Stroke

Infertility, pregnancy loss, and stillbirth increased women’s later risk of both nonfatal and fatal stroke, based on data from more than 600,000 women.

“To date, multiple studies have generated an expanding body of evidence on the association between pregnancy complications (e.g., gestational diabetes and preeclampsia) and the long-term risk of stroke, but studies on associations with infertility, miscarriage, or stillbirth have produced mixed evidence,” Chen Liang, a PhD candidate at the University of Queensland, Brisbane, Australia, and colleagues wrote.

In a study published in the BMJ, the researchers reviewed data from eight observational cohort studies across seven countries (Australia, China, Japan, the Netherlands, Sweden, the United Kingdom, and the United States). The participants were part of the InterLACE (International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events) consortium established in 2021. Most observational studies included in the analysis began between 1990 and 2000.

The study population included 618,851 women aged 32-73 years at baseline for whom data on infertility, miscarriage, or stillbirth, were available. The primary outcome was the association of infertility, recurrent miscarriage, and stillbirth with risk of first fatal or nonfatal stroke, and the results were further stratified by subtype. Stroke was identified through self-reports, linked hospital data, national patient registers, or death registry data. Baseline was defined as the first incidence of infertility, miscarriage, or stillbirth. The exception was the National Survey of Health and Development, a British birth cohort started in 1946, that collected data retrospectively.

The median follow-up period was 13 years for nonfatal stroke and 9.4 years for fatal stroke.

Overall, 17.2%, 16.6%, and 4.6% of the women experienced infertility, miscarriage, and stillbirth, respectively.

Women with a history of infertility had a significantly higher nonfatal stroke risk, compared with those without infertility (hazard ratio, 1.14). Further analysis by stroke subtypes showed an increased association between miscarriage and ischemic stroke (HR, 1.15).

Those with a history of miscarriage also had an increased risk of nonfatal stroke, compared with those without miscarriages (HR, 1.11). In the miscarriage group, the risk of stroke increased with the number of miscarriages, with adjusted HRs of 1.07, 1.12, and 1.35 for women with one, two, and three or more miscarriages, respectively. When stratified by stroke subtype, women with three or more miscarriages were more likely than women with no miscarriages to experience ischemic and hemorrhagic nonfatal strokes.

Associations were similar between miscarriage history and fatal stroke risk. Women with one, two, and three or more miscarriages had increased risk of fatal stroke, compared with those with no miscarriages (aHR, 1.08, 1.26, and 1.82, respectively, and women with three or more miscarriages had a higher risk of ischemic and hemorrhagic stroke (aHR, 1.83 and 1.84, respectively).

Women with a history of stillbirth had an approximately 31% increased risk of nonfatal stroke, compared with those with no history of stillbirth, with aHRs similar for single and recurrent stillbirths (1.32 and 1.29, respectively). Ischemic nonfatal stroke risk was higher in women with any stillbirth, compared with those without stillbirth (aHR, 1.77). Fatal stroke risk also was higher in women with any stillbirth, compared with those without, and this risk increased with the number of stillbirths (HR, 0.97 and HR, 1.26 for those with one stillbirth and two or more, respectively).

“The increased risk of stroke associated with infertility or recurrent stillbirths was mainly driven by a single subtype of stroke (nonfatal ischemic stroke or fatal hemorrhagic stroke, respectively), whereas the risk of stroke associated with recurrent miscarriages was driven by both subtypes,” the researchers wrote.

The researchers cited endothelial dysfunction as a potential underlying mechanism for increased stroke risk associated with pregnancy complications. “Endothelial dysfunction might lead to pregnancy loss through placentation-related defects, persist after a complicated pregnancy, and contribute to the development of stroke through reduced vasodilation, proinflammatory status, and prothrombic properties,” and that history of recurrent pregnancy loss might be a female-specific risk factor for stroke.

To mitigate this risk, they advised early monitoring of women with a history of recurrent miscarriages and stillbirths for stroke risk factors such as high blood pressure, blood sugar levels, and lipid levels.

The study findings were limited by several factors including the use of questionnaires to collect information on infertility, miscarriage, and stillbirth, and the potential variation in definitions of infertility, miscarriage, and stillbirth across the included studies, and a lack of data on the effect of different causes or treatments based on reproductive histories, the researchers noted. Other limitations include incomplete data on stroke subtypes and inability to adjust for all covariates such as thyroid disorders and endometriosis. However, the results were strengthened by the large study size and geographically and racially diverse population, extend the current knowledge on associations between infertility, miscarriage, and stillbirth with stroke, and highlight the need for more research on underlying mechanisms.
 

Data support gender-specific stroke risk stratification

“Studies that seek to understand gender differences and disparities in adverse outcomes, such as stroke risk, are extremely important given that women historically were excluded from research studies,” Catherine M. Albright, MD, of the University of Washington, Seattle, said in an interview. “By doing these studies, we are able to better risk stratify people in order to better predict and modify risks,” added Dr. Albright, who was not involved in the current study.

“It is well known than adverse pregnancy outcomes such as hypertension in pregnancy, fetal growth restriction, and preterm birth, lead to increased risk of cardiovascular disease and stroke later in life, so the general findings of an association between other adverse reproductive and pregnancy outcomes leads to increased stroke risk are not surprising,” she said.

“The take-home message is that outcomes for pregnancy really do provide a window to future health,” said Dr. Albright. “For clinicians, especially non-ob.gyns., knowing a complete pregnancy history for any new patient is important and can help risk-stratify patients, especially as we continue to gain knowledge like what is shown in this study.”

However, “this study did not evaluate why individual patients may have had infertility, recurrent pregnancy loss, or stillbirth, so research to look further into this association to determine if there is an underlying medical condition that could be treated and therefore possibly reduce both pregnancy complications and future stroke risks would be important,” Dr. Albright noted.

The study was supported by the Australian National Health and Medical Research Council Centres of Research Excellence; one corresponding author was supported by an Australian National Health and Medical Research Council Investigator grant. The researchers had no financial conflicts to disclose. Dr. Albright had no financial conflicts to disclose.

Infertility, pregnancy loss, and stillbirth increased women’s later risk of both nonfatal and fatal stroke, based on data from more than 600,000 women.

“To date, multiple studies have generated an expanding body of evidence on the association between pregnancy complications (e.g., gestational diabetes and preeclampsia) and the long-term risk of stroke, but studies on associations with infertility, miscarriage, or stillbirth have produced mixed evidence,” Chen Liang, a PhD candidate at the University of Queensland, Brisbane, Australia, and colleagues wrote.

In a study published in the BMJ, the researchers reviewed data from eight observational cohort studies across seven countries (Australia, China, Japan, the Netherlands, Sweden, the United Kingdom, and the United States). The participants were part of the InterLACE (International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events) consortium established in 2021. Most observational studies included in the analysis began between 1990 and 2000.

The study population included 618,851 women aged 32-73 years at baseline for whom data on infertility, miscarriage, or stillbirth, were available. The primary outcome was the association of infertility, recurrent miscarriage, and stillbirth with risk of first fatal or nonfatal stroke, and the results were further stratified by subtype. Stroke was identified through self-reports, linked hospital data, national patient registers, or death registry data. Baseline was defined as the first incidence of infertility, miscarriage, or stillbirth. The exception was the National Survey of Health and Development, a British birth cohort started in 1946, that collected data retrospectively.

The median follow-up period was 13 years for nonfatal stroke and 9.4 years for fatal stroke.

Overall, 17.2%, 16.6%, and 4.6% of the women experienced infertility, miscarriage, and stillbirth, respectively.

Women with a history of infertility had a significantly higher nonfatal stroke risk, compared with those without infertility (hazard ratio, 1.14). Further analysis by stroke subtypes showed an increased association between miscarriage and ischemic stroke (HR, 1.15).

Those with a history of miscarriage also had an increased risk of nonfatal stroke, compared with those without miscarriages (HR, 1.11). In the miscarriage group, the risk of stroke increased with the number of miscarriages, with adjusted HRs of 1.07, 1.12, and 1.35 for women with one, two, and three or more miscarriages, respectively. When stratified by stroke subtype, women with three or more miscarriages were more likely than women with no miscarriages to experience ischemic and hemorrhagic nonfatal strokes.

Associations were similar between miscarriage history and fatal stroke risk. Women with one, two, and three or more miscarriages had increased risk of fatal stroke, compared with those with no miscarriages (aHR, 1.08, 1.26, and 1.82, respectively, and women with three or more miscarriages had a higher risk of ischemic and hemorrhagic stroke (aHR, 1.83 and 1.84, respectively).

Women with a history of stillbirth had an approximately 31% increased risk of nonfatal stroke, compared with those with no history of stillbirth, with aHRs similar for single and recurrent stillbirths (1.32 and 1.29, respectively). Ischemic nonfatal stroke risk was higher in women with any stillbirth, compared with those without stillbirth (aHR, 1.77). Fatal stroke risk also was higher in women with any stillbirth, compared with those without, and this risk increased with the number of stillbirths (HR, 0.97 and HR, 1.26 for those with one stillbirth and two or more, respectively).

“The increased risk of stroke associated with infertility or recurrent stillbirths was mainly driven by a single subtype of stroke (nonfatal ischemic stroke or fatal hemorrhagic stroke, respectively), whereas the risk of stroke associated with recurrent miscarriages was driven by both subtypes,” the researchers wrote.

The researchers cited endothelial dysfunction as a potential underlying mechanism for increased stroke risk associated with pregnancy complications. “Endothelial dysfunction might lead to pregnancy loss through placentation-related defects, persist after a complicated pregnancy, and contribute to the development of stroke through reduced vasodilation, proinflammatory status, and prothrombic properties,” and that history of recurrent pregnancy loss might be a female-specific risk factor for stroke.

To mitigate this risk, they advised early monitoring of women with a history of recurrent miscarriages and stillbirths for stroke risk factors such as high blood pressure, blood sugar levels, and lipid levels.

The study findings were limited by several factors including the use of questionnaires to collect information on infertility, miscarriage, and stillbirth, and the potential variation in definitions of infertility, miscarriage, and stillbirth across the included studies, and a lack of data on the effect of different causes or treatments based on reproductive histories, the researchers noted. Other limitations include incomplete data on stroke subtypes and inability to adjust for all covariates such as thyroid disorders and endometriosis. However, the results were strengthened by the large study size and geographically and racially diverse population, extend the current knowledge on associations between infertility, miscarriage, and stillbirth with stroke, and highlight the need for more research on underlying mechanisms.
 

Data support gender-specific stroke risk stratification

“Studies that seek to understand gender differences and disparities in adverse outcomes, such as stroke risk, are extremely important given that women historically were excluded from research studies,” Catherine M. Albright, MD, of the University of Washington, Seattle, said in an interview. “By doing these studies, we are able to better risk stratify people in order to better predict and modify risks,” added Dr. Albright, who was not involved in the current study.

“It is well known than adverse pregnancy outcomes such as hypertension in pregnancy, fetal growth restriction, and preterm birth, lead to increased risk of cardiovascular disease and stroke later in life, so the general findings of an association between other adverse reproductive and pregnancy outcomes leads to increased stroke risk are not surprising,” she said.

“The take-home message is that outcomes for pregnancy really do provide a window to future health,” said Dr. Albright. “For clinicians, especially non-ob.gyns., knowing a complete pregnancy history for any new patient is important and can help risk-stratify patients, especially as we continue to gain knowledge like what is shown in this study.”

However, “this study did not evaluate why individual patients may have had infertility, recurrent pregnancy loss, or stillbirth, so research to look further into this association to determine if there is an underlying medical condition that could be treated and therefore possibly reduce both pregnancy complications and future stroke risks would be important,” Dr. Albright noted.

The study was supported by the Australian National Health and Medical Research Council Centres of Research Excellence; one corresponding author was supported by an Australian National Health and Medical Research Council Investigator grant. The researchers had no financial conflicts to disclose. Dr. Albright had no financial conflicts to disclose.

Infertility, pregnancy loss, and stillbirth increased women’s later risk of both nonfatal and fatal stroke, based on data from more than 600,000 women.

“To date, multiple studies have generated an expanding body of evidence on the association between pregnancy complications (e.g., gestational diabetes and preeclampsia) and the long-term risk of stroke, but studies on associations with infertility, miscarriage, or stillbirth have produced mixed evidence,” Chen Liang, a PhD candidate at the University of Queensland, Brisbane, Australia, and colleagues wrote.

In a study published in the BMJ, the researchers reviewed data from eight observational cohort studies across seven countries (Australia, China, Japan, the Netherlands, Sweden, the United Kingdom, and the United States). The participants were part of the InterLACE (International Collaboration for a Life Course Approach to Reproductive Health and Chronic Disease Events) consortium established in 2021. Most observational studies included in the analysis began between 1990 and 2000.

The study population included 618,851 women aged 32-73 years at baseline for whom data on infertility, miscarriage, or stillbirth, were available. The primary outcome was the association of infertility, recurrent miscarriage, and stillbirth with risk of first fatal or nonfatal stroke, and the results were further stratified by subtype. Stroke was identified through self-reports, linked hospital data, national patient registers, or death registry data. Baseline was defined as the first incidence of infertility, miscarriage, or stillbirth. The exception was the National Survey of Health and Development, a British birth cohort started in 1946, that collected data retrospectively.

The median follow-up period was 13 years for nonfatal stroke and 9.4 years for fatal stroke.

Overall, 17.2%, 16.6%, and 4.6% of the women experienced infertility, miscarriage, and stillbirth, respectively.

Women with a history of infertility had a significantly higher nonfatal stroke risk, compared with those without infertility (hazard ratio, 1.14). Further analysis by stroke subtypes showed an increased association between miscarriage and ischemic stroke (HR, 1.15).

Those with a history of miscarriage also had an increased risk of nonfatal stroke, compared with those without miscarriages (HR, 1.11). In the miscarriage group, the risk of stroke increased with the number of miscarriages, with adjusted HRs of 1.07, 1.12, and 1.35 for women with one, two, and three or more miscarriages, respectively. When stratified by stroke subtype, women with three or more miscarriages were more likely than women with no miscarriages to experience ischemic and hemorrhagic nonfatal strokes.

Associations were similar between miscarriage history and fatal stroke risk. Women with one, two, and three or more miscarriages had increased risk of fatal stroke, compared with those with no miscarriages (aHR, 1.08, 1.26, and 1.82, respectively, and women with three or more miscarriages had a higher risk of ischemic and hemorrhagic stroke (aHR, 1.83 and 1.84, respectively).

Women with a history of stillbirth had an approximately 31% increased risk of nonfatal stroke, compared with those with no history of stillbirth, with aHRs similar for single and recurrent stillbirths (1.32 and 1.29, respectively). Ischemic nonfatal stroke risk was higher in women with any stillbirth, compared with those without stillbirth (aHR, 1.77). Fatal stroke risk also was higher in women with any stillbirth, compared with those without, and this risk increased with the number of stillbirths (HR, 0.97 and HR, 1.26 for those with one stillbirth and two or more, respectively).

“The increased risk of stroke associated with infertility or recurrent stillbirths was mainly driven by a single subtype of stroke (nonfatal ischemic stroke or fatal hemorrhagic stroke, respectively), whereas the risk of stroke associated with recurrent miscarriages was driven by both subtypes,” the researchers wrote.

The researchers cited endothelial dysfunction as a potential underlying mechanism for increased stroke risk associated with pregnancy complications. “Endothelial dysfunction might lead to pregnancy loss through placentation-related defects, persist after a complicated pregnancy, and contribute to the development of stroke through reduced vasodilation, proinflammatory status, and prothrombic properties,” and that history of recurrent pregnancy loss might be a female-specific risk factor for stroke.

To mitigate this risk, they advised early monitoring of women with a history of recurrent miscarriages and stillbirths for stroke risk factors such as high blood pressure, blood sugar levels, and lipid levels.

The study findings were limited by several factors including the use of questionnaires to collect information on infertility, miscarriage, and stillbirth, and the potential variation in definitions of infertility, miscarriage, and stillbirth across the included studies, and a lack of data on the effect of different causes or treatments based on reproductive histories, the researchers noted. Other limitations include incomplete data on stroke subtypes and inability to adjust for all covariates such as thyroid disorders and endometriosis. However, the results were strengthened by the large study size and geographically and racially diverse population, extend the current knowledge on associations between infertility, miscarriage, and stillbirth with stroke, and highlight the need for more research on underlying mechanisms.
 

Data support gender-specific stroke risk stratification

“Studies that seek to understand gender differences and disparities in adverse outcomes, such as stroke risk, are extremely important given that women historically were excluded from research studies,” Catherine M. Albright, MD, of the University of Washington, Seattle, said in an interview. “By doing these studies, we are able to better risk stratify people in order to better predict and modify risks,” added Dr. Albright, who was not involved in the current study.

“It is well known than adverse pregnancy outcomes such as hypertension in pregnancy, fetal growth restriction, and preterm birth, lead to increased risk of cardiovascular disease and stroke later in life, so the general findings of an association between other adverse reproductive and pregnancy outcomes leads to increased stroke risk are not surprising,” she said.

“The take-home message is that outcomes for pregnancy really do provide a window to future health,” said Dr. Albright. “For clinicians, especially non-ob.gyns., knowing a complete pregnancy history for any new patient is important and can help risk-stratify patients, especially as we continue to gain knowledge like what is shown in this study.”

However, “this study did not evaluate why individual patients may have had infertility, recurrent pregnancy loss, or stillbirth, so research to look further into this association to determine if there is an underlying medical condition that could be treated and therefore possibly reduce both pregnancy complications and future stroke risks would be important,” Dr. Albright noted.

The study was supported by the Australian National Health and Medical Research Council Centres of Research Excellence; one corresponding author was supported by an Australian National Health and Medical Research Council Investigator grant. The researchers had no financial conflicts to disclose. Dr. Albright had no financial conflicts to disclose.

Practice has gone back and forth on whether atrial fibrillation (AFib) should be considered in the preoperative cardiovascular risk (CV) evaluation of patients slated for noncardiac surgery, and the Revised Cardiac Risk Index (RCRI), currently widely used as an assessment tool, doesn’t include the arrhythmia.

But consideration of preexisting AFib along with the RCRI predicted 30-day mortality more sharply than the RCRI alone in an analysis of data covering several million patients slated for such procedures.

enot-poloskun/Getty Images

• 1.31 (95% CI, 1.30-1.33) for heart failure
• 1.40 (95% CI, 1.37-1.43) for stroke
• 1.59 (95% CI, 1.43-1.75) for systemic embolism
• 1.14 (95% CI, 1.13-1.16) for major bleeding  
• 0.81 (95% CI, 0.79-0.82) for MI

Those with preexisting AFib also had longer hospitalizations at a median 5 days, compared with 4 days for those without such AFib (P < .001).

The study has the limitations of most any retrospective cohort analysis. Other limitations, the report notes, include lack of information on any antiarrhythmic meds given during hospitalization or type of AFib.

For example, AFib that is permanent – compared with paroxysmal or persistent – may be associated with more atrial fibrosis, greater atrial dilatation, “and probably higher pressures inside the heart,” Dr. Mentias observed.

“That’s not always the case, but that’s the notion. So presumably people with persistent or permanent atrial fib would have more advanced heart disease, and that could imply more risk. But we did not have that kind of data.”

Dr. Mentias and Dr. Prasada report no relevant financial relationships; disclosures for the other authors are in the report. Dr. Curtis discloses serving on advisory boards for Abbott, Janssen Pharmaceuticals, Sanofi, and Milestone Pharmaceuticals; receiving honoraria for speaking from Medtronic and Zoll; and serving on a data-monitoring board for Medtronic. Dr. Korada reports he has no relevant financial relationships.

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

Practice has gone back and forth on whether atrial fibrillation (AFib) should be considered in the preoperative cardiovascular risk (CV) evaluation of patients slated for noncardiac surgery, and the Revised Cardiac Risk Index (RCRI), currently widely used as an assessment tool, doesn’t include the arrhythmia.

But consideration of preexisting AFib along with the RCRI predicted 30-day mortality more sharply than the RCRI alone in an analysis of data covering several million patients slated for such procedures.

enot-poloskun/Getty Images

• 1.31 (95% CI, 1.30-1.33) for heart failure
• 1.40 (95% CI, 1.37-1.43) for stroke
• 1.59 (95% CI, 1.43-1.75) for systemic embolism
• 1.14 (95% CI, 1.13-1.16) for major bleeding  
• 0.81 (95% CI, 0.79-0.82) for MI

Those with preexisting AFib also had longer hospitalizations at a median 5 days, compared with 4 days for those without such AFib (P < .001).

The study has the limitations of most any retrospective cohort analysis. Other limitations, the report notes, include lack of information on any antiarrhythmic meds given during hospitalization or type of AFib.

For example, AFib that is permanent – compared with paroxysmal or persistent – may be associated with more atrial fibrosis, greater atrial dilatation, “and probably higher pressures inside the heart,” Dr. Mentias observed.

“That’s not always the case, but that’s the notion. So presumably people with persistent or permanent atrial fib would have more advanced heart disease, and that could imply more risk. But we did not have that kind of data.”

Dr. Mentias and Dr. Prasada report no relevant financial relationships; disclosures for the other authors are in the report. Dr. Curtis discloses serving on advisory boards for Abbott, Janssen Pharmaceuticals, Sanofi, and Milestone Pharmaceuticals; receiving honoraria for speaking from Medtronic and Zoll; and serving on a data-monitoring board for Medtronic. Dr. Korada reports he has no relevant financial relationships.

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

Practice has gone back and forth on whether atrial fibrillation (AFib) should be considered in the preoperative cardiovascular risk (CV) evaluation of patients slated for noncardiac surgery, and the Revised Cardiac Risk Index (RCRI), currently widely used as an assessment tool, doesn’t include the arrhythmia.

But consideration of preexisting AFib along with the RCRI predicted 30-day mortality more sharply than the RCRI alone in an analysis of data covering several million patients slated for such procedures.

enot-poloskun/Getty Images

• 1.31 (95% CI, 1.30-1.33) for heart failure
• 1.40 (95% CI, 1.37-1.43) for stroke
• 1.59 (95% CI, 1.43-1.75) for systemic embolism
• 1.14 (95% CI, 1.13-1.16) for major bleeding  
• 0.81 (95% CI, 0.79-0.82) for MI

Those with preexisting AFib also had longer hospitalizations at a median 5 days, compared with 4 days for those without such AFib (P < .001).

The study has the limitations of most any retrospective cohort analysis. Other limitations, the report notes, include lack of information on any antiarrhythmic meds given during hospitalization or type of AFib.

For example, AFib that is permanent – compared with paroxysmal or persistent – may be associated with more atrial fibrosis, greater atrial dilatation, “and probably higher pressures inside the heart,” Dr. Mentias observed.

“That’s not always the case, but that’s the notion. So presumably people with persistent or permanent atrial fib would have more advanced heart disease, and that could imply more risk. But we did not have that kind of data.”

Dr. Mentias and Dr. Prasada report no relevant financial relationships; disclosures for the other authors are in the report. Dr. Curtis discloses serving on advisory boards for Abbott, Janssen Pharmaceuticals, Sanofi, and Milestone Pharmaceuticals; receiving honoraria for speaking from Medtronic and Zoll; and serving on a data-monitoring board for Medtronic. Dr. Korada reports he has no relevant financial relationships.

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

Despite a new meta-analysis claiming to show that testosterone replacement therapy for men with hypogonadism does not increase the risk of cardiovascular outcomes such as myocardial infarction or stroke, experts say the jury is still out.

A more definitive answer for cardiovascular safety of testosterone therapy will come from the TRAVERSE dedicated cardiovascular outcome trial, sponsored by AbbVie, which will have up to 5 years of follow-up, with results expected later this year.

The current meta-analysis by Jemma Hudson of Aberdeen (Scotland) University and colleagues was published online in The Lancet Healthy Longevity. The work will also be presented June 13 at ENDO 2022, the Endocrine Society’s annual meeting in Atlanta, Georgia, by senior author Channa Y. Jayasena, MD, PhD.

In 2014, the U.S. Food and Drug Administration mandated a label on testosterone products warning of possible increased cardiovascular risks and to reserve the therapy for symptomatic hypogonadism only. In contrast, the European Medicines Agency concluded that when hypogonadism is properly diagnosed and managed, there is currently no clear, consistent evidence that testosterone therapy causes increased cardiovascular risk.

To address this uncertainty, Dr. Hudson and colleagues formed a global collaborative to obtain individual patient data on cardiovascular outcomes from randomized controlled trials of testosterone therapy for men with hypogonadism.

They pooled data from 35 trials published from 1992 to Aug. 27, 2018, including 17 trials (3,431 patients) for which the researchers obtained patient-level data. The individual trials were 3-12 months long, except for one 3-year trial.

During a mean follow-up of 9.5 months, there was no significant increase in cardiovascular outcomes in men randomized to testosterone therapy versus placebo (odds ratio, 1.07; P = .62), nor were there any significantly increased risks of death, stroke, or different types of cardiovascular outcome, although those numbers were small.  

This is “the most comprehensive study to date investigating the safety of testosterone treatment of hypogonadism,” according to the researchers. “The current results provide some reassurance about the short-term to medium-term safety of testosterone to treat male hypogonadism,” they conclude.

However, they also acknowledge that “long-term data are needed to fully evaluate the safety of testosterone.”

Erin D. Michos, MD, coauthor of an accompanying editorial, told this news organization, “This study doesn’t say to me that low testosterone necessarily needs to be treated. It’s still not indicated in people just for a low number [for blood testosterone] with less-severe symptoms. It really comes down to each individual person, how symptomatic they are, and their cardiovascular risk.”

‘Trial is not definitive’

Dr. Michos is not the only person to be skeptical. Together with Steven Nissen, MD, an investigator for the TRAVERSE trial, she agrees that this new evidence is not yet decisive, largely because the individual trials in the meta-analysis were short and not designed as cardiovascular outcome trials.

Dr. Nissen, a cardiologist at Cleveland Clinic, added that the individual trials were heterogeneous, with “very few real cardiovascular events,” so the meta-analysis “is not definitive,” he said in an interview.

While this meta-analysis “that pooled together a lot of smaller studies is reassuring that there’s no signal of harm, it’s really inconclusive because the follow-up was really short – a mean of only 9.5 months – and you really need a larger study with longer follow up to be more conclusive,” Dr. Michos noted.

“We should have more data soon” from TRAVERSE, said Dr. Michos, from the division of cardiology, Johns Hopkins University, Baltimore, who is not involved with that study.

Meanwhile, “I don’t think [this analysis] changes the current recommendations,” she said.

“We should continue to use caution as indicated by the FDA label and only use testosterone therapy selectively in people who have true symptoms of hypogonadism,” and be cautious about using it particularly in men at higher cardiovascular risk because of family history or known personal heart disease.

On the other hand, the meta-analysis did not show harm, she noted, “so we don’t necessarily need to pull patients off therapy if they are already taking it. But I wouldn’t right now just start new patients on it unless they had a strong indication.”

“Certainly, great caution is advised regarding the use of testosterone replacement therapy in people with established atherosclerosis due to the findings of plaque progression in the testosterone trials and the excess cardiovascular events observed in the TOM trial, write Dr. Michos and fellow editorialist Matthew J. Budoff, MD, of University of California, Los Angeles, in their editorial.
 

Earlier data inconclusive

Testosterone concentrations progressively decline in men with advancing age, at about 2% per year, Dr. Michos and Dr. Budoff write. In addition, men with obesity or with diabetes have low levels of testosterone, Dr. Michos noted.

Low testosterone blood levels have been associated with insulin resistance, inflammation, dyslipidemia, and atherosclerosis. Testosterone replacement therapy has been used to increase libido, improve erectile dysfunction, and boost energy levels, mood, and muscle strength.

But it is well known that testosterone increases hematocrit, which has the potential to increase the risk of venous thromboembolism.

Two large observational studies have reported increased risks of myocardial infarction, stroke, and death in men taking testosterone, compared with nonusers, but the study designs have been widely criticized, Dr. Hudson and coauthors say in their article.  

A placebo-controlled trial was stopped early by its data- and safety-monitoring board following increased cardiovascular events in men aged 65 and older who received 6 months of testosterone. Other controlled trials have not observed these effects, but none was sufficiently powered.
 

Meta-analysis results

Dr. Hudson and colleagues performed a meta-analysis of 35 trials in 5,601 men aged 18 years and older with low baseline testosterone (≤ 350 nmol/dL) who had been randomized to testosterone replacement therapy or placebo for at least 3 months, for which there were data on mortality, stroke, and cardiovascular outcomes.

The men were a mean age of 65, had a mean body mass index of 30 kg/m², and most (88%) were White. A quarter had angina, 8% had a previous myocardial infarction, and 27% had diabetes. 

Cardiovascular and cerebrovascular outcomes were not primary outcomes.

During a mean follow-up of 9.5 months, in the 13 trials that provided this information, the rate of cardiovascular events was similar in the men who received testosterone (120/1,601, 7.5%) compared with those who received placebo (110/1,519, 7.2%).

In the 14 trials that provided this information, fewer deaths were reported during testosterone treatment (6/1,621, 0.4%) than during placebo treatment (12/1,537, 0.8%), but these numbers were too small to establish whether testosterone reduced mortality risk.

The most common cardiovascular events were arrhythmia, followed by coronary heart disease, heart failure, and myocardial infarction.

Patient age, baseline testosterone, smoking status, or diabetes status were not associated with cardiovascular risk.

The only detected adverse effects were edema and a modest lowering of HDL cholesterol.

“Men who develop sexual dysfunction, unexplained anemia, or osteoporosis should be tested for low testosterone,” senior author of the meta-analysis Dr. Jayasena said in an email to this news organization.

However, Dr. Jayasena added, “Mass screening for testosterone has no benefit in asymptomatic men.”

“Older men may still benefit from testosterone, but only if they have the clinical features [of hypogonadism] and low testosterone levels,” he concluded.  

The current study is supported by the Health Technology Assessment program of the National Institute for Health Research. The TRAVERSE trial is sponsored by AbbVie. Dr. Jayasena has reported receiving research grants from LogixX Pharma. Dr. Hudson has reported no relevant financial relationships. Disclosures for the other authors are listed in the article. Dr. Michos has reported receiving support from the Amato Fund in Women’s Cardiovascular Health at Johns Hopkins School of Medicine and serving on medical advisory boards for Novartis, Esperion, Amarin, and AstraZeneca outside the submitted work. Dr. Budoff has reported receiving grant support from General Electric.
 

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

Despite a new meta-analysis claiming to show that testosterone replacement therapy for men with hypogonadism does not increase the risk of cardiovascular outcomes such as myocardial infarction or stroke, experts say the jury is still out.

A more definitive answer for cardiovascular safety of testosterone therapy will come from the TRAVERSE dedicated cardiovascular outcome trial, sponsored by AbbVie, which will have up to 5 years of follow-up, with results expected later this year.

The current meta-analysis by Jemma Hudson of Aberdeen (Scotland) University and colleagues was published online in The Lancet Healthy Longevity. The work will also be presented June 13 at ENDO 2022, the Endocrine Society’s annual meeting in Atlanta, Georgia, by senior author Channa Y. Jayasena, MD, PhD.

In 2014, the U.S. Food and Drug Administration mandated a label on testosterone products warning of possible increased cardiovascular risks and to reserve the therapy for symptomatic hypogonadism only. In contrast, the European Medicines Agency concluded that when hypogonadism is properly diagnosed and managed, there is currently no clear, consistent evidence that testosterone therapy causes increased cardiovascular risk.

To address this uncertainty, Dr. Hudson and colleagues formed a global collaborative to obtain individual patient data on cardiovascular outcomes from randomized controlled trials of testosterone therapy for men with hypogonadism.

They pooled data from 35 trials published from 1992 to Aug. 27, 2018, including 17 trials (3,431 patients) for which the researchers obtained patient-level data. The individual trials were 3-12 months long, except for one 3-year trial.

During a mean follow-up of 9.5 months, there was no significant increase in cardiovascular outcomes in men randomized to testosterone therapy versus placebo (odds ratio, 1.07; P = .62), nor were there any significantly increased risks of death, stroke, or different types of cardiovascular outcome, although those numbers were small.  

This is “the most comprehensive study to date investigating the safety of testosterone treatment of hypogonadism,” according to the researchers. “The current results provide some reassurance about the short-term to medium-term safety of testosterone to treat male hypogonadism,” they conclude.

However, they also acknowledge that “long-term data are needed to fully evaluate the safety of testosterone.”

Erin D. Michos, MD, coauthor of an accompanying editorial, told this news organization, “This study doesn’t say to me that low testosterone necessarily needs to be treated. It’s still not indicated in people just for a low number [for blood testosterone] with less-severe symptoms. It really comes down to each individual person, how symptomatic they are, and their cardiovascular risk.”

‘Trial is not definitive’

Dr. Michos is not the only person to be skeptical. Together with Steven Nissen, MD, an investigator for the TRAVERSE trial, she agrees that this new evidence is not yet decisive, largely because the individual trials in the meta-analysis were short and not designed as cardiovascular outcome trials.

Dr. Nissen, a cardiologist at Cleveland Clinic, added that the individual trials were heterogeneous, with “very few real cardiovascular events,” so the meta-analysis “is not definitive,” he said in an interview.

While this meta-analysis “that pooled together a lot of smaller studies is reassuring that there’s no signal of harm, it’s really inconclusive because the follow-up was really short – a mean of only 9.5 months – and you really need a larger study with longer follow up to be more conclusive,” Dr. Michos noted.

“We should have more data soon” from TRAVERSE, said Dr. Michos, from the division of cardiology, Johns Hopkins University, Baltimore, who is not involved with that study.

Meanwhile, “I don’t think [this analysis] changes the current recommendations,” she said.

“We should continue to use caution as indicated by the FDA label and only use testosterone therapy selectively in people who have true symptoms of hypogonadism,” and be cautious about using it particularly in men at higher cardiovascular risk because of family history or known personal heart disease.

On the other hand, the meta-analysis did not show harm, she noted, “so we don’t necessarily need to pull patients off therapy if they are already taking it. But I wouldn’t right now just start new patients on it unless they had a strong indication.”

“Certainly, great caution is advised regarding the use of testosterone replacement therapy in people with established atherosclerosis due to the findings of plaque progression in the testosterone trials and the excess cardiovascular events observed in the TOM trial, write Dr. Michos and fellow editorialist Matthew J. Budoff, MD, of University of California, Los Angeles, in their editorial.
 

Earlier data inconclusive

Testosterone concentrations progressively decline in men with advancing age, at about 2% per year, Dr. Michos and Dr. Budoff write. In addition, men with obesity or with diabetes have low levels of testosterone, Dr. Michos noted.

Low testosterone blood levels have been associated with insulin resistance, inflammation, dyslipidemia, and atherosclerosis. Testosterone replacement therapy has been used to increase libido, improve erectile dysfunction, and boost energy levels, mood, and muscle strength.

But it is well known that testosterone increases hematocrit, which has the potential to increase the risk of venous thromboembolism.

Two large observational studies have reported increased risks of myocardial infarction, stroke, and death in men taking testosterone, compared with nonusers, but the study designs have been widely criticized, Dr. Hudson and coauthors say in their article.  

A placebo-controlled trial was stopped early by its data- and safety-monitoring board following increased cardiovascular events in men aged 65 and older who received 6 months of testosterone. Other controlled trials have not observed these effects, but none was sufficiently powered.
 

Meta-analysis results

Dr. Hudson and colleagues performed a meta-analysis of 35 trials in 5,601 men aged 18 years and older with low baseline testosterone (≤ 350 nmol/dL) who had been randomized to testosterone replacement therapy or placebo for at least 3 months, for which there were data on mortality, stroke, and cardiovascular outcomes.

The men were a mean age of 65, had a mean body mass index of 30 kg/m², and most (88%) were White. A quarter had angina, 8% had a previous myocardial infarction, and 27% had diabetes. 

Cardiovascular and cerebrovascular outcomes were not primary outcomes.

During a mean follow-up of 9.5 months, in the 13 trials that provided this information, the rate of cardiovascular events was similar in the men who received testosterone (120/1,601, 7.5%) compared with those who received placebo (110/1,519, 7.2%).

In the 14 trials that provided this information, fewer deaths were reported during testosterone treatment (6/1,621, 0.4%) than during placebo treatment (12/1,537, 0.8%), but these numbers were too small to establish whether testosterone reduced mortality risk.

The most common cardiovascular events were arrhythmia, followed by coronary heart disease, heart failure, and myocardial infarction.

Patient age, baseline testosterone, smoking status, or diabetes status were not associated with cardiovascular risk.

The only detected adverse effects were edema and a modest lowering of HDL cholesterol.

“Men who develop sexual dysfunction, unexplained anemia, or osteoporosis should be tested for low testosterone,” senior author of the meta-analysis Dr. Jayasena said in an email to this news organization.

However, Dr. Jayasena added, “Mass screening for testosterone has no benefit in asymptomatic men.”

“Older men may still benefit from testosterone, but only if they have the clinical features [of hypogonadism] and low testosterone levels,” he concluded.  

The current study is supported by the Health Technology Assessment program of the National Institute for Health Research. The TRAVERSE trial is sponsored by AbbVie. Dr. Jayasena has reported receiving research grants from LogixX Pharma. Dr. Hudson has reported no relevant financial relationships. Disclosures for the other authors are listed in the article. Dr. Michos has reported receiving support from the Amato Fund in Women’s Cardiovascular Health at Johns Hopkins School of Medicine and serving on medical advisory boards for Novartis, Esperion, Amarin, and AstraZeneca outside the submitted work. Dr. Budoff has reported receiving grant support from General Electric.
 

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

Despite a new meta-analysis claiming to show that testosterone replacement therapy for men with hypogonadism does not increase the risk of cardiovascular outcomes such as myocardial infarction or stroke, experts say the jury is still out.

A more definitive answer for cardiovascular safety of testosterone therapy will come from the TRAVERSE dedicated cardiovascular outcome trial, sponsored by AbbVie, which will have up to 5 years of follow-up, with results expected later this year.

The current meta-analysis by Jemma Hudson of Aberdeen (Scotland) University and colleagues was published online in The Lancet Healthy Longevity. The work will also be presented June 13 at ENDO 2022, the Endocrine Society’s annual meeting in Atlanta, Georgia, by senior author Channa Y. Jayasena, MD, PhD.

In 2014, the U.S. Food and Drug Administration mandated a label on testosterone products warning of possible increased cardiovascular risks and to reserve the therapy for symptomatic hypogonadism only. In contrast, the European Medicines Agency concluded that when hypogonadism is properly diagnosed and managed, there is currently no clear, consistent evidence that testosterone therapy causes increased cardiovascular risk.

To address this uncertainty, Dr. Hudson and colleagues formed a global collaborative to obtain individual patient data on cardiovascular outcomes from randomized controlled trials of testosterone therapy for men with hypogonadism.

They pooled data from 35 trials published from 1992 to Aug. 27, 2018, including 17 trials (3,431 patients) for which the researchers obtained patient-level data. The individual trials were 3-12 months long, except for one 3-year trial.

During a mean follow-up of 9.5 months, there was no significant increase in cardiovascular outcomes in men randomized to testosterone therapy versus placebo (odds ratio, 1.07; P = .62), nor were there any significantly increased risks of death, stroke, or different types of cardiovascular outcome, although those numbers were small.  

This is “the most comprehensive study to date investigating the safety of testosterone treatment of hypogonadism,” according to the researchers. “The current results provide some reassurance about the short-term to medium-term safety of testosterone to treat male hypogonadism,” they conclude.

However, they also acknowledge that “long-term data are needed to fully evaluate the safety of testosterone.”

Erin D. Michos, MD, coauthor of an accompanying editorial, told this news organization, “This study doesn’t say to me that low testosterone necessarily needs to be treated. It’s still not indicated in people just for a low number [for blood testosterone] with less-severe symptoms. It really comes down to each individual person, how symptomatic they are, and their cardiovascular risk.”

‘Trial is not definitive’

Dr. Michos is not the only person to be skeptical. Together with Steven Nissen, MD, an investigator for the TRAVERSE trial, she agrees that this new evidence is not yet decisive, largely because the individual trials in the meta-analysis were short and not designed as cardiovascular outcome trials.

Dr. Nissen, a cardiologist at Cleveland Clinic, added that the individual trials were heterogeneous, with “very few real cardiovascular events,” so the meta-analysis “is not definitive,” he said in an interview.

While this meta-analysis “that pooled together a lot of smaller studies is reassuring that there’s no signal of harm, it’s really inconclusive because the follow-up was really short – a mean of only 9.5 months – and you really need a larger study with longer follow up to be more conclusive,” Dr. Michos noted.

“We should have more data soon” from TRAVERSE, said Dr. Michos, from the division of cardiology, Johns Hopkins University, Baltimore, who is not involved with that study.

Meanwhile, “I don’t think [this analysis] changes the current recommendations,” she said.

“We should continue to use caution as indicated by the FDA label and only use testosterone therapy selectively in people who have true symptoms of hypogonadism,” and be cautious about using it particularly in men at higher cardiovascular risk because of family history or known personal heart disease.

On the other hand, the meta-analysis did not show harm, she noted, “so we don’t necessarily need to pull patients off therapy if they are already taking it. But I wouldn’t right now just start new patients on it unless they had a strong indication.”

“Certainly, great caution is advised regarding the use of testosterone replacement therapy in people with established atherosclerosis due to the findings of plaque progression in the testosterone trials and the excess cardiovascular events observed in the TOM trial, write Dr. Michos and fellow editorialist Matthew J. Budoff, MD, of University of California, Los Angeles, in their editorial.
 

Earlier data inconclusive

Testosterone concentrations progressively decline in men with advancing age, at about 2% per year, Dr. Michos and Dr. Budoff write. In addition, men with obesity or with diabetes have low levels of testosterone, Dr. Michos noted.

Low testosterone blood levels have been associated with insulin resistance, inflammation, dyslipidemia, and atherosclerosis. Testosterone replacement therapy has been used to increase libido, improve erectile dysfunction, and boost energy levels, mood, and muscle strength.

But it is well known that testosterone increases hematocrit, which has the potential to increase the risk of venous thromboembolism.

Two large observational studies have reported increased risks of myocardial infarction, stroke, and death in men taking testosterone, compared with nonusers, but the study designs have been widely criticized, Dr. Hudson and coauthors say in their article.  

A placebo-controlled trial was stopped early by its data- and safety-monitoring board following increased cardiovascular events in men aged 65 and older who received 6 months of testosterone. Other controlled trials have not observed these effects, but none was sufficiently powered.
 

Meta-analysis results

Dr. Hudson and colleagues performed a meta-analysis of 35 trials in 5,601 men aged 18 years and older with low baseline testosterone (≤ 350 nmol/dL) who had been randomized to testosterone replacement therapy or placebo for at least 3 months, for which there were data on mortality, stroke, and cardiovascular outcomes.

The men were a mean age of 65, had a mean body mass index of 30 kg/m², and most (88%) were White. A quarter had angina, 8% had a previous myocardial infarction, and 27% had diabetes. 

Cardiovascular and cerebrovascular outcomes were not primary outcomes.

During a mean follow-up of 9.5 months, in the 13 trials that provided this information, the rate of cardiovascular events was similar in the men who received testosterone (120/1,601, 7.5%) compared with those who received placebo (110/1,519, 7.2%).

In the 14 trials that provided this information, fewer deaths were reported during testosterone treatment (6/1,621, 0.4%) than during placebo treatment (12/1,537, 0.8%), but these numbers were too small to establish whether testosterone reduced mortality risk.

The most common cardiovascular events were arrhythmia, followed by coronary heart disease, heart failure, and myocardial infarction.

Patient age, baseline testosterone, smoking status, or diabetes status were not associated with cardiovascular risk.

The only detected adverse effects were edema and a modest lowering of HDL cholesterol.

“Men who develop sexual dysfunction, unexplained anemia, or osteoporosis should be tested for low testosterone,” senior author of the meta-analysis Dr. Jayasena said in an email to this news organization.

However, Dr. Jayasena added, “Mass screening for testosterone has no benefit in asymptomatic men.”

“Older men may still benefit from testosterone, but only if they have the clinical features [of hypogonadism] and low testosterone levels,” he concluded.  

The current study is supported by the Health Technology Assessment program of the National Institute for Health Research. The TRAVERSE trial is sponsored by AbbVie. Dr. Jayasena has reported receiving research grants from LogixX Pharma. Dr. Hudson has reported no relevant financial relationships. Disclosures for the other authors are listed in the article. Dr. Michos has reported receiving support from the Amato Fund in Women’s Cardiovascular Health at Johns Hopkins School of Medicine and serving on medical advisory boards for Novartis, Esperion, Amarin, and AstraZeneca outside the submitted work. Dr. Budoff has reported receiving grant support from General Electric.
 

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

Spending more time doing light-intensity activities and less time being sedentary was associated with a reduced risk for first stroke in a population-based study of middle aged and older adults.

The study also found relatively short periods of moderate to vigorous exercise were associated with reduced stroke risk.

“Our results suggest there are a number of ways to reduce stroke risk simply by moving about,” said lead author Steven P. Hooker, PhD, San Diego State University. “This could be with short periods of moderate to vigorous activity each day, longer periods of light activity, or just sedentary for shorter periods of time. All these things can make a difference.”

Dr. Hooker explained that, while it has been found previously that moderate to vigorous exercise reduces stroke risk, this study gives more information on light-intensity activities and sedentary behavior and the risk of stroke.

“Our results suggest that you don’t have to be a chronic exerciser to reduce stroke risk. Replacing sedentary time with light-intensity activity will be beneficial. Just go for a short walk, get up from your desk and move around the house at regular intervals. That can help to reduce stroke risk,” Dr. Hooker said.  

“Our message is basically to sit less and move more,” he added.  

The study was published online in JAMA Network Open.

The study involved 7,607 U.S. individuals without a history of stroke, with oversampling from the southeastern “Stroke Belt,” who were participating in the REGARDS cohort study.

The participants wore an accelerometer to measure physical activity and sedentary behavior for 7 consecutive days. The mean age of the individuals was 63 years; 54% were female, 32% were Black.

Over a mean follow-up of 7.4 years, 286 incident stroke cases occurred.

Results showed that increased levels of physical activity were associated with reduced risk of stroke.

For moderate to vigorous activity, compared with participants in the lowest tertile, those in the highest tertile of total daily time in moderate to vigorous activity had a 43% lower risk of stroke.

In the current study, the amount of moderate to vigorous activity associated with a significant reduction in stroke risk was approximately 25 minutes per day (3 hours per week).

Dr. Hooker noted that moderate to vigorous activity included things such as brisk walking, jogging, bike riding, swimming, or playing tennis or soccer. “Doing such activities for just 25 minutes per day reduced risk of stroke by 43%. This is very doable. Just commuting to work by bicycle would cover you here,” he said.

In terms of light-intensity activity, individuals who did 4-5 hours of light activities each day had a 26% reduced risk for first stroke, compared with those doing less than 3 hours of such light activities.

Dr. Hooker explained that examples of light activity included household chores, such as vacuuming, washing dishes, or going for a gentle stroll. “These activities do not require heaving breathing, increased heart rate or breaking into a sweat. They are activities of daily living and relatively easy to engage in.”

But he pointed out that the 4-5 hours of light activity every day linked to a reduction in stroke risk may be more difficult to achieve than the 25 minutes of moderate to vigorous activity, saying: “You have to have some intentionality here.”
 

Long bouts of sedentary time are harmful

The study also showed that sedentary time was associated with a higher risk for stroke.

The authors noted that time spent in sedentary behavior is of interest because most adults spend most of their awake time being physically inactive.

They report that participants in the highest tertile of sedentary time (more than 13 hours/day) exhibited a 44% increase in risk of stroke, compared with those in the lowest tertile (less than 11 hours/day), and the association remained significant when adjusted for several covariates, including moderate to vigorous activity.

“Even when controlling for the amount of other physical activity, sedentary behavior is still highly associated with risk of stroke. So even if you are active, long bouts of sedentary behavior are harmful,” Dr. Hooker commented.

They also found that longer bouts of sedentary time (more than 17 minutes at a time) were associated with a 54% higher risk of stroke than shorter bouts (less than 8 minutes).

“This suggests that breaking up periods of sedentary behavior into shorter bouts would be beneficial,” Dr. Hooker said.

“If you are going to spend the evening on the couch watching television, try to stand up and walk around every few minutes. Same for if you are sitting at a computer all day – try having a standing workstation, or at least take regular breaks to walk around,” he added.

This research was supported by grants from the National Institute of Neurological Disorders and Stroke and the National Institute on Aging. Additional funding was provided by an unrestricted grant from the Coca-Cola Company. The authors report no disclosures.

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

Spending more time doing light-intensity activities and less time being sedentary was associated with a reduced risk for first stroke in a population-based study of middle aged and older adults.

The study also found relatively short periods of moderate to vigorous exercise were associated with reduced stroke risk.

“Our results suggest there are a number of ways to reduce stroke risk simply by moving about,” said lead author Steven P. Hooker, PhD, San Diego State University. “This could be with short periods of moderate to vigorous activity each day, longer periods of light activity, or just sedentary for shorter periods of time. All these things can make a difference.”

Dr. Hooker explained that, while it has been found previously that moderate to vigorous exercise reduces stroke risk, this study gives more information on light-intensity activities and sedentary behavior and the risk of stroke.

“Our results suggest that you don’t have to be a chronic exerciser to reduce stroke risk. Replacing sedentary time with light-intensity activity will be beneficial. Just go for a short walk, get up from your desk and move around the house at regular intervals. That can help to reduce stroke risk,” Dr. Hooker said.  

“Our message is basically to sit less and move more,” he added.  

The study was published online in JAMA Network Open.

The study involved 7,607 U.S. individuals without a history of stroke, with oversampling from the southeastern “Stroke Belt,” who were participating in the REGARDS cohort study.

The participants wore an accelerometer to measure physical activity and sedentary behavior for 7 consecutive days. The mean age of the individuals was 63 years; 54% were female, 32% were Black.

Over a mean follow-up of 7.4 years, 286 incident stroke cases occurred.

Results showed that increased levels of physical activity were associated with reduced risk of stroke.

For moderate to vigorous activity, compared with participants in the lowest tertile, those in the highest tertile of total daily time in moderate to vigorous activity had a 43% lower risk of stroke.

In the current study, the amount of moderate to vigorous activity associated with a significant reduction in stroke risk was approximately 25 minutes per day (3 hours per week).

Dr. Hooker noted that moderate to vigorous activity included things such as brisk walking, jogging, bike riding, swimming, or playing tennis or soccer. “Doing such activities for just 25 minutes per day reduced risk of stroke by 43%. This is very doable. Just commuting to work by bicycle would cover you here,” he said.

In terms of light-intensity activity, individuals who did 4-5 hours of light activities each day had a 26% reduced risk for first stroke, compared with those doing less than 3 hours of such light activities.

Dr. Hooker explained that examples of light activity included household chores, such as vacuuming, washing dishes, or going for a gentle stroll. “These activities do not require heaving breathing, increased heart rate or breaking into a sweat. They are activities of daily living and relatively easy to engage in.”

But he pointed out that the 4-5 hours of light activity every day linked to a reduction in stroke risk may be more difficult to achieve than the 25 minutes of moderate to vigorous activity, saying: “You have to have some intentionality here.”
 

Long bouts of sedentary time are harmful

The study also showed that sedentary time was associated with a higher risk for stroke.

The authors noted that time spent in sedentary behavior is of interest because most adults spend most of their awake time being physically inactive.

They report that participants in the highest tertile of sedentary time (more than 13 hours/day) exhibited a 44% increase in risk of stroke, compared with those in the lowest tertile (less than 11 hours/day), and the association remained significant when adjusted for several covariates, including moderate to vigorous activity.

“Even when controlling for the amount of other physical activity, sedentary behavior is still highly associated with risk of stroke. So even if you are active, long bouts of sedentary behavior are harmful,” Dr. Hooker commented.

They also found that longer bouts of sedentary time (more than 17 minutes at a time) were associated with a 54% higher risk of stroke than shorter bouts (less than 8 minutes).

“This suggests that breaking up periods of sedentary behavior into shorter bouts would be beneficial,” Dr. Hooker said.

“If you are going to spend the evening on the couch watching television, try to stand up and walk around every few minutes. Same for if you are sitting at a computer all day – try having a standing workstation, or at least take regular breaks to walk around,” he added.

This research was supported by grants from the National Institute of Neurological Disorders and Stroke and the National Institute on Aging. Additional funding was provided by an unrestricted grant from the Coca-Cola Company. The authors report no disclosures.

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

Spending more time doing light-intensity activities and less time being sedentary was associated with a reduced risk for first stroke in a population-based study of middle aged and older adults.

The study also found relatively short periods of moderate to vigorous exercise were associated with reduced stroke risk.

“Our results suggest there are a number of ways to reduce stroke risk simply by moving about,” said lead author Steven P. Hooker, PhD, San Diego State University. “This could be with short periods of moderate to vigorous activity each day, longer periods of light activity, or just sedentary for shorter periods of time. All these things can make a difference.”

Dr. Hooker explained that, while it has been found previously that moderate to vigorous exercise reduces stroke risk, this study gives more information on light-intensity activities and sedentary behavior and the risk of stroke.

“Our results suggest that you don’t have to be a chronic exerciser to reduce stroke risk. Replacing sedentary time with light-intensity activity will be beneficial. Just go for a short walk, get up from your desk and move around the house at regular intervals. That can help to reduce stroke risk,” Dr. Hooker said.  

“Our message is basically to sit less and move more,” he added.  

The study was published online in JAMA Network Open.

The study involved 7,607 U.S. individuals without a history of stroke, with oversampling from the southeastern “Stroke Belt,” who were participating in the REGARDS cohort study.

The participants wore an accelerometer to measure physical activity and sedentary behavior for 7 consecutive days. The mean age of the individuals was 63 years; 54% were female, 32% were Black.

Over a mean follow-up of 7.4 years, 286 incident stroke cases occurred.

Results showed that increased levels of physical activity were associated with reduced risk of stroke.

For moderate to vigorous activity, compared with participants in the lowest tertile, those in the highest tertile of total daily time in moderate to vigorous activity had a 43% lower risk of stroke.

In the current study, the amount of moderate to vigorous activity associated with a significant reduction in stroke risk was approximately 25 minutes per day (3 hours per week).

Dr. Hooker noted that moderate to vigorous activity included things such as brisk walking, jogging, bike riding, swimming, or playing tennis or soccer. “Doing such activities for just 25 minutes per day reduced risk of stroke by 43%. This is very doable. Just commuting to work by bicycle would cover you here,” he said.

In terms of light-intensity activity, individuals who did 4-5 hours of light activities each day had a 26% reduced risk for first stroke, compared with those doing less than 3 hours of such light activities.

Dr. Hooker explained that examples of light activity included household chores, such as vacuuming, washing dishes, or going for a gentle stroll. “These activities do not require heaving breathing, increased heart rate or breaking into a sweat. They are activities of daily living and relatively easy to engage in.”

But he pointed out that the 4-5 hours of light activity every day linked to a reduction in stroke risk may be more difficult to achieve than the 25 minutes of moderate to vigorous activity, saying: “You have to have some intentionality here.”
 

Long bouts of sedentary time are harmful

The study also showed that sedentary time was associated with a higher risk for stroke.

The authors noted that time spent in sedentary behavior is of interest because most adults spend most of their awake time being physically inactive.

They report that participants in the highest tertile of sedentary time (more than 13 hours/day) exhibited a 44% increase in risk of stroke, compared with those in the lowest tertile (less than 11 hours/day), and the association remained significant when adjusted for several covariates, including moderate to vigorous activity.

“Even when controlling for the amount of other physical activity, sedentary behavior is still highly associated with risk of stroke. So even if you are active, long bouts of sedentary behavior are harmful,” Dr. Hooker commented.

They also found that longer bouts of sedentary time (more than 17 minutes at a time) were associated with a 54% higher risk of stroke than shorter bouts (less than 8 minutes).

“This suggests that breaking up periods of sedentary behavior into shorter bouts would be beneficial,” Dr. Hooker said.

“If you are going to spend the evening on the couch watching television, try to stand up and walk around every few minutes. Same for if you are sitting at a computer all day – try having a standing workstation, or at least take regular breaks to walk around,” he added.

This research was supported by grants from the National Institute of Neurological Disorders and Stroke and the National Institute on Aging. Additional funding was provided by an unrestricted grant from the Coca-Cola Company. The authors report no disclosures.

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

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

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

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

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

Intravenous thrombolysis (IVT) for acute stroke appears safe for patients who have recently received direct oral anticoagulant (DOAC) therapy, a new observational study suggests, prompting researchers to ask whether guidelines that restrict its use should be updated.

Researchers found that DOAC users were significantly less likely to develop symptomatic intracerebral hemorrhage (sICH) after IVT, and there was no difference in functional independence at 3 months, compared with patients who received IVT but who did not receive DOAC.

“At the moment, the guidelines really pose a barrier and stop sign in front of the most important medical reperfusion therapy, which is thrombolysis,” said principal investigator Jan Purrucker, MD, professor of neurology at Heidelberg University Hospital.

“The main question we have to answer is, is IVT safe in patients with acute ischemic stroke who were pretreated with direct oral anticoagulants or not?”

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022, Lyon, France.
 

A ‘daily clinical problem’

As many as 20% of patients with atrial fibrillation experience ischemic stroke while receiving DOAC therapy. Reperfusion therapy with intravenous alteplase is considered standard of care for acute ischemic stroke, but current guidelines recommend against the use of IVT for patients who have recently received a DOAC, owing to safety concerns that researchers say are not backed by strong clinical evidence.

A recent study found no significant difference in sICH among patients who received IV alteplase for acute ischemic stroke within 7 days of receiving therapy with non–vitamin K antagonist oral anticoagulants.

“In our daily clinical practice, we face a lot of patients who have received oral anticoagulation, many with atrial fibrillation, but a lot of other indicators as well, and they suffer from ischemic stroke,” Dr. Purrucker said. “They usually are ineligible for medical reperfusion therapy because of quite strict guideline recommendations at the moment. This is a daily clinical problem.”

Dr. Purrucker and colleagues in New Zealand and Switzerland launched an international, observational, multicenter cohort study to examine the issue.

Researchers collected data on patients with ischemic stroke who had last received DOAC therapy 48 hours or less before the event or whose last intake was unknown and who had received IVT. They included 20,448 patients, 830 of whom were receiving DOAC therapy at the time of stroke onset.

Among the DOAC users, 30% received DOAC reversal prior to IVT, 27% had their DOAC level measured, and 42% received IVT without reversal treatment or knowledge of DOAC levels.

Overall, 4.5% of patients developed sICH. Compared with the control group, DOAC users were half as likely to develop sICH (adjusted odds ratio, 0.47; P = .003).

There was no significant difference between groups in independent outcome at 3 months, defined as a Modified Rankin Scale score of 1 to 3 (aOR, 1.21; 95% confidence interval, 0.99-1.49).

This finding held across patient subgroups, including patients for whom selection methods differed and patients with very recent intake of less than 12 hours.

“The question is whether we are so confident in these data that we would change our clinical practice now,” Dr. Purrucker said.
 

Infrastructure needed

While the findings are promising, more data are needed to strengthen the argument for revising current IVT guidelines, said Ho-Yan Yvonne Chun, PhD, honorary senior clinical lecturer with the Centre for Clinical Brain Sciences at the University of Edinburgh and a consultant in stroke medicine for NHS Lothian and Borders General Hospital, who commented on the findings.

“The study sample are a highly selected group of patients from selected centers that have the infrastructure to offer DOAC level checking and DOAC reversal,” Dr. Chun said. “The selected centers are not representative of the majority of hospitals that offer IVT to stroke patients with acute stroke.”

Most hospitals lack the equipment necessary to test DOAC levels and don’t have immediate access to DOAC reversal agents, Dr. Chun said. In those centers, she added, the administration of IVT could be delayed, which might affect clinical outcomes.

“Infrastructure needs to be in place to ensure timely delivery of IVT to these patients,” Dr. Chun added. “This means that in real-world practice, hospitals need to have right logistical pathway in place in order to provide timely DOAC level checking and DOAC reversal agents.”

Dr. Chun added that “large pragmatic clinical trials, preferably multicentered, are needed to provide the definitive evidence on the safety and effectiveness of using these approaches to select patients with prior DOAC use for IVT.”

But such a study may not be feasible, Dr. Purrucker said. Among the hurdles he noted are the large sample size needed for such a trial, uncertainty regarding funding, and patient selection bias, resulting from the fact that such studies would likely exclude patients eligible for mechanical thrombectomy or those eligible for reversal treatment.

In light of earlier studies, including preclinical data that support the safety of DOACs in IVT, and these new data, Dr. Purrucker said he hopes a change in guidelines might be taken up in the future.

“But it should be good academic practice to first let the results be externally evaluated, for example, during the manuscript submission process,” he said. “But once published, guideline working groups will have to evaluate the recent and new evidence and might reconsider previous recommendations.”

The study received no commercial funding. Dr. Purrucker and Dr. Chun reported no relevant financial relationships.

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

The first-ever guidelines for interventional cardiologists using percutaneous patent foramen ovale closure recommend expanding the use of the procedure beyond the Food and Drug Administration–approved indication following PFO-associated ischemic stroke, adding clarification about the use of PFO with anticoagulation and hedging against abuse and overuse of the procedure, said the chair of the guideline writing committee.

“The most important things surrounding these guidelines are to help clinicians and policymakers – third-party payers – to address PFO in patient subsets that were not included in the large randomized clinical trials that led to FDA approval,” said writing group chair Clifford J. Kavinsky, MD, PhD, chief of structural and interventional cardiology at Rush University Medical Center, Chicago.

The Society for Cardiovascular Angiography & Interventions issued the guidelines at its annual scientific sessions meeting in Atlanta and published them simultaneously in the society’s journal.

The guidelines issue strong and conditional recommendations. The former means clinicians should order the intervention for most patients; the latter means decisionmaking is more nuanced and should consider contributing factors.

The guidelines clarify patient selection for PFO closure outside the “pretty narrow” indication the FDA approved, Dr. Kavinsky said, which is for PFO-associated ischemic stroke in patients aged 18-60 years.

“So what about patients who are older than 60? What about patients who had their stroke 10 years ago?” Dr. Kavinsky asked. “Those are issues that were unanswered in the randomized clinical trials.”

The guidelines also refine recommendations about anticoagulation in these patients, including its use after PFO closure in selected patients, Dr. Kavinsky noted. “It’s the opinion of the panel that although anticoagulants may be effective, because of issues of noncompliance, because of issues of interruption of therapy by physicians for a variety of reasons, including surgery or noncompliance, that it is preferable to do a PFO device closure to giving anticoagulant therapy.”

Many of the recommendations cover PFO closure alongside antiplatelet or anticoagulation therapy. Key conditional recommendations for patients who haven’t had a PFO-related stroke are:

• Avoiding its routine use in patients with chronic migraines, prior decompression illness (DCI), thrombophilia, atrial septal aneurysm, transient ischemic attack (TIA), or deep vein thrombosis (DVT).
• Considering PFO closure in patients with platypnea-orthodeoxia syndrome (POS) with no other discernible cause of hypoxia or systemic embolism in whom other embolic causes have been ruled out.

In patients who’ve had a PFO-related stroke, the guidelines strongly recommend PFO closure versus antiplatelet therapy alone, but conditionally, not in patients with atrial fibrillation who’ve had an ischemic stroke. They also conditionally suggest PFO closure rather than long-term antiplatelet therapy alone in PFO stroke patients aged 60 and older, as well as those with thrombophilia already on antiplatelet therapy but not anticoagulation. However, the guidelines make no recommendation on PFO closure based on how much time has passed since the previous stroke.

“Furthermore,” Dr. Kavinsky said, “in patients who require lifelong anticoagulation because of recurrent DVT or recurrent pulmonary emboli or thrombopenia, if they’ve had a PFO-mediated stroke, then it’s our opinion that they should have their PFO closed in addition to taking lifelong anticoagulation because of the same issues of noncompliance and interruption of therapy.” Those are conditional recommendations.

The guideline also checks a box in the FDA labeling that mandated agreement between cardiology and neurology in patient selection. The American Academy of Neurology (AAN) issued its own guideline in 2020 for patients with stroke and PFO. In Europe, the European Society of Cardiology issued two position papers on expanded applications of PFO closure.

The recommendations on when PFO closure shouldn’t be done are noteworthy, Dr. Kavinsky said. “PFOs are present in 25% of the adult population, so the number of patients with PFO is huge and the indication for the FDA is really narrow: to reduce the risk of recurrent stroke in patients with PFO-mediated stroke. So, there’s the tremendous potential for abuse out there, of excessive procedures, of doing unnecessary procedures.”

The guidelines are a follow-up to the operator institutional requirements document SCAI issued in 2019 that set requirements for hospital offering and physicians performing PFO closure, Dr. Kavinsky added.

In an editorial accompanying the published guideline, Robert J. Sommer, MD, and Jamil A. Aboulhosn, MD, wrote that they support the recommendations “which help spotlight and clarify the growing list of potential indications for PFO closure.” They noted that the guidelines panel’s “strong” recommendations were for indications validated by randomized trials and that “conditional” recommendations were based on panelists’ experience and observational data.

“It is critical to recognize that most of these guidelines represent consensus opinion only,” wrote Dr. Sommer, who specializes in adult congenital and pediatric cardiology at Columbia University Irving Medical Center, New York, and Dr. Aboulhosn, an interventional cardiologist at Ronald Reagan University of California, Los Angeles, Medical Center. They emphasized the guidelines’ “heavy emphasis” on shared decisionmaking with patients.

Dr. Kavinsky is a principal investigator for Edwards Lifesciences, W.L. Gore and Associates, Medtronic, and Abbott. Dr. Sommer is a principal investigator and investigator in studies sponsored by W.L. Gore & Associates. Dr. Aboulhosn is a consultant to Abbott Medical.
 

The first-ever guidelines for interventional cardiologists using percutaneous patent foramen ovale closure recommend expanding the use of the procedure beyond the Food and Drug Administration–approved indication following PFO-associated ischemic stroke, adding clarification about the use of PFO with anticoagulation and hedging against abuse and overuse of the procedure, said the chair of the guideline writing committee.

“The most important things surrounding these guidelines are to help clinicians and policymakers – third-party payers – to address PFO in patient subsets that were not included in the large randomized clinical trials that led to FDA approval,” said writing group chair Clifford J. Kavinsky, MD, PhD, chief of structural and interventional cardiology at Rush University Medical Center, Chicago.

The Society for Cardiovascular Angiography & Interventions issued the guidelines at its annual scientific sessions meeting in Atlanta and published them simultaneously in the society’s journal.

The guidelines issue strong and conditional recommendations. The former means clinicians should order the intervention for most patients; the latter means decisionmaking is more nuanced and should consider contributing factors.

The guidelines clarify patient selection for PFO closure outside the “pretty narrow” indication the FDA approved, Dr. Kavinsky said, which is for PFO-associated ischemic stroke in patients aged 18-60 years.

“So what about patients who are older than 60? What about patients who had their stroke 10 years ago?” Dr. Kavinsky asked. “Those are issues that were unanswered in the randomized clinical trials.”

The guidelines also refine recommendations about anticoagulation in these patients, including its use after PFO closure in selected patients, Dr. Kavinsky noted. “It’s the opinion of the panel that although anticoagulants may be effective, because of issues of noncompliance, because of issues of interruption of therapy by physicians for a variety of reasons, including surgery or noncompliance, that it is preferable to do a PFO device closure to giving anticoagulant therapy.”

Many of the recommendations cover PFO closure alongside antiplatelet or anticoagulation therapy. Key conditional recommendations for patients who haven’t had a PFO-related stroke are:

• Avoiding its routine use in patients with chronic migraines, prior decompression illness (DCI), thrombophilia, atrial septal aneurysm, transient ischemic attack (TIA), or deep vein thrombosis (DVT).
• Considering PFO closure in patients with platypnea-orthodeoxia syndrome (POS) with no other discernible cause of hypoxia or systemic embolism in whom other embolic causes have been ruled out.

In patients who’ve had a PFO-related stroke, the guidelines strongly recommend PFO closure versus antiplatelet therapy alone, but conditionally, not in patients with atrial fibrillation who’ve had an ischemic stroke. They also conditionally suggest PFO closure rather than long-term antiplatelet therapy alone in PFO stroke patients aged 60 and older, as well as those with thrombophilia already on antiplatelet therapy but not anticoagulation. However, the guidelines make no recommendation on PFO closure based on how much time has passed since the previous stroke.

“Furthermore,” Dr. Kavinsky said, “in patients who require lifelong anticoagulation because of recurrent DVT or recurrent pulmonary emboli or thrombopenia, if they’ve had a PFO-mediated stroke, then it’s our opinion that they should have their PFO closed in addition to taking lifelong anticoagulation because of the same issues of noncompliance and interruption of therapy.” Those are conditional recommendations.

The guideline also checks a box in the FDA labeling that mandated agreement between cardiology and neurology in patient selection. The American Academy of Neurology (AAN) issued its own guideline in 2020 for patients with stroke and PFO. In Europe, the European Society of Cardiology issued two position papers on expanded applications of PFO closure.

The recommendations on when PFO closure shouldn’t be done are noteworthy, Dr. Kavinsky said. “PFOs are present in 25% of the adult population, so the number of patients with PFO is huge and the indication for the FDA is really narrow: to reduce the risk of recurrent stroke in patients with PFO-mediated stroke. So, there’s the tremendous potential for abuse out there, of excessive procedures, of doing unnecessary procedures.”

The guidelines are a follow-up to the operator institutional requirements document SCAI issued in 2019 that set requirements for hospital offering and physicians performing PFO closure, Dr. Kavinsky added.

In an editorial accompanying the published guideline, Robert J. Sommer, MD, and Jamil A. Aboulhosn, MD, wrote that they support the recommendations “which help spotlight and clarify the growing list of potential indications for PFO closure.” They noted that the guidelines panel’s “strong” recommendations were for indications validated by randomized trials and that “conditional” recommendations were based on panelists’ experience and observational data.

“It is critical to recognize that most of these guidelines represent consensus opinion only,” wrote Dr. Sommer, who specializes in adult congenital and pediatric cardiology at Columbia University Irving Medical Center, New York, and Dr. Aboulhosn, an interventional cardiologist at Ronald Reagan University of California, Los Angeles, Medical Center. They emphasized the guidelines’ “heavy emphasis” on shared decisionmaking with patients.

Dr. Kavinsky is a principal investigator for Edwards Lifesciences, W.L. Gore and Associates, Medtronic, and Abbott. Dr. Sommer is a principal investigator and investigator in studies sponsored by W.L. Gore & Associates. Dr. Aboulhosn is a consultant to Abbott Medical.
 

The first-ever guidelines for interventional cardiologists using percutaneous patent foramen ovale closure recommend expanding the use of the procedure beyond the Food and Drug Administration–approved indication following PFO-associated ischemic stroke, adding clarification about the use of PFO with anticoagulation and hedging against abuse and overuse of the procedure, said the chair of the guideline writing committee.

“The most important things surrounding these guidelines are to help clinicians and policymakers – third-party payers – to address PFO in patient subsets that were not included in the large randomized clinical trials that led to FDA approval,” said writing group chair Clifford J. Kavinsky, MD, PhD, chief of structural and interventional cardiology at Rush University Medical Center, Chicago.

The Society for Cardiovascular Angiography & Interventions issued the guidelines at its annual scientific sessions meeting in Atlanta and published them simultaneously in the society’s journal.

The guidelines issue strong and conditional recommendations. The former means clinicians should order the intervention for most patients; the latter means decisionmaking is more nuanced and should consider contributing factors.

The guidelines clarify patient selection for PFO closure outside the “pretty narrow” indication the FDA approved, Dr. Kavinsky said, which is for PFO-associated ischemic stroke in patients aged 18-60 years.

“So what about patients who are older than 60? What about patients who had their stroke 10 years ago?” Dr. Kavinsky asked. “Those are issues that were unanswered in the randomized clinical trials.”

The guidelines also refine recommendations about anticoagulation in these patients, including its use after PFO closure in selected patients, Dr. Kavinsky noted. “It’s the opinion of the panel that although anticoagulants may be effective, because of issues of noncompliance, because of issues of interruption of therapy by physicians for a variety of reasons, including surgery or noncompliance, that it is preferable to do a PFO device closure to giving anticoagulant therapy.”

Many of the recommendations cover PFO closure alongside antiplatelet or anticoagulation therapy. Key conditional recommendations for patients who haven’t had a PFO-related stroke are:

• Avoiding its routine use in patients with chronic migraines, prior decompression illness (DCI), thrombophilia, atrial septal aneurysm, transient ischemic attack (TIA), or deep vein thrombosis (DVT).
• Considering PFO closure in patients with platypnea-orthodeoxia syndrome (POS) with no other discernible cause of hypoxia or systemic embolism in whom other embolic causes have been ruled out.

In patients who’ve had a PFO-related stroke, the guidelines strongly recommend PFO closure versus antiplatelet therapy alone, but conditionally, not in patients with atrial fibrillation who’ve had an ischemic stroke. They also conditionally suggest PFO closure rather than long-term antiplatelet therapy alone in PFO stroke patients aged 60 and older, as well as those with thrombophilia already on antiplatelet therapy but not anticoagulation. However, the guidelines make no recommendation on PFO closure based on how much time has passed since the previous stroke.

“Furthermore,” Dr. Kavinsky said, “in patients who require lifelong anticoagulation because of recurrent DVT or recurrent pulmonary emboli or thrombopenia, if they’ve had a PFO-mediated stroke, then it’s our opinion that they should have their PFO closed in addition to taking lifelong anticoagulation because of the same issues of noncompliance and interruption of therapy.” Those are conditional recommendations.

The guideline also checks a box in the FDA labeling that mandated agreement between cardiology and neurology in patient selection. The American Academy of Neurology (AAN) issued its own guideline in 2020 for patients with stroke and PFO. In Europe, the European Society of Cardiology issued two position papers on expanded applications of PFO closure.

The recommendations on when PFO closure shouldn’t be done are noteworthy, Dr. Kavinsky said. “PFOs are present in 25% of the adult population, so the number of patients with PFO is huge and the indication for the FDA is really narrow: to reduce the risk of recurrent stroke in patients with PFO-mediated stroke. So, there’s the tremendous potential for abuse out there, of excessive procedures, of doing unnecessary procedures.”

The guidelines are a follow-up to the operator institutional requirements document SCAI issued in 2019 that set requirements for hospital offering and physicians performing PFO closure, Dr. Kavinsky added.

In an editorial accompanying the published guideline, Robert J. Sommer, MD, and Jamil A. Aboulhosn, MD, wrote that they support the recommendations “which help spotlight and clarify the growing list of potential indications for PFO closure.” They noted that the guidelines panel’s “strong” recommendations were for indications validated by randomized trials and that “conditional” recommendations were based on panelists’ experience and observational data.

“It is critical to recognize that most of these guidelines represent consensus opinion only,” wrote Dr. Sommer, who specializes in adult congenital and pediatric cardiology at Columbia University Irving Medical Center, New York, and Dr. Aboulhosn, an interventional cardiologist at Ronald Reagan University of California, Los Angeles, Medical Center. They emphasized the guidelines’ “heavy emphasis” on shared decisionmaking with patients.

Dr. Kavinsky is a principal investigator for Edwards Lifesciences, W.L. Gore and Associates, Medtronic, and Abbott. Dr. Sommer is a principal investigator and investigator in studies sponsored by W.L. Gore & Associates. Dr. Aboulhosn is a consultant to Abbott Medical.
 

Many strategies widely considered “standard care” for managing spontaneous intracerebral hemorrhage (ICH) are not as effective as previously thought and are no longer recommended in updated guidelines from the American Heart Association/American Stroke Association (ASA).

Compression stockings, antiseizure medication, and steroid treatment are among the treatments with uncertain effectiveness, the writing group says.

The 2022 Guideline for the Management of Patients With Spontaneous ICH was published online  in Stroke. The 80-page document contains major changes and refinements to the 2015 guideline on ICH management.

“Advances have been made in an array of fields related to ICH, including the organization of regional health care systems, reversal of the negative effects of blood thinners, minimally invasive surgical procedures, and the underlying disease in small blood vessels,” Steven M. Greenberg, MD, PhD, chair of the guideline writing group with Harvard Medical School and Massachusetts General Hospital, both in Boston, said in a news release.

“We’ve updated sections across the board. There’s probably no area that went untouched with some tweaking and new evidence added that led to some changes in level of evidence or strength of a recommendation,” Dr. Greenberg added in an interview with this news organization.

“Each section comes with knowledge gaps, and it wasn’t hard to come up with knowledge gaps in every section,” Dr. Greenberg acknowledged.

Time-honored treatments no more?

Among the key updates are changes to some “time-honored” treatments that continue to be used with some “regularity” for patients with ICH, yet appear to confer either no benefit or harm, Dr. Greenberg said.

For example, for emergency or critical care treatment of ICH, prophylactic corticosteroids or continuous hyperosmolar therapy is not recommended, because it appears to have no benefit for outcome, while use of platelet transfusions outside the setting of emergency surgery or severe thrombocytopenia appears to worsen outcome, the authors say.

Use of graduated knee- or thigh-high compression stockings alone is not an effective prophylactic therapy for prevention of deep vein thrombosis (DVT). Instead, intermittent pneumatic compression (IPC) starting on the day of diagnosis is now recommended for DVT prophylaxis.

“This is an area where we still have a lot of exploration to do. It is unclear whether even specialized compression devices reduce the risks of deep vein thrombosis or improve the overall health of people with a brain bleed,” Dr. Greenberg said in the release.

The new guidance advises against use of antiseizure or antidepressant medications for ICH patients in whom there is no evidence of seizures or depression.

In clinical trials, antiseizure medication did not contribute to improvements in functionality or long-term seizure control, and the use of antidepressants increased the chance of bone fractures, the authors say.

The guideline also provides updated recommendations for acute reversal of anticoagulation after ICH. It highlights the use of protein complex concentrate for reversal of vitamin K antagonists, such as warfarin; idarucizumab for reversal of the thrombin inhibitor dabigatran; and andexanet alfa for reversal of factor Xa inhibitors, such as rivaroxaban, apixaban, and edoxaban.

For acute blood pressure lowering after mild to moderate ICH, treatment regimens that limit blood pressure variability and achieve smooth, sustained blood pressure control appear to reduce hematoma expansion and yield better functional outcome, the guideline says.

It also notes that minimally invasive approaches for hematoma evacuation, compared with medical management alone‚ have been shown to reduce mortality.

For patients with cerebellar hemorrhage, indications for immediate surgical evacuation with or without an external ventricular drain to reduce mortality now include larger volume (> 15 mL) in addition to previously recommended indications of neurologic deterioration, brainstem compression, and hydrocephalus, the authors note.

However, a “major knowledge gap is whether we can improve functional outcome with hematoma evacuation,” Dr. Greenberg said.
 

Multidisciplinary care

For rehabilitation after ICH, the guideline reinforces the importance of having a multidisciplinary team to develop a comprehensive plan for recovery.

Starting rehabilitation activities such as stretching and functional task training may be considered 24 to 48 hours following mild or moderate ICH. However, early aggressive mobilization within the first 24 hours has been linked to an increased risk of death within 14 days after an ICH, the guideline says.

Knowledge gaps include how soon it’s safe to return to work, drive, and participate in other social engagements. Recommendations on sexual activity and exercise levels that are safe after a stroke are also needed.

“People need additional help with these lifestyle changes, whether it’s moving around more, curbing their alcohol use, or eating healthier foods. This all happens after they leave the hospital, and we need to be sure we are empowering families with the information they may need to be properly supportive,” Dr. Greenberg says in the release.

The guideline points to the patient’s home caregiver as a “key and sometimes overlooked” member of the care team. It recommends psychosocial education, practical support, and training for the caregiver to improve the patient’s balance, activity level, and overall quality of life.
 

Opportunity for prevention?

The guideline also suggests there may be an opportunity to prevent ICH in some people through neuroimaging markers.

While neuroimaging is not routinely performed as a part of risk stratification for primary ICH risk, damage to small blood vessels that is associated with ICH may be evident on MRI that could signal future ICH risk, the guideline says.

“We added to the guidelines for the first time a section on mostly imaging markers of risk for having a first-ever hemorrhage,” Dr. Greenberg said in an interview.

“We don’t make any recommendations as to how to act on these markers because there is a knowledge gap. The hope is that we’ll see growth in our ability to predict first-ever hemorrhage and be able to do things to prevent first-ever hemorrhage,” he said.

“We believe the wide range of knowledge set forth in the new guideline will translate into meaningful improvements in ICH care,” Dr. Greenberg adds in the release.

The updated guideline has been endorsed by the American Association of Neurological Surgeons and Congress of Neurological Surgeons, the Society of Vascular and Interventional Neurology, and the Neurocritical Care Society. The American Academy of Neurology has affirmed the value of this statement as an educational tool for neurologists.

This research had no commercial funding. Dr. Greenberg has disclosed no relevant financial relationships. A complete list of disclosures for the guideline group is available with the original article.

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

Many strategies widely considered “standard care” for managing spontaneous intracerebral hemorrhage (ICH) are not as effective as previously thought and are no longer recommended in updated guidelines from the American Heart Association/American Stroke Association (ASA).

Compression stockings, antiseizure medication, and steroid treatment are among the treatments with uncertain effectiveness, the writing group says.

The 2022 Guideline for the Management of Patients With Spontaneous ICH was published online  in Stroke. The 80-page document contains major changes and refinements to the 2015 guideline on ICH management.

“Advances have been made in an array of fields related to ICH, including the organization of regional health care systems, reversal of the negative effects of blood thinners, minimally invasive surgical procedures, and the underlying disease in small blood vessels,” Steven M. Greenberg, MD, PhD, chair of the guideline writing group with Harvard Medical School and Massachusetts General Hospital, both in Boston, said in a news release.

“We’ve updated sections across the board. There’s probably no area that went untouched with some tweaking and new evidence added that led to some changes in level of evidence or strength of a recommendation,” Dr. Greenberg added in an interview with this news organization.

“Each section comes with knowledge gaps, and it wasn’t hard to come up with knowledge gaps in every section,” Dr. Greenberg acknowledged.

Time-honored treatments no more?

Among the key updates are changes to some “time-honored” treatments that continue to be used with some “regularity” for patients with ICH, yet appear to confer either no benefit or harm, Dr. Greenberg said.

For example, for emergency or critical care treatment of ICH, prophylactic corticosteroids or continuous hyperosmolar therapy is not recommended, because it appears to have no benefit for outcome, while use of platelet transfusions outside the setting of emergency surgery or severe thrombocytopenia appears to worsen outcome, the authors say.

Use of graduated knee- or thigh-high compression stockings alone is not an effective prophylactic therapy for prevention of deep vein thrombosis (DVT). Instead, intermittent pneumatic compression (IPC) starting on the day of diagnosis is now recommended for DVT prophylaxis.

“This is an area where we still have a lot of exploration to do. It is unclear whether even specialized compression devices reduce the risks of deep vein thrombosis or improve the overall health of people with a brain bleed,” Dr. Greenberg said in the release.

The new guidance advises against use of antiseizure or antidepressant medications for ICH patients in whom there is no evidence of seizures or depression.

In clinical trials, antiseizure medication did not contribute to improvements in functionality or long-term seizure control, and the use of antidepressants increased the chance of bone fractures, the authors say.

The guideline also provides updated recommendations for acute reversal of anticoagulation after ICH. It highlights the use of protein complex concentrate for reversal of vitamin K antagonists, such as warfarin; idarucizumab for reversal of the thrombin inhibitor dabigatran; and andexanet alfa for reversal of factor Xa inhibitors, such as rivaroxaban, apixaban, and edoxaban.

For acute blood pressure lowering after mild to moderate ICH, treatment regimens that limit blood pressure variability and achieve smooth, sustained blood pressure control appear to reduce hematoma expansion and yield better functional outcome, the guideline says.

It also notes that minimally invasive approaches for hematoma evacuation, compared with medical management alone‚ have been shown to reduce mortality.

For patients with cerebellar hemorrhage, indications for immediate surgical evacuation with or without an external ventricular drain to reduce mortality now include larger volume (> 15 mL) in addition to previously recommended indications of neurologic deterioration, brainstem compression, and hydrocephalus, the authors note.

However, a “major knowledge gap is whether we can improve functional outcome with hematoma evacuation,” Dr. Greenberg said.
 

Multidisciplinary care

For rehabilitation after ICH, the guideline reinforces the importance of having a multidisciplinary team to develop a comprehensive plan for recovery.

Starting rehabilitation activities such as stretching and functional task training may be considered 24 to 48 hours following mild or moderate ICH. However, early aggressive mobilization within the first 24 hours has been linked to an increased risk of death within 14 days after an ICH, the guideline says.

Knowledge gaps include how soon it’s safe to return to work, drive, and participate in other social engagements. Recommendations on sexual activity and exercise levels that are safe after a stroke are also needed.

“People need additional help with these lifestyle changes, whether it’s moving around more, curbing their alcohol use, or eating healthier foods. This all happens after they leave the hospital, and we need to be sure we are empowering families with the information they may need to be properly supportive,” Dr. Greenberg says in the release.

The guideline points to the patient’s home caregiver as a “key and sometimes overlooked” member of the care team. It recommends psychosocial education, practical support, and training for the caregiver to improve the patient’s balance, activity level, and overall quality of life.
 

Opportunity for prevention?

The guideline also suggests there may be an opportunity to prevent ICH in some people through neuroimaging markers.

While neuroimaging is not routinely performed as a part of risk stratification for primary ICH risk, damage to small blood vessels that is associated with ICH may be evident on MRI that could signal future ICH risk, the guideline says.

“We added to the guidelines for the first time a section on mostly imaging markers of risk for having a first-ever hemorrhage,” Dr. Greenberg said in an interview.

“We don’t make any recommendations as to how to act on these markers because there is a knowledge gap. The hope is that we’ll see growth in our ability to predict first-ever hemorrhage and be able to do things to prevent first-ever hemorrhage,” he said.

“We believe the wide range of knowledge set forth in the new guideline will translate into meaningful improvements in ICH care,” Dr. Greenberg adds in the release.

The updated guideline has been endorsed by the American Association of Neurological Surgeons and Congress of Neurological Surgeons, the Society of Vascular and Interventional Neurology, and the Neurocritical Care Society. The American Academy of Neurology has affirmed the value of this statement as an educational tool for neurologists.

This research had no commercial funding. Dr. Greenberg has disclosed no relevant financial relationships. A complete list of disclosures for the guideline group is available with the original article.

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

Many strategies widely considered “standard care” for managing spontaneous intracerebral hemorrhage (ICH) are not as effective as previously thought and are no longer recommended in updated guidelines from the American Heart Association/American Stroke Association (ASA).

Compression stockings, antiseizure medication, and steroid treatment are among the treatments with uncertain effectiveness, the writing group says.

The 2022 Guideline for the Management of Patients With Spontaneous ICH was published online  in Stroke. The 80-page document contains major changes and refinements to the 2015 guideline on ICH management.

“Advances have been made in an array of fields related to ICH, including the organization of regional health care systems, reversal of the negative effects of blood thinners, minimally invasive surgical procedures, and the underlying disease in small blood vessels,” Steven M. Greenberg, MD, PhD, chair of the guideline writing group with Harvard Medical School and Massachusetts General Hospital, both in Boston, said in a news release.

“We’ve updated sections across the board. There’s probably no area that went untouched with some tweaking and new evidence added that led to some changes in level of evidence or strength of a recommendation,” Dr. Greenberg added in an interview with this news organization.

“Each section comes with knowledge gaps, and it wasn’t hard to come up with knowledge gaps in every section,” Dr. Greenberg acknowledged.

Time-honored treatments no more?

Among the key updates are changes to some “time-honored” treatments that continue to be used with some “regularity” for patients with ICH, yet appear to confer either no benefit or harm, Dr. Greenberg said.

For example, for emergency or critical care treatment of ICH, prophylactic corticosteroids or continuous hyperosmolar therapy is not recommended, because it appears to have no benefit for outcome, while use of platelet transfusions outside the setting of emergency surgery or severe thrombocytopenia appears to worsen outcome, the authors say.

Use of graduated knee- or thigh-high compression stockings alone is not an effective prophylactic therapy for prevention of deep vein thrombosis (DVT). Instead, intermittent pneumatic compression (IPC) starting on the day of diagnosis is now recommended for DVT prophylaxis.

“This is an area where we still have a lot of exploration to do. It is unclear whether even specialized compression devices reduce the risks of deep vein thrombosis or improve the overall health of people with a brain bleed,” Dr. Greenberg said in the release.

The new guidance advises against use of antiseizure or antidepressant medications for ICH patients in whom there is no evidence of seizures or depression.

In clinical trials, antiseizure medication did not contribute to improvements in functionality or long-term seizure control, and the use of antidepressants increased the chance of bone fractures, the authors say.

The guideline also provides updated recommendations for acute reversal of anticoagulation after ICH. It highlights the use of protein complex concentrate for reversal of vitamin K antagonists, such as warfarin; idarucizumab for reversal of the thrombin inhibitor dabigatran; and andexanet alfa for reversal of factor Xa inhibitors, such as rivaroxaban, apixaban, and edoxaban.

For acute blood pressure lowering after mild to moderate ICH, treatment regimens that limit blood pressure variability and achieve smooth, sustained blood pressure control appear to reduce hematoma expansion and yield better functional outcome, the guideline says.

It also notes that minimally invasive approaches for hematoma evacuation, compared with medical management alone‚ have been shown to reduce mortality.

For patients with cerebellar hemorrhage, indications for immediate surgical evacuation with or without an external ventricular drain to reduce mortality now include larger volume (> 15 mL) in addition to previously recommended indications of neurologic deterioration, brainstem compression, and hydrocephalus, the authors note.

However, a “major knowledge gap is whether we can improve functional outcome with hematoma evacuation,” Dr. Greenberg said.
 

Multidisciplinary care

For rehabilitation after ICH, the guideline reinforces the importance of having a multidisciplinary team to develop a comprehensive plan for recovery.

Starting rehabilitation activities such as stretching and functional task training may be considered 24 to 48 hours following mild or moderate ICH. However, early aggressive mobilization within the first 24 hours has been linked to an increased risk of death within 14 days after an ICH, the guideline says.

Knowledge gaps include how soon it’s safe to return to work, drive, and participate in other social engagements. Recommendations on sexual activity and exercise levels that are safe after a stroke are also needed.

“People need additional help with these lifestyle changes, whether it’s moving around more, curbing their alcohol use, or eating healthier foods. This all happens after they leave the hospital, and we need to be sure we are empowering families with the information they may need to be properly supportive,” Dr. Greenberg says in the release.

The guideline points to the patient’s home caregiver as a “key and sometimes overlooked” member of the care team. It recommends psychosocial education, practical support, and training for the caregiver to improve the patient’s balance, activity level, and overall quality of life.
 

Opportunity for prevention?

The guideline also suggests there may be an opportunity to prevent ICH in some people through neuroimaging markers.

While neuroimaging is not routinely performed as a part of risk stratification for primary ICH risk, damage to small blood vessels that is associated with ICH may be evident on MRI that could signal future ICH risk, the guideline says.

“We added to the guidelines for the first time a section on mostly imaging markers of risk for having a first-ever hemorrhage,” Dr. Greenberg said in an interview.

“We don’t make any recommendations as to how to act on these markers because there is a knowledge gap. The hope is that we’ll see growth in our ability to predict first-ever hemorrhage and be able to do things to prevent first-ever hemorrhage,” he said.

“We believe the wide range of knowledge set forth in the new guideline will translate into meaningful improvements in ICH care,” Dr. Greenberg adds in the release.

The updated guideline has been endorsed by the American Association of Neurological Surgeons and Congress of Neurological Surgeons, the Society of Vascular and Interventional Neurology, and the Neurocritical Care Society. The American Academy of Neurology has affirmed the value of this statement as an educational tool for neurologists.

This research had no commercial funding. Dr. Greenberg has disclosed no relevant financial relationships. A complete list of disclosures for the guideline group is available with the original article.

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

Young stroke patients have an increased risk of being diagnosed with a new cancer in the years following their stroke, a new study shows, raising the possibility that the stroke might be the first manifestation of an underlying cancer.

The data were presented by Jamie Verhoeven, MD, Radboud University Medical Centre, the Netherlands, at the recent European Stroke Organisation Conference 2022.

Dr. Verhoeven noted that 10% of all stroke cases occur in individuals younger than 50 years. During the past few decades, the incidence of stroke in the young has steadily increased, whereas the incidence of stroke in older adults has stabilized or decreased.

“Stroke in the young differs from stroke in older patients, and one of the major differences is that stroke in the young has a higher proportion of cryptogenic stroke, with no clear cause found in over one-third of patients,” she said.

Also, having an active cancer is known to be a risk factor for thrombosis. This association is strongest in venous thrombosis and has been less well investigated in arterial thrombosis, Dr. Verhoeven reported.

Her group aimed to investigate whether in some patients with cryptogenic stroke, this may be the first manifestation of an underlying cancer. “If this hypothesis is true, then it would be more obvious in young patients who have a higher incidence of cryptogenic stroke,” she said.

They performed a population-based observational cohort study using diagnostic ICD codes from the national Hospital Discharge Registry in the Netherlands and the Dutch Population Registry from 1998 to 2019.

Patients with a history of cancer before their first stroke and those with central nervous system cancers at the time of stroke or nonmelanoma skin cancers (which have been shown to have no systemic effects) were excluded.

Reference data came from the Netherlands Comprehensive Cancer Organisation, which collects data on all cancer diagnoses in the country.

The researchers identified 27,616 young stroke patients (age range, 15-49 years; median age, 45 years) and 362,782 older stroke patients (age range, 50 years and older; median age, 76 years).

The cumulative incidence of any cancer at 10 years was 3.7% in the younger group and 8.5% in the older group.

The data were compared with matched peers from the general population. The main outcome measures were cumulative incidence of first-ever cancer after stroke (stratified by stroke subtype, age and sex) and standardized incidence rates.

Results showed that the risk for cancer was higher in the younger age group than in the matched general population.

In this age group, the 1-year risk of any new cancer was 2.6 times higher (95% confidence interval, 2.2-3.1) after ischemic stroke and 5.4 times (95% CI, 3.8-7.3) after intracerebral hemorrhage than in matched peers from the general population.

In contrast, in stroke patients older than 50 years, the 1-year risk for any new cancer was 1.2 times higher than the general population after either ischemic or hemorrhagic stroke.

“The younger patients have a higher risk increase of cancer than older patients, and this risk increase is most evident in the first 1 to 2 years after stroke but remains statistically significant for up to 5 to 8 years later,” Dr. Verhoeven said.

The cancers that were most involved in this risk increase were those of the lower respiratory tract, hematologic cancers, and gastrointestinal cancers.

The main strength of this study was the use of national databases that allowed for a very large sample size, but this brings with it the danger of misclassification of events and the lack of clinical data, Dr. Verhoeven noted.

“Young stroke patients are at increased risk of developing a new cancer in the years following their stroke compared to peers from the general population, but this risk is only marginally increased in the older stroke population,” she concluded.

She pointed out that it is not possible to confirm any causal relation from this study design, but a clear association has been shown.

“We need more studies into this field. We need a large clinical dataset to examine which clinical phenotypes are associated with possible underlying cancers to identify which patients are most at risk. We are already working on this,” she said. “Then it remains to be investigated whether screening for an underlying cancer should be added to the diagnostic workup in young stroke patients.”

Commenting on the study after the presentation, William Whiteley, BM, PhD, a clinical epidemiologist at the University of Edinburgh, Scotland, and a consultant neurologist in NHS Lothian, said it was difficult to know whether the link shown between stroke and cancer was causal, but the effect size in this study was “quite large.”

He pointed out that the associations with bowel and lung cancer could be due to shared risk factors, such as smoking, but he said the finding on a link with hematologic cancers is “interesting.”

Noting that there are links between hematologic cancers and thrombotic events, he said: “People have wondered if that is because of clonal expansion, which has been shown to increase the risk of atherosclerosis, so the question is whether this is some kind of common risk factor here.”

Dr. Verhoeven said she did not believe that shared risk factors fully explained the difference in increased risks between young and older patients.

“It does not fully explain why the risk of cancer is specifically higher in the first 1 to 2 years after the stroke diagnosis. I would think if it was just shared risk factors, the risk increase should remain relatively stable, or even increase due to the build-up of exposure to risk factors over the years,” she said.

Dr. Whiteley said that data like these are “really useful in trying to estimate these associations and it gives us some hypotheses to investigate in smaller mechanistic studies.”

Asked whether these data justify screening younger cryptogenic stroke patients more systematically for cancer, Dr. Whiteley replied: “I think we need some absolute risk estimates for that; for example, what proportion of younger patients would be at risk over the next few years when that screening would make a difference.”

Dr. Verhoeven reports no disclosures.

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

Young stroke patients have an increased risk of being diagnosed with a new cancer in the years following their stroke, a new study shows, raising the possibility that the stroke might be the first manifestation of an underlying cancer.

The data were presented by Jamie Verhoeven, MD, Radboud University Medical Centre, the Netherlands, at the recent European Stroke Organisation Conference 2022.

Dr. Verhoeven noted that 10% of all stroke cases occur in individuals younger than 50 years. During the past few decades, the incidence of stroke in the young has steadily increased, whereas the incidence of stroke in older adults has stabilized or decreased.

“Stroke in the young differs from stroke in older patients, and one of the major differences is that stroke in the young has a higher proportion of cryptogenic stroke, with no clear cause found in over one-third of patients,” she said.

Also, having an active cancer is known to be a risk factor for thrombosis. This association is strongest in venous thrombosis and has been less well investigated in arterial thrombosis, Dr. Verhoeven reported.

Her group aimed to investigate whether in some patients with cryptogenic stroke, this may be the first manifestation of an underlying cancer. “If this hypothesis is true, then it would be more obvious in young patients who have a higher incidence of cryptogenic stroke,” she said.

They performed a population-based observational cohort study using diagnostic ICD codes from the national Hospital Discharge Registry in the Netherlands and the Dutch Population Registry from 1998 to 2019.

Patients with a history of cancer before their first stroke and those with central nervous system cancers at the time of stroke or nonmelanoma skin cancers (which have been shown to have no systemic effects) were excluded.

Reference data came from the Netherlands Comprehensive Cancer Organisation, which collects data on all cancer diagnoses in the country.

The researchers identified 27,616 young stroke patients (age range, 15-49 years; median age, 45 years) and 362,782 older stroke patients (age range, 50 years and older; median age, 76 years).

The cumulative incidence of any cancer at 10 years was 3.7% in the younger group and 8.5% in the older group.

The data were compared with matched peers from the general population. The main outcome measures were cumulative incidence of first-ever cancer after stroke (stratified by stroke subtype, age and sex) and standardized incidence rates.

Results showed that the risk for cancer was higher in the younger age group than in the matched general population.

In this age group, the 1-year risk of any new cancer was 2.6 times higher (95% confidence interval, 2.2-3.1) after ischemic stroke and 5.4 times (95% CI, 3.8-7.3) after intracerebral hemorrhage than in matched peers from the general population.

In contrast, in stroke patients older than 50 years, the 1-year risk for any new cancer was 1.2 times higher than the general population after either ischemic or hemorrhagic stroke.

“The younger patients have a higher risk increase of cancer than older patients, and this risk increase is most evident in the first 1 to 2 years after stroke but remains statistically significant for up to 5 to 8 years later,” Dr. Verhoeven said.

The cancers that were most involved in this risk increase were those of the lower respiratory tract, hematologic cancers, and gastrointestinal cancers.

The main strength of this study was the use of national databases that allowed for a very large sample size, but this brings with it the danger of misclassification of events and the lack of clinical data, Dr. Verhoeven noted.

“Young stroke patients are at increased risk of developing a new cancer in the years following their stroke compared to peers from the general population, but this risk is only marginally increased in the older stroke population,” she concluded.

She pointed out that it is not possible to confirm any causal relation from this study design, but a clear association has been shown.

“We need more studies into this field. We need a large clinical dataset to examine which clinical phenotypes are associated with possible underlying cancers to identify which patients are most at risk. We are already working on this,” she said. “Then it remains to be investigated whether screening for an underlying cancer should be added to the diagnostic workup in young stroke patients.”

Commenting on the study after the presentation, William Whiteley, BM, PhD, a clinical epidemiologist at the University of Edinburgh, Scotland, and a consultant neurologist in NHS Lothian, said it was difficult to know whether the link shown between stroke and cancer was causal, but the effect size in this study was “quite large.”

He pointed out that the associations with bowel and lung cancer could be due to shared risk factors, such as smoking, but he said the finding on a link with hematologic cancers is “interesting.”

Noting that there are links between hematologic cancers and thrombotic events, he said: “People have wondered if that is because of clonal expansion, which has been shown to increase the risk of atherosclerosis, so the question is whether this is some kind of common risk factor here.”

Dr. Verhoeven said she did not believe that shared risk factors fully explained the difference in increased risks between young and older patients.

“It does not fully explain why the risk of cancer is specifically higher in the first 1 to 2 years after the stroke diagnosis. I would think if it was just shared risk factors, the risk increase should remain relatively stable, or even increase due to the build-up of exposure to risk factors over the years,” she said.

Dr. Whiteley said that data like these are “really useful in trying to estimate these associations and it gives us some hypotheses to investigate in smaller mechanistic studies.”

Asked whether these data justify screening younger cryptogenic stroke patients more systematically for cancer, Dr. Whiteley replied: “I think we need some absolute risk estimates for that; for example, what proportion of younger patients would be at risk over the next few years when that screening would make a difference.”

Dr. Verhoeven reports no disclosures.

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

Young stroke patients have an increased risk of being diagnosed with a new cancer in the years following their stroke, a new study shows, raising the possibility that the stroke might be the first manifestation of an underlying cancer.

The data were presented by Jamie Verhoeven, MD, Radboud University Medical Centre, the Netherlands, at the recent European Stroke Organisation Conference 2022.

Dr. Verhoeven noted that 10% of all stroke cases occur in individuals younger than 50 years. During the past few decades, the incidence of stroke in the young has steadily increased, whereas the incidence of stroke in older adults has stabilized or decreased.

“Stroke in the young differs from stroke in older patients, and one of the major differences is that stroke in the young has a higher proportion of cryptogenic stroke, with no clear cause found in over one-third of patients,” she said.

Also, having an active cancer is known to be a risk factor for thrombosis. This association is strongest in venous thrombosis and has been less well investigated in arterial thrombosis, Dr. Verhoeven reported.

Her group aimed to investigate whether in some patients with cryptogenic stroke, this may be the first manifestation of an underlying cancer. “If this hypothesis is true, then it would be more obvious in young patients who have a higher incidence of cryptogenic stroke,” she said.

They performed a population-based observational cohort study using diagnostic ICD codes from the national Hospital Discharge Registry in the Netherlands and the Dutch Population Registry from 1998 to 2019.

Patients with a history of cancer before their first stroke and those with central nervous system cancers at the time of stroke or nonmelanoma skin cancers (which have been shown to have no systemic effects) were excluded.

Reference data came from the Netherlands Comprehensive Cancer Organisation, which collects data on all cancer diagnoses in the country.

The researchers identified 27,616 young stroke patients (age range, 15-49 years; median age, 45 years) and 362,782 older stroke patients (age range, 50 years and older; median age, 76 years).

The cumulative incidence of any cancer at 10 years was 3.7% in the younger group and 8.5% in the older group.

The data were compared with matched peers from the general population. The main outcome measures were cumulative incidence of first-ever cancer after stroke (stratified by stroke subtype, age and sex) and standardized incidence rates.

Results showed that the risk for cancer was higher in the younger age group than in the matched general population.

In this age group, the 1-year risk of any new cancer was 2.6 times higher (95% confidence interval, 2.2-3.1) after ischemic stroke and 5.4 times (95% CI, 3.8-7.3) after intracerebral hemorrhage than in matched peers from the general population.

In contrast, in stroke patients older than 50 years, the 1-year risk for any new cancer was 1.2 times higher than the general population after either ischemic or hemorrhagic stroke.

“The younger patients have a higher risk increase of cancer than older patients, and this risk increase is most evident in the first 1 to 2 years after stroke but remains statistically significant for up to 5 to 8 years later,” Dr. Verhoeven said.

The cancers that were most involved in this risk increase were those of the lower respiratory tract, hematologic cancers, and gastrointestinal cancers.

The main strength of this study was the use of national databases that allowed for a very large sample size, but this brings with it the danger of misclassification of events and the lack of clinical data, Dr. Verhoeven noted.

“Young stroke patients are at increased risk of developing a new cancer in the years following their stroke compared to peers from the general population, but this risk is only marginally increased in the older stroke population,” she concluded.

She pointed out that it is not possible to confirm any causal relation from this study design, but a clear association has been shown.

“We need more studies into this field. We need a large clinical dataset to examine which clinical phenotypes are associated with possible underlying cancers to identify which patients are most at risk. We are already working on this,” she said. “Then it remains to be investigated whether screening for an underlying cancer should be added to the diagnostic workup in young stroke patients.”

Commenting on the study after the presentation, William Whiteley, BM, PhD, a clinical epidemiologist at the University of Edinburgh, Scotland, and a consultant neurologist in NHS Lothian, said it was difficult to know whether the link shown between stroke and cancer was causal, but the effect size in this study was “quite large.”

He pointed out that the associations with bowel and lung cancer could be due to shared risk factors, such as smoking, but he said the finding on a link with hematologic cancers is “interesting.”

Noting that there are links between hematologic cancers and thrombotic events, he said: “People have wondered if that is because of clonal expansion, which has been shown to increase the risk of atherosclerosis, so the question is whether this is some kind of common risk factor here.”

Dr. Verhoeven said she did not believe that shared risk factors fully explained the difference in increased risks between young and older patients.

“It does not fully explain why the risk of cancer is specifically higher in the first 1 to 2 years after the stroke diagnosis. I would think if it was just shared risk factors, the risk increase should remain relatively stable, or even increase due to the build-up of exposure to risk factors over the years,” she said.

Dr. Whiteley said that data like these are “really useful in trying to estimate these associations and it gives us some hypotheses to investigate in smaller mechanistic studies.”

Asked whether these data justify screening younger cryptogenic stroke patients more systematically for cancer, Dr. Whiteley replied: “I think we need some absolute risk estimates for that; for example, what proportion of younger patients would be at risk over the next few years when that screening would make a difference.”

Dr. Verhoeven reports no disclosures.

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

Treatment with the diabetes drug exenatide was associated with a significant decrease in hyperglycemia in acute stroke patients, a new study shows.

The research could offer clinicians an alternative to insulin therapy to treat hyperglycemia and reduce glucose levels, which are elevated in up to 60% of stroke patients and associated with worse outcomes after stroke.

“Use of these diabetes drugs to control glucose in acute stroke has enormous potential,” said lead researcher Christopher Bladin, PhD, professor of neurology at Monash University and Eastern Health Clinical School, Australia.

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022 annual meeting in Lyon, France.
 

A better fix than insulin?

Hyperglycemia is common in stroke patients, including those who have no prior history of diabetes. Among stroke patients with normal blood glucose upon admission, about 30% will develop hyperglycemia within 48 hours of stroke onset.

Previous research suggests that hyperglycemia is a poor prognostic factor in patients with stroke and may reduce the efficacy of reperfusion therapies such as thrombolysis and mechanical thrombectomy.

“We’ve been looking for different ways of treating hyperglycemia for quite some time, and one of the obvious ways is to use insulin therapy,” Dr. Bladin said. “But as we’ve seen from multiple studies, insulin therapy is difficult.”

Insulin treatment is resource-heavy, significantly increases the risk for hypoglycemia, and some studies suggest the therapy isn’t associated with better outcomes.

An advantage to a GLP-1 agonist-like exenatide, Dr. Bladin added, is that it’s glucose-dependent. As the glucose level falls, the drug’s efficacy diminishes. It is delivered via an autoinjector and easy to administer.

A case for more study

To study exenatide’s efficacy in reducing hyperglycemia and improving neurologic outcomes, researchers developed the phase 2, international, multicenter, randomized controlled TEXAIS trial.

The study enrolled 350 patients following an ischemic stroke. Within 9 hours of stroke onset, patients received either standard care or a subcutaneous injection of 5 mg of exenatide twice daily for 5 days.

On admission, 42% of patients had hyperglycemia, defined as blood glucose > 7.0 mmol/L.

The study’s primary outcome was at least an 8-point improvement in National Institutes of Health Stroke Scale (NIHSS) score by 7 days after treatment with exenatide. Although there was a trend toward better scores with exenatide, the score was not significantly different between groups (56.7% with standard care versus 61.2% with exenatide; adjusted odds ratio, 1.22; P = .38).

However, when the researchers examined hyperglycemia frequency, they found significantly lower incidence in patients treated with exenatide (P = .002).

There were no cases of hypoglycemia in either group, and only 4% of the study group reported nausea or vomiting.

“Clearly exenatide is having some benefit in terms of keeping glucose under control, reducing hyperglycemia,” Dr. Bladin said. “It certainly lends itself to a larger phase 3 study which can look at this more completely.”
 

Value to clinicians

Commenting on the findings, Yvonne Chun, PhD, honorary senior clinical lecturer at University of Edinburgh, noted that, even though the study didn’t find a significant association with improved neurological outcomes, the reduced risk for hypoglycemia makes exenatide an attractive alternative to insulin therapy in stroke patients.

“The results are of value to clinicians, as exenatide could potentially be a safer medication to administer than an insulin infusion in acute stroke patients with hyperglycemia,” Dr. Chun said. “There is less risk of hypoglycemia with exenatide compared to standard care.”

However, Dr. Chun noted that more study is needed before exenatide can replace standard care. Dr. Bladin agrees and would like to pursue a phase 3 trial with a modified design to answer questions raised by Dr. Chun and others.

“The next phase could consider changing the primary outcome to an ordinal shift analysis on modified Rankin Scale – a very commonly used primary outcome in stroke clinical trials to assess improvement in disability,” Dr. Chun said. “The primary outcome used in the presented trial – an 8-point improvement on NIHSS – seemed too ambitious and does not inform disability of the patient post stroke.”

Dr. Bladin said he would also like to see the next phase enroll more patients, examine a higher dose of exenatide, and include better stratification of patients with a history of diabetes. Such a trial could yield findings demonstrating the drug’s effectiveness at reducing hyperglycemia and improving outcomes after stroke, he said.

“I can see the day patients will come in with acute stroke, and as they’re coming into the emergency department, they’ll simply get their shot of exenatide because we know it’s safe to use, and it doesn’t cause hypoglycemia,” Dr. Bladin said. “And from the moment that patient arrives the glucose control is underway.”

Dr. Bladin and Dr. Chun reported no relevant financial relationships. Study funding was not disclosed.

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

Treatment with the diabetes drug exenatide was associated with a significant decrease in hyperglycemia in acute stroke patients, a new study shows.

The research could offer clinicians an alternative to insulin therapy to treat hyperglycemia and reduce glucose levels, which are elevated in up to 60% of stroke patients and associated with worse outcomes after stroke.

“Use of these diabetes drugs to control glucose in acute stroke has enormous potential,” said lead researcher Christopher Bladin, PhD, professor of neurology at Monash University and Eastern Health Clinical School, Australia.

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022 annual meeting in Lyon, France.
 

A better fix than insulin?

Hyperglycemia is common in stroke patients, including those who have no prior history of diabetes. Among stroke patients with normal blood glucose upon admission, about 30% will develop hyperglycemia within 48 hours of stroke onset.

Previous research suggests that hyperglycemia is a poor prognostic factor in patients with stroke and may reduce the efficacy of reperfusion therapies such as thrombolysis and mechanical thrombectomy.

“We’ve been looking for different ways of treating hyperglycemia for quite some time, and one of the obvious ways is to use insulin therapy,” Dr. Bladin said. “But as we’ve seen from multiple studies, insulin therapy is difficult.”

Insulin treatment is resource-heavy, significantly increases the risk for hypoglycemia, and some studies suggest the therapy isn’t associated with better outcomes.

An advantage to a GLP-1 agonist-like exenatide, Dr. Bladin added, is that it’s glucose-dependent. As the glucose level falls, the drug’s efficacy diminishes. It is delivered via an autoinjector and easy to administer.

A case for more study

To study exenatide’s efficacy in reducing hyperglycemia and improving neurologic outcomes, researchers developed the phase 2, international, multicenter, randomized controlled TEXAIS trial.

The study enrolled 350 patients following an ischemic stroke. Within 9 hours of stroke onset, patients received either standard care or a subcutaneous injection of 5 mg of exenatide twice daily for 5 days.

On admission, 42% of patients had hyperglycemia, defined as blood glucose > 7.0 mmol/L.

The study’s primary outcome was at least an 8-point improvement in National Institutes of Health Stroke Scale (NIHSS) score by 7 days after treatment with exenatide. Although there was a trend toward better scores with exenatide, the score was not significantly different between groups (56.7% with standard care versus 61.2% with exenatide; adjusted odds ratio, 1.22; P = .38).

However, when the researchers examined hyperglycemia frequency, they found significantly lower incidence in patients treated with exenatide (P = .002).

There were no cases of hypoglycemia in either group, and only 4% of the study group reported nausea or vomiting.

“Clearly exenatide is having some benefit in terms of keeping glucose under control, reducing hyperglycemia,” Dr. Bladin said. “It certainly lends itself to a larger phase 3 study which can look at this more completely.”
 

Value to clinicians

Commenting on the findings, Yvonne Chun, PhD, honorary senior clinical lecturer at University of Edinburgh, noted that, even though the study didn’t find a significant association with improved neurological outcomes, the reduced risk for hypoglycemia makes exenatide an attractive alternative to insulin therapy in stroke patients.

“The results are of value to clinicians, as exenatide could potentially be a safer medication to administer than an insulin infusion in acute stroke patients with hyperglycemia,” Dr. Chun said. “There is less risk of hypoglycemia with exenatide compared to standard care.”

However, Dr. Chun noted that more study is needed before exenatide can replace standard care. Dr. Bladin agrees and would like to pursue a phase 3 trial with a modified design to answer questions raised by Dr. Chun and others.

“The next phase could consider changing the primary outcome to an ordinal shift analysis on modified Rankin Scale – a very commonly used primary outcome in stroke clinical trials to assess improvement in disability,” Dr. Chun said. “The primary outcome used in the presented trial – an 8-point improvement on NIHSS – seemed too ambitious and does not inform disability of the patient post stroke.”

Dr. Bladin said he would also like to see the next phase enroll more patients, examine a higher dose of exenatide, and include better stratification of patients with a history of diabetes. Such a trial could yield findings demonstrating the drug’s effectiveness at reducing hyperglycemia and improving outcomes after stroke, he said.

“I can see the day patients will come in with acute stroke, and as they’re coming into the emergency department, they’ll simply get their shot of exenatide because we know it’s safe to use, and it doesn’t cause hypoglycemia,” Dr. Bladin said. “And from the moment that patient arrives the glucose control is underway.”

Dr. Bladin and Dr. Chun reported no relevant financial relationships. Study funding was not disclosed.

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

Treatment with the diabetes drug exenatide was associated with a significant decrease in hyperglycemia in acute stroke patients, a new study shows.

The research could offer clinicians an alternative to insulin therapy to treat hyperglycemia and reduce glucose levels, which are elevated in up to 60% of stroke patients and associated with worse outcomes after stroke.

“Use of these diabetes drugs to control glucose in acute stroke has enormous potential,” said lead researcher Christopher Bladin, PhD, professor of neurology at Monash University and Eastern Health Clinical School, Australia.

The findings were presented at the European Stroke Organisation Conference (ESOC) 2022 annual meeting in Lyon, France.
 

A better fix than insulin?

Hyperglycemia is common in stroke patients, including those who have no prior history of diabetes. Among stroke patients with normal blood glucose upon admission, about 30% will develop hyperglycemia within 48 hours of stroke onset.

Previous research suggests that hyperglycemia is a poor prognostic factor in patients with stroke and may reduce the efficacy of reperfusion therapies such as thrombolysis and mechanical thrombectomy.

“We’ve been looking for different ways of treating hyperglycemia for quite some time, and one of the obvious ways is to use insulin therapy,” Dr. Bladin said. “But as we’ve seen from multiple studies, insulin therapy is difficult.”

Insulin treatment is resource-heavy, significantly increases the risk for hypoglycemia, and some studies suggest the therapy isn’t associated with better outcomes.

An advantage to a GLP-1 agonist-like exenatide, Dr. Bladin added, is that it’s glucose-dependent. As the glucose level falls, the drug’s efficacy diminishes. It is delivered via an autoinjector and easy to administer.

A case for more study

To study exenatide’s efficacy in reducing hyperglycemia and improving neurologic outcomes, researchers developed the phase 2, international, multicenter, randomized controlled TEXAIS trial.

The study enrolled 350 patients following an ischemic stroke. Within 9 hours of stroke onset, patients received either standard care or a subcutaneous injection of 5 mg of exenatide twice daily for 5 days.

On admission, 42% of patients had hyperglycemia, defined as blood glucose > 7.0 mmol/L.

The study’s primary outcome was at least an 8-point improvement in National Institutes of Health Stroke Scale (NIHSS) score by 7 days after treatment with exenatide. Although there was a trend toward better scores with exenatide, the score was not significantly different between groups (56.7% with standard care versus 61.2% with exenatide; adjusted odds ratio, 1.22; P = .38).

However, when the researchers examined hyperglycemia frequency, they found significantly lower incidence in patients treated with exenatide (P = .002).

There were no cases of hypoglycemia in either group, and only 4% of the study group reported nausea or vomiting.

“Clearly exenatide is having some benefit in terms of keeping glucose under control, reducing hyperglycemia,” Dr. Bladin said. “It certainly lends itself to a larger phase 3 study which can look at this more completely.”
 

Value to clinicians

Commenting on the findings, Yvonne Chun, PhD, honorary senior clinical lecturer at University of Edinburgh, noted that, even though the study didn’t find a significant association with improved neurological outcomes, the reduced risk for hypoglycemia makes exenatide an attractive alternative to insulin therapy in stroke patients.

“The results are of value to clinicians, as exenatide could potentially be a safer medication to administer than an insulin infusion in acute stroke patients with hyperglycemia,” Dr. Chun said. “There is less risk of hypoglycemia with exenatide compared to standard care.”

However, Dr. Chun noted that more study is needed before exenatide can replace standard care. Dr. Bladin agrees and would like to pursue a phase 3 trial with a modified design to answer questions raised by Dr. Chun and others.

“The next phase could consider changing the primary outcome to an ordinal shift analysis on modified Rankin Scale – a very commonly used primary outcome in stroke clinical trials to assess improvement in disability,” Dr. Chun said. “The primary outcome used in the presented trial – an 8-point improvement on NIHSS – seemed too ambitious and does not inform disability of the patient post stroke.”

Dr. Bladin said he would also like to see the next phase enroll more patients, examine a higher dose of exenatide, and include better stratification of patients with a history of diabetes. Such a trial could yield findings demonstrating the drug’s effectiveness at reducing hyperglycemia and improving outcomes after stroke, he said.

“I can see the day patients will come in with acute stroke, and as they’re coming into the emergency department, they’ll simply get their shot of exenatide because we know it’s safe to use, and it doesn’t cause hypoglycemia,” Dr. Bladin said. “And from the moment that patient arrives the glucose control is underway.”

Dr. Bladin and Dr. Chun reported no relevant financial relationships. Study funding was not disclosed.

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

Espresso consumption is associated with higher total cholesterol levels, a population-based, cross-sectional study suggests.

Elevations in serum total cholesterol level were significantly linked to espresso consumption, particularly in men, Åsne Lirhus Svatun, of the Arctic University of Norway, Tromsø, and colleagues reported.

Drinking boiled/plunger coffee was associated with significantly higher serum total cholesterol levels in women and men. There was a significant relationship between filtered coffee consumption and total cholesterol, but only among women, the researchers reported.

SorJongAng/Thinkstock.com

“Doctors could become mindful of asking about coffee consumption when taking up the history of patients with elevated serum cholesterol,” study author Maja-Lisa Løchen, MD, PhD, of the Arctic University of Norway, said in an interview.

“Guiding patients to change from plunger coffee or other unfiltered coffee types to filtered or instant coffee could be a part of a lifestyle intervention to lower serum cholesterol levels.”

The results were published online in the journal Open Heart.

Previous studies of the relationship between serum cholesterol and espresso have had varying outcomes, the researchers noted.

Given that coffee consumption is high worldwide, even slight health effects can have substantial health consequences, the researchers noted. “Coffee was included for the first time in the 2021 ESC [European Society of Cardiology] guidelines on cardiovascular disease prevention in clinical practice. Increased knowledge on espresso coffee’s association with serum cholesterol will improve the recommendations regarding coffee consumption.”

“I don’t think that the findings in this paper are necessarily enough to change any advice about coffee,” said David Kao, MD, an associate professor medicine at the University of Colorado at Denver, Aurora, in commenting on the findings. “This is partly because the most important thing at the end of the day is whether subsequent events like heart attack or stroke increased or decreased. This analysis was not designed to answer that question.”

“If one has to choose between this study, which would suggest to drink less coffee to maintain low cholesterol, and the others, which would suggest increasing coffee consumption might reduce risk of multiple kinds of CVD, one should choose the latter,” Dr. Kao concluded.

In the current study, the investigators assessed 21,083 participants in the Tromsø Study in Northern Norway. The mean age of the participants was 56.4 years. Using multivariable linear regression, the researchers compared the relationship between each level of coffee consumption with no coffee consumption as the reference point and serum total cholesterol as the dependent variable. They tested for sex differences and adjusted for relevant covariates.

The findings indicate that drinking three to five cups of espresso each day was significantly linked with greater serum total cholesterol by 0.16 mmol/L (95% confidence interval, 0.07-0.24) for men and by 0.09 mmol/L (95% CI, 0.01-0.17) for women in comparison with participants who did not drink espresso daily.

Compared with individuals who did not drink plunger/boiled coffee, consumption of six or more cups of plunger/boiled coffee each day was linked with elevated serum total cholesterol levels by 0.23 mmol/L (95% CI, 0.08-0.38) for men and 0.30 mmol/L (95% CI, 0.13-0.48) for women.

Notably, for women but not men, there was an increase in serum total cholesterol of 0.11 mmol/L (95% CI, 0.03-0.19) in association with drinking six or more cups of filtered coffee per day.

When excluding participants who did not drink instant coffee, drinking instant coffee yielded a significant linear pattern for both men and women, but there was not a dose-dependent association.

These data show that sex differences were significant for every coffee type except plunger/boiled coffee, the authors noted.

Limitations of the study include its cross-sectional design; lack of generalizability of the data, given that the cohort primarily consisted of elderly adults and middle-aged White persons; and the fact that the study did not adjust for all confounding variables, the researchers noted.

Also among the study’s limitations were that some data were self-reported, and the missing indicator approach was implemented to assess data, the authors added.

Future research efforts should focus on following this cohort over many years to determine how consumption of various types of coffee is linked with events such as heart failure, stroke, and myocardial infarction. This insight would be important in offering guidance on whether the style of coffee preparation matters, concluded Dr. Kao.

The study was supported by a number of sources, including the Arctic University of Norway and the Northern Norway Regional Health Authority. The study investigators reported no conflicts of interest.

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

Espresso consumption is associated with higher total cholesterol levels, a population-based, cross-sectional study suggests.

Elevations in serum total cholesterol level were significantly linked to espresso consumption, particularly in men, Åsne Lirhus Svatun, of the Arctic University of Norway, Tromsø, and colleagues reported.

Drinking boiled/plunger coffee was associated with significantly higher serum total cholesterol levels in women and men. There was a significant relationship between filtered coffee consumption and total cholesterol, but only among women, the researchers reported.

SorJongAng/Thinkstock.com

“Doctors could become mindful of asking about coffee consumption when taking up the history of patients with elevated serum cholesterol,” study author Maja-Lisa Løchen, MD, PhD, of the Arctic University of Norway, said in an interview.

“Guiding patients to change from plunger coffee or other unfiltered coffee types to filtered or instant coffee could be a part of a lifestyle intervention to lower serum cholesterol levels.”

The results were published online in the journal Open Heart.

Previous studies of the relationship between serum cholesterol and espresso have had varying outcomes, the researchers noted.

Given that coffee consumption is high worldwide, even slight health effects can have substantial health consequences, the researchers noted. “Coffee was included for the first time in the 2021 ESC [European Society of Cardiology] guidelines on cardiovascular disease prevention in clinical practice. Increased knowledge on espresso coffee’s association with serum cholesterol will improve the recommendations regarding coffee consumption.”

“I don’t think that the findings in this paper are necessarily enough to change any advice about coffee,” said David Kao, MD, an associate professor medicine at the University of Colorado at Denver, Aurora, in commenting on the findings. “This is partly because the most important thing at the end of the day is whether subsequent events like heart attack or stroke increased or decreased. This analysis was not designed to answer that question.”

“If one has to choose between this study, which would suggest to drink less coffee to maintain low cholesterol, and the others, which would suggest increasing coffee consumption might reduce risk of multiple kinds of CVD, one should choose the latter,” Dr. Kao concluded.

In the current study, the investigators assessed 21,083 participants in the Tromsø Study in Northern Norway. The mean age of the participants was 56.4 years. Using multivariable linear regression, the researchers compared the relationship between each level of coffee consumption with no coffee consumption as the reference point and serum total cholesterol as the dependent variable. They tested for sex differences and adjusted for relevant covariates.

The findings indicate that drinking three to five cups of espresso each day was significantly linked with greater serum total cholesterol by 0.16 mmol/L (95% confidence interval, 0.07-0.24) for men and by 0.09 mmol/L (95% CI, 0.01-0.17) for women in comparison with participants who did not drink espresso daily.

Compared with individuals who did not drink plunger/boiled coffee, consumption of six or more cups of plunger/boiled coffee each day was linked with elevated serum total cholesterol levels by 0.23 mmol/L (95% CI, 0.08-0.38) for men and 0.30 mmol/L (95% CI, 0.13-0.48) for women.

Notably, for women but not men, there was an increase in serum total cholesterol of 0.11 mmol/L (95% CI, 0.03-0.19) in association with drinking six or more cups of filtered coffee per day.

When excluding participants who did not drink instant coffee, drinking instant coffee yielded a significant linear pattern for both men and women, but there was not a dose-dependent association.

These data show that sex differences were significant for every coffee type except plunger/boiled coffee, the authors noted.

Limitations of the study include its cross-sectional design; lack of generalizability of the data, given that the cohort primarily consisted of elderly adults and middle-aged White persons; and the fact that the study did not adjust for all confounding variables, the researchers noted.

Also among the study’s limitations were that some data were self-reported, and the missing indicator approach was implemented to assess data, the authors added.

Future research efforts should focus on following this cohort over many years to determine how consumption of various types of coffee is linked with events such as heart failure, stroke, and myocardial infarction. This insight would be important in offering guidance on whether the style of coffee preparation matters, concluded Dr. Kao.

The study was supported by a number of sources, including the Arctic University of Norway and the Northern Norway Regional Health Authority. The study investigators reported no conflicts of interest.

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

Espresso consumption is associated with higher total cholesterol levels, a population-based, cross-sectional study suggests.

Elevations in serum total cholesterol level were significantly linked to espresso consumption, particularly in men, Åsne Lirhus Svatun, of the Arctic University of Norway, Tromsø, and colleagues reported.

Drinking boiled/plunger coffee was associated with significantly higher serum total cholesterol levels in women and men. There was a significant relationship between filtered coffee consumption and total cholesterol, but only among women, the researchers reported.

SorJongAng/Thinkstock.com

“Doctors could become mindful of asking about coffee consumption when taking up the history of patients with elevated serum cholesterol,” study author Maja-Lisa Løchen, MD, PhD, of the Arctic University of Norway, said in an interview.

“Guiding patients to change from plunger coffee or other unfiltered coffee types to filtered or instant coffee could be a part of a lifestyle intervention to lower serum cholesterol levels.”

The results were published online in the journal Open Heart.

Previous studies of the relationship between serum cholesterol and espresso have had varying outcomes, the researchers noted.

Given that coffee consumption is high worldwide, even slight health effects can have substantial health consequences, the researchers noted. “Coffee was included for the first time in the 2021 ESC [European Society of Cardiology] guidelines on cardiovascular disease prevention in clinical practice. Increased knowledge on espresso coffee’s association with serum cholesterol will improve the recommendations regarding coffee consumption.”

“I don’t think that the findings in this paper are necessarily enough to change any advice about coffee,” said David Kao, MD, an associate professor medicine at the University of Colorado at Denver, Aurora, in commenting on the findings. “This is partly because the most important thing at the end of the day is whether subsequent events like heart attack or stroke increased or decreased. This analysis was not designed to answer that question.”

“If one has to choose between this study, which would suggest to drink less coffee to maintain low cholesterol, and the others, which would suggest increasing coffee consumption might reduce risk of multiple kinds of CVD, one should choose the latter,” Dr. Kao concluded.

In the current study, the investigators assessed 21,083 participants in the Tromsø Study in Northern Norway. The mean age of the participants was 56.4 years. Using multivariable linear regression, the researchers compared the relationship between each level of coffee consumption with no coffee consumption as the reference point and serum total cholesterol as the dependent variable. They tested for sex differences and adjusted for relevant covariates.

The findings indicate that drinking three to five cups of espresso each day was significantly linked with greater serum total cholesterol by 0.16 mmol/L (95% confidence interval, 0.07-0.24) for men and by 0.09 mmol/L (95% CI, 0.01-0.17) for women in comparison with participants who did not drink espresso daily.

Compared with individuals who did not drink plunger/boiled coffee, consumption of six or more cups of plunger/boiled coffee each day was linked with elevated serum total cholesterol levels by 0.23 mmol/L (95% CI, 0.08-0.38) for men and 0.30 mmol/L (95% CI, 0.13-0.48) for women.

Notably, for women but not men, there was an increase in serum total cholesterol of 0.11 mmol/L (95% CI, 0.03-0.19) in association with drinking six or more cups of filtered coffee per day.

When excluding participants who did not drink instant coffee, drinking instant coffee yielded a significant linear pattern for both men and women, but there was not a dose-dependent association.

These data show that sex differences were significant for every coffee type except plunger/boiled coffee, the authors noted.

Limitations of the study include its cross-sectional design; lack of generalizability of the data, given that the cohort primarily consisted of elderly adults and middle-aged White persons; and the fact that the study did not adjust for all confounding variables, the researchers noted.

Also among the study’s limitations were that some data were self-reported, and the missing indicator approach was implemented to assess data, the authors added.

Future research efforts should focus on following this cohort over many years to determine how consumption of various types of coffee is linked with events such as heart failure, stroke, and myocardial infarction. This insight would be important in offering guidance on whether the style of coffee preparation matters, concluded Dr. Kao.

The study was supported by a number of sources, including the Arctic University of Norway and the Northern Norway Regional Health Authority. The study investigators reported no conflicts of interest.

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