205 were commonly prescribed.
After adjusting for other factors such as high blood pressure, alcohol abuse, smoking, and a total number of health conditions, the results yielded two surprises, Dr. Ruigrok observed.
The first was a significant decrease in aSAH risk for current use of lisinopril, compared with nonuse (odds ratio [OR], 0.63; 95% confidence interval [CI], 0.44-0.90), and a nonsignificant decrease with current use of amlodipine (OR, 0.82; 95% CI, 0.65-1.04).
“Hypertension is a major risk factor for occurrence and bleeding from aneurysms. If there is indeed a specific blood pressure–lowering drug that not only has a blood pressure–lowering effect but also has additional protection against aSAH, then perhaps that drug should become the drug of choice in aneurysm patients in the future,” he said.
Notably, recent use of both drugs, defined as between 1 year and 3 months before the index date, was associated with an increased risk for aSAH. This trend was not found for other antihypertensives and was significant for amlodipine but not lisinopril.
The reasons are unclear, but “we trust the findings on lisinopril more,” Dr. Ruigrok said. “The findings on amlodipine may be due to confounding by indication, specifically caused by hypertension. Therefore, it is important to validate our findings in an independent research cohort, and we are in the process of doing so.”
The study’s second surprise was the antidiabetic drug metformin and cholesterol-lowering drug simvastatin were also associated with reduced aSAH risk, Dr. Ruigrok noted.
“We already knew from previous studies that diabetes and high cholesterol are protective factors for aSAH,” he said. “Our results suggest that perhaps not the conditions themselves are protective for aSAH but rather the drugs used to treat these conditions with are.”
The risk for a ruptured brain aneurysm among current users was 42% lower with metformin (OR, 0.58; 95% CI, 0.43-0.78), 22% lower with simvastatin (OR, 0.78; 95% CI, 0.64-0.96), and 45% lower with tamsulosin (OR, 0.55; 95% CI, 0.32-0.93).
An increased risk for aSAH was found only in current users of warfarin (OR, 1.35; 95% CI, 1.02-1.79), venlafaxine (OR, 1.67; 95% CI, 1.01-2.75), prochlorperazine (OR, 2.15; 95% CI, 1.45-3.18), and co-codamol (OR, 1.31; 95% CI, 1.10-1.56).
Other drugs within the classes of vitamin K antagonists, serotonin reuptake inhibitors, conventional antipsychotics, and compound analgesics did not show an association with aSAH.
The study was limited by the use of drug prescriptions, and patients may not take their drugs or use them incorrectly, noted the researchers, led by Jos P. Kanning, MSc, also with University Medical Center Utrecht.
The study was supported by the European Research Council. The authors reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
(aSAH), a drug-wide association study suggested.
The blood pressure drug lisinopril; the cholesterol drug simvastatin; the diabetes drug metformin; and the drug tamsulosin, prescribed for an enlarged prostate, were all associated with decreased aSAH risk, investigators found.
Conversely, four other drugs were associated with an increased risk for this severely morbid, often deadly, condition.
“The motivation for this study was the fact that we can currently prevent bleeding from intracranial aneurysms only by invasive treatment of those aneurysms with inherent complication risks,” said study investigator Ynte Ruigrok, MD, PhD, associate professor of neurology and neurosurgery, University Medical Center Utrecht, Utrecht, the Netherlands. “Drugs to reduce or eliminate this risk are not yet available. This study is a first step in identifying such drugs.”
The findings were published online in Neurology.
Surprising Results
For the study, the researchers used the Secure Anonymized Information Linkage data bank in Wales to identify 4879 patients with aSAH between January 2000 and December 2019 and 43,911 patients without aSAH matched on age, sex, and year of database entry. Clustering resulted in 2023 unique drugs, of which 205 were commonly prescribed.
After adjusting for other factors such as high blood pressure, alcohol abuse, smoking, and a total number of health conditions, the results yielded two surprises, Dr. Ruigrok observed.
The first was a significant decrease in aSAH risk for current use of lisinopril, compared with nonuse (odds ratio [OR], 0.63; 95% confidence interval [CI], 0.44-0.90), and a nonsignificant decrease with current use of amlodipine (OR, 0.82; 95% CI, 0.65-1.04).
“Hypertension is a major risk factor for occurrence and bleeding from aneurysms. If there is indeed a specific blood pressure–lowering drug that not only has a blood pressure–lowering effect but also has additional protection against aSAH, then perhaps that drug should become the drug of choice in aneurysm patients in the future,” he said.
Notably, recent use of both drugs, defined as between 1 year and 3 months before the index date, was associated with an increased risk for aSAH. This trend was not found for other antihypertensives and was significant for amlodipine but not lisinopril.
The reasons are unclear, but “we trust the findings on lisinopril more,” Dr. Ruigrok said. “The findings on amlodipine may be due to confounding by indication, specifically caused by hypertension. Therefore, it is important to validate our findings in an independent research cohort, and we are in the process of doing so.”
The study’s second surprise was the antidiabetic drug metformin and cholesterol-lowering drug simvastatin were also associated with reduced aSAH risk, Dr. Ruigrok noted.
“We already knew from previous studies that diabetes and high cholesterol are protective factors for aSAH,” he said. “Our results suggest that perhaps not the conditions themselves are protective for aSAH but rather the drugs used to treat these conditions with are.”
The risk for a ruptured brain aneurysm among current users was 42% lower with metformin (OR, 0.58; 95% CI, 0.43-0.78), 22% lower with simvastatin (OR, 0.78; 95% CI, 0.64-0.96), and 45% lower with tamsulosin (OR, 0.55; 95% CI, 0.32-0.93).
An increased risk for aSAH was found only in current users of warfarin (OR, 1.35; 95% CI, 1.02-1.79), venlafaxine (OR, 1.67; 95% CI, 1.01-2.75), prochlorperazine (OR, 2.15; 95% CI, 1.45-3.18), and co-codamol (OR, 1.31; 95% CI, 1.10-1.56).
Other drugs within the classes of vitamin K antagonists, serotonin reuptake inhibitors, conventional antipsychotics, and compound analgesics did not show an association with aSAH.
The study was limited by the use of drug prescriptions, and patients may not take their drugs or use them incorrectly, noted the researchers, led by Jos P. Kanning, MSc, also with University Medical Center Utrecht.
The study was supported by the European Research Council. The authors reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
(aSAH), a drug-wide association study suggested.
The blood pressure drug lisinopril; the cholesterol drug simvastatin; the diabetes drug metformin; and the drug tamsulosin, prescribed for an enlarged prostate, were all associated with decreased aSAH risk, investigators found.
Conversely, four other drugs were associated with an increased risk for this severely morbid, often deadly, condition.
“The motivation for this study was the fact that we can currently prevent bleeding from intracranial aneurysms only by invasive treatment of those aneurysms with inherent complication risks,” said study investigator Ynte Ruigrok, MD, PhD, associate professor of neurology and neurosurgery, University Medical Center Utrecht, Utrecht, the Netherlands. “Drugs to reduce or eliminate this risk are not yet available. This study is a first step in identifying such drugs.”
The findings were published online in Neurology.
Surprising Results
For the study, the researchers used the Secure Anonymized Information Linkage data bank in Wales to identify 4879 patients with aSAH between January 2000 and December 2019 and 43,911 patients without aSAH matched on age, sex, and year of database entry. Clustering resulted in 2023 unique drugs, of which 205 were commonly prescribed.
After adjusting for other factors such as high blood pressure, alcohol abuse, smoking, and a total number of health conditions, the results yielded two surprises, Dr. Ruigrok observed.
The first was a significant decrease in aSAH risk for current use of lisinopril, compared with nonuse (odds ratio [OR], 0.63; 95% confidence interval [CI], 0.44-0.90), and a nonsignificant decrease with current use of amlodipine (OR, 0.82; 95% CI, 0.65-1.04).
“Hypertension is a major risk factor for occurrence and bleeding from aneurysms. If there is indeed a specific blood pressure–lowering drug that not only has a blood pressure–lowering effect but also has additional protection against aSAH, then perhaps that drug should become the drug of choice in aneurysm patients in the future,” he said.
Notably, recent use of both drugs, defined as between 1 year and 3 months before the index date, was associated with an increased risk for aSAH. This trend was not found for other antihypertensives and was significant for amlodipine but not lisinopril.
The reasons are unclear, but “we trust the findings on lisinopril more,” Dr. Ruigrok said. “The findings on amlodipine may be due to confounding by indication, specifically caused by hypertension. Therefore, it is important to validate our findings in an independent research cohort, and we are in the process of doing so.”
The study’s second surprise was the antidiabetic drug metformin and cholesterol-lowering drug simvastatin were also associated with reduced aSAH risk, Dr. Ruigrok noted.
“We already knew from previous studies that diabetes and high cholesterol are protective factors for aSAH,” he said. “Our results suggest that perhaps not the conditions themselves are protective for aSAH but rather the drugs used to treat these conditions with are.”
The risk for a ruptured brain aneurysm among current users was 42% lower with metformin (OR, 0.58; 95% CI, 0.43-0.78), 22% lower with simvastatin (OR, 0.78; 95% CI, 0.64-0.96), and 45% lower with tamsulosin (OR, 0.55; 95% CI, 0.32-0.93).
An increased risk for aSAH was found only in current users of warfarin (OR, 1.35; 95% CI, 1.02-1.79), venlafaxine (OR, 1.67; 95% CI, 1.01-2.75), prochlorperazine (OR, 2.15; 95% CI, 1.45-3.18), and co-codamol (OR, 1.31; 95% CI, 1.10-1.56).
Other drugs within the classes of vitamin K antagonists, serotonin reuptake inhibitors, conventional antipsychotics, and compound analgesics did not show an association with aSAH.
The study was limited by the use of drug prescriptions, and patients may not take their drugs or use them incorrectly, noted the researchers, led by Jos P. Kanning, MSc, also with University Medical Center Utrecht.
The study was supported by the European Research Council. The authors reported no relevant financial relationships.
A version of this article appeared on Medscape.com.
FROM NEUROLOGY
Interictal Burden, Disability, Allodynia Linked to Increased Likelihood of Seeking Migraine Care
recent research published in the journal Headache.
, according to“[T]he burden and impact of migraine on the individual both during and between attacks were identified through supervised machine learning models to be strongly associated with seeking care,” Sait Ashina, MD, of the department of neurology at Harvard Medical School in Boston, and colleagues wrote in their study.
Dr. Ashina and colleagues performed a cross-sectional study of 61,826 patients from the web-based ObserVational survey of the Epidemiology, tReatment and Care Of MigrainE (OVERCOME) study with migraine who visited a primary care, specialty care, or urgent care, or emergency setting for headache between 2018 and 2020.
The patients recruited for OBSERVE were a mean of 41.7 years old and had experienced migraines for an average of 19.0 years; 59.4% had between 0 and 3 average headache days per month, 74.5% were women, 78.8% were White, and 85.4% had health insurance; and they were demographically representative of the US population.
Researchers used a machine learning model, which consisted of random forest and least absolute shrinkage and selection operator (LASSO) algorithms, to identify the relationship between patients who sought care for migraine and 54 different clinical, sociodemographic, and migraine-associated factors, which included age, years with migraine, symptom scores, pain intensity scores, disability score, comorbidities, vomiting, presence and severity of allodynia, and other factors.
The results showed 31,529 patients (51.0%) had an in-person or e-visit encounter with a primary care, specialty care, or urgent care, or emergency care location within 12 months of the survey, and were mostly White (76.5%) women (73.3%) with health insurance (88.9%). Of the patients who sought care, 52.8% had severe interictal burden measured by Migraine Interictal Burden Scale-4 score, compared with 23.1% of patients who did not seek care. Compared with patients who did not seek care, those who did visit a health care setting for migraine had a higher percentage of severe migraine-related disability as measured by the Migraine Disability Assessment Scale (36.7% vs 14.6%) and severe ictal cutaneous allodynia as measured by the Allodynia Symptom Checklist (21.0% vs 7.4%).
In a multivariable logistic regression model analysis, Dr. Ashina and colleagues said the factors most associated with seeking care included severe interictal burden (odds ratio [OR], 2.64; 95% confidence interval [CI], 2.5-2.8), severe migraine-related disability (OR, 2.2; 95% CI, 2.0-2.3), and severe ictal allodynia (OR, 1.7; 95% CI, 1.6-1.8), compared with less severe factors.
The researchers said their results have “significant implications for public health and advocacy efforts.”
“As seen through three decades of epidemiological research in the United States, rates of care-seeking have not improved dramatically over time despite significant additions to scientific knowledge and the therapeutic armamentarium, leaving a significant unmet need. This is also important from a clinical perspective,” they explained. “Health care professionals in primary care and internal medicine most likely see patients with migraine who do not discuss it during visits. This underscores the importance of maintaining vigilance for migraine, especially among those who may experience greater disability, impact, and interictal burden.”
Asking the Right Questions
Asked to comment on the research, Robert P. Cowan, MD, a neurologist and professor in the Stanford University School of Medicine department of neurology and neurological sciences in Palo Alto, California, said in an interview that the value of the paper is in what it does not say about the main reasons patients seek care.
“Most clinicians readily acknowledge that the average number of migraine headache days per month is, at best, a weak predictor of which patients seek care and when,” he said.
Dr. Cowan said that most patients are referred to him by other providers, and when he asks them why they did not seek care for migraine sooner, the answer is usually because the migraine was not severe enough or because over-the-counter medication had previously worked for them. He noted that change in frequency is, in his experience, a primary reason why patients will seek care. “[F]or new (or increasing) headache, it is the concern that the headaches are something more ‘serious,’ and once that is ruled out, the conversation often stops,” he said. “For long-standing migraine sufferers, it is the perception that the headache is a ‘fact of life’ and does not rise to the bar of seeking medical advice.”
The questions a survey or a provider asks matters, Dr. Cowan said. “Often, when we ask a patient how many headache (or migraine) days per month, the answer is in single digits. But if we follow-up with a question about the number of headache-free days [per] month, the answer is ‘never’ or ‘hardly ever,’” he explained. “The point here is that what questions a survey (or a provider) asks introduces a clear bias. The use of machine learning instruments, especially when utilizing supervised learning, only reinforces and amplifies the bias of the designers of the categories.”
Epidemiologic studies are interesting but “often ask the wrong questions,” Dr. Cowan said. “I am less worried about the ... 49% of migraine or possible migraine patients who do not seek care and do [not] progress to more disabling ‘chronic’ migraine than I am with identifying the subpopulations of migraine patients who seek care from providers who do not have adequate tools to match patients to the best treatments.”
The authors reported personal and institutional relationships in the form of advisory board memberships, consultancies, employment, honoraria, research support, speakers bureau positions, stock ownership, and teaching services with AbbVie, Aeon, Alder, Allay Lamp, Allergan, Amgen, Axon, Biohaven Pharmaceuticals, Collegium, CoolTech, Currax, Dr. Reddy’s Laboratories (Promius), electroCore, GlaxoSmithKline, Impel NeuroPharma, Informa, Eli Lilly and Company, Lundbeck, Mainistee, Merck, National Headache Foundation, National Institutes of Health, Novartis, Pfizer, Satsuma, Supernus, Percept, Teva, Theranica, UpsherSmith, the US Food and Drug Administration, Vector, Vedanta Research, and Wolff’s Headache. The study was supported by Eli Lilly. Dr. Cowan reports no relevant conflicts of interest.
recent research published in the journal Headache.
, according to“[T]he burden and impact of migraine on the individual both during and between attacks were identified through supervised machine learning models to be strongly associated with seeking care,” Sait Ashina, MD, of the department of neurology at Harvard Medical School in Boston, and colleagues wrote in their study.
Dr. Ashina and colleagues performed a cross-sectional study of 61,826 patients from the web-based ObserVational survey of the Epidemiology, tReatment and Care Of MigrainE (OVERCOME) study with migraine who visited a primary care, specialty care, or urgent care, or emergency setting for headache between 2018 and 2020.
The patients recruited for OBSERVE were a mean of 41.7 years old and had experienced migraines for an average of 19.0 years; 59.4% had between 0 and 3 average headache days per month, 74.5% were women, 78.8% were White, and 85.4% had health insurance; and they were demographically representative of the US population.
Researchers used a machine learning model, which consisted of random forest and least absolute shrinkage and selection operator (LASSO) algorithms, to identify the relationship between patients who sought care for migraine and 54 different clinical, sociodemographic, and migraine-associated factors, which included age, years with migraine, symptom scores, pain intensity scores, disability score, comorbidities, vomiting, presence and severity of allodynia, and other factors.
The results showed 31,529 patients (51.0%) had an in-person or e-visit encounter with a primary care, specialty care, or urgent care, or emergency care location within 12 months of the survey, and were mostly White (76.5%) women (73.3%) with health insurance (88.9%). Of the patients who sought care, 52.8% had severe interictal burden measured by Migraine Interictal Burden Scale-4 score, compared with 23.1% of patients who did not seek care. Compared with patients who did not seek care, those who did visit a health care setting for migraine had a higher percentage of severe migraine-related disability as measured by the Migraine Disability Assessment Scale (36.7% vs 14.6%) and severe ictal cutaneous allodynia as measured by the Allodynia Symptom Checklist (21.0% vs 7.4%).
In a multivariable logistic regression model analysis, Dr. Ashina and colleagues said the factors most associated with seeking care included severe interictal burden (odds ratio [OR], 2.64; 95% confidence interval [CI], 2.5-2.8), severe migraine-related disability (OR, 2.2; 95% CI, 2.0-2.3), and severe ictal allodynia (OR, 1.7; 95% CI, 1.6-1.8), compared with less severe factors.
The researchers said their results have “significant implications for public health and advocacy efforts.”
“As seen through three decades of epidemiological research in the United States, rates of care-seeking have not improved dramatically over time despite significant additions to scientific knowledge and the therapeutic armamentarium, leaving a significant unmet need. This is also important from a clinical perspective,” they explained. “Health care professionals in primary care and internal medicine most likely see patients with migraine who do not discuss it during visits. This underscores the importance of maintaining vigilance for migraine, especially among those who may experience greater disability, impact, and interictal burden.”
Asking the Right Questions
Asked to comment on the research, Robert P. Cowan, MD, a neurologist and professor in the Stanford University School of Medicine department of neurology and neurological sciences in Palo Alto, California, said in an interview that the value of the paper is in what it does not say about the main reasons patients seek care.
“Most clinicians readily acknowledge that the average number of migraine headache days per month is, at best, a weak predictor of which patients seek care and when,” he said.
Dr. Cowan said that most patients are referred to him by other providers, and when he asks them why they did not seek care for migraine sooner, the answer is usually because the migraine was not severe enough or because over-the-counter medication had previously worked for them. He noted that change in frequency is, in his experience, a primary reason why patients will seek care. “[F]or new (or increasing) headache, it is the concern that the headaches are something more ‘serious,’ and once that is ruled out, the conversation often stops,” he said. “For long-standing migraine sufferers, it is the perception that the headache is a ‘fact of life’ and does not rise to the bar of seeking medical advice.”
The questions a survey or a provider asks matters, Dr. Cowan said. “Often, when we ask a patient how many headache (or migraine) days per month, the answer is in single digits. But if we follow-up with a question about the number of headache-free days [per] month, the answer is ‘never’ or ‘hardly ever,’” he explained. “The point here is that what questions a survey (or a provider) asks introduces a clear bias. The use of machine learning instruments, especially when utilizing supervised learning, only reinforces and amplifies the bias of the designers of the categories.”
Epidemiologic studies are interesting but “often ask the wrong questions,” Dr. Cowan said. “I am less worried about the ... 49% of migraine or possible migraine patients who do not seek care and do [not] progress to more disabling ‘chronic’ migraine than I am with identifying the subpopulations of migraine patients who seek care from providers who do not have adequate tools to match patients to the best treatments.”
The authors reported personal and institutional relationships in the form of advisory board memberships, consultancies, employment, honoraria, research support, speakers bureau positions, stock ownership, and teaching services with AbbVie, Aeon, Alder, Allay Lamp, Allergan, Amgen, Axon, Biohaven Pharmaceuticals, Collegium, CoolTech, Currax, Dr. Reddy’s Laboratories (Promius), electroCore, GlaxoSmithKline, Impel NeuroPharma, Informa, Eli Lilly and Company, Lundbeck, Mainistee, Merck, National Headache Foundation, National Institutes of Health, Novartis, Pfizer, Satsuma, Supernus, Percept, Teva, Theranica, UpsherSmith, the US Food and Drug Administration, Vector, Vedanta Research, and Wolff’s Headache. The study was supported by Eli Lilly. Dr. Cowan reports no relevant conflicts of interest.
recent research published in the journal Headache.
, according to“[T]he burden and impact of migraine on the individual both during and between attacks were identified through supervised machine learning models to be strongly associated with seeking care,” Sait Ashina, MD, of the department of neurology at Harvard Medical School in Boston, and colleagues wrote in their study.
Dr. Ashina and colleagues performed a cross-sectional study of 61,826 patients from the web-based ObserVational survey of the Epidemiology, tReatment and Care Of MigrainE (OVERCOME) study with migraine who visited a primary care, specialty care, or urgent care, or emergency setting for headache between 2018 and 2020.
The patients recruited for OBSERVE were a mean of 41.7 years old and had experienced migraines for an average of 19.0 years; 59.4% had between 0 and 3 average headache days per month, 74.5% were women, 78.8% were White, and 85.4% had health insurance; and they were demographically representative of the US population.
Researchers used a machine learning model, which consisted of random forest and least absolute shrinkage and selection operator (LASSO) algorithms, to identify the relationship between patients who sought care for migraine and 54 different clinical, sociodemographic, and migraine-associated factors, which included age, years with migraine, symptom scores, pain intensity scores, disability score, comorbidities, vomiting, presence and severity of allodynia, and other factors.
The results showed 31,529 patients (51.0%) had an in-person or e-visit encounter with a primary care, specialty care, or urgent care, or emergency care location within 12 months of the survey, and were mostly White (76.5%) women (73.3%) with health insurance (88.9%). Of the patients who sought care, 52.8% had severe interictal burden measured by Migraine Interictal Burden Scale-4 score, compared with 23.1% of patients who did not seek care. Compared with patients who did not seek care, those who did visit a health care setting for migraine had a higher percentage of severe migraine-related disability as measured by the Migraine Disability Assessment Scale (36.7% vs 14.6%) and severe ictal cutaneous allodynia as measured by the Allodynia Symptom Checklist (21.0% vs 7.4%).
In a multivariable logistic regression model analysis, Dr. Ashina and colleagues said the factors most associated with seeking care included severe interictal burden (odds ratio [OR], 2.64; 95% confidence interval [CI], 2.5-2.8), severe migraine-related disability (OR, 2.2; 95% CI, 2.0-2.3), and severe ictal allodynia (OR, 1.7; 95% CI, 1.6-1.8), compared with less severe factors.
The researchers said their results have “significant implications for public health and advocacy efforts.”
“As seen through three decades of epidemiological research in the United States, rates of care-seeking have not improved dramatically over time despite significant additions to scientific knowledge and the therapeutic armamentarium, leaving a significant unmet need. This is also important from a clinical perspective,” they explained. “Health care professionals in primary care and internal medicine most likely see patients with migraine who do not discuss it during visits. This underscores the importance of maintaining vigilance for migraine, especially among those who may experience greater disability, impact, and interictal burden.”
Asking the Right Questions
Asked to comment on the research, Robert P. Cowan, MD, a neurologist and professor in the Stanford University School of Medicine department of neurology and neurological sciences in Palo Alto, California, said in an interview that the value of the paper is in what it does not say about the main reasons patients seek care.
“Most clinicians readily acknowledge that the average number of migraine headache days per month is, at best, a weak predictor of which patients seek care and when,” he said.
Dr. Cowan said that most patients are referred to him by other providers, and when he asks them why they did not seek care for migraine sooner, the answer is usually because the migraine was not severe enough or because over-the-counter medication had previously worked for them. He noted that change in frequency is, in his experience, a primary reason why patients will seek care. “[F]or new (or increasing) headache, it is the concern that the headaches are something more ‘serious,’ and once that is ruled out, the conversation often stops,” he said. “For long-standing migraine sufferers, it is the perception that the headache is a ‘fact of life’ and does not rise to the bar of seeking medical advice.”
The questions a survey or a provider asks matters, Dr. Cowan said. “Often, when we ask a patient how many headache (or migraine) days per month, the answer is in single digits. But if we follow-up with a question about the number of headache-free days [per] month, the answer is ‘never’ or ‘hardly ever,’” he explained. “The point here is that what questions a survey (or a provider) asks introduces a clear bias. The use of machine learning instruments, especially when utilizing supervised learning, only reinforces and amplifies the bias of the designers of the categories.”
Epidemiologic studies are interesting but “often ask the wrong questions,” Dr. Cowan said. “I am less worried about the ... 49% of migraine or possible migraine patients who do not seek care and do [not] progress to more disabling ‘chronic’ migraine than I am with identifying the subpopulations of migraine patients who seek care from providers who do not have adequate tools to match patients to the best treatments.”
The authors reported personal and institutional relationships in the form of advisory board memberships, consultancies, employment, honoraria, research support, speakers bureau positions, stock ownership, and teaching services with AbbVie, Aeon, Alder, Allay Lamp, Allergan, Amgen, Axon, Biohaven Pharmaceuticals, Collegium, CoolTech, Currax, Dr. Reddy’s Laboratories (Promius), electroCore, GlaxoSmithKline, Impel NeuroPharma, Informa, Eli Lilly and Company, Lundbeck, Mainistee, Merck, National Headache Foundation, National Institutes of Health, Novartis, Pfizer, Satsuma, Supernus, Percept, Teva, Theranica, UpsherSmith, the US Food and Drug Administration, Vector, Vedanta Research, and Wolff’s Headache. The study was supported by Eli Lilly. Dr. Cowan reports no relevant conflicts of interest.
FROM HEADACHE
Irisin Shows Potential as Alzheimer’s Disease Biomarker
, according to investigators.
Irisin, a hormone released by muscles during physical exercise, also negatively correlated with Clinical Dementia Rating Scale Sum of Boxes (CDR-SOB) in female patients, pointing to a sex-specific disease phenomenon, reported by co-lead authors Manuela Dicarlo, PhD, and Patrizia Pignataro, MSc, of the University of Bari “A. Moro,” Bari, Italy, and colleagues.
Regular physical exercise can slow cognitive decline in individuals at risk for or with Alzheimer’s disease, and irisin appears to play a key role in this process, the investigators wrote in Annals of Neurology. Previous studies have shown that increased irisin levels in the brain are associated with improved cognitive function and reduced amyloid beta levels, suggesting the hormone’s potential as a biomarker and therapeutic target for Alzheimer’s disease.
“Based on the protective effect of irisin in Alzheimer’s disease shown in animal and cell models, the goal of the present study was to investigate the levels of irisin in the biological fluids of a large cohort of patients biologically characterized according to the amyloid/tau/neurodegeneration (ATN) scheme of the National Institute on Aging–Alzheimer’s Association (NIA-AA),” Dr. Dicarlo and colleagues wrote. “We aimed to understand whether there may be variations of irisin levels across the disease stages, identified through the ATN system.”
Lower Levels of Irisin Seen in Patients With Alzheimer’s Disease
The study included 82 patients with Alzheimer’s disease, 44 individuals with mild cognitive impairment (MCI), and 20 with subjective memory complaints (SMC). Participants underwent comprehensive assessments, including neurological and neuropsychological exams, nutritional evaluations, MRI scans, and routine lab tests. Cognitive impairment severity was measured using the CDR-SOB and other metrics.
Blood and CSF samples were collected from all patients, the latter via lumbar puncture. These samples were analyzed for irisin levels and known Alzheimer’s disease biomarkers, including Abeta42, total tau (t-tau), and hyperphosphorylated tau (p-tau).
Mean CSF irisin levels were significantly lower among patients with Alzheimer’s disease than those with SMC (0.80 vs 1.23 pg/mL; P < .0001), and among those with MCI vs SMC (0.95 vs 1.23 pg/mL; P = .046). Among patients with Alzheimer’s disease, irisin levels were significantly lower among women than men (0.70 vs 0.96 pg/mL; P = .031).
Further analyses revealed positive correlations between CSF irisin level and Abeta42 in both males (r = 0.262; P < 005) and females (r = 0.379; P < .001). Conversely, in female patients, a significant negative correlation was found between CSF irisin level and CDR-SOB score (r = −0.234; P < .05).
Although a negative trend was observed between CSF irisin and total tau (t-tau) in the overall patient population (r = −0.144; P = 0.082), and more notably in female patients (r = −0.189; P = 0.084), these results were not statistically significant.
Plasma irisin levels were not significantly correlated with any of the other biomarkers.
Clinical Implications
This study “verifies that irisin levels do have a relationship to the Alzheimer’s disease process,” said Dylan Wint, MD, director of Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas.
In a written comment, Dr. Wint speculated that measuring irisin levels could theoretically help individualize physical exercise routines designed to combat cognitive decline.
“For example, maybe someone who is exercising but has a low irisin level would need to change the type of exercise they’re doing in order to optimally protect their brain health,” he said. “Or maybe they won’t get the same benefits for brain health as someone whose irisin shoots up every time they walk a flight of stairs.”
It’s “near-impossible to tell,” however, if irisin will be employed in clinical trials or real-world practice, he added.
“I don’t see this being a highly useful serum biomarker for Alzheimer’s disease itself because other serum biomarkers are so far ahead and have more face validity,” Dr. Wint said.
The route of collection could also cause challenges.
“In the United States, CSF-based biomarkers can be a difficult sell, especially for serial testing,” Dr. Wint said. “But we have usable serum biomarkers for Alzheimer’s disease only because we have had CSF biomarkers against which to evaluate them. They may develop a way to evaluate this in the serum.”
Dr. Dicarlo and colleagues suggested that more work is needed to determine the ultimate value of irisin measurement.“The true ability of irisin to represent a biomarker of disease progression and severity remains to be further investigated,” they concluded. “However, our findings might offer interesting perspectives toward the potential role of irisin in the modulation of AD pathology and can guide the exploration of medication targeting the irisin system.”
The study was supported by Regione Puglia and CNR for Tecnopolo per la Medicina di Precisione, CIREMIC, the University of Bari, and Next Generation EU. The investigators and Dr. Wint disclosed no conflicts of interest.
, according to investigators.
Irisin, a hormone released by muscles during physical exercise, also negatively correlated with Clinical Dementia Rating Scale Sum of Boxes (CDR-SOB) in female patients, pointing to a sex-specific disease phenomenon, reported by co-lead authors Manuela Dicarlo, PhD, and Patrizia Pignataro, MSc, of the University of Bari “A. Moro,” Bari, Italy, and colleagues.
Regular physical exercise can slow cognitive decline in individuals at risk for or with Alzheimer’s disease, and irisin appears to play a key role in this process, the investigators wrote in Annals of Neurology. Previous studies have shown that increased irisin levels in the brain are associated with improved cognitive function and reduced amyloid beta levels, suggesting the hormone’s potential as a biomarker and therapeutic target for Alzheimer’s disease.
“Based on the protective effect of irisin in Alzheimer’s disease shown in animal and cell models, the goal of the present study was to investigate the levels of irisin in the biological fluids of a large cohort of patients biologically characterized according to the amyloid/tau/neurodegeneration (ATN) scheme of the National Institute on Aging–Alzheimer’s Association (NIA-AA),” Dr. Dicarlo and colleagues wrote. “We aimed to understand whether there may be variations of irisin levels across the disease stages, identified through the ATN system.”
Lower Levels of Irisin Seen in Patients With Alzheimer’s Disease
The study included 82 patients with Alzheimer’s disease, 44 individuals with mild cognitive impairment (MCI), and 20 with subjective memory complaints (SMC). Participants underwent comprehensive assessments, including neurological and neuropsychological exams, nutritional evaluations, MRI scans, and routine lab tests. Cognitive impairment severity was measured using the CDR-SOB and other metrics.
Blood and CSF samples were collected from all patients, the latter via lumbar puncture. These samples were analyzed for irisin levels and known Alzheimer’s disease biomarkers, including Abeta42, total tau (t-tau), and hyperphosphorylated tau (p-tau).
Mean CSF irisin levels were significantly lower among patients with Alzheimer’s disease than those with SMC (0.80 vs 1.23 pg/mL; P < .0001), and among those with MCI vs SMC (0.95 vs 1.23 pg/mL; P = .046). Among patients with Alzheimer’s disease, irisin levels were significantly lower among women than men (0.70 vs 0.96 pg/mL; P = .031).
Further analyses revealed positive correlations between CSF irisin level and Abeta42 in both males (r = 0.262; P < 005) and females (r = 0.379; P < .001). Conversely, in female patients, a significant negative correlation was found between CSF irisin level and CDR-SOB score (r = −0.234; P < .05).
Although a negative trend was observed between CSF irisin and total tau (t-tau) in the overall patient population (r = −0.144; P = 0.082), and more notably in female patients (r = −0.189; P = 0.084), these results were not statistically significant.
Plasma irisin levels were not significantly correlated with any of the other biomarkers.
Clinical Implications
This study “verifies that irisin levels do have a relationship to the Alzheimer’s disease process,” said Dylan Wint, MD, director of Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas.
In a written comment, Dr. Wint speculated that measuring irisin levels could theoretically help individualize physical exercise routines designed to combat cognitive decline.
“For example, maybe someone who is exercising but has a low irisin level would need to change the type of exercise they’re doing in order to optimally protect their brain health,” he said. “Or maybe they won’t get the same benefits for brain health as someone whose irisin shoots up every time they walk a flight of stairs.”
It’s “near-impossible to tell,” however, if irisin will be employed in clinical trials or real-world practice, he added.
“I don’t see this being a highly useful serum biomarker for Alzheimer’s disease itself because other serum biomarkers are so far ahead and have more face validity,” Dr. Wint said.
The route of collection could also cause challenges.
“In the United States, CSF-based biomarkers can be a difficult sell, especially for serial testing,” Dr. Wint said. “But we have usable serum biomarkers for Alzheimer’s disease only because we have had CSF biomarkers against which to evaluate them. They may develop a way to evaluate this in the serum.”
Dr. Dicarlo and colleagues suggested that more work is needed to determine the ultimate value of irisin measurement.“The true ability of irisin to represent a biomarker of disease progression and severity remains to be further investigated,” they concluded. “However, our findings might offer interesting perspectives toward the potential role of irisin in the modulation of AD pathology and can guide the exploration of medication targeting the irisin system.”
The study was supported by Regione Puglia and CNR for Tecnopolo per la Medicina di Precisione, CIREMIC, the University of Bari, and Next Generation EU. The investigators and Dr. Wint disclosed no conflicts of interest.
, according to investigators.
Irisin, a hormone released by muscles during physical exercise, also negatively correlated with Clinical Dementia Rating Scale Sum of Boxes (CDR-SOB) in female patients, pointing to a sex-specific disease phenomenon, reported by co-lead authors Manuela Dicarlo, PhD, and Patrizia Pignataro, MSc, of the University of Bari “A. Moro,” Bari, Italy, and colleagues.
Regular physical exercise can slow cognitive decline in individuals at risk for or with Alzheimer’s disease, and irisin appears to play a key role in this process, the investigators wrote in Annals of Neurology. Previous studies have shown that increased irisin levels in the brain are associated with improved cognitive function and reduced amyloid beta levels, suggesting the hormone’s potential as a biomarker and therapeutic target for Alzheimer’s disease.
“Based on the protective effect of irisin in Alzheimer’s disease shown in animal and cell models, the goal of the present study was to investigate the levels of irisin in the biological fluids of a large cohort of patients biologically characterized according to the amyloid/tau/neurodegeneration (ATN) scheme of the National Institute on Aging–Alzheimer’s Association (NIA-AA),” Dr. Dicarlo and colleagues wrote. “We aimed to understand whether there may be variations of irisin levels across the disease stages, identified through the ATN system.”
Lower Levels of Irisin Seen in Patients With Alzheimer’s Disease
The study included 82 patients with Alzheimer’s disease, 44 individuals with mild cognitive impairment (MCI), and 20 with subjective memory complaints (SMC). Participants underwent comprehensive assessments, including neurological and neuropsychological exams, nutritional evaluations, MRI scans, and routine lab tests. Cognitive impairment severity was measured using the CDR-SOB and other metrics.
Blood and CSF samples were collected from all patients, the latter via lumbar puncture. These samples were analyzed for irisin levels and known Alzheimer’s disease biomarkers, including Abeta42, total tau (t-tau), and hyperphosphorylated tau (p-tau).
Mean CSF irisin levels were significantly lower among patients with Alzheimer’s disease than those with SMC (0.80 vs 1.23 pg/mL; P < .0001), and among those with MCI vs SMC (0.95 vs 1.23 pg/mL; P = .046). Among patients with Alzheimer’s disease, irisin levels were significantly lower among women than men (0.70 vs 0.96 pg/mL; P = .031).
Further analyses revealed positive correlations between CSF irisin level and Abeta42 in both males (r = 0.262; P < 005) and females (r = 0.379; P < .001). Conversely, in female patients, a significant negative correlation was found between CSF irisin level and CDR-SOB score (r = −0.234; P < .05).
Although a negative trend was observed between CSF irisin and total tau (t-tau) in the overall patient population (r = −0.144; P = 0.082), and more notably in female patients (r = −0.189; P = 0.084), these results were not statistically significant.
Plasma irisin levels were not significantly correlated with any of the other biomarkers.
Clinical Implications
This study “verifies that irisin levels do have a relationship to the Alzheimer’s disease process,” said Dylan Wint, MD, director of Cleveland Clinic Lou Ruvo Center for Brain Health, Las Vegas.
In a written comment, Dr. Wint speculated that measuring irisin levels could theoretically help individualize physical exercise routines designed to combat cognitive decline.
“For example, maybe someone who is exercising but has a low irisin level would need to change the type of exercise they’re doing in order to optimally protect their brain health,” he said. “Or maybe they won’t get the same benefits for brain health as someone whose irisin shoots up every time they walk a flight of stairs.”
It’s “near-impossible to tell,” however, if irisin will be employed in clinical trials or real-world practice, he added.
“I don’t see this being a highly useful serum biomarker for Alzheimer’s disease itself because other serum biomarkers are so far ahead and have more face validity,” Dr. Wint said.
The route of collection could also cause challenges.
“In the United States, CSF-based biomarkers can be a difficult sell, especially for serial testing,” Dr. Wint said. “But we have usable serum biomarkers for Alzheimer’s disease only because we have had CSF biomarkers against which to evaluate them. They may develop a way to evaluate this in the serum.”
Dr. Dicarlo and colleagues suggested that more work is needed to determine the ultimate value of irisin measurement.“The true ability of irisin to represent a biomarker of disease progression and severity remains to be further investigated,” they concluded. “However, our findings might offer interesting perspectives toward the potential role of irisin in the modulation of AD pathology and can guide the exploration of medication targeting the irisin system.”
The study was supported by Regione Puglia and CNR for Tecnopolo per la Medicina di Precisione, CIREMIC, the University of Bari, and Next Generation EU. The investigators and Dr. Wint disclosed no conflicts of interest.
FROM ANNALS OF NEUROLOGY
Prodromal Parkinson’s Disease: Diagnostic Dilemma
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
FROM NEUROLOGY