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People with paroxysmal atrial fibrillation who explored potential triggers of their arrhythmia, and used them to make lifestyle changes, went on to show a 40% decline in subjectively experienced bouts of AFib in a randomized trial with an unusual design.

American Heart Association

But the study didn’t provide evidence that the drop in self-reported AFib necessarily improved their quality of life, its primary endpoint. Nor was there any apparent relationship between potential triggers and AFib episodes detected less subjectively using a handheld electrocardiography monitor.

Although the study – called I-STOP-AFib – has limitations, its results jibe with alcohol intake’s increasingly appreciated status as a potential AFib trigger. It was alone among many possible triggers tested in showing a consistent association with self-reported AFib.

As a result, the study offers no support for such a link between the arrhythmia and caffeine intake, sleep deprivation, dehydration, exercise, or other conditions sometimes perceived as triggers, observed principal investigator Gregory M. Marcus, MD, MAS, University of California, San Francisco, when presenting results at the American Heart Association scientific sessions. He is also lead author on the study’s simultaneous publication in JAMA Cardiology.

The I-STOP-AFib trial was unusual in part for its virtual design, in which participants followed instructions and tracked AFib episodes – both perceived and detected by the handheld ECG device – through a smartphone application. It also featured an N-of-1 randomized comparisons of different weeks in which individuals were or were not exposed to their self-selected trigger.

Such patients following their own weekly personalized randomization were compared to an entirely separate randomized control arm of the trial, in which patients simply tracked any ECG-monitored and self-perceived AFib episodes.
 

Current use in patients

Although wearable and smartphone-based ECG recorders are increasingly popular for AFib screening, Dr. Marcus said the devices may be especially helpful for validating whether a person’s symptoms are actually caused by AFib.

“I have actually suggested to some of my patients that they run some of these experiments,” he said at a media briefing on I-STOP-AFib before his main presentation of the trial. The demonstration might help patients recognize that some perceived triggers actually do not induce AFib.

Allowing patients to determine on their own whether a substance indeed triggers their AFib “is an efficient use of these devices,” Dr. Marcus said. Such N-of-1 exploration of possible triggers “might help free patients up to enjoy substances – caffeine or coffee is one example – that they otherwise might not, and may help actually reassure them that certain exposures –like certain exercises, which can also be beneficial – might actually not be harmful.”

Dr. Marcus and the other authors on the report noted – as he did at the AHA sessions – that the study has several limitations, such as the subjectivity of self-reported AFib, dropouts from the trial that shrank the randomization arms, and a population that may not be very representative.

There is also the potential for detection bias in the group assigned to track their selected triggers, as Dr. Marcus and some observers have noted.

It follows that conscious avoidance of a potential AFib trigger might well lead to a reduction in AFib subjectively identified by symptoms, proposed David Conen, MD, MPH, Population Health Research Institute, McMaster University, Hamilton, Ont. But perhaps there would have been no reduction in AFib had it been objectively documented with the handheld ECG device, he said in an interview.

“If I were to redesign the study,” he said, “I think the primary endpoint should be confirmed atrial fibrillation, because we would have to show first that the specific trigger actually reduced objective AFib events before we then try to address the question whether reducing that trigger improves quality of life.”
 

Unrepresentative sample

The trial entered 446 overwhelmingly White and college-educated adults known to have symptomatic paroxysmal AFib who were “interested in testing a presumed AFib trigger they could readily introduce or withhold” and who owned a smartphone; the average age was 58 years, and 58% were men. The cohort was randomly assigned to the trigger-testing group or the control group, charged only with tracking their AFib.

Of the total, 320, or about 72%, completed the study; those who did not were mostly from the trigger-testing arm, leaving 136 in that group versus 184 patients in the control group.

Potential triggers that participants selected for tracking included, foremost, caffeine, alcohol, reduced sleep, and exercise, followed by lying on the left side, dehydration, large meals, and cold food or drink, the report noted.

Patients in the control group used the smartphone app and handheld ECG monitor (KardiaMobile, AliveCor) to document the duration and severity of AFib episodes daily and received data summary reports through the app weekly for 10 weeks. They then had the option to follow the trigger-testing protocol at least once.

Those in the trigger-testing group conducted their N-of-1 trials by exposing themselves to their chosen potential trigger during 3 separate weeks and avoiding the trigger during 3 other weeks, alternating each of the 6 weeks of trigger exposure or avoidance. They were instructed through the app to start the 6-week sequence with one or the other strategy randomly and to regularly track their AFib.

At the end of 6 weeks, each participant in the trigger-testing group had the opportunity to review their data for any potential trigger-AFib associations. They were then to use the next 4 weeks to enact lifestyle changes based on what they learned – as described in the report and on clinicaltrials.gov. They had the option of repeating the entire N-of-1 sequence at least one more time.

Participants in both the trigger-tracking and control arms were tested at baseline and at 10 weeks using the validated Atrial Fibrillation Effect on Quality-of-Life (AFEQT) questionnaire.

AFEQT scores didn’t change significantly over the 10 weeks in either arm, nor were they significantly different in one arm, compared with the other.

On the other hand, patients in the trigger-tracking arm reported significantly fewer daily AFib episodes during the final 4-week period of lifestyle changes based on their N-of-1 trial results, compared to the monitoring-only control group’s final 4 weeks.

The adjusted relative risk in the trigger-tracking arm was 0.60 (95% confidence interval, 0.43-0.83; P < .001), the difference driven by patients who selected alcohol, dehydration, or exercise for their trigger, Dr. Marcus reported.

Only alcohol intake emerged consistently as a significant predictor of risk for self-reported AFib episodes in a series of meta-analyses conducted using all of the individual N-of-1 trials that provided per-protocol data. The odds ratio was 1.77 (95% CI, 1.20-2.69).

I-STOP-AFib explored an important subject “that has been understudied,” Dr. Conen said. “The trial has some limitations that the authors address themselves, but hopefully it opens the path to future studies that can build upon this experience.”

Dr. Marcus reported receiving personal fees and equity interest from InCarda Therapeutics; personal fees from Johnson & Johnson; and grants from Baylis Medical, Medtronic, the National Institutes of Health, the Patient-Centered Outcomes Research Institute, and the California Tobacco-Related Disease Research Program.

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

People with paroxysmal atrial fibrillation who explored potential triggers of their arrhythmia, and used them to make lifestyle changes, went on to show a 40% decline in subjectively experienced bouts of AFib in a randomized trial with an unusual design.

American Heart Association

But the study didn’t provide evidence that the drop in self-reported AFib necessarily improved their quality of life, its primary endpoint. Nor was there any apparent relationship between potential triggers and AFib episodes detected less subjectively using a handheld electrocardiography monitor.

Although the study – called I-STOP-AFib – has limitations, its results jibe with alcohol intake’s increasingly appreciated status as a potential AFib trigger. It was alone among many possible triggers tested in showing a consistent association with self-reported AFib.

As a result, the study offers no support for such a link between the arrhythmia and caffeine intake, sleep deprivation, dehydration, exercise, or other conditions sometimes perceived as triggers, observed principal investigator Gregory M. Marcus, MD, MAS, University of California, San Francisco, when presenting results at the American Heart Association scientific sessions. He is also lead author on the study’s simultaneous publication in JAMA Cardiology.

The I-STOP-AFib trial was unusual in part for its virtual design, in which participants followed instructions and tracked AFib episodes – both perceived and detected by the handheld ECG device – through a smartphone application. It also featured an N-of-1 randomized comparisons of different weeks in which individuals were or were not exposed to their self-selected trigger.

Such patients following their own weekly personalized randomization were compared to an entirely separate randomized control arm of the trial, in which patients simply tracked any ECG-monitored and self-perceived AFib episodes.
 

Current use in patients

Although wearable and smartphone-based ECG recorders are increasingly popular for AFib screening, Dr. Marcus said the devices may be especially helpful for validating whether a person’s symptoms are actually caused by AFib.

“I have actually suggested to some of my patients that they run some of these experiments,” he said at a media briefing on I-STOP-AFib before his main presentation of the trial. The demonstration might help patients recognize that some perceived triggers actually do not induce AFib.

Allowing patients to determine on their own whether a substance indeed triggers their AFib “is an efficient use of these devices,” Dr. Marcus said. Such N-of-1 exploration of possible triggers “might help free patients up to enjoy substances – caffeine or coffee is one example – that they otherwise might not, and may help actually reassure them that certain exposures –like certain exercises, which can also be beneficial – might actually not be harmful.”

Dr. Marcus and the other authors on the report noted – as he did at the AHA sessions – that the study has several limitations, such as the subjectivity of self-reported AFib, dropouts from the trial that shrank the randomization arms, and a population that may not be very representative.

There is also the potential for detection bias in the group assigned to track their selected triggers, as Dr. Marcus and some observers have noted.

It follows that conscious avoidance of a potential AFib trigger might well lead to a reduction in AFib subjectively identified by symptoms, proposed David Conen, MD, MPH, Population Health Research Institute, McMaster University, Hamilton, Ont. But perhaps there would have been no reduction in AFib had it been objectively documented with the handheld ECG device, he said in an interview.

“If I were to redesign the study,” he said, “I think the primary endpoint should be confirmed atrial fibrillation, because we would have to show first that the specific trigger actually reduced objective AFib events before we then try to address the question whether reducing that trigger improves quality of life.”
 

Unrepresentative sample

The trial entered 446 overwhelmingly White and college-educated adults known to have symptomatic paroxysmal AFib who were “interested in testing a presumed AFib trigger they could readily introduce or withhold” and who owned a smartphone; the average age was 58 years, and 58% were men. The cohort was randomly assigned to the trigger-testing group or the control group, charged only with tracking their AFib.

Of the total, 320, or about 72%, completed the study; those who did not were mostly from the trigger-testing arm, leaving 136 in that group versus 184 patients in the control group.

Potential triggers that participants selected for tracking included, foremost, caffeine, alcohol, reduced sleep, and exercise, followed by lying on the left side, dehydration, large meals, and cold food or drink, the report noted.

Patients in the control group used the smartphone app and handheld ECG monitor (KardiaMobile, AliveCor) to document the duration and severity of AFib episodes daily and received data summary reports through the app weekly for 10 weeks. They then had the option to follow the trigger-testing protocol at least once.

Those in the trigger-testing group conducted their N-of-1 trials by exposing themselves to their chosen potential trigger during 3 separate weeks and avoiding the trigger during 3 other weeks, alternating each of the 6 weeks of trigger exposure or avoidance. They were instructed through the app to start the 6-week sequence with one or the other strategy randomly and to regularly track their AFib.

At the end of 6 weeks, each participant in the trigger-testing group had the opportunity to review their data for any potential trigger-AFib associations. They were then to use the next 4 weeks to enact lifestyle changes based on what they learned – as described in the report and on clinicaltrials.gov. They had the option of repeating the entire N-of-1 sequence at least one more time.

Participants in both the trigger-tracking and control arms were tested at baseline and at 10 weeks using the validated Atrial Fibrillation Effect on Quality-of-Life (AFEQT) questionnaire.

AFEQT scores didn’t change significantly over the 10 weeks in either arm, nor were they significantly different in one arm, compared with the other.

On the other hand, patients in the trigger-tracking arm reported significantly fewer daily AFib episodes during the final 4-week period of lifestyle changes based on their N-of-1 trial results, compared to the monitoring-only control group’s final 4 weeks.

The adjusted relative risk in the trigger-tracking arm was 0.60 (95% confidence interval, 0.43-0.83; P < .001), the difference driven by patients who selected alcohol, dehydration, or exercise for their trigger, Dr. Marcus reported.

Only alcohol intake emerged consistently as a significant predictor of risk for self-reported AFib episodes in a series of meta-analyses conducted using all of the individual N-of-1 trials that provided per-protocol data. The odds ratio was 1.77 (95% CI, 1.20-2.69).

I-STOP-AFib explored an important subject “that has been understudied,” Dr. Conen said. “The trial has some limitations that the authors address themselves, but hopefully it opens the path to future studies that can build upon this experience.”

Dr. Marcus reported receiving personal fees and equity interest from InCarda Therapeutics; personal fees from Johnson & Johnson; and grants from Baylis Medical, Medtronic, the National Institutes of Health, the Patient-Centered Outcomes Research Institute, and the California Tobacco-Related Disease Research Program.

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

People with paroxysmal atrial fibrillation who explored potential triggers of their arrhythmia, and used them to make lifestyle changes, went on to show a 40% decline in subjectively experienced bouts of AFib in a randomized trial with an unusual design.

American Heart Association

But the study didn’t provide evidence that the drop in self-reported AFib necessarily improved their quality of life, its primary endpoint. Nor was there any apparent relationship between potential triggers and AFib episodes detected less subjectively using a handheld electrocardiography monitor.

Although the study – called I-STOP-AFib – has limitations, its results jibe with alcohol intake’s increasingly appreciated status as a potential AFib trigger. It was alone among many possible triggers tested in showing a consistent association with self-reported AFib.

As a result, the study offers no support for such a link between the arrhythmia and caffeine intake, sleep deprivation, dehydration, exercise, or other conditions sometimes perceived as triggers, observed principal investigator Gregory M. Marcus, MD, MAS, University of California, San Francisco, when presenting results at the American Heart Association scientific sessions. He is also lead author on the study’s simultaneous publication in JAMA Cardiology.

The I-STOP-AFib trial was unusual in part for its virtual design, in which participants followed instructions and tracked AFib episodes – both perceived and detected by the handheld ECG device – through a smartphone application. It also featured an N-of-1 randomized comparisons of different weeks in which individuals were or were not exposed to their self-selected trigger.

Such patients following their own weekly personalized randomization were compared to an entirely separate randomized control arm of the trial, in which patients simply tracked any ECG-monitored and self-perceived AFib episodes.
 

Current use in patients

Although wearable and smartphone-based ECG recorders are increasingly popular for AFib screening, Dr. Marcus said the devices may be especially helpful for validating whether a person’s symptoms are actually caused by AFib.

“I have actually suggested to some of my patients that they run some of these experiments,” he said at a media briefing on I-STOP-AFib before his main presentation of the trial. The demonstration might help patients recognize that some perceived triggers actually do not induce AFib.

Allowing patients to determine on their own whether a substance indeed triggers their AFib “is an efficient use of these devices,” Dr. Marcus said. Such N-of-1 exploration of possible triggers “might help free patients up to enjoy substances – caffeine or coffee is one example – that they otherwise might not, and may help actually reassure them that certain exposures –like certain exercises, which can also be beneficial – might actually not be harmful.”

Dr. Marcus and the other authors on the report noted – as he did at the AHA sessions – that the study has several limitations, such as the subjectivity of self-reported AFib, dropouts from the trial that shrank the randomization arms, and a population that may not be very representative.

There is also the potential for detection bias in the group assigned to track their selected triggers, as Dr. Marcus and some observers have noted.

It follows that conscious avoidance of a potential AFib trigger might well lead to a reduction in AFib subjectively identified by symptoms, proposed David Conen, MD, MPH, Population Health Research Institute, McMaster University, Hamilton, Ont. But perhaps there would have been no reduction in AFib had it been objectively documented with the handheld ECG device, he said in an interview.

“If I were to redesign the study,” he said, “I think the primary endpoint should be confirmed atrial fibrillation, because we would have to show first that the specific trigger actually reduced objective AFib events before we then try to address the question whether reducing that trigger improves quality of life.”
 

Unrepresentative sample

The trial entered 446 overwhelmingly White and college-educated adults known to have symptomatic paroxysmal AFib who were “interested in testing a presumed AFib trigger they could readily introduce or withhold” and who owned a smartphone; the average age was 58 years, and 58% were men. The cohort was randomly assigned to the trigger-testing group or the control group, charged only with tracking their AFib.

Of the total, 320, or about 72%, completed the study; those who did not were mostly from the trigger-testing arm, leaving 136 in that group versus 184 patients in the control group.

Potential triggers that participants selected for tracking included, foremost, caffeine, alcohol, reduced sleep, and exercise, followed by lying on the left side, dehydration, large meals, and cold food or drink, the report noted.

Patients in the control group used the smartphone app and handheld ECG monitor (KardiaMobile, AliveCor) to document the duration and severity of AFib episodes daily and received data summary reports through the app weekly for 10 weeks. They then had the option to follow the trigger-testing protocol at least once.

Those in the trigger-testing group conducted their N-of-1 trials by exposing themselves to their chosen potential trigger during 3 separate weeks and avoiding the trigger during 3 other weeks, alternating each of the 6 weeks of trigger exposure or avoidance. They were instructed through the app to start the 6-week sequence with one or the other strategy randomly and to regularly track their AFib.

At the end of 6 weeks, each participant in the trigger-testing group had the opportunity to review their data for any potential trigger-AFib associations. They were then to use the next 4 weeks to enact lifestyle changes based on what they learned – as described in the report and on clinicaltrials.gov. They had the option of repeating the entire N-of-1 sequence at least one more time.

Participants in both the trigger-tracking and control arms were tested at baseline and at 10 weeks using the validated Atrial Fibrillation Effect on Quality-of-Life (AFEQT) questionnaire.

AFEQT scores didn’t change significantly over the 10 weeks in either arm, nor were they significantly different in one arm, compared with the other.

On the other hand, patients in the trigger-tracking arm reported significantly fewer daily AFib episodes during the final 4-week period of lifestyle changes based on their N-of-1 trial results, compared to the monitoring-only control group’s final 4 weeks.

The adjusted relative risk in the trigger-tracking arm was 0.60 (95% confidence interval, 0.43-0.83; P < .001), the difference driven by patients who selected alcohol, dehydration, or exercise for their trigger, Dr. Marcus reported.

Only alcohol intake emerged consistently as a significant predictor of risk for self-reported AFib episodes in a series of meta-analyses conducted using all of the individual N-of-1 trials that provided per-protocol data. The odds ratio was 1.77 (95% CI, 1.20-2.69).

I-STOP-AFib explored an important subject “that has been understudied,” Dr. Conen said. “The trial has some limitations that the authors address themselves, but hopefully it opens the path to future studies that can build upon this experience.”

Dr. Marcus reported receiving personal fees and equity interest from InCarda Therapeutics; personal fees from Johnson & Johnson; and grants from Baylis Medical, Medtronic, the National Institutes of Health, the Patient-Centered Outcomes Research Institute, and the California Tobacco-Related Disease Research Program.

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

On Nov. 12, president Joe Biden said he will nominate Robert Califf, MD, to be commissioner of the U.S. Food and Drug Administration, the top U.S. regulator of drugs and medical devices.

Dr. Califf, a cardiologist, served as FDA chief in the Obama administration, leading the agency from Feb. 2016 to Jan. 2017.

The coming nomination ends nearly 11 months of speculation over Mr. Biden’s pick to the lead the agency during the ongoing pandemic. Janet Woodcock, MD, an FDA veteran, has been serving as acting commissioner. The White House faced a Tuesday deadline to make a nomination or see Dr. Woodcock’s tenure as acting chief expire under federal law.

The initial reaction to the idea of Dr. Califf’s return to the FDA drew mixed reactions.

The nonprofit watchdog Public Citizen issued a statement about its opposition to the potential nomination of Dr. Califf. Michael Carome, MD, director of Public Citizen’s Health Research Group, said the United States “desperately needs an FDA leader who will reverse the decades-long trend in which the agency’s relationship with the pharmaceutical and medical-device industries has grown dangerously cozier – resulting in regulatory capture of the agency by industry.”

But the idea of Dr. Califf returning to the FDA pleased Harlan Krumholz, MD, a cardiologist who has been a leader in outcomes research.

Dr. Krumholz tweeted that the Biden administration likely was testing the reaction to a possible Dr. Califf nomination before making it official. “I realize that this is being floated and not officially announced ... but the nomination of [Califf] just makes so much sense,” Dr. Krumholz tweeted. Dr. Califf’s “expertise as a researcher, policymaker, clinician are unparalleled. In a time of partisanship, he should be a slam-dunk confirmation.”

Dr. Califf’s 2016 Senate confirmation process was marked by dissent from several Democrats who questioned his ties to industry. But the chamber voted 89-4 to confirm him.

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

On Nov. 12, president Joe Biden said he will nominate Robert Califf, MD, to be commissioner of the U.S. Food and Drug Administration, the top U.S. regulator of drugs and medical devices.

Dr. Califf, a cardiologist, served as FDA chief in the Obama administration, leading the agency from Feb. 2016 to Jan. 2017.

The coming nomination ends nearly 11 months of speculation over Mr. Biden’s pick to the lead the agency during the ongoing pandemic. Janet Woodcock, MD, an FDA veteran, has been serving as acting commissioner. The White House faced a Tuesday deadline to make a nomination or see Dr. Woodcock’s tenure as acting chief expire under federal law.

The initial reaction to the idea of Dr. Califf’s return to the FDA drew mixed reactions.

The nonprofit watchdog Public Citizen issued a statement about its opposition to the potential nomination of Dr. Califf. Michael Carome, MD, director of Public Citizen’s Health Research Group, said the United States “desperately needs an FDA leader who will reverse the decades-long trend in which the agency’s relationship with the pharmaceutical and medical-device industries has grown dangerously cozier – resulting in regulatory capture of the agency by industry.”

But the idea of Dr. Califf returning to the FDA pleased Harlan Krumholz, MD, a cardiologist who has been a leader in outcomes research.

Dr. Krumholz tweeted that the Biden administration likely was testing the reaction to a possible Dr. Califf nomination before making it official. “I realize that this is being floated and not officially announced ... but the nomination of [Califf] just makes so much sense,” Dr. Krumholz tweeted. Dr. Califf’s “expertise as a researcher, policymaker, clinician are unparalleled. In a time of partisanship, he should be a slam-dunk confirmation.”

Dr. Califf’s 2016 Senate confirmation process was marked by dissent from several Democrats who questioned his ties to industry. But the chamber voted 89-4 to confirm him.

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

On Nov. 12, president Joe Biden said he will nominate Robert Califf, MD, to be commissioner of the U.S. Food and Drug Administration, the top U.S. regulator of drugs and medical devices.

Dr. Califf, a cardiologist, served as FDA chief in the Obama administration, leading the agency from Feb. 2016 to Jan. 2017.

The coming nomination ends nearly 11 months of speculation over Mr. Biden’s pick to the lead the agency during the ongoing pandemic. Janet Woodcock, MD, an FDA veteran, has been serving as acting commissioner. The White House faced a Tuesday deadline to make a nomination or see Dr. Woodcock’s tenure as acting chief expire under federal law.

The initial reaction to the idea of Dr. Califf’s return to the FDA drew mixed reactions.

The nonprofit watchdog Public Citizen issued a statement about its opposition to the potential nomination of Dr. Califf. Michael Carome, MD, director of Public Citizen’s Health Research Group, said the United States “desperately needs an FDA leader who will reverse the decades-long trend in which the agency’s relationship with the pharmaceutical and medical-device industries has grown dangerously cozier – resulting in regulatory capture of the agency by industry.”

But the idea of Dr. Califf returning to the FDA pleased Harlan Krumholz, MD, a cardiologist who has been a leader in outcomes research.

Dr. Krumholz tweeted that the Biden administration likely was testing the reaction to a possible Dr. Califf nomination before making it official. “I realize that this is being floated and not officially announced ... but the nomination of [Califf] just makes so much sense,” Dr. Krumholz tweeted. Dr. Califf’s “expertise as a researcher, policymaker, clinician are unparalleled. In a time of partisanship, he should be a slam-dunk confirmation.”

Dr. Califf’s 2016 Senate confirmation process was marked by dissent from several Democrats who questioned his ties to industry. But the chamber voted 89-4 to confirm him.

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

Higher intake of vegetable fats from foods such as olive oil and nuts is associated with a lower risk for stroke, whereas people who eat more animal fats, especially processed red meats, may have a higher stroke risk, observational findings suggest.

camij/thinkstockphotos.com

In a study of more than 117,000 health professionals who were followed for 27 years, those whose diet was in the highest quintile for intake of vegetable fat had a 12% lower risk for stroke, compared with those who consumed the least amount of vegetable fats.

Conversely, having the highest intake of animal fat from nondairy sources was associated with a 16% increased risk of stroke.

Fenglei Wang, PhD, presented these results at the American Heart Association scientific sessions.

“Our findings support the Dietary Guidelines for Americans and dietary recommendations by AHA,” Dr. Wang, a postdoctoral fellow in the department of nutrition at Harvard University’s T.H. Chan School of Public Health in Boston, told this news organization.

“The main sources of vegetable fat have a large overlap with polyunsaturated fat, such as vegetable oils, nuts, walnuts, and peanut butter,” Dr. Wang noted, adding that fish, especially fatty fish, is a main source of polyunsaturated fat and is recommended for cardiovascular health.

“We would recommend that people reduce consumption of red and processed meat, minimize fatty parts of unprocessed meat if consumed, and replace lard or tallow (beef fat) with nontropical vegetable oils, such as olive oil, corn, or soybean oils in cooking, to lower their stroke risk,” she said.

Moreover, although the results from this study of dietary fat are informative, Dr. Wang continued, “there are other dietary factors (fruits, vegetables, salt, alcohol, et cetera), and lifestyle factors (physical activity, smoking, et cetera), that are associated with stroke risk and worthy of attention as well.”

“Many processed meats are high in salt and saturated fat, and low in vegetable fat,” Alice H. Lichtenstein, DSc, an AHA spokesperson who was not involved with this research, noted in a press release.

“Research shows that replacing processed meat with other protein sources, particularly plant sources, is associated with lower death rates,” added Dr. Lichtenstein, the Stanley N. Gershoff professor of nutrition science and policy at Tufts University in Boston, and lead author of the AHA’s 2021 scientific statement, Dietary Guidance to Improve Cardiovascular Health.

“Key features of a heart-healthy diet pattern,” she summarized, “are to balance calorie intake with calorie needs to achieve and maintain a healthy weight; choose whole grains, lean and plant-based protein, and a variety of fruits and vegetables; limit salt, sugar, animal fat, processed foods, and alcohol; and apply this guidance regardless of where the food is prepared or consumed.”
 

Replace processed meat with plant proteins

The focus on stroke in this study “is important” because, traditionally, studies of diet and cardiovascular health have focused on coronary heart disease, Andrew Mente, PhD, who also was not involved in this research, said in an email to this news organization.

“Overall, the take-home message from the study is that replacing processed meat with plant sources of protein in the diet is probably beneficial,” Dr. Mente, associate professor, health research methods, evidence, and impact, Faculty of Health Sciences, McMaster University, Hamilton, Ont., said.

The finding that people who ate the most vegetable fat had a modest 12% lower risk of stroke than those who ate the least vegetable fat “points to protective effects of foods like seeds, nuts, vegetables, and olive oil, which has been shown previously,” he continued.

The highest quintile of total red meat intake was associated with an 8% higher risk for stroke, but this was driven mainly by processed red meat (which was associated with a 12% higher risk for stroke). These findings are “generally consistent with cohort studies showing that processed meat, as with most highly processed foods for that matter, are associated with an increased risk of cardiovascular events,” Dr. Mente noted.

“Surprisingly, dairy products (such as cheese, butter, or milk) in the study were not connected with the risk of stroke,” he added. This finding differs from results of meta-analyses of multiple cohort studies of dairy intake and stroke and the recent large international PURE study, which showed that dairy intake was associated with a lower risk for stroke.

“What is needed to move the field forward,” according to Dr. Mente, “is to employ new methods that use cutting-edge technology to study nutritional biomarkers and health outcomes.”

“When dealing with modest associations as usually encountered in nutrition, it is a challenge to make causal connections based on dietary questionnaires, which are fraught with measurement error,” he added. “The use of novel methods is where the field is headed.”
 

Total dietary fat, different types, and different food sources

Dr. Wang and colleagues investigated how total dietary fat, different types of fat, and fats from different foods were associated with incident stroke in 73,867 women in the 1984-2016 Nurses’ Health Study and 43,269 men who participated in the 1986-2016 Health Professionals Follow-up Study.

The participants had an average age of 50 years, 63% were women, and 97% were White. They replied to food-frequency questionnaires every 4 years.

Total red meat included beef, pork, or lamb (as a main dish or in sandwiches or mixed dishes) as well as processed red meats (such as bacon, sausage, bologna, hot dogs, and salami).

Animal fat sources included meat, beef tallow, lard, and full-fat dairy products, such as full-fat milk and cheese.

The median percentage of total daily calories from different sources of fat ranged from 10% to 20% for vegetable fat, 3% to 10% for dairy fat, and 7% to 17% for nondairy animal fat (for lowest to highest quintiles).

The median percentage of total daily calories from different types of fat ranged from 5% to 8% for polyunsaturated fat, 4% to 7% for n-6 polyunsaturated fat, 9% to 15% for monounsaturated fat, 8% to 14% for saturated fat, and 1% to 2% for trans fat.

During follow-up, there were 6,189 incident strokes, including 2,967 ischemic strokes and 814 hemorrhagic strokes.

The researchers found that intake in the highest quintile of vegetable fat was associated with a lower risk for total stroke, compared with the lowest quintile (hazard ratio, 0.88; 95% confidence interval, 0.81-0.96; P for trend < .001).

Similarly, the highest intake of polyunsaturated fat was also associated with lower total stroke (HR, 0.88; 95% CI, 0.80-0.96; P for trend = .002). 

Highest intake of nondairy animal fat, however, was associated with an increased risk for total stroke (HR, 1.16; 95% CI, 1.05-1.29; P for trend < .001). They observed “similar associations” for ischemic stroke, but the only positive association for nondairy animal fat was with hemorrhagic stroke, the abstract notes.   

The risk for stroke was lower by 9% per serving per day for vegetable oil but increased by 8% and 12%, respectively, per serving of total red meat or processed red meat.

The association for vegetable oil was attenuated after adjustment for vegetable fat or polyunsaturated fat, whereas adjustment for nondairy animal fat rendered the association for total red meat and processed red meat nonsignificant. 

The study was funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health. Dr. Wang has no relevant financial disclosures. Dr. Mente has received research funding from the Dairy Farmers of Canada and the National Dairy Council to analyze data on dairy consumption and health outcomes in the PURE study, which is funded by the Population Health Research Institute, Hamilton Health Sciences Research Institute, and more than 70 other sources (government and pharmaceutical).

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

Higher intake of vegetable fats from foods such as olive oil and nuts is associated with a lower risk for stroke, whereas people who eat more animal fats, especially processed red meats, may have a higher stroke risk, observational findings suggest.

camij/thinkstockphotos.com

In a study of more than 117,000 health professionals who were followed for 27 years, those whose diet was in the highest quintile for intake of vegetable fat had a 12% lower risk for stroke, compared with those who consumed the least amount of vegetable fats.

Conversely, having the highest intake of animal fat from nondairy sources was associated with a 16% increased risk of stroke.

Fenglei Wang, PhD, presented these results at the American Heart Association scientific sessions.

“Our findings support the Dietary Guidelines for Americans and dietary recommendations by AHA,” Dr. Wang, a postdoctoral fellow in the department of nutrition at Harvard University’s T.H. Chan School of Public Health in Boston, told this news organization.

“The main sources of vegetable fat have a large overlap with polyunsaturated fat, such as vegetable oils, nuts, walnuts, and peanut butter,” Dr. Wang noted, adding that fish, especially fatty fish, is a main source of polyunsaturated fat and is recommended for cardiovascular health.

“We would recommend that people reduce consumption of red and processed meat, minimize fatty parts of unprocessed meat if consumed, and replace lard or tallow (beef fat) with nontropical vegetable oils, such as olive oil, corn, or soybean oils in cooking, to lower their stroke risk,” she said.

Moreover, although the results from this study of dietary fat are informative, Dr. Wang continued, “there are other dietary factors (fruits, vegetables, salt, alcohol, et cetera), and lifestyle factors (physical activity, smoking, et cetera), that are associated with stroke risk and worthy of attention as well.”

“Many processed meats are high in salt and saturated fat, and low in vegetable fat,” Alice H. Lichtenstein, DSc, an AHA spokesperson who was not involved with this research, noted in a press release.

“Research shows that replacing processed meat with other protein sources, particularly plant sources, is associated with lower death rates,” added Dr. Lichtenstein, the Stanley N. Gershoff professor of nutrition science and policy at Tufts University in Boston, and lead author of the AHA’s 2021 scientific statement, Dietary Guidance to Improve Cardiovascular Health.

“Key features of a heart-healthy diet pattern,” she summarized, “are to balance calorie intake with calorie needs to achieve and maintain a healthy weight; choose whole grains, lean and plant-based protein, and a variety of fruits and vegetables; limit salt, sugar, animal fat, processed foods, and alcohol; and apply this guidance regardless of where the food is prepared or consumed.”
 

Replace processed meat with plant proteins

The focus on stroke in this study “is important” because, traditionally, studies of diet and cardiovascular health have focused on coronary heart disease, Andrew Mente, PhD, who also was not involved in this research, said in an email to this news organization.

“Overall, the take-home message from the study is that replacing processed meat with plant sources of protein in the diet is probably beneficial,” Dr. Mente, associate professor, health research methods, evidence, and impact, Faculty of Health Sciences, McMaster University, Hamilton, Ont., said.

The finding that people who ate the most vegetable fat had a modest 12% lower risk of stroke than those who ate the least vegetable fat “points to protective effects of foods like seeds, nuts, vegetables, and olive oil, which has been shown previously,” he continued.

The highest quintile of total red meat intake was associated with an 8% higher risk for stroke, but this was driven mainly by processed red meat (which was associated with a 12% higher risk for stroke). These findings are “generally consistent with cohort studies showing that processed meat, as with most highly processed foods for that matter, are associated with an increased risk of cardiovascular events,” Dr. Mente noted.

“Surprisingly, dairy products (such as cheese, butter, or milk) in the study were not connected with the risk of stroke,” he added. This finding differs from results of meta-analyses of multiple cohort studies of dairy intake and stroke and the recent large international PURE study, which showed that dairy intake was associated with a lower risk for stroke.

“What is needed to move the field forward,” according to Dr. Mente, “is to employ new methods that use cutting-edge technology to study nutritional biomarkers and health outcomes.”

“When dealing with modest associations as usually encountered in nutrition, it is a challenge to make causal connections based on dietary questionnaires, which are fraught with measurement error,” he added. “The use of novel methods is where the field is headed.”
 

Total dietary fat, different types, and different food sources

Dr. Wang and colleagues investigated how total dietary fat, different types of fat, and fats from different foods were associated with incident stroke in 73,867 women in the 1984-2016 Nurses’ Health Study and 43,269 men who participated in the 1986-2016 Health Professionals Follow-up Study.

The participants had an average age of 50 years, 63% were women, and 97% were White. They replied to food-frequency questionnaires every 4 years.

Total red meat included beef, pork, or lamb (as a main dish or in sandwiches or mixed dishes) as well as processed red meats (such as bacon, sausage, bologna, hot dogs, and salami).

Animal fat sources included meat, beef tallow, lard, and full-fat dairy products, such as full-fat milk and cheese.

The median percentage of total daily calories from different sources of fat ranged from 10% to 20% for vegetable fat, 3% to 10% for dairy fat, and 7% to 17% for nondairy animal fat (for lowest to highest quintiles).

The median percentage of total daily calories from different types of fat ranged from 5% to 8% for polyunsaturated fat, 4% to 7% for n-6 polyunsaturated fat, 9% to 15% for monounsaturated fat, 8% to 14% for saturated fat, and 1% to 2% for trans fat.

During follow-up, there were 6,189 incident strokes, including 2,967 ischemic strokes and 814 hemorrhagic strokes.

The researchers found that intake in the highest quintile of vegetable fat was associated with a lower risk for total stroke, compared with the lowest quintile (hazard ratio, 0.88; 95% confidence interval, 0.81-0.96; P for trend < .001).

Similarly, the highest intake of polyunsaturated fat was also associated with lower total stroke (HR, 0.88; 95% CI, 0.80-0.96; P for trend = .002). 

Highest intake of nondairy animal fat, however, was associated with an increased risk for total stroke (HR, 1.16; 95% CI, 1.05-1.29; P for trend < .001). They observed “similar associations” for ischemic stroke, but the only positive association for nondairy animal fat was with hemorrhagic stroke, the abstract notes.   

The risk for stroke was lower by 9% per serving per day for vegetable oil but increased by 8% and 12%, respectively, per serving of total red meat or processed red meat.

The association for vegetable oil was attenuated after adjustment for vegetable fat or polyunsaturated fat, whereas adjustment for nondairy animal fat rendered the association for total red meat and processed red meat nonsignificant. 

The study was funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health. Dr. Wang has no relevant financial disclosures. Dr. Mente has received research funding from the Dairy Farmers of Canada and the National Dairy Council to analyze data on dairy consumption and health outcomes in the PURE study, which is funded by the Population Health Research Institute, Hamilton Health Sciences Research Institute, and more than 70 other sources (government and pharmaceutical).

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

Higher intake of vegetable fats from foods such as olive oil and nuts is associated with a lower risk for stroke, whereas people who eat more animal fats, especially processed red meats, may have a higher stroke risk, observational findings suggest.

camij/thinkstockphotos.com

In a study of more than 117,000 health professionals who were followed for 27 years, those whose diet was in the highest quintile for intake of vegetable fat had a 12% lower risk for stroke, compared with those who consumed the least amount of vegetable fats.

Conversely, having the highest intake of animal fat from nondairy sources was associated with a 16% increased risk of stroke.

Fenglei Wang, PhD, presented these results at the American Heart Association scientific sessions.

“Our findings support the Dietary Guidelines for Americans and dietary recommendations by AHA,” Dr. Wang, a postdoctoral fellow in the department of nutrition at Harvard University’s T.H. Chan School of Public Health in Boston, told this news organization.

“The main sources of vegetable fat have a large overlap with polyunsaturated fat, such as vegetable oils, nuts, walnuts, and peanut butter,” Dr. Wang noted, adding that fish, especially fatty fish, is a main source of polyunsaturated fat and is recommended for cardiovascular health.

“We would recommend that people reduce consumption of red and processed meat, minimize fatty parts of unprocessed meat if consumed, and replace lard or tallow (beef fat) with nontropical vegetable oils, such as olive oil, corn, or soybean oils in cooking, to lower their stroke risk,” she said.

Moreover, although the results from this study of dietary fat are informative, Dr. Wang continued, “there are other dietary factors (fruits, vegetables, salt, alcohol, et cetera), and lifestyle factors (physical activity, smoking, et cetera), that are associated with stroke risk and worthy of attention as well.”

“Many processed meats are high in salt and saturated fat, and low in vegetable fat,” Alice H. Lichtenstein, DSc, an AHA spokesperson who was not involved with this research, noted in a press release.

“Research shows that replacing processed meat with other protein sources, particularly plant sources, is associated with lower death rates,” added Dr. Lichtenstein, the Stanley N. Gershoff professor of nutrition science and policy at Tufts University in Boston, and lead author of the AHA’s 2021 scientific statement, Dietary Guidance to Improve Cardiovascular Health.

“Key features of a heart-healthy diet pattern,” she summarized, “are to balance calorie intake with calorie needs to achieve and maintain a healthy weight; choose whole grains, lean and plant-based protein, and a variety of fruits and vegetables; limit salt, sugar, animal fat, processed foods, and alcohol; and apply this guidance regardless of where the food is prepared or consumed.”
 

Replace processed meat with plant proteins

The focus on stroke in this study “is important” because, traditionally, studies of diet and cardiovascular health have focused on coronary heart disease, Andrew Mente, PhD, who also was not involved in this research, said in an email to this news organization.

“Overall, the take-home message from the study is that replacing processed meat with plant sources of protein in the diet is probably beneficial,” Dr. Mente, associate professor, health research methods, evidence, and impact, Faculty of Health Sciences, McMaster University, Hamilton, Ont., said.

The finding that people who ate the most vegetable fat had a modest 12% lower risk of stroke than those who ate the least vegetable fat “points to protective effects of foods like seeds, nuts, vegetables, and olive oil, which has been shown previously,” he continued.

The highest quintile of total red meat intake was associated with an 8% higher risk for stroke, but this was driven mainly by processed red meat (which was associated with a 12% higher risk for stroke). These findings are “generally consistent with cohort studies showing that processed meat, as with most highly processed foods for that matter, are associated with an increased risk of cardiovascular events,” Dr. Mente noted.

“Surprisingly, dairy products (such as cheese, butter, or milk) in the study were not connected with the risk of stroke,” he added. This finding differs from results of meta-analyses of multiple cohort studies of dairy intake and stroke and the recent large international PURE study, which showed that dairy intake was associated with a lower risk for stroke.

“What is needed to move the field forward,” according to Dr. Mente, “is to employ new methods that use cutting-edge technology to study nutritional biomarkers and health outcomes.”

“When dealing with modest associations as usually encountered in nutrition, it is a challenge to make causal connections based on dietary questionnaires, which are fraught with measurement error,” he added. “The use of novel methods is where the field is headed.”
 

Total dietary fat, different types, and different food sources

Dr. Wang and colleagues investigated how total dietary fat, different types of fat, and fats from different foods were associated with incident stroke in 73,867 women in the 1984-2016 Nurses’ Health Study and 43,269 men who participated in the 1986-2016 Health Professionals Follow-up Study.

The participants had an average age of 50 years, 63% were women, and 97% were White. They replied to food-frequency questionnaires every 4 years.

Total red meat included beef, pork, or lamb (as a main dish or in sandwiches or mixed dishes) as well as processed red meats (such as bacon, sausage, bologna, hot dogs, and salami).

Animal fat sources included meat, beef tallow, lard, and full-fat dairy products, such as full-fat milk and cheese.

The median percentage of total daily calories from different sources of fat ranged from 10% to 20% for vegetable fat, 3% to 10% for dairy fat, and 7% to 17% for nondairy animal fat (for lowest to highest quintiles).

The median percentage of total daily calories from different types of fat ranged from 5% to 8% for polyunsaturated fat, 4% to 7% for n-6 polyunsaturated fat, 9% to 15% for monounsaturated fat, 8% to 14% for saturated fat, and 1% to 2% for trans fat.

During follow-up, there were 6,189 incident strokes, including 2,967 ischemic strokes and 814 hemorrhagic strokes.

The researchers found that intake in the highest quintile of vegetable fat was associated with a lower risk for total stroke, compared with the lowest quintile (hazard ratio, 0.88; 95% confidence interval, 0.81-0.96; P for trend < .001).

Similarly, the highest intake of polyunsaturated fat was also associated with lower total stroke (HR, 0.88; 95% CI, 0.80-0.96; P for trend = .002). 

Highest intake of nondairy animal fat, however, was associated with an increased risk for total stroke (HR, 1.16; 95% CI, 1.05-1.29; P for trend < .001). They observed “similar associations” for ischemic stroke, but the only positive association for nondairy animal fat was with hemorrhagic stroke, the abstract notes.   

The risk for stroke was lower by 9% per serving per day for vegetable oil but increased by 8% and 12%, respectively, per serving of total red meat or processed red meat.

The association for vegetable oil was attenuated after adjustment for vegetable fat or polyunsaturated fat, whereas adjustment for nondairy animal fat rendered the association for total red meat and processed red meat nonsignificant. 

The study was funded by the National Heart, Lung, and Blood Institute of the National Institutes of Health. Dr. Wang has no relevant financial disclosures. Dr. Mente has received research funding from the Dairy Farmers of Canada and the National Dairy Council to analyze data on dairy consumption and health outcomes in the PURE study, which is funded by the Population Health Research Institute, Hamilton Health Sciences Research Institute, and more than 70 other sources (government and pharmaceutical).

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

A novel trial using real-time monitoring found that drinking coffee did not increase atrial arrhythmias but was associated with more premature ventricular contractions.

S_Bachstroem/Getty Images

There was no increase in premature atrial contractions (PACs) or supraventricular tachycardia (SVT) with coffee consumption, and, in fact, there was less SVT in per protocol analyses.

Coffee consumption was also linked to a “clinically meaningful increase in physical activity as well as a clinically meaningful reduction in sleep,” coprincipal investigator Gregory M. Marcus, MD, of the University of California, San Francisco, reported at the American Heart Association scientific sessions.

Although some professional society guidelines warn against caffeine consumption to avoid arrhythmias, he noted that the data have been mixed and that growing evidence suggests coffee consumption may actually lower the risk for arrhythmias, diabetes, and even mortality. The exact relationship has been hard to prove, however, as most coffee studies are observational and rely on self-report.

The Coffee and Real-time Atrial and Ventricular Ectopy (CRAVE) trial took advantage of digital health tools to examine the effect of caffeine consumption on cardiac ectopy burden in 100 healthy volunteers using an N-of-1 design. The primary outcomes were daily PAC and premature ventricular contraction (PVC) counts.

Participants consumed as much coffee as they wanted for 1 day and avoided all caffeine the next, alternating the assignment in 2-day blocks over 2 weeks. They used a smartphone app to receive daily coffee assignments and reminders and wore a continuous recording electrocardiography monitor (ZioPatch, iRhythm Technologies); a continuous glucose monitor (Dexcom); and Fitbit Flex 2, which recorded step counts and sleep duration.

At baseline, 21% of participants drank six to seven cups of coffee per month, 29% drank one cup per day, 21% drank two to three cups per day, and 3% drank four to five cups per day. The U.S. Food and Drug Administration has cited 400 mg per day, or about four or five cups of coffee, as generally safe for healthy adults.

To assess adherence, participants were asked to press the button on the ZioPatch for every coffee drink and were queried daily regarding actual coffee consumption the previous day. Date-stamped receipts for coffee purchases were reimbursed, and smartphone geolocation was used to track coffee shop visits. The great majority of times, participants followed their assignment by all measures, Dr. Marcus said.

ITT and per protocol analyses

ZioPatch data collected over a median of 13.3 days showed a daily median of 12.8 PACs, 7.5 PVCs, 1 nonsustained SVT, and 1 nonsustained ventricular tachycardia.

In intention-to-treat (ITT) analyses, there was no evidence of a relationship between coffee consumption and daily PAC counts (RR, 1.09; 95% confidence interval, 0.98-1.20; P = .10).

In contrast, participants had an average of 54% more PVCs on days randomized to coffee by ITT (RR, 1.54; 95% CI, 1.19-2.00; P = .001), and, per protocol, those consuming more than two cups of coffee per day had a doubling of PVCs (RR, 2.20; 95% CI, 1.24-3.92; P = .007).

No relationship was observed with coffee consumption and SVT episodes in ITT analyses (RR, 0.84; 95% CI, 0.69-1.03; P = .10), but, per protocol, every additional coffee drink consumed in real time was associated with a 12% lower risk for an SVT episode (RR, 0.88; 95% CI, 0.79-0.99; P = .028).

No significant relationships were observed with VT episodes, which were admittedly rare, Dr. Marcus said.

In ITT analyses that adjusted for day of the week, participants took an average of 1,058 more steps on days they drank coffee (95% CI, 441-1,675 steps; P = .001) but slept 36 fewer minutes (95% CI, 22-50 minutes; P < .001).

Per protocol, every additional coffee drink was associated with 587 more steps per day (95% CI, 355-820 steps; P < .001) and 18 fewer minutes of sleep (95% CI, 13-23 minutes; P < .001).

No significant differences in glucose levels were observed. Genetic analyses revealed two significant interactions: fast coffee metabolizers had a heightened risk for PVCs and slow metabolizers experienced more sleep deprivation, Dr. Marcus said.

Typical patients?

Dedicated discussant Sana Al-Khatib, MD, MHS, Duke University Medical Center, Durham, N.C., said CRAVE is a “well-conducted and informative trial” that very nicely and effectively used a digital health platform.

She pointed out, however, that the trial enrolled healthy volunteers who not only owned a smartphone but were able to interact with the study team using it. They also had an average age of 38 years, median body mass index of 24 kg/m², and no prior arrhythmias or cardiovascular issues. “These are not representative of the average patient that we see in clinical practice.”

“The other thing to keep in mind is that the primary outcome that they looked at, while relevant, is not adequate in my view to help us derive definitive conclusions about how coffee consumption affects clinically meaningful arrhythmias,” Dr. Al-Khatib said. “Yes, PACs trigger atrial fibrillation, but they don’t do so in every patient. And PVCs have been shown to be associated with increased mortality as well as worsened cardiovascular outcomes, but that’s mostly in patients with structural heart disease.”

She praised the investigators for including genetic data in their analysis. “Whether the results related to physical activity and sleep translate into any major effect on clinical outcomes deserves a study.”

The overall findings need to be replicated by other groups, in other populations, and examine hard outcomes over longer follow-up, concluded Dr. Al-Khatib.

Speaking to this news organization, Dr. Marcus countered that the participants were “pretty run of the mill” coffee drinkers of all ages and that the study highlights the complexity of coffee consumption as well as providing unique data inferring causality regarding increasing physical activity.

“Because coffee is so commonly consumed, highlighting the actual effects is important, and the hope is that understanding those true causal effects and minimizing confounding will help tailor recommendations regarding coffee consumption,” he said. “For those concerned about atrial fibrillation, for example, these data suggest that avoiding coffee does not necessarily make sense to reduce the risk of atrial fibrillation. For those with ventricular arrhythmias, abstinence or minimizing coffee may be a worthwhile experiment.”

Kalyanam Shivkumar, MD, PhD, director of the cardiac arrhythmia center at the University of California, Los Angeles, told this news organization that CRAVE is an important and much-needed study that provides reassuring and objective data for a common clinical question.

“It fits in with the emerging consensus that, in itself, coffee is not problematic,” he said. “And it provides a nice framework for what we’ll be seeing in the future – more studies that use these types of long ECG recordings and interlinking that data with biological readouts.”

Although it is too early to draw any conclusions regarding the genetic analyses, “future studies could use this as a baseline to further explore what happens between fast and slow metabolizers. This is a very useful stepping stone to putting data in context for an individual patient.”

Unless coffee consumption is excessive, such as over five cups per day in young people, all of the evidence points to coffee and caffeine being safe, Chip Lavie, MD, a frequent coffee researcher and medical director of cardiac rehabilitation and prevention at John Ochsner Heart and Vascular Institute, New Orleans, told this news organization.

“The benefits of coffee on physical activity/sleep seem to outweigh the risks as this current study suggests,” he said. “This study also supports the safety with regards to atrial arrhythmias, and suggests that those with symptomatic PVCs could try reducing coffee to see if they feel better. In total, however, the benefits of one or several cups of coffee per day on cardiovascular disease outweigh the risks.”

The study was funded by the University of California, San Francisco. Dr. Marcus reports research with the National Institutes of Health, the Patient-Centered Outcomes Research Institute, Tobacco-Related Disease Research Program, Medtronic, Eight Sleep, and Baylis; consulting for InCarda Therapeutics and Johnson & Johnson; and equity in InCarda Therapeutics as cofounder.

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

A novel trial using real-time monitoring found that drinking coffee did not increase atrial arrhythmias but was associated with more premature ventricular contractions.

S_Bachstroem/Getty Images

There was no increase in premature atrial contractions (PACs) or supraventricular tachycardia (SVT) with coffee consumption, and, in fact, there was less SVT in per protocol analyses.

Coffee consumption was also linked to a “clinically meaningful increase in physical activity as well as a clinically meaningful reduction in sleep,” coprincipal investigator Gregory M. Marcus, MD, of the University of California, San Francisco, reported at the American Heart Association scientific sessions.

Although some professional society guidelines warn against caffeine consumption to avoid arrhythmias, he noted that the data have been mixed and that growing evidence suggests coffee consumption may actually lower the risk for arrhythmias, diabetes, and even mortality. The exact relationship has been hard to prove, however, as most coffee studies are observational and rely on self-report.

The Coffee and Real-time Atrial and Ventricular Ectopy (CRAVE) trial took advantage of digital health tools to examine the effect of caffeine consumption on cardiac ectopy burden in 100 healthy volunteers using an N-of-1 design. The primary outcomes were daily PAC and premature ventricular contraction (PVC) counts.

Participants consumed as much coffee as they wanted for 1 day and avoided all caffeine the next, alternating the assignment in 2-day blocks over 2 weeks. They used a smartphone app to receive daily coffee assignments and reminders and wore a continuous recording electrocardiography monitor (ZioPatch, iRhythm Technologies); a continuous glucose monitor (Dexcom); and Fitbit Flex 2, which recorded step counts and sleep duration.

At baseline, 21% of participants drank six to seven cups of coffee per month, 29% drank one cup per day, 21% drank two to three cups per day, and 3% drank four to five cups per day. The U.S. Food and Drug Administration has cited 400 mg per day, or about four or five cups of coffee, as generally safe for healthy adults.

To assess adherence, participants were asked to press the button on the ZioPatch for every coffee drink and were queried daily regarding actual coffee consumption the previous day. Date-stamped receipts for coffee purchases were reimbursed, and smartphone geolocation was used to track coffee shop visits. The great majority of times, participants followed their assignment by all measures, Dr. Marcus said.

ITT and per protocol analyses

ZioPatch data collected over a median of 13.3 days showed a daily median of 12.8 PACs, 7.5 PVCs, 1 nonsustained SVT, and 1 nonsustained ventricular tachycardia.

In intention-to-treat (ITT) analyses, there was no evidence of a relationship between coffee consumption and daily PAC counts (RR, 1.09; 95% confidence interval, 0.98-1.20; P = .10).

In contrast, participants had an average of 54% more PVCs on days randomized to coffee by ITT (RR, 1.54; 95% CI, 1.19-2.00; P = .001), and, per protocol, those consuming more than two cups of coffee per day had a doubling of PVCs (RR, 2.20; 95% CI, 1.24-3.92; P = .007).

No relationship was observed with coffee consumption and SVT episodes in ITT analyses (RR, 0.84; 95% CI, 0.69-1.03; P = .10), but, per protocol, every additional coffee drink consumed in real time was associated with a 12% lower risk for an SVT episode (RR, 0.88; 95% CI, 0.79-0.99; P = .028).

No significant relationships were observed with VT episodes, which were admittedly rare, Dr. Marcus said.

In ITT analyses that adjusted for day of the week, participants took an average of 1,058 more steps on days they drank coffee (95% CI, 441-1,675 steps; P = .001) but slept 36 fewer minutes (95% CI, 22-50 minutes; P < .001).

Per protocol, every additional coffee drink was associated with 587 more steps per day (95% CI, 355-820 steps; P < .001) and 18 fewer minutes of sleep (95% CI, 13-23 minutes; P < .001).

No significant differences in glucose levels were observed. Genetic analyses revealed two significant interactions: fast coffee metabolizers had a heightened risk for PVCs and slow metabolizers experienced more sleep deprivation, Dr. Marcus said.

Typical patients?

Dedicated discussant Sana Al-Khatib, MD, MHS, Duke University Medical Center, Durham, N.C., said CRAVE is a “well-conducted and informative trial” that very nicely and effectively used a digital health platform.

She pointed out, however, that the trial enrolled healthy volunteers who not only owned a smartphone but were able to interact with the study team using it. They also had an average age of 38 years, median body mass index of 24 kg/m², and no prior arrhythmias or cardiovascular issues. “These are not representative of the average patient that we see in clinical practice.”

“The other thing to keep in mind is that the primary outcome that they looked at, while relevant, is not adequate in my view to help us derive definitive conclusions about how coffee consumption affects clinically meaningful arrhythmias,” Dr. Al-Khatib said. “Yes, PACs trigger atrial fibrillation, but they don’t do so in every patient. And PVCs have been shown to be associated with increased mortality as well as worsened cardiovascular outcomes, but that’s mostly in patients with structural heart disease.”

She praised the investigators for including genetic data in their analysis. “Whether the results related to physical activity and sleep translate into any major effect on clinical outcomes deserves a study.”

The overall findings need to be replicated by other groups, in other populations, and examine hard outcomes over longer follow-up, concluded Dr. Al-Khatib.

Speaking to this news organization, Dr. Marcus countered that the participants were “pretty run of the mill” coffee drinkers of all ages and that the study highlights the complexity of coffee consumption as well as providing unique data inferring causality regarding increasing physical activity.

“Because coffee is so commonly consumed, highlighting the actual effects is important, and the hope is that understanding those true causal effects and minimizing confounding will help tailor recommendations regarding coffee consumption,” he said. “For those concerned about atrial fibrillation, for example, these data suggest that avoiding coffee does not necessarily make sense to reduce the risk of atrial fibrillation. For those with ventricular arrhythmias, abstinence or minimizing coffee may be a worthwhile experiment.”

Kalyanam Shivkumar, MD, PhD, director of the cardiac arrhythmia center at the University of California, Los Angeles, told this news organization that CRAVE is an important and much-needed study that provides reassuring and objective data for a common clinical question.

“It fits in with the emerging consensus that, in itself, coffee is not problematic,” he said. “And it provides a nice framework for what we’ll be seeing in the future – more studies that use these types of long ECG recordings and interlinking that data with biological readouts.”

Although it is too early to draw any conclusions regarding the genetic analyses, “future studies could use this as a baseline to further explore what happens between fast and slow metabolizers. This is a very useful stepping stone to putting data in context for an individual patient.”

Unless coffee consumption is excessive, such as over five cups per day in young people, all of the evidence points to coffee and caffeine being safe, Chip Lavie, MD, a frequent coffee researcher and medical director of cardiac rehabilitation and prevention at John Ochsner Heart and Vascular Institute, New Orleans, told this news organization.

“The benefits of coffee on physical activity/sleep seem to outweigh the risks as this current study suggests,” he said. “This study also supports the safety with regards to atrial arrhythmias, and suggests that those with symptomatic PVCs could try reducing coffee to see if they feel better. In total, however, the benefits of one or several cups of coffee per day on cardiovascular disease outweigh the risks.”

The study was funded by the University of California, San Francisco. Dr. Marcus reports research with the National Institutes of Health, the Patient-Centered Outcomes Research Institute, Tobacco-Related Disease Research Program, Medtronic, Eight Sleep, and Baylis; consulting for InCarda Therapeutics and Johnson & Johnson; and equity in InCarda Therapeutics as cofounder.

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

A novel trial using real-time monitoring found that drinking coffee did not increase atrial arrhythmias but was associated with more premature ventricular contractions.

S_Bachstroem/Getty Images

There was no increase in premature atrial contractions (PACs) or supraventricular tachycardia (SVT) with coffee consumption, and, in fact, there was less SVT in per protocol analyses.

Coffee consumption was also linked to a “clinically meaningful increase in physical activity as well as a clinically meaningful reduction in sleep,” coprincipal investigator Gregory M. Marcus, MD, of the University of California, San Francisco, reported at the American Heart Association scientific sessions.

Although some professional society guidelines warn against caffeine consumption to avoid arrhythmias, he noted that the data have been mixed and that growing evidence suggests coffee consumption may actually lower the risk for arrhythmias, diabetes, and even mortality. The exact relationship has been hard to prove, however, as most coffee studies are observational and rely on self-report.

The Coffee and Real-time Atrial and Ventricular Ectopy (CRAVE) trial took advantage of digital health tools to examine the effect of caffeine consumption on cardiac ectopy burden in 100 healthy volunteers using an N-of-1 design. The primary outcomes were daily PAC and premature ventricular contraction (PVC) counts.

Participants consumed as much coffee as they wanted for 1 day and avoided all caffeine the next, alternating the assignment in 2-day blocks over 2 weeks. They used a smartphone app to receive daily coffee assignments and reminders and wore a continuous recording electrocardiography monitor (ZioPatch, iRhythm Technologies); a continuous glucose monitor (Dexcom); and Fitbit Flex 2, which recorded step counts and sleep duration.

At baseline, 21% of participants drank six to seven cups of coffee per month, 29% drank one cup per day, 21% drank two to three cups per day, and 3% drank four to five cups per day. The U.S. Food and Drug Administration has cited 400 mg per day, or about four or five cups of coffee, as generally safe for healthy adults.

To assess adherence, participants were asked to press the button on the ZioPatch for every coffee drink and were queried daily regarding actual coffee consumption the previous day. Date-stamped receipts for coffee purchases were reimbursed, and smartphone geolocation was used to track coffee shop visits. The great majority of times, participants followed their assignment by all measures, Dr. Marcus said.

ITT and per protocol analyses

ZioPatch data collected over a median of 13.3 days showed a daily median of 12.8 PACs, 7.5 PVCs, 1 nonsustained SVT, and 1 nonsustained ventricular tachycardia.

In intention-to-treat (ITT) analyses, there was no evidence of a relationship between coffee consumption and daily PAC counts (RR, 1.09; 95% confidence interval, 0.98-1.20; P = .10).

In contrast, participants had an average of 54% more PVCs on days randomized to coffee by ITT (RR, 1.54; 95% CI, 1.19-2.00; P = .001), and, per protocol, those consuming more than two cups of coffee per day had a doubling of PVCs (RR, 2.20; 95% CI, 1.24-3.92; P = .007).

No relationship was observed with coffee consumption and SVT episodes in ITT analyses (RR, 0.84; 95% CI, 0.69-1.03; P = .10), but, per protocol, every additional coffee drink consumed in real time was associated with a 12% lower risk for an SVT episode (RR, 0.88; 95% CI, 0.79-0.99; P = .028).

No significant relationships were observed with VT episodes, which were admittedly rare, Dr. Marcus said.

In ITT analyses that adjusted for day of the week, participants took an average of 1,058 more steps on days they drank coffee (95% CI, 441-1,675 steps; P = .001) but slept 36 fewer minutes (95% CI, 22-50 minutes; P < .001).

Per protocol, every additional coffee drink was associated with 587 more steps per day (95% CI, 355-820 steps; P < .001) and 18 fewer minutes of sleep (95% CI, 13-23 minutes; P < .001).

No significant differences in glucose levels were observed. Genetic analyses revealed two significant interactions: fast coffee metabolizers had a heightened risk for PVCs and slow metabolizers experienced more sleep deprivation, Dr. Marcus said.

Typical patients?

Dedicated discussant Sana Al-Khatib, MD, MHS, Duke University Medical Center, Durham, N.C., said CRAVE is a “well-conducted and informative trial” that very nicely and effectively used a digital health platform.

She pointed out, however, that the trial enrolled healthy volunteers who not only owned a smartphone but were able to interact with the study team using it. They also had an average age of 38 years, median body mass index of 24 kg/m², and no prior arrhythmias or cardiovascular issues. “These are not representative of the average patient that we see in clinical practice.”

“The other thing to keep in mind is that the primary outcome that they looked at, while relevant, is not adequate in my view to help us derive definitive conclusions about how coffee consumption affects clinically meaningful arrhythmias,” Dr. Al-Khatib said. “Yes, PACs trigger atrial fibrillation, but they don’t do so in every patient. And PVCs have been shown to be associated with increased mortality as well as worsened cardiovascular outcomes, but that’s mostly in patients with structural heart disease.”

She praised the investigators for including genetic data in their analysis. “Whether the results related to physical activity and sleep translate into any major effect on clinical outcomes deserves a study.”

The overall findings need to be replicated by other groups, in other populations, and examine hard outcomes over longer follow-up, concluded Dr. Al-Khatib.

Speaking to this news organization, Dr. Marcus countered that the participants were “pretty run of the mill” coffee drinkers of all ages and that the study highlights the complexity of coffee consumption as well as providing unique data inferring causality regarding increasing physical activity.

“Because coffee is so commonly consumed, highlighting the actual effects is important, and the hope is that understanding those true causal effects and minimizing confounding will help tailor recommendations regarding coffee consumption,” he said. “For those concerned about atrial fibrillation, for example, these data suggest that avoiding coffee does not necessarily make sense to reduce the risk of atrial fibrillation. For those with ventricular arrhythmias, abstinence or minimizing coffee may be a worthwhile experiment.”

Kalyanam Shivkumar, MD, PhD, director of the cardiac arrhythmia center at the University of California, Los Angeles, told this news organization that CRAVE is an important and much-needed study that provides reassuring and objective data for a common clinical question.

“It fits in with the emerging consensus that, in itself, coffee is not problematic,” he said. “And it provides a nice framework for what we’ll be seeing in the future – more studies that use these types of long ECG recordings and interlinking that data with biological readouts.”

Although it is too early to draw any conclusions regarding the genetic analyses, “future studies could use this as a baseline to further explore what happens between fast and slow metabolizers. This is a very useful stepping stone to putting data in context for an individual patient.”

Unless coffee consumption is excessive, such as over five cups per day in young people, all of the evidence points to coffee and caffeine being safe, Chip Lavie, MD, a frequent coffee researcher and medical director of cardiac rehabilitation and prevention at John Ochsner Heart and Vascular Institute, New Orleans, told this news organization.

“The benefits of coffee on physical activity/sleep seem to outweigh the risks as this current study suggests,” he said. “This study also supports the safety with regards to atrial arrhythmias, and suggests that those with symptomatic PVCs could try reducing coffee to see if they feel better. In total, however, the benefits of one or several cups of coffee per day on cardiovascular disease outweigh the risks.”

The study was funded by the University of California, San Francisco. Dr. Marcus reports research with the National Institutes of Health, the Patient-Centered Outcomes Research Institute, Tobacco-Related Disease Research Program, Medtronic, Eight Sleep, and Baylis; consulting for InCarda Therapeutics and Johnson & Johnson; and equity in InCarda Therapeutics as cofounder.

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

New analyses of trial results for the cardiorenal agents finerenone and sotagliflozin continued the pattern showing that they exert consistent heart failure benefits in patients who span a broad spectrum of renal function, further disproving the notion that more severe stages of chronic kidney disease preclude aggressive medical management.

Sam Rogers; Courtesy American Heart Association

Analysis of combined data from two pivotal trials of the nonsteroidal mineralocorticoid receptor antagonist (MRA) finerenone (Kerendia), which together enrolled more than 13,000 patients with type 2 diabetes and chronic kidney disease, showed in greater detail that finerenone treatment reduced the incidence of hospitalizations for heart failure and cardiovascular death “across the spectrum” of chronic kidney disease (CKD) stages 1-4.

That spectrum included patients with estimated glomerular filtration rates (eGFR) as low as 25 mL/min per 1.73m² and patients with micro- or macroalbuminuria, as well as those with normal urinary albumin levels, Gerasimos Filippatos, MD, reported at the American Heart Association scientific sessions.

And in a separate, unrelated report, combined data from the two pivotal trials, with a total of nearly 12,000 patients with type 2 diabetes, for sotagliflozin (Zynquista), a novel and still unapproved agent that inhibits both the sodium-glucose cotransporter (SGLT) 1 and 2 enzymes, showed a consistent effect significantly reducing cardiovascular death, hospitalization for heart failure, or urgent heart failure outpatient events in patients with eGFR rates as low as 25 mL/min per 1.73m², Deepak L. Bhatt, MD, reported at the meeting.

These two reports follow a third, presented just a week earlier during Kidney Week, that showed the benefit from the SGLT2 inhibitor empagliflozin (Jardiance) for preventing heart failure hospitalizations or cardiovascular death in patients with heart failure with preserved ejection fraction remained consistent even in patients with an eGFR as low as 20 mL/min/1.73m² in results from the EMPEROR-Preserved trial. Similar findings for empagliflozin in patients with heart failure with reduced ejection fraction in the EMPEROR-Reduced trial came out nearly a year ago.

A message to clinicians from these reports is, “don’t wait for patients to develop heart failure” to start these drugs, according to Dipti Itchhaporia, MD, director of disease management for the Hoag Heart and Vascular Institute in Newport Beach, Calif. “It’s time to start using these drugs upstream to have fewer patients with heart failure downstream,” she said in an interview.

Finerenone works differently than spironolactone

The new finerenone analysis included 5,734 patients enrolled in the FIDELIO-DKD trial, and 7,437 in the FIGARO-DKD trial, two very similar trials that differed by transposing the primary endpoint of one to the secondary endpoint of the other, and vice versa. The combined analysis is known as FIDELITY.

Expanding on a report that he first gave at the European Society of Cardiology annual congress in August 2021, Dr. Filippatos provided a few additional details on the analysis that showed a consistent effect of finerenone on preventing hospitalizations for heart failure, and on preventing a combined endpoint of hospitalizations for heart failure and cardiovascular death regardless of the severity of chronic kidney disease down to 25 mL/min per 1.73 m². Statistical analysis showed no hint of an interaction between finerenone’s effect on these outcomes in patients with an eGFR of 60 mL/min per 1.73 m² or greater and those with reduced renal function. Analyses also showed no interaction based on urinary albumin-to-creatinine ratio, be it more or less than 300 mg/g, reported Dr. Filippatos, professor and director of the heart failure unit at Attikon University Hospital in Athens.

“We use MRAs [such as spironolactone] in heart failure patients, but it’s difficult to use because of the risk of patients developing hyperkalemia,” noted Dr. Itchhaporia, who added that reluctance to use spironolactone is especially high for patients with depressed renal function, which could exacerbate a hyperkalemic effect. Evidence shows that finerenone poses a substantially reduced risk for raising serum potassium levels, making finerenone a more attractive agent to use in patients with CKD who have an elevated risk for heart failure events as well as an increased risk for hyperkalemia, like those enrolled in the two finerenone trials, she said.

Sotagliflozin uniquely inhibits SGLT1 and SGLT2

The new sotagliflozin analyses reported by Dr. Bhatt combined data for more than 11,800 patients randomized into either of two trials, SCORED, which randomized more than 10,000 patients with type 2 diabetes and chronic kidney disease, and SOLOIST, which randomized more than 1,000 patients with type 2 diabetes who were recently hospitalized for worsening heart failure.

A prespecified analysis for the combined data from both studies looked at the impact of sotagliflozin treatment on the combined outcome of cardiovascular death, hospitalization for heart failure, or an urgent outpatient visit because of heart failure based on kidney function at baseline. The analysis showed that sotagliflozin was at least as effective in the 8% of study patients who at baseline had an eGFR of 25-29 mL/min per 1.73 m² as it was in patients with more preserved renal function.

Benefit from sotagliflozin treatment “was consistent across the full range of eGFR,” said Dr. Bhatt, professor at Harvard Medical School in Boston and executive director of interventional cardiovascular programs at Brigham and Women’s Hospital in Boston.

Results from a second analysis that he reported also showed a consistent effect of sotagliflozin on reducing hemoglobin A1c levels in the enrolled patients, even those with the lowest levels of renal function, an effect not previously seen with the related class of SGLT2 inhibitors (which includes empagliflozin, canagliflozin [Invokana], and dapagliflozin [Farxiga]). Dr. Bhatt suggested that, while SGLT2 inhibitors act entirely in the kidneys and hence their effect on glycemic control is blunted by renal dysfunction, sotagliflozin also inhibits the SGLT1 enzyme, which functions in the gut to transport glucose out of the digestive tract and into the blood, a glycemic control pathway that’s independent of renal function.

FIDELIO-DKD, FIGARO-DKD, and FIDELITY were sponsored by Bayer, the company that markets finerenone (Kerendia). SCORED and SOLOIST were sponsored by Sanofi, and later by Lexicon, the companies developing sotagliflozin (Zynquista). EMPEROR-Preserved and EMPEROR-Reduced were sponsored by Boehringer-Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). Dr. Filippatos has had financial relationships with Bayer and Boehringer-Ingelheim, as well as with Amgen, Medtronic, Novartis, Servier, and Vifor. Dr. Bhatt has received research funding from Sanofi, Lexicon, Bayer, and Boehringer-Ingelheim, Lilly, and numerous other companies, and he has been an adviser to Boehringer-Ingelheim and several other companies.

[email protected]
 

New analyses of trial results for the cardiorenal agents finerenone and sotagliflozin continued the pattern showing that they exert consistent heart failure benefits in patients who span a broad spectrum of renal function, further disproving the notion that more severe stages of chronic kidney disease preclude aggressive medical management.

Sam Rogers; Courtesy American Heart Association

Analysis of combined data from two pivotal trials of the nonsteroidal mineralocorticoid receptor antagonist (MRA) finerenone (Kerendia), which together enrolled more than 13,000 patients with type 2 diabetes and chronic kidney disease, showed in greater detail that finerenone treatment reduced the incidence of hospitalizations for heart failure and cardiovascular death “across the spectrum” of chronic kidney disease (CKD) stages 1-4.

That spectrum included patients with estimated glomerular filtration rates (eGFR) as low as 25 mL/min per 1.73m² and patients with micro- or macroalbuminuria, as well as those with normal urinary albumin levels, Gerasimos Filippatos, MD, reported at the American Heart Association scientific sessions.

And in a separate, unrelated report, combined data from the two pivotal trials, with a total of nearly 12,000 patients with type 2 diabetes, for sotagliflozin (Zynquista), a novel and still unapproved agent that inhibits both the sodium-glucose cotransporter (SGLT) 1 and 2 enzymes, showed a consistent effect significantly reducing cardiovascular death, hospitalization for heart failure, or urgent heart failure outpatient events in patients with eGFR rates as low as 25 mL/min per 1.73m², Deepak L. Bhatt, MD, reported at the meeting.

These two reports follow a third, presented just a week earlier during Kidney Week, that showed the benefit from the SGLT2 inhibitor empagliflozin (Jardiance) for preventing heart failure hospitalizations or cardiovascular death in patients with heart failure with preserved ejection fraction remained consistent even in patients with an eGFR as low as 20 mL/min/1.73m² in results from the EMPEROR-Preserved trial. Similar findings for empagliflozin in patients with heart failure with reduced ejection fraction in the EMPEROR-Reduced trial came out nearly a year ago.

A message to clinicians from these reports is, “don’t wait for patients to develop heart failure” to start these drugs, according to Dipti Itchhaporia, MD, director of disease management for the Hoag Heart and Vascular Institute in Newport Beach, Calif. “It’s time to start using these drugs upstream to have fewer patients with heart failure downstream,” she said in an interview.

Finerenone works differently than spironolactone

The new finerenone analysis included 5,734 patients enrolled in the FIDELIO-DKD trial, and 7,437 in the FIGARO-DKD trial, two very similar trials that differed by transposing the primary endpoint of one to the secondary endpoint of the other, and vice versa. The combined analysis is known as FIDELITY.

Expanding on a report that he first gave at the European Society of Cardiology annual congress in August 2021, Dr. Filippatos provided a few additional details on the analysis that showed a consistent effect of finerenone on preventing hospitalizations for heart failure, and on preventing a combined endpoint of hospitalizations for heart failure and cardiovascular death regardless of the severity of chronic kidney disease down to 25 mL/min per 1.73 m². Statistical analysis showed no hint of an interaction between finerenone’s effect on these outcomes in patients with an eGFR of 60 mL/min per 1.73 m² or greater and those with reduced renal function. Analyses also showed no interaction based on urinary albumin-to-creatinine ratio, be it more or less than 300 mg/g, reported Dr. Filippatos, professor and director of the heart failure unit at Attikon University Hospital in Athens.

“We use MRAs [such as spironolactone] in heart failure patients, but it’s difficult to use because of the risk of patients developing hyperkalemia,” noted Dr. Itchhaporia, who added that reluctance to use spironolactone is especially high for patients with depressed renal function, which could exacerbate a hyperkalemic effect. Evidence shows that finerenone poses a substantially reduced risk for raising serum potassium levels, making finerenone a more attractive agent to use in patients with CKD who have an elevated risk for heart failure events as well as an increased risk for hyperkalemia, like those enrolled in the two finerenone trials, she said.

Sotagliflozin uniquely inhibits SGLT1 and SGLT2

The new sotagliflozin analyses reported by Dr. Bhatt combined data for more than 11,800 patients randomized into either of two trials, SCORED, which randomized more than 10,000 patients with type 2 diabetes and chronic kidney disease, and SOLOIST, which randomized more than 1,000 patients with type 2 diabetes who were recently hospitalized for worsening heart failure.

A prespecified analysis for the combined data from both studies looked at the impact of sotagliflozin treatment on the combined outcome of cardiovascular death, hospitalization for heart failure, or an urgent outpatient visit because of heart failure based on kidney function at baseline. The analysis showed that sotagliflozin was at least as effective in the 8% of study patients who at baseline had an eGFR of 25-29 mL/min per 1.73 m² as it was in patients with more preserved renal function.

Benefit from sotagliflozin treatment “was consistent across the full range of eGFR,” said Dr. Bhatt, professor at Harvard Medical School in Boston and executive director of interventional cardiovascular programs at Brigham and Women’s Hospital in Boston.

Results from a second analysis that he reported also showed a consistent effect of sotagliflozin on reducing hemoglobin A1c levels in the enrolled patients, even those with the lowest levels of renal function, an effect not previously seen with the related class of SGLT2 inhibitors (which includes empagliflozin, canagliflozin [Invokana], and dapagliflozin [Farxiga]). Dr. Bhatt suggested that, while SGLT2 inhibitors act entirely in the kidneys and hence their effect on glycemic control is blunted by renal dysfunction, sotagliflozin also inhibits the SGLT1 enzyme, which functions in the gut to transport glucose out of the digestive tract and into the blood, a glycemic control pathway that’s independent of renal function.

FIDELIO-DKD, FIGARO-DKD, and FIDELITY were sponsored by Bayer, the company that markets finerenone (Kerendia). SCORED and SOLOIST were sponsored by Sanofi, and later by Lexicon, the companies developing sotagliflozin (Zynquista). EMPEROR-Preserved and EMPEROR-Reduced were sponsored by Boehringer-Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). Dr. Filippatos has had financial relationships with Bayer and Boehringer-Ingelheim, as well as with Amgen, Medtronic, Novartis, Servier, and Vifor. Dr. Bhatt has received research funding from Sanofi, Lexicon, Bayer, and Boehringer-Ingelheim, Lilly, and numerous other companies, and he has been an adviser to Boehringer-Ingelheim and several other companies.

[email protected]
 

New analyses of trial results for the cardiorenal agents finerenone and sotagliflozin continued the pattern showing that they exert consistent heart failure benefits in patients who span a broad spectrum of renal function, further disproving the notion that more severe stages of chronic kidney disease preclude aggressive medical management.

Sam Rogers; Courtesy American Heart Association

Analysis of combined data from two pivotal trials of the nonsteroidal mineralocorticoid receptor antagonist (MRA) finerenone (Kerendia), which together enrolled more than 13,000 patients with type 2 diabetes and chronic kidney disease, showed in greater detail that finerenone treatment reduced the incidence of hospitalizations for heart failure and cardiovascular death “across the spectrum” of chronic kidney disease (CKD) stages 1-4.

That spectrum included patients with estimated glomerular filtration rates (eGFR) as low as 25 mL/min per 1.73m² and patients with micro- or macroalbuminuria, as well as those with normal urinary albumin levels, Gerasimos Filippatos, MD, reported at the American Heart Association scientific sessions.

And in a separate, unrelated report, combined data from the two pivotal trials, with a total of nearly 12,000 patients with type 2 diabetes, for sotagliflozin (Zynquista), a novel and still unapproved agent that inhibits both the sodium-glucose cotransporter (SGLT) 1 and 2 enzymes, showed a consistent effect significantly reducing cardiovascular death, hospitalization for heart failure, or urgent heart failure outpatient events in patients with eGFR rates as low as 25 mL/min per 1.73m², Deepak L. Bhatt, MD, reported at the meeting.

These two reports follow a third, presented just a week earlier during Kidney Week, that showed the benefit from the SGLT2 inhibitor empagliflozin (Jardiance) for preventing heart failure hospitalizations or cardiovascular death in patients with heart failure with preserved ejection fraction remained consistent even in patients with an eGFR as low as 20 mL/min/1.73m² in results from the EMPEROR-Preserved trial. Similar findings for empagliflozin in patients with heart failure with reduced ejection fraction in the EMPEROR-Reduced trial came out nearly a year ago.

A message to clinicians from these reports is, “don’t wait for patients to develop heart failure” to start these drugs, according to Dipti Itchhaporia, MD, director of disease management for the Hoag Heart and Vascular Institute in Newport Beach, Calif. “It’s time to start using these drugs upstream to have fewer patients with heart failure downstream,” she said in an interview.

Finerenone works differently than spironolactone

The new finerenone analysis included 5,734 patients enrolled in the FIDELIO-DKD trial, and 7,437 in the FIGARO-DKD trial, two very similar trials that differed by transposing the primary endpoint of one to the secondary endpoint of the other, and vice versa. The combined analysis is known as FIDELITY.

Expanding on a report that he first gave at the European Society of Cardiology annual congress in August 2021, Dr. Filippatos provided a few additional details on the analysis that showed a consistent effect of finerenone on preventing hospitalizations for heart failure, and on preventing a combined endpoint of hospitalizations for heart failure and cardiovascular death regardless of the severity of chronic kidney disease down to 25 mL/min per 1.73 m². Statistical analysis showed no hint of an interaction between finerenone’s effect on these outcomes in patients with an eGFR of 60 mL/min per 1.73 m² or greater and those with reduced renal function. Analyses also showed no interaction based on urinary albumin-to-creatinine ratio, be it more or less than 300 mg/g, reported Dr. Filippatos, professor and director of the heart failure unit at Attikon University Hospital in Athens.

“We use MRAs [such as spironolactone] in heart failure patients, but it’s difficult to use because of the risk of patients developing hyperkalemia,” noted Dr. Itchhaporia, who added that reluctance to use spironolactone is especially high for patients with depressed renal function, which could exacerbate a hyperkalemic effect. Evidence shows that finerenone poses a substantially reduced risk for raising serum potassium levels, making finerenone a more attractive agent to use in patients with CKD who have an elevated risk for heart failure events as well as an increased risk for hyperkalemia, like those enrolled in the two finerenone trials, she said.

Sotagliflozin uniquely inhibits SGLT1 and SGLT2

The new sotagliflozin analyses reported by Dr. Bhatt combined data for more than 11,800 patients randomized into either of two trials, SCORED, which randomized more than 10,000 patients with type 2 diabetes and chronic kidney disease, and SOLOIST, which randomized more than 1,000 patients with type 2 diabetes who were recently hospitalized for worsening heart failure.

A prespecified analysis for the combined data from both studies looked at the impact of sotagliflozin treatment on the combined outcome of cardiovascular death, hospitalization for heart failure, or an urgent outpatient visit because of heart failure based on kidney function at baseline. The analysis showed that sotagliflozin was at least as effective in the 8% of study patients who at baseline had an eGFR of 25-29 mL/min per 1.73 m² as it was in patients with more preserved renal function.

Benefit from sotagliflozin treatment “was consistent across the full range of eGFR,” said Dr. Bhatt, professor at Harvard Medical School in Boston and executive director of interventional cardiovascular programs at Brigham and Women’s Hospital in Boston.

Results from a second analysis that he reported also showed a consistent effect of sotagliflozin on reducing hemoglobin A1c levels in the enrolled patients, even those with the lowest levels of renal function, an effect not previously seen with the related class of SGLT2 inhibitors (which includes empagliflozin, canagliflozin [Invokana], and dapagliflozin [Farxiga]). Dr. Bhatt suggested that, while SGLT2 inhibitors act entirely in the kidneys and hence their effect on glycemic control is blunted by renal dysfunction, sotagliflozin also inhibits the SGLT1 enzyme, which functions in the gut to transport glucose out of the digestive tract and into the blood, a glycemic control pathway that’s independent of renal function.

FIDELIO-DKD, FIGARO-DKD, and FIDELITY were sponsored by Bayer, the company that markets finerenone (Kerendia). SCORED and SOLOIST were sponsored by Sanofi, and later by Lexicon, the companies developing sotagliflozin (Zynquista). EMPEROR-Preserved and EMPEROR-Reduced were sponsored by Boehringer-Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). Dr. Filippatos has had financial relationships with Bayer and Boehringer-Ingelheim, as well as with Amgen, Medtronic, Novartis, Servier, and Vifor. Dr. Bhatt has received research funding from Sanofi, Lexicon, Bayer, and Boehringer-Ingelheim, Lilly, and numerous other companies, and he has been an adviser to Boehringer-Ingelheim and several other companies.

[email protected]
 

The proportion of hypertensive patients with blood pressure control fell substantially in the United States during the COVID-19 pandemic, if the data from 24 health systems is representative of national trends.

GlobalStock/Getty Images

The decline in blood pressure control corresponded with – and might be explained by – a parallel decline in follow-up visits for uncontrolled hypertension from the same data source, according to Alanna M. Chamberlain, PhD, associate professor of epidemiology in the division of quantitative health sciences, Mayo Clinic, Rochester, Minn.

If the data are representative, a wave of cardiovascular (CV) events might be coming.

The study, called BP Track, collated electronic medical data on almost 1.8 million patients with hypertension from 2017 through 2020. Up until the end of 2019 and prior to the pandemic, slightly less than 60% of these patients had blood pressure control, defined as less than 140/90 mm Hg.

While the pre-COVID control rates were already “suboptimal,” a decline began almost immediately when the full force of the COVID-19 pandemic began in March of 2020, said Dr. Chamberlain in reporting the BP Track results at the American Heart Association scientific sessions.

When graphed from the start of the pandemic until the end of 2020, the proportion under control fell 7.2% to a level just above 50%. For the more rigorous target of less than 130/80 mm Hg, the proportion fell 4.6% over the same period of time, leaving only about 25% at that level of control.

Repeat visits for BP control rebounded

The proportion of patients with a repeat office visit within 4 weeks of a diagnosis of uncontrolled hypertension fell even more steeply, reaching a nadir at about the middle of 2020, but it was followed by a partial recovery. The rate was 5% lower by the end of 2020, relative to the prepandemic rate (31.7% vs. 36.7%), but that was 5% higher than the nadir.

A similar phenomenon was observed with several other metrics. For example, there was a steep, immediate fall correlating with the onset of the pandemic in the proportion of patients who achieved at least a 10–mm Hg reduction or a BP under 140/90 mm Hg when treated for hypertension. Again, the nadir in this proportion was reached in about mid-2020 followed by a partial recovery. By the end of 2020, 5.9% fewer patients were achieving 10–mm Hg or better improvement in BP control when treated relative to the prepandemic level (23.8% vs. 29.7%), but this level was almost 10% higher than the nadir.

Data based on electronic medical records

The nearly 1.8 million patient records evaluated in the BP Track study were drawn from the 24 centers participating in the PCORnet Blood Pressure Control Laboratory Surveillance System. Nationally distributed, 18 of the 24 systems were academically affiliated.

When stratified by race, the proportion of Asians meeting the definition of BP control prior to the pandemic was about 5% higher than the overall average, and the proportion in Blacks was more than 5% lower. Whites had rates of blood pressure control very near the average. The relative declines in BP and the proportion of patients with uncontrolled blood pressure who had a repeat visit within 4 weeks during the pandemic were generally parallel across racial groups.

The implications of these data and the role of the COVID-19 pandemic on blood pressure control are “concerning,” according to Adam Bress, PharmD, department of population health sciences, University of Utah, Salt Lake City.

Citing a study published in 2020 that suggested blood pressure control rates in the United States were already declining before the COVID-19 pandemic, he said the COVID-19 epidemic appears to be exacerbating an existing problem. He expressed particular concern for populations who already have low rates of control, such as African Americans.

“The impact of COVID-19 is likely to be disproportionately greater for underserved and minoritized patients,” said Dr. Bress, who was the lead author of a recent article on this specific topic.

The implication of BP Track is that a wave of cardiovascular events will be coming if the data are nationally representative.

“A recent meta-analysis shows that each 5–mm Hg reduction in blood pressure is associated with age-related reductions in CV events,” Dr. Bress said. For those 55 years of age or older, he said the risk reduction is about 10%. Given that the inverse is almost certainly true, he expects diminishing blood pressure control, whether COVID-19-related or not, to translate into increased CV events.

However, there is no guarantee that the BP Track data are representative of the U.S. population, cautioned Eugene Yang, MD, professor in the division of cardiology, University of Washington, Seattle. Even though a large group of patients was included, they were largely drawn from academic centers.

Nevertheless, Dr. Yang, who chairs the Hypertension Working Group of the American College of Cardiology’s Prevention of Cardiovascular Disease Council, acknowledged that the implications are “scary.”

If the data are representative, “this type of reduction in blood pressure control would be expected to have a significant impact on morbidity and mortality, but we also have to think of all the variables that were not tracked and might add to risk,” he said. He named such risk factors as weight gain, diminished exercise, and increased alcohol consumption, which have been cited by others as being exacerbated by the pandemic.

If these lead to more cardiovascular events on a population basis, the timing of these events would be expected to be age dependent.

“If you look at the patients included in this study, about 50% were 65 years of age or older. In a population like this you would expect to see an increase in events sooner rather than later,” said Dr. Wang.

In other words, if the trial is representative, a wave of cardiovascular events might be seen in the most vulnerable patients “within the next few years,” Dr. Yang speculated.

Dr. Chamberlain reports a research grant from EpidStrategies. Dr. Bress and Dr. Yang report no potential financial conflicts of interest.

The proportion of hypertensive patients with blood pressure control fell substantially in the United States during the COVID-19 pandemic, if the data from 24 health systems is representative of national trends.

GlobalStock/Getty Images

The decline in blood pressure control corresponded with – and might be explained by – a parallel decline in follow-up visits for uncontrolled hypertension from the same data source, according to Alanna M. Chamberlain, PhD, associate professor of epidemiology in the division of quantitative health sciences, Mayo Clinic, Rochester, Minn.

If the data are representative, a wave of cardiovascular (CV) events might be coming.

The study, called BP Track, collated electronic medical data on almost 1.8 million patients with hypertension from 2017 through 2020. Up until the end of 2019 and prior to the pandemic, slightly less than 60% of these patients had blood pressure control, defined as less than 140/90 mm Hg.

While the pre-COVID control rates were already “suboptimal,” a decline began almost immediately when the full force of the COVID-19 pandemic began in March of 2020, said Dr. Chamberlain in reporting the BP Track results at the American Heart Association scientific sessions.

When graphed from the start of the pandemic until the end of 2020, the proportion under control fell 7.2% to a level just above 50%. For the more rigorous target of less than 130/80 mm Hg, the proportion fell 4.6% over the same period of time, leaving only about 25% at that level of control.

Repeat visits for BP control rebounded

The proportion of patients with a repeat office visit within 4 weeks of a diagnosis of uncontrolled hypertension fell even more steeply, reaching a nadir at about the middle of 2020, but it was followed by a partial recovery. The rate was 5% lower by the end of 2020, relative to the prepandemic rate (31.7% vs. 36.7%), but that was 5% higher than the nadir.

A similar phenomenon was observed with several other metrics. For example, there was a steep, immediate fall correlating with the onset of the pandemic in the proportion of patients who achieved at least a 10–mm Hg reduction or a BP under 140/90 mm Hg when treated for hypertension. Again, the nadir in this proportion was reached in about mid-2020 followed by a partial recovery. By the end of 2020, 5.9% fewer patients were achieving 10–mm Hg or better improvement in BP control when treated relative to the prepandemic level (23.8% vs. 29.7%), but this level was almost 10% higher than the nadir.

Data based on electronic medical records

The nearly 1.8 million patient records evaluated in the BP Track study were drawn from the 24 centers participating in the PCORnet Blood Pressure Control Laboratory Surveillance System. Nationally distributed, 18 of the 24 systems were academically affiliated.

When stratified by race, the proportion of Asians meeting the definition of BP control prior to the pandemic was about 5% higher than the overall average, and the proportion in Blacks was more than 5% lower. Whites had rates of blood pressure control very near the average. The relative declines in BP and the proportion of patients with uncontrolled blood pressure who had a repeat visit within 4 weeks during the pandemic were generally parallel across racial groups.

The implications of these data and the role of the COVID-19 pandemic on blood pressure control are “concerning,” according to Adam Bress, PharmD, department of population health sciences, University of Utah, Salt Lake City.

Citing a study published in 2020 that suggested blood pressure control rates in the United States were already declining before the COVID-19 pandemic, he said the COVID-19 epidemic appears to be exacerbating an existing problem. He expressed particular concern for populations who already have low rates of control, such as African Americans.

“The impact of COVID-19 is likely to be disproportionately greater for underserved and minoritized patients,” said Dr. Bress, who was the lead author of a recent article on this specific topic.

The implication of BP Track is that a wave of cardiovascular events will be coming if the data are nationally representative.

“A recent meta-analysis shows that each 5–mm Hg reduction in blood pressure is associated with age-related reductions in CV events,” Dr. Bress said. For those 55 years of age or older, he said the risk reduction is about 10%. Given that the inverse is almost certainly true, he expects diminishing blood pressure control, whether COVID-19-related or not, to translate into increased CV events.

However, there is no guarantee that the BP Track data are representative of the U.S. population, cautioned Eugene Yang, MD, professor in the division of cardiology, University of Washington, Seattle. Even though a large group of patients was included, they were largely drawn from academic centers.

Nevertheless, Dr. Yang, who chairs the Hypertension Working Group of the American College of Cardiology’s Prevention of Cardiovascular Disease Council, acknowledged that the implications are “scary.”

If the data are representative, “this type of reduction in blood pressure control would be expected to have a significant impact on morbidity and mortality, but we also have to think of all the variables that were not tracked and might add to risk,” he said. He named such risk factors as weight gain, diminished exercise, and increased alcohol consumption, which have been cited by others as being exacerbated by the pandemic.

If these lead to more cardiovascular events on a population basis, the timing of these events would be expected to be age dependent.

“If you look at the patients included in this study, about 50% were 65 years of age or older. In a population like this you would expect to see an increase in events sooner rather than later,” said Dr. Wang.

In other words, if the trial is representative, a wave of cardiovascular events might be seen in the most vulnerable patients “within the next few years,” Dr. Yang speculated.

Dr. Chamberlain reports a research grant from EpidStrategies. Dr. Bress and Dr. Yang report no potential financial conflicts of interest.

The proportion of hypertensive patients with blood pressure control fell substantially in the United States during the COVID-19 pandemic, if the data from 24 health systems is representative of national trends.

GlobalStock/Getty Images

The decline in blood pressure control corresponded with – and might be explained by – a parallel decline in follow-up visits for uncontrolled hypertension from the same data source, according to Alanna M. Chamberlain, PhD, associate professor of epidemiology in the division of quantitative health sciences, Mayo Clinic, Rochester, Minn.

If the data are representative, a wave of cardiovascular (CV) events might be coming.

The study, called BP Track, collated electronic medical data on almost 1.8 million patients with hypertension from 2017 through 2020. Up until the end of 2019 and prior to the pandemic, slightly less than 60% of these patients had blood pressure control, defined as less than 140/90 mm Hg.

While the pre-COVID control rates were already “suboptimal,” a decline began almost immediately when the full force of the COVID-19 pandemic began in March of 2020, said Dr. Chamberlain in reporting the BP Track results at the American Heart Association scientific sessions.

When graphed from the start of the pandemic until the end of 2020, the proportion under control fell 7.2% to a level just above 50%. For the more rigorous target of less than 130/80 mm Hg, the proportion fell 4.6% over the same period of time, leaving only about 25% at that level of control.

Repeat visits for BP control rebounded

The proportion of patients with a repeat office visit within 4 weeks of a diagnosis of uncontrolled hypertension fell even more steeply, reaching a nadir at about the middle of 2020, but it was followed by a partial recovery. The rate was 5% lower by the end of 2020, relative to the prepandemic rate (31.7% vs. 36.7%), but that was 5% higher than the nadir.

A similar phenomenon was observed with several other metrics. For example, there was a steep, immediate fall correlating with the onset of the pandemic in the proportion of patients who achieved at least a 10–mm Hg reduction or a BP under 140/90 mm Hg when treated for hypertension. Again, the nadir in this proportion was reached in about mid-2020 followed by a partial recovery. By the end of 2020, 5.9% fewer patients were achieving 10–mm Hg or better improvement in BP control when treated relative to the prepandemic level (23.8% vs. 29.7%), but this level was almost 10% higher than the nadir.

Data based on electronic medical records

The nearly 1.8 million patient records evaluated in the BP Track study were drawn from the 24 centers participating in the PCORnet Blood Pressure Control Laboratory Surveillance System. Nationally distributed, 18 of the 24 systems were academically affiliated.

When stratified by race, the proportion of Asians meeting the definition of BP control prior to the pandemic was about 5% higher than the overall average, and the proportion in Blacks was more than 5% lower. Whites had rates of blood pressure control very near the average. The relative declines in BP and the proportion of patients with uncontrolled blood pressure who had a repeat visit within 4 weeks during the pandemic were generally parallel across racial groups.

The implications of these data and the role of the COVID-19 pandemic on blood pressure control are “concerning,” according to Adam Bress, PharmD, department of population health sciences, University of Utah, Salt Lake City.

Citing a study published in 2020 that suggested blood pressure control rates in the United States were already declining before the COVID-19 pandemic, he said the COVID-19 epidemic appears to be exacerbating an existing problem. He expressed particular concern for populations who already have low rates of control, such as African Americans.

“The impact of COVID-19 is likely to be disproportionately greater for underserved and minoritized patients,” said Dr. Bress, who was the lead author of a recent article on this specific topic.

The implication of BP Track is that a wave of cardiovascular events will be coming if the data are nationally representative.

“A recent meta-analysis shows that each 5–mm Hg reduction in blood pressure is associated with age-related reductions in CV events,” Dr. Bress said. For those 55 years of age or older, he said the risk reduction is about 10%. Given that the inverse is almost certainly true, he expects diminishing blood pressure control, whether COVID-19-related or not, to translate into increased CV events.

However, there is no guarantee that the BP Track data are representative of the U.S. population, cautioned Eugene Yang, MD, professor in the division of cardiology, University of Washington, Seattle. Even though a large group of patients was included, they were largely drawn from academic centers.

Nevertheless, Dr. Yang, who chairs the Hypertension Working Group of the American College of Cardiology’s Prevention of Cardiovascular Disease Council, acknowledged that the implications are “scary.”

If the data are representative, “this type of reduction in blood pressure control would be expected to have a significant impact on morbidity and mortality, but we also have to think of all the variables that were not tracked and might add to risk,” he said. He named such risk factors as weight gain, diminished exercise, and increased alcohol consumption, which have been cited by others as being exacerbated by the pandemic.

If these lead to more cardiovascular events on a population basis, the timing of these events would be expected to be age dependent.

“If you look at the patients included in this study, about 50% were 65 years of age or older. In a population like this you would expect to see an increase in events sooner rather than later,” said Dr. Wang.

In other words, if the trial is representative, a wave of cardiovascular events might be seen in the most vulnerable patients “within the next few years,” Dr. Yang speculated.

Dr. Chamberlain reports a research grant from EpidStrategies. Dr. Bress and Dr. Yang report no potential financial conflicts of interest.

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

COVID-19 has been difficult for parents trying to balance careers, home life, and keeping their loved ones safe. A new study indicates that, not only are physicians not immune to these stressors, but the long-term effects could be devastating for health care overall.

Juanmonino/Getty Images

In a study published Nov. 11, 2021, in JAMA Network Open , researchers found that stresses to work/life balance and family life caused by the pandemic have differed among men and women physicians. Women physicians have borne more of the burden, and the consequences could reach far beyond home.

Physicians and other health care workers have been at the front lines of the COVID-19 pandemic, and their work lives have been the focus of a lot of attention in the media and by researchers. Their family lives, not so much. But physicians have families, and the pandemic has upended almost everything about their lives, particularly where work life and home life intersect. School and day care closures, working from home, working extra hours, or working less – all of these changes have consequences on family life and the mental health of parents who are also physicians.

Findings from a Medscape survey published in early 2021 indicate that more female physicians than male physicians were either “conflicted” or “very conflicted” as parents because of work demands (42% vs. 23%) nearly 6 months into the pandemic.

In the current study, researchers from the University of Michigan, Harvard University, and the Medical University of South Carolina teamed up to investigate gender differences in how work/family factors affected the mental health of early-career physician parents in the United States during the first year of the COVID-19 pandemic. The results suggest that the pandemic has increased gender disparity and added disproportionately to the burden of female physicians.
 

Managing the household falls mostly on moms

Participants were physicians enrolled in the Intern Health Study, a longitudinal study that regularly surveys medical interns in the United States to assess stress and mood. When researchers compared survey results from before the onset of the pandemic (2018) with later results (2020), they found a striking gender difference in how the pandemic has changed family and work duties for physicians.

The authors of the study pointed out that previous research had found that female physicians take on a greater share of household and childcare duties than male physicians. The current study found that their share had increased with the pandemic. Physician moms are now 30 times more likely to be in charge of these tasks than physician dads.

In families in which both parents were physicians, none of the men said they took the primary role in managing the extra demands caused by the pandemic. In addition, women were twice as likely as men to work primarily from home and to work reduced hours.

The extra stress seems to be taking a toll on women physicians. In the 2020 survey, physician mothers had higher scores for anxiety and depression symptoms, compared with men. Notably, the 2018 survey did not show a significant difference in depression scores between men and women. Nor were there significant differences in depression and anxiety scores between women and men who were not parents or in reports of work/family conflict before and after the pandemic.

In general, the results indicate that the pandemic has only widened the gender gap between women and men physicians when it comes to managing family life and dealing with the stresses of maintaining a suitable work-life balance.
 

‘Long-term repercussions’ for gender equity in medicine

Although these are serious problems for women physicians and their families, the effects go beyond the home and beyond individuals. Even before the pandemic, women in medicine struggled for parity in career advancement and opportunities as well as in pay, and this new setback could make those challenges even greater.

“Even short-term adjustments can have serious long-term repercussions as they may lead to lower earnings and negatively impact opportunities for promotion, further exacerbating gender inequalities in compensation and advancement,” the study’s authors wrote.

The potential damage extends to the entire profession and the health care system itself. The profession is already struggling to retain young female physicians, and this situation is likely to make that problem worse and have long-term consequences. Citing data showing that female physicians spend more time with patients and that their patients may have better outcomes, the authors wrote that the consequences of losing more early-career female physicians “could be devastating to the U.S. health care system, particularly in the context of a global pandemic and an impending physician shortage.”

The sample size was small (276 U.S. physicians), and the study relied on self-reported data. The findings suggest that more research on this topic is needed, especially research that includes other demographic factors, such as sexual orientation and ethnicity. The authors recommend that institutional and public policymakers take into account the effects of the pandemic on physician mothers to ensure that recent gains in gender equity for women physicians do not fall victim to COVID-19.

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

The STEP 5 clinical trial extends favorable weight loss from 1 year out to 2 years for the glucagon-like peptide-1 (GLP-1) agonist semaglutide (Wegovy, Novo Nordisk), given as a once-weekly 2.4-mg subcutaneous injection, and some food cravings were improved in a subgroup analysis.

In another study, STEP 8, weight loss was greater at 68 weeks with semaglutide subcutaneous injection than with a 3-mg daily subcutaneous injection of another GLP-1 agonist, liraglutide (Saxenda, Novo Nordisk), approved earlier for weight loss.

Researchers presented these promising outcomes, with no new safety signals, at ObesityWeek® 2021.

However, there is more to learn about the drug class, researchers agree. Follow-up is still relatively short for a chronic disease and many patients have gastrointestinal side effects with semaglutide, one expert cautions.

The key findings were:

In STEP 5, combined with lifestyle intervention (a reduced-calorie meal plan and advice about physical activity), weekly injection of 2.4 mg semaglutide led to:

• 15.2% weight loss, compared with 2.6% weight loss with placebo at 2 years (P < .0001);
• 77% of patients losing at least 5% of their weight, compared with 34% of patients in the placebo group at 2 years (P < .0001);
• Significantly greater improvement in overall control of cravings, and craving for savory foods, in a subset of patients, versus placebo, but questionnaire scores for positive mood and craving for sweet foods were similar in both groups.
• In STEP 8, mean body weight at 68 weeks was 15.8% lower with 2.4 mg/week subcutaneous semaglutide plus lifestyle changes versus 6.4% lower with 3.0 mg/day subcutaneous liraglutide plus lifestyle changes (P < .001).

Can treat to a target weight-loss range

The undiminished weight loss efficacy in the 2-year data for STEP 5 “portends well,” said W. Timothy Garvey, MD, following his presentation of the results.

Weight loss plus reduced cravings

In another presentation, Sean Wharton, MD, PharmD, said, “In adults with overweight or obesity, substantial weight loss with semaglutide 2.4 mg was accompanied by short- and long-term improvements in control of eating.”

Clinically meaningful weight loss

When presenting the STEP 8 findings, Domenica M. Rubino, MD, said: “Participants were significantly more likely to achieve clinically meaningful weight loss thresholds with semaglutide 2.4 mg versus liraglutide 3.0 mg, accompanied by greater improvements in cardiometabolic risk factors.”

For example, patients can have better mobility, which is important for quality of life, Dr. Rubino, director of the Washington Center for Weight Management and Research, Arlington, Virginia, noted. 

A smaller percentage of patients respond to liraglutide, she added. Clinicians need to individualize treatment.

When asked, “How do you choose which medical therapy?” Dr. Rubino responded: “We sit and talk.” Finding the medical therapy that fits the patient depends on things such as the patient’s insurance coverage and ability to tolerate side effects such as dehydration, diarrhea, and nausea.   

When asked, “How do you switch from liraglutide to semaglutide?” she noted that there are no current guidelines for this. “You have to be careful. Start on the lowest dose of Wegovy. Be cautious, conservative.”  
 

Still early days, caveats remain

“The STEP trials as a group appear to be making the case that obesity may now be considered a medically manageable disease, based on the experience with semaglutide,” Julie R. Ingelfinger, MD, who was not involved with the research, commented in an email.

STEP 5 weight loss efficacy and safety at 2 years

Garvey reported that STEP 5 was a phase 3b trial that randomized 304 adults in the United States, Canada, Hungary, Italy, and Spain, who were 18 years and older, with a body mass index (BMI) ≥27 kg/m² with at least one weight-related comorbidity (hypertension, dyslipidemia, obstructive sleep apnea, or cardiovascular disease) or a BMI ≥30 kg/m², without type 2 diabetes, to receive semaglutide or placebo plus lifestyle intervention.

Most participants were women (78%) and White (93%). On average, they were 47 years old, weighed 106 kg (223.7 pounds), had a BMI of 38.5 kg/m², a waist circumference of 115.7 cm (45.6 inches), and an A1c of 5.7%.

A total of 87% of patients in the semaglutide group and 73% of patients in the placebo group completed the trial.

At 104 weeks, participants were more likely to lose ≥10%, ≥15%, and ≥20% of body weight with semaglutide versus placebo (61.8% vs. 13.3%, 52.1% vs. 7.0%, and 36.1% vs. 2.3%, respectively; P < .0001 for all).

Patients in the semaglutide group had greater health improvements in cardiovascular risk factors (waist circumference, systolic and diastolic blood pressure, and C-reactive protein) and metabolic risk factors (A1c, fasting plasma glucose, fasting serum insulin, and triglycerides) than those in the placebo group (P < .05 for all).

Safety and tolerability were consistent with adverse events seen with this drug class, with no new safety signals.
 

Control of eating questionnaire findings at 2 years in STEP 5

Dr. Wharton and colleagues assessed changes in responses to the Control of Eating questionnaire at baseline and at 20, 52, and 104 weeks in patients from the U.S. and Canada in the STEP 5 trial (88 patients in the semaglutide group and 86 patients in the placebo group).

The questionnaire consisted of 19 questions grouped into four categories: control of food cravings, craving for savory foods (salty and spicy, dairy, or starchy foods), craving for sweet foods (chocolate, sweet foods, or fruit/fruit juice), and positive mood.

At week 104, patients in the semaglutide group had significantly greater improvements in scores for craving for salty and spicy, dairy, and starchy foods, and resisting cravings.
 

Semaglutide versus liraglutide, 68-week efficacy and safety in STEP 8

STEP 8 randomized 338 U.S. adults without diabetes and a BMI of ≥27 kg/m² plus one or more weight-related comorbidities or a BMI of ≥30 kg/m² 3:1 to semaglutide 2.4 mg once weekly (n = 126) or matching placebo, or 3:1 liraglutide 3.0 mg once daily (n = 127) or matching placebo, plus lifestyle intervention.

Most participants were women (78%) and were a mean age of 49, had a mean body weight of 104.5 kg, and had a mean BMI of 37.5 kg/m².

In STEP 8, more participants achieved ≥10%, ≥15%, and ≥20% weight loss with semaglutide than with liraglutide (70.9% vs. 25.6%, 55.6% vs. 12.0%, and 38.5% vs. 6.0%, respectively; P < .001 for all odds ratios).

Semaglutide improved waist circumference, A1c, and C-reactive protein versus liraglutide (unadjusted P < .001 for all).

Gastrointestinal adverse events were reported by 84% and 83% of participants receiving semaglutide and liraglutide, respectively. Most events were mild/moderate and transient, with prevalence declining over time.

Fewer participants stopped treatment due to adverse events with semaglutide than liraglutide (3.2% vs. 12.6%).

Dr. Garvey has reported serving as a site principal investigator for multicentered clinical trials sponsored by his university and funded by Eli Lilly, Novo Nordisk, and Pfizer. Dr. Wharton has reported financial ties to Novo Nordisk, Bausch Health Canada, Eli Lily, and Boehringer Ingelheim Canada. Dr. Rubino has reported ties to Boehringer Ingelheim and AstraZeneca. Dr. Ingelfinger has reported no relevant financial relationships.

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

The STEP 5 clinical trial extends favorable weight loss from 1 year out to 2 years for the glucagon-like peptide-1 (GLP-1) agonist semaglutide (Wegovy, Novo Nordisk), given as a once-weekly 2.4-mg subcutaneous injection, and some food cravings were improved in a subgroup analysis.

In another study, STEP 8, weight loss was greater at 68 weeks with semaglutide subcutaneous injection than with a 3-mg daily subcutaneous injection of another GLP-1 agonist, liraglutide (Saxenda, Novo Nordisk), approved earlier for weight loss.

Researchers presented these promising outcomes, with no new safety signals, at ObesityWeek® 2021.

However, there is more to learn about the drug class, researchers agree. Follow-up is still relatively short for a chronic disease and many patients have gastrointestinal side effects with semaglutide, one expert cautions.

The key findings were:

In STEP 5, combined with lifestyle intervention (a reduced-calorie meal plan and advice about physical activity), weekly injection of 2.4 mg semaglutide led to:

• 15.2% weight loss, compared with 2.6% weight loss with placebo at 2 years (P < .0001);
• 77% of patients losing at least 5% of their weight, compared with 34% of patients in the placebo group at 2 years (P < .0001);
• Significantly greater improvement in overall control of cravings, and craving for savory foods, in a subset of patients, versus placebo, but questionnaire scores for positive mood and craving for sweet foods were similar in both groups.
• In STEP 8, mean body weight at 68 weeks was 15.8% lower with 2.4 mg/week subcutaneous semaglutide plus lifestyle changes versus 6.4% lower with 3.0 mg/day subcutaneous liraglutide plus lifestyle changes (P < .001).

Can treat to a target weight-loss range

The undiminished weight loss efficacy in the 2-year data for STEP 5 “portends well,” said W. Timothy Garvey, MD, following his presentation of the results.

Weight loss plus reduced cravings

In another presentation, Sean Wharton, MD, PharmD, said, “In adults with overweight or obesity, substantial weight loss with semaglutide 2.4 mg was accompanied by short- and long-term improvements in control of eating.”

Clinically meaningful weight loss

When presenting the STEP 8 findings, Domenica M. Rubino, MD, said: “Participants were significantly more likely to achieve clinically meaningful weight loss thresholds with semaglutide 2.4 mg versus liraglutide 3.0 mg, accompanied by greater improvements in cardiometabolic risk factors.”

For example, patients can have better mobility, which is important for quality of life, Dr. Rubino, director of the Washington Center for Weight Management and Research, Arlington, Virginia, noted. 

A smaller percentage of patients respond to liraglutide, she added. Clinicians need to individualize treatment.

When asked, “How do you choose which medical therapy?” Dr. Rubino responded: “We sit and talk.” Finding the medical therapy that fits the patient depends on things such as the patient’s insurance coverage and ability to tolerate side effects such as dehydration, diarrhea, and nausea.   

When asked, “How do you switch from liraglutide to semaglutide?” she noted that there are no current guidelines for this. “You have to be careful. Start on the lowest dose of Wegovy. Be cautious, conservative.”  
 

Still early days, caveats remain

“The STEP trials as a group appear to be making the case that obesity may now be considered a medically manageable disease, based on the experience with semaglutide,” Julie R. Ingelfinger, MD, who was not involved with the research, commented in an email.

STEP 5 weight loss efficacy and safety at 2 years

Garvey reported that STEP 5 was a phase 3b trial that randomized 304 adults in the United States, Canada, Hungary, Italy, and Spain, who were 18 years and older, with a body mass index (BMI) ≥27 kg/m² with at least one weight-related comorbidity (hypertension, dyslipidemia, obstructive sleep apnea, or cardiovascular disease) or a BMI ≥30 kg/m², without type 2 diabetes, to receive semaglutide or placebo plus lifestyle intervention.

Most participants were women (78%) and White (93%). On average, they were 47 years old, weighed 106 kg (223.7 pounds), had a BMI of 38.5 kg/m², a waist circumference of 115.7 cm (45.6 inches), and an A1c of 5.7%.

A total of 87% of patients in the semaglutide group and 73% of patients in the placebo group completed the trial.

At 104 weeks, participants were more likely to lose ≥10%, ≥15%, and ≥20% of body weight with semaglutide versus placebo (61.8% vs. 13.3%, 52.1% vs. 7.0%, and 36.1% vs. 2.3%, respectively; P < .0001 for all).

Patients in the semaglutide group had greater health improvements in cardiovascular risk factors (waist circumference, systolic and diastolic blood pressure, and C-reactive protein) and metabolic risk factors (A1c, fasting plasma glucose, fasting serum insulin, and triglycerides) than those in the placebo group (P < .05 for all).

Safety and tolerability were consistent with adverse events seen with this drug class, with no new safety signals.
 

Control of eating questionnaire findings at 2 years in STEP 5

Dr. Wharton and colleagues assessed changes in responses to the Control of Eating questionnaire at baseline and at 20, 52, and 104 weeks in patients from the U.S. and Canada in the STEP 5 trial (88 patients in the semaglutide group and 86 patients in the placebo group).

The questionnaire consisted of 19 questions grouped into four categories: control of food cravings, craving for savory foods (salty and spicy, dairy, or starchy foods), craving for sweet foods (chocolate, sweet foods, or fruit/fruit juice), and positive mood.

At week 104, patients in the semaglutide group had significantly greater improvements in scores for craving for salty and spicy, dairy, and starchy foods, and resisting cravings.
 

Semaglutide versus liraglutide, 68-week efficacy and safety in STEP 8

STEP 8 randomized 338 U.S. adults without diabetes and a BMI of ≥27 kg/m² plus one or more weight-related comorbidities or a BMI of ≥30 kg/m² 3:1 to semaglutide 2.4 mg once weekly (n = 126) or matching placebo, or 3:1 liraglutide 3.0 mg once daily (n = 127) or matching placebo, plus lifestyle intervention.

Most participants were women (78%) and were a mean age of 49, had a mean body weight of 104.5 kg, and had a mean BMI of 37.5 kg/m².

In STEP 8, more participants achieved ≥10%, ≥15%, and ≥20% weight loss with semaglutide than with liraglutide (70.9% vs. 25.6%, 55.6% vs. 12.0%, and 38.5% vs. 6.0%, respectively; P < .001 for all odds ratios).

Semaglutide improved waist circumference, A1c, and C-reactive protein versus liraglutide (unadjusted P < .001 for all).

Gastrointestinal adverse events were reported by 84% and 83% of participants receiving semaglutide and liraglutide, respectively. Most events were mild/moderate and transient, with prevalence declining over time.

Fewer participants stopped treatment due to adverse events with semaglutide than liraglutide (3.2% vs. 12.6%).

Dr. Garvey has reported serving as a site principal investigator for multicentered clinical trials sponsored by his university and funded by Eli Lilly, Novo Nordisk, and Pfizer. Dr. Wharton has reported financial ties to Novo Nordisk, Bausch Health Canada, Eli Lily, and Boehringer Ingelheim Canada. Dr. Rubino has reported ties to Boehringer Ingelheim and AstraZeneca. Dr. Ingelfinger has reported no relevant financial relationships.

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

The STEP 5 clinical trial extends favorable weight loss from 1 year out to 2 years for the glucagon-like peptide-1 (GLP-1) agonist semaglutide (Wegovy, Novo Nordisk), given as a once-weekly 2.4-mg subcutaneous injection, and some food cravings were improved in a subgroup analysis.

In another study, STEP 8, weight loss was greater at 68 weeks with semaglutide subcutaneous injection than with a 3-mg daily subcutaneous injection of another GLP-1 agonist, liraglutide (Saxenda, Novo Nordisk), approved earlier for weight loss.

Researchers presented these promising outcomes, with no new safety signals, at ObesityWeek® 2021.

However, there is more to learn about the drug class, researchers agree. Follow-up is still relatively short for a chronic disease and many patients have gastrointestinal side effects with semaglutide, one expert cautions.

The key findings were:

In STEP 5, combined with lifestyle intervention (a reduced-calorie meal plan and advice about physical activity), weekly injection of 2.4 mg semaglutide led to:

• 15.2% weight loss, compared with 2.6% weight loss with placebo at 2 years (P < .0001);
• 77% of patients losing at least 5% of their weight, compared with 34% of patients in the placebo group at 2 years (P < .0001);
• Significantly greater improvement in overall control of cravings, and craving for savory foods, in a subset of patients, versus placebo, but questionnaire scores for positive mood and craving for sweet foods were similar in both groups.
• In STEP 8, mean body weight at 68 weeks was 15.8% lower with 2.4 mg/week subcutaneous semaglutide plus lifestyle changes versus 6.4% lower with 3.0 mg/day subcutaneous liraglutide plus lifestyle changes (P < .001).

Can treat to a target weight-loss range

The undiminished weight loss efficacy in the 2-year data for STEP 5 “portends well,” said W. Timothy Garvey, MD, following his presentation of the results.

Weight loss plus reduced cravings

In another presentation, Sean Wharton, MD, PharmD, said, “In adults with overweight or obesity, substantial weight loss with semaglutide 2.4 mg was accompanied by short- and long-term improvements in control of eating.”

Clinically meaningful weight loss

When presenting the STEP 8 findings, Domenica M. Rubino, MD, said: “Participants were significantly more likely to achieve clinically meaningful weight loss thresholds with semaglutide 2.4 mg versus liraglutide 3.0 mg, accompanied by greater improvements in cardiometabolic risk factors.”

For example, patients can have better mobility, which is important for quality of life, Dr. Rubino, director of the Washington Center for Weight Management and Research, Arlington, Virginia, noted. 

A smaller percentage of patients respond to liraglutide, she added. Clinicians need to individualize treatment.

When asked, “How do you choose which medical therapy?” Dr. Rubino responded: “We sit and talk.” Finding the medical therapy that fits the patient depends on things such as the patient’s insurance coverage and ability to tolerate side effects such as dehydration, diarrhea, and nausea.   

When asked, “How do you switch from liraglutide to semaglutide?” she noted that there are no current guidelines for this. “You have to be careful. Start on the lowest dose of Wegovy. Be cautious, conservative.”  
 

Still early days, caveats remain

“The STEP trials as a group appear to be making the case that obesity may now be considered a medically manageable disease, based on the experience with semaglutide,” Julie R. Ingelfinger, MD, who was not involved with the research, commented in an email.

STEP 5 weight loss efficacy and safety at 2 years

Garvey reported that STEP 5 was a phase 3b trial that randomized 304 adults in the United States, Canada, Hungary, Italy, and Spain, who were 18 years and older, with a body mass index (BMI) ≥27 kg/m² with at least one weight-related comorbidity (hypertension, dyslipidemia, obstructive sleep apnea, or cardiovascular disease) or a BMI ≥30 kg/m², without type 2 diabetes, to receive semaglutide or placebo plus lifestyle intervention.

Most participants were women (78%) and White (93%). On average, they were 47 years old, weighed 106 kg (223.7 pounds), had a BMI of 38.5 kg/m², a waist circumference of 115.7 cm (45.6 inches), and an A1c of 5.7%.

A total of 87% of patients in the semaglutide group and 73% of patients in the placebo group completed the trial.

At 104 weeks, participants were more likely to lose ≥10%, ≥15%, and ≥20% of body weight with semaglutide versus placebo (61.8% vs. 13.3%, 52.1% vs. 7.0%, and 36.1% vs. 2.3%, respectively; P < .0001 for all).

Patients in the semaglutide group had greater health improvements in cardiovascular risk factors (waist circumference, systolic and diastolic blood pressure, and C-reactive protein) and metabolic risk factors (A1c, fasting plasma glucose, fasting serum insulin, and triglycerides) than those in the placebo group (P < .05 for all).

Safety and tolerability were consistent with adverse events seen with this drug class, with no new safety signals.
 

Control of eating questionnaire findings at 2 years in STEP 5

Dr. Wharton and colleagues assessed changes in responses to the Control of Eating questionnaire at baseline and at 20, 52, and 104 weeks in patients from the U.S. and Canada in the STEP 5 trial (88 patients in the semaglutide group and 86 patients in the placebo group).

The questionnaire consisted of 19 questions grouped into four categories: control of food cravings, craving for savory foods (salty and spicy, dairy, or starchy foods), craving for sweet foods (chocolate, sweet foods, or fruit/fruit juice), and positive mood.

At week 104, patients in the semaglutide group had significantly greater improvements in scores for craving for salty and spicy, dairy, and starchy foods, and resisting cravings.
 

Semaglutide versus liraglutide, 68-week efficacy and safety in STEP 8

STEP 8 randomized 338 U.S. adults without diabetes and a BMI of ≥27 kg/m² plus one or more weight-related comorbidities or a BMI of ≥30 kg/m² 3:1 to semaglutide 2.4 mg once weekly (n = 126) or matching placebo, or 3:1 liraglutide 3.0 mg once daily (n = 127) or matching placebo, plus lifestyle intervention.

Most participants were women (78%) and were a mean age of 49, had a mean body weight of 104.5 kg, and had a mean BMI of 37.5 kg/m².

In STEP 8, more participants achieved ≥10%, ≥15%, and ≥20% weight loss with semaglutide than with liraglutide (70.9% vs. 25.6%, 55.6% vs. 12.0%, and 38.5% vs. 6.0%, respectively; P < .001 for all odds ratios).

Semaglutide improved waist circumference, A1c, and C-reactive protein versus liraglutide (unadjusted P < .001 for all).

Gastrointestinal adverse events were reported by 84% and 83% of participants receiving semaglutide and liraglutide, respectively. Most events were mild/moderate and transient, with prevalence declining over time.

Fewer participants stopped treatment due to adverse events with semaglutide than liraglutide (3.2% vs. 12.6%).

Dr. Garvey has reported serving as a site principal investigator for multicentered clinical trials sponsored by his university and funded by Eli Lilly, Novo Nordisk, and Pfizer. Dr. Wharton has reported financial ties to Novo Nordisk, Bausch Health Canada, Eli Lily, and Boehringer Ingelheim Canada. Dr. Rubino has reported ties to Boehringer Ingelheim and AstraZeneca. Dr. Ingelfinger has reported no relevant financial relationships.

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

When the COVID-19 pandemic engulfed the nation well over a year ago, Rebecca Hendrickson, MD, PhD, immersed herself in the shell-shocking revelations that clinicians began posting on social media. The accounts offered just a snapshot of the pandemic’s heavy psychological toll, and Dr. Hendrickson, a psychiatrist at the University of Washington in Seattle and an expert in posttraumatic stress disorder (PTSD), wanted to know more.

xavierarnau/Getty Images

She and her colleagues devised a survey to assess the impact of several pandemic-related factors, including increased work hours, social distancing restrictions, and lack of adequate personal protective equipment.

What began as a survey of health care workers soon expanded in scope. Of the more than 600 survey respondents to date, health care workers account for about 60%, while the rest are first responders – police officers, firefighters, paramedics, and emergency medical technicians – and nonclinical personnel, such as security guards and office staff, in health care settings. The respondents range in age from 19 to 72, and hail from all regions of the country.

“Our findings were really striking,” Dr. Hendrickson said, “including very high rates of thoughts of suicide and thoughts of leaving one’s current field, which were both strongly linked to COVID-19–related occupational stress exposure.”

The distress stemmed from a multitude of factors. Among the most demoralizing: witnessing patients die in isolation and being stretched thin to provide optimal care for all patients amid an unrelenting onslaught of COVID-19 cases, she said. For some health care workers, living in the garage or basement – to avoid infecting family members with the virus – also wore on their psyches.

Of all health care workers in the study, more than three-quarters reported symptoms that fell within the clinical range for depression (76%) and anxiety (78%). More than 25% noted that they had lost a family member or close colleague to the virus.

Dr. Hendrickson, who works with military veterans at the VA Puget Sound Hospital System’s Mental Illness Research, Education, and Clinical Center and its PTSD outpatient clinic, hadn’t expected the experience of loss to be so pervasive. She said the sheer number of people who “crossed the threshold” into despair concerned her deeply.
 

Signs and symptoms of PTSD

PTSD’s prevalence among health care workers has always been variable, said Jessica Gold, MD, assistant professor and director of wellness, engagement, and outreach in the department of psychiatry at Washington University in St. Louis.

As a psychiatrist who sees health care workers in her clinical practice, Dr. Gold has noted poor baseline mental health, including depression and trauma. Significant data have pointed to a relatively higher suicide rate among physicians than among the general population. These problems have been compounded by COVID-19.

“It has been an unrelenting series of new stressors,” she said, citing lack of resources; a feeling of being unable to help; and the high frequency of risk of death to patients, family and friends, and the caregivers themselves as just as few examples. “It is very likely going to increase our baseline trauma, and honestly, I don’t know that we can predict how. To me, trauma has no real timeline and can show up months or even years after the pandemic.”

PTSD can manifest itself in health care workers in several different ways. A few commonalities Dr. Gold has observed are sleep disruption (including insomnia and nightmares), work avoidance by taking disability or quitting, irritability or other changes in mood, trouble concentrating, and hypervigilance.

She said she has seen physical manifestations of trauma – such as body pain, stomachaches, and teeth grinding, which “you might not realize are at all related to trauma but ultimately are.” Sometimes, she added, “people have panic attacks on the way to work or right when they get to work, or are thinking about work.”

Dr. Gold noted that different types of treatment, such as cognitive-behavioral therapy and eye movement desensitization and reprocessing (EMDR), can be effective for PTSD. Medication is often necessary because of comorbid anxiety, depression, or eating disorders, said Dr. Gold, who is conducting a study on the pandemic’s effects on medical students.
 

The difficulties in isolating COVID-19 as a contributor

Not all researchers are convinced that a causal relationship has been established between the pandemic and worsening mental health among those in the health care sector.

With provider burnout being a long-standing concern in medicine, Ankur A. Butala, MD, assistant professor of neurology, psychiatry, and behavioral sciences at the Johns Hopkins University, Baltimore, said he remains a bit skeptical that acute stressors during the pandemic amounted to a uniquely potent driving force that can be extrapolated and quantified in a study.

“It’s hard to interpret a chronic, rolling, ongoing trauma like COVID-19 against tools or scales developed to investigate symptoms from a singular and acute trauma, like a school shooting or a [military] firefight,” Dr. Butala said.

In addition, he noted a reluctance to generalizing results from a study in which participants were recruited via social media as opposed to research methods involving more rigorous selection protocols.

Although Dr. Hendrickson acknowledged the study’s limitations, she said her team nonetheless found strong correlations between COVID-19-related stressors and self-reported struggles in completing work-related tasks, as well as increasing thoughts of leaving one’s current field. They adjusted for previous lifetime trauma exposure, age, gender, and a personal history of contracting COVID-19.

The underlying premise of the study could be confirmed with repeated surveys over time, Dr. Butala said, as the COVID-19 pandemic evolves and the vaccination effort unfolds.

Follow-up surveys are being sent to participants every 2 weeks and every 3 months to gauge their mood, for a total follow-up period of 9 months per individual. New participants are still welcome. “We will continue to enroll as long as it seems relevant,” Dr. Hendrickson said.

Carol S. North, MD, MPE, who has added to the growing research on the pandemic’s toll on mental health, noted that because symptom scales do not provide psychiatric diagnoses, it is difficult to attribute the prevalence of psychiatric disorders to the pandemic. Dr. North is chair and professor of crisis psychiatry at UT Southwestern Medical Center in Dallas, and director of the program in trauma and disaster at VA North Texas Health Care System.

The DSM-5 criteria exclude naturally occurring illness, such as a virus (even during a pandemic) as a qualifying trauma for the diagnosis of PTSD. According to current criteria by the American Psychiatric Association, COVID-19 and the pandemic are not defined as trauma, Dr. North said, while noting that “just because it’s not trauma or PTSD does not mean that the pandemic should be discounted as not stressful; people are finding it very stressful.”

Identifying the exact source of distress would still be difficult, Dr. North said, as the pandemic has produced severe economic consequences and prolonged social isolation, as well as occurring alongside nationwide protests over racial and ethnic divisions. Studies to date haven’t effectively separated out for these stressors, making it impossible to weigh their relative impact.

Furthermore, “most of us face many other stressors in our daily lives, such as grief, losses, broken relationships, and personal failures,” she said. “All of these may contribute to psychological distress, and research is needed to determine how much was a product of the virus, other aspects of the pandemic, or unrelated life stressors.”
 

A rallying cry for new interventions

Despite such doubts, a growing number of studies are reporting that health care workers and first responders are experiencing intensified PTSD, depression, anxiety, and insomnia as a result of the pandemic, said Hrayr Pierre Attarian, MD, professor of neurology at Northwestern University, Chicago. These results should act as a rallying cry for implementing more policies tailored to prevent burnout, he said.

“What we are seeing during this terrible pandemic is burnout on steroids,” said Dr. Attarian, medical director of Northwestern’s Center for Sleep Disorders. There are already high burnout rates, “so this should be doubly important.”

Rooting out this problem starts at the institutional level, but merely advising providers to “be well” wouldn’t make inroads. “There needs to be fluid dialogue between health care workers and the leadership,” he said.

Among his proposed remedies: Access to confidential and free mental health resources, increased administrative support, flexible hours, respect for work-life balance, and forgiveness for occasional errors that don’t result in harm.

“Sometimes even the perception that a mistake has been made is taken as proof of guilt,” Dr. Attarian said. “It is not conducive to wellness. Extra income does not replace a nurturing work environment.”

Furthermore, “as a profession, we must stop glorifying ‘overwork.’ We must stop wearing ‘lack of sleep’ as badge of honor,” he said. “Sleep is a biological imperative like self-preservation, hunger, and thirst. When we don’t sleep anxiety, pain, and depression get amplified. Our perception of distress is off, as is our judgment.”

The Federation of State Physician Health Programs provides a directory that physicians can use for referrals to confidential consultation or treatment.

Christopher Bundy, MD, MPH, executive medical director of Washington Physicians Health Program in Seattle, has been following Dr. Hendrickson’s longitudinal study with keen interest. As president of the Federation of State Physician Health Programs, he hopes to translate the findings into practice.

“Obviously, the COVID-19 pandemic has been a ‘black swan’ in terms of workforce sustainability issues,” Dr. Bundy said, citing “high rates of burnout, disillusionment, and dissatisfaction.” He sees some similarities with his former role in treating war veterans.

“The invisible wounds of combat, the psychological scars don’t really become apparent until after you’re out of the war zone,” said Dr. Bundy, clinical associate professor of psychiatry at the University of Washington.

Likewise, he expects the “emotional chickens will come home to roost as the pandemic subsides.” Until then, “people are just focused on survival, and in doing their jobs and protecting their patients.” Eventually, “their own wounds inside the pandemic will take hold.”
 

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

When the COVID-19 pandemic engulfed the nation well over a year ago, Rebecca Hendrickson, MD, PhD, immersed herself in the shell-shocking revelations that clinicians began posting on social media. The accounts offered just a snapshot of the pandemic’s heavy psychological toll, and Dr. Hendrickson, a psychiatrist at the University of Washington in Seattle and an expert in posttraumatic stress disorder (PTSD), wanted to know more.

xavierarnau/Getty Images

She and her colleagues devised a survey to assess the impact of several pandemic-related factors, including increased work hours, social distancing restrictions, and lack of adequate personal protective equipment.

What began as a survey of health care workers soon expanded in scope. Of the more than 600 survey respondents to date, health care workers account for about 60%, while the rest are first responders – police officers, firefighters, paramedics, and emergency medical technicians – and nonclinical personnel, such as security guards and office staff, in health care settings. The respondents range in age from 19 to 72, and hail from all regions of the country.

“Our findings were really striking,” Dr. Hendrickson said, “including very high rates of thoughts of suicide and thoughts of leaving one’s current field, which were both strongly linked to COVID-19–related occupational stress exposure.”

The distress stemmed from a multitude of factors. Among the most demoralizing: witnessing patients die in isolation and being stretched thin to provide optimal care for all patients amid an unrelenting onslaught of COVID-19 cases, she said. For some health care workers, living in the garage or basement – to avoid infecting family members with the virus – also wore on their psyches.

Of all health care workers in the study, more than three-quarters reported symptoms that fell within the clinical range for depression (76%) and anxiety (78%). More than 25% noted that they had lost a family member or close colleague to the virus.

Dr. Hendrickson, who works with military veterans at the VA Puget Sound Hospital System’s Mental Illness Research, Education, and Clinical Center and its PTSD outpatient clinic, hadn’t expected the experience of loss to be so pervasive. She said the sheer number of people who “crossed the threshold” into despair concerned her deeply.
 

Signs and symptoms of PTSD

PTSD’s prevalence among health care workers has always been variable, said Jessica Gold, MD, assistant professor and director of wellness, engagement, and outreach in the department of psychiatry at Washington University in St. Louis.

As a psychiatrist who sees health care workers in her clinical practice, Dr. Gold has noted poor baseline mental health, including depression and trauma. Significant data have pointed to a relatively higher suicide rate among physicians than among the general population. These problems have been compounded by COVID-19.

“It has been an unrelenting series of new stressors,” she said, citing lack of resources; a feeling of being unable to help; and the high frequency of risk of death to patients, family and friends, and the caregivers themselves as just as few examples. “It is very likely going to increase our baseline trauma, and honestly, I don’t know that we can predict how. To me, trauma has no real timeline and can show up months or even years after the pandemic.”

PTSD can manifest itself in health care workers in several different ways. A few commonalities Dr. Gold has observed are sleep disruption (including insomnia and nightmares), work avoidance by taking disability or quitting, irritability or other changes in mood, trouble concentrating, and hypervigilance.

She said she has seen physical manifestations of trauma – such as body pain, stomachaches, and teeth grinding, which “you might not realize are at all related to trauma but ultimately are.” Sometimes, she added, “people have panic attacks on the way to work or right when they get to work, or are thinking about work.”

Dr. Gold noted that different types of treatment, such as cognitive-behavioral therapy and eye movement desensitization and reprocessing (EMDR), can be effective for PTSD. Medication is often necessary because of comorbid anxiety, depression, or eating disorders, said Dr. Gold, who is conducting a study on the pandemic’s effects on medical students.
 

The difficulties in isolating COVID-19 as a contributor

Not all researchers are convinced that a causal relationship has been established between the pandemic and worsening mental health among those in the health care sector.

With provider burnout being a long-standing concern in medicine, Ankur A. Butala, MD, assistant professor of neurology, psychiatry, and behavioral sciences at the Johns Hopkins University, Baltimore, said he remains a bit skeptical that acute stressors during the pandemic amounted to a uniquely potent driving force that can be extrapolated and quantified in a study.

“It’s hard to interpret a chronic, rolling, ongoing trauma like COVID-19 against tools or scales developed to investigate symptoms from a singular and acute trauma, like a school shooting or a [military] firefight,” Dr. Butala said.

In addition, he noted a reluctance to generalizing results from a study in which participants were recruited via social media as opposed to research methods involving more rigorous selection protocols.

Although Dr. Hendrickson acknowledged the study’s limitations, she said her team nonetheless found strong correlations between COVID-19-related stressors and self-reported struggles in completing work-related tasks, as well as increasing thoughts of leaving one’s current field. They adjusted for previous lifetime trauma exposure, age, gender, and a personal history of contracting COVID-19.

The underlying premise of the study could be confirmed with repeated surveys over time, Dr. Butala said, as the COVID-19 pandemic evolves and the vaccination effort unfolds.

Follow-up surveys are being sent to participants every 2 weeks and every 3 months to gauge their mood, for a total follow-up period of 9 months per individual. New participants are still welcome. “We will continue to enroll as long as it seems relevant,” Dr. Hendrickson said.

Carol S. North, MD, MPE, who has added to the growing research on the pandemic’s toll on mental health, noted that because symptom scales do not provide psychiatric diagnoses, it is difficult to attribute the prevalence of psychiatric disorders to the pandemic. Dr. North is chair and professor of crisis psychiatry at UT Southwestern Medical Center in Dallas, and director of the program in trauma and disaster at VA North Texas Health Care System.

The DSM-5 criteria exclude naturally occurring illness, such as a virus (even during a pandemic) as a qualifying trauma for the diagnosis of PTSD. According to current criteria by the American Psychiatric Association, COVID-19 and the pandemic are not defined as trauma, Dr. North said, while noting that “just because it’s not trauma or PTSD does not mean that the pandemic should be discounted as not stressful; people are finding it very stressful.”

Identifying the exact source of distress would still be difficult, Dr. North said, as the pandemic has produced severe economic consequences and prolonged social isolation, as well as occurring alongside nationwide protests over racial and ethnic divisions. Studies to date haven’t effectively separated out for these stressors, making it impossible to weigh their relative impact.

Furthermore, “most of us face many other stressors in our daily lives, such as grief, losses, broken relationships, and personal failures,” she said. “All of these may contribute to psychological distress, and research is needed to determine how much was a product of the virus, other aspects of the pandemic, or unrelated life stressors.”
 

A rallying cry for new interventions

Despite such doubts, a growing number of studies are reporting that health care workers and first responders are experiencing intensified PTSD, depression, anxiety, and insomnia as a result of the pandemic, said Hrayr Pierre Attarian, MD, professor of neurology at Northwestern University, Chicago. These results should act as a rallying cry for implementing more policies tailored to prevent burnout, he said.

“What we are seeing during this terrible pandemic is burnout on steroids,” said Dr. Attarian, medical director of Northwestern’s Center for Sleep Disorders. There are already high burnout rates, “so this should be doubly important.”

Rooting out this problem starts at the institutional level, but merely advising providers to “be well” wouldn’t make inroads. “There needs to be fluid dialogue between health care workers and the leadership,” he said.

Among his proposed remedies: Access to confidential and free mental health resources, increased administrative support, flexible hours, respect for work-life balance, and forgiveness for occasional errors that don’t result in harm.

“Sometimes even the perception that a mistake has been made is taken as proof of guilt,” Dr. Attarian said. “It is not conducive to wellness. Extra income does not replace a nurturing work environment.”

Furthermore, “as a profession, we must stop glorifying ‘overwork.’ We must stop wearing ‘lack of sleep’ as badge of honor,” he said. “Sleep is a biological imperative like self-preservation, hunger, and thirst. When we don’t sleep anxiety, pain, and depression get amplified. Our perception of distress is off, as is our judgment.”

The Federation of State Physician Health Programs provides a directory that physicians can use for referrals to confidential consultation or treatment.

Christopher Bundy, MD, MPH, executive medical director of Washington Physicians Health Program in Seattle, has been following Dr. Hendrickson’s longitudinal study with keen interest. As president of the Federation of State Physician Health Programs, he hopes to translate the findings into practice.

“Obviously, the COVID-19 pandemic has been a ‘black swan’ in terms of workforce sustainability issues,” Dr. Bundy said, citing “high rates of burnout, disillusionment, and dissatisfaction.” He sees some similarities with his former role in treating war veterans.

“The invisible wounds of combat, the psychological scars don’t really become apparent until after you’re out of the war zone,” said Dr. Bundy, clinical associate professor of psychiatry at the University of Washington.

Likewise, he expects the “emotional chickens will come home to roost as the pandemic subsides.” Until then, “people are just focused on survival, and in doing their jobs and protecting their patients.” Eventually, “their own wounds inside the pandemic will take hold.”
 

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

When the COVID-19 pandemic engulfed the nation well over a year ago, Rebecca Hendrickson, MD, PhD, immersed herself in the shell-shocking revelations that clinicians began posting on social media. The accounts offered just a snapshot of the pandemic’s heavy psychological toll, and Dr. Hendrickson, a psychiatrist at the University of Washington in Seattle and an expert in posttraumatic stress disorder (PTSD), wanted to know more.

xavierarnau/Getty Images

She and her colleagues devised a survey to assess the impact of several pandemic-related factors, including increased work hours, social distancing restrictions, and lack of adequate personal protective equipment.

What began as a survey of health care workers soon expanded in scope. Of the more than 600 survey respondents to date, health care workers account for about 60%, while the rest are first responders – police officers, firefighters, paramedics, and emergency medical technicians – and nonclinical personnel, such as security guards and office staff, in health care settings. The respondents range in age from 19 to 72, and hail from all regions of the country.

“Our findings were really striking,” Dr. Hendrickson said, “including very high rates of thoughts of suicide and thoughts of leaving one’s current field, which were both strongly linked to COVID-19–related occupational stress exposure.”

The distress stemmed from a multitude of factors. Among the most demoralizing: witnessing patients die in isolation and being stretched thin to provide optimal care for all patients amid an unrelenting onslaught of COVID-19 cases, she said. For some health care workers, living in the garage or basement – to avoid infecting family members with the virus – also wore on their psyches.

Of all health care workers in the study, more than three-quarters reported symptoms that fell within the clinical range for depression (76%) and anxiety (78%). More than 25% noted that they had lost a family member or close colleague to the virus.

Dr. Hendrickson, who works with military veterans at the VA Puget Sound Hospital System’s Mental Illness Research, Education, and Clinical Center and its PTSD outpatient clinic, hadn’t expected the experience of loss to be so pervasive. She said the sheer number of people who “crossed the threshold” into despair concerned her deeply.
 

Signs and symptoms of PTSD

PTSD’s prevalence among health care workers has always been variable, said Jessica Gold, MD, assistant professor and director of wellness, engagement, and outreach in the department of psychiatry at Washington University in St. Louis.

As a psychiatrist who sees health care workers in her clinical practice, Dr. Gold has noted poor baseline mental health, including depression and trauma. Significant data have pointed to a relatively higher suicide rate among physicians than among the general population. These problems have been compounded by COVID-19.

“It has been an unrelenting series of new stressors,” she said, citing lack of resources; a feeling of being unable to help; and the high frequency of risk of death to patients, family and friends, and the caregivers themselves as just as few examples. “It is very likely going to increase our baseline trauma, and honestly, I don’t know that we can predict how. To me, trauma has no real timeline and can show up months or even years after the pandemic.”

PTSD can manifest itself in health care workers in several different ways. A few commonalities Dr. Gold has observed are sleep disruption (including insomnia and nightmares), work avoidance by taking disability or quitting, irritability or other changes in mood, trouble concentrating, and hypervigilance.

She said she has seen physical manifestations of trauma – such as body pain, stomachaches, and teeth grinding, which “you might not realize are at all related to trauma but ultimately are.” Sometimes, she added, “people have panic attacks on the way to work or right when they get to work, or are thinking about work.”

Dr. Gold noted that different types of treatment, such as cognitive-behavioral therapy and eye movement desensitization and reprocessing (EMDR), can be effective for PTSD. Medication is often necessary because of comorbid anxiety, depression, or eating disorders, said Dr. Gold, who is conducting a study on the pandemic’s effects on medical students.
 

The difficulties in isolating COVID-19 as a contributor

Not all researchers are convinced that a causal relationship has been established between the pandemic and worsening mental health among those in the health care sector.

With provider burnout being a long-standing concern in medicine, Ankur A. Butala, MD, assistant professor of neurology, psychiatry, and behavioral sciences at the Johns Hopkins University, Baltimore, said he remains a bit skeptical that acute stressors during the pandemic amounted to a uniquely potent driving force that can be extrapolated and quantified in a study.

“It’s hard to interpret a chronic, rolling, ongoing trauma like COVID-19 against tools or scales developed to investigate symptoms from a singular and acute trauma, like a school shooting or a [military] firefight,” Dr. Butala said.

In addition, he noted a reluctance to generalizing results from a study in which participants were recruited via social media as opposed to research methods involving more rigorous selection protocols.

Although Dr. Hendrickson acknowledged the study’s limitations, she said her team nonetheless found strong correlations between COVID-19-related stressors and self-reported struggles in completing work-related tasks, as well as increasing thoughts of leaving one’s current field. They adjusted for previous lifetime trauma exposure, age, gender, and a personal history of contracting COVID-19.

The underlying premise of the study could be confirmed with repeated surveys over time, Dr. Butala said, as the COVID-19 pandemic evolves and the vaccination effort unfolds.

Follow-up surveys are being sent to participants every 2 weeks and every 3 months to gauge their mood, for a total follow-up period of 9 months per individual. New participants are still welcome. “We will continue to enroll as long as it seems relevant,” Dr. Hendrickson said.

Carol S. North, MD, MPE, who has added to the growing research on the pandemic’s toll on mental health, noted that because symptom scales do not provide psychiatric diagnoses, it is difficult to attribute the prevalence of psychiatric disorders to the pandemic. Dr. North is chair and professor of crisis psychiatry at UT Southwestern Medical Center in Dallas, and director of the program in trauma and disaster at VA North Texas Health Care System.

The DSM-5 criteria exclude naturally occurring illness, such as a virus (even during a pandemic) as a qualifying trauma for the diagnosis of PTSD. According to current criteria by the American Psychiatric Association, COVID-19 and the pandemic are not defined as trauma, Dr. North said, while noting that “just because it’s not trauma or PTSD does not mean that the pandemic should be discounted as not stressful; people are finding it very stressful.”

Identifying the exact source of distress would still be difficult, Dr. North said, as the pandemic has produced severe economic consequences and prolonged social isolation, as well as occurring alongside nationwide protests over racial and ethnic divisions. Studies to date haven’t effectively separated out for these stressors, making it impossible to weigh their relative impact.

Furthermore, “most of us face many other stressors in our daily lives, such as grief, losses, broken relationships, and personal failures,” she said. “All of these may contribute to psychological distress, and research is needed to determine how much was a product of the virus, other aspects of the pandemic, or unrelated life stressors.”
 

A rallying cry for new interventions

Despite such doubts, a growing number of studies are reporting that health care workers and first responders are experiencing intensified PTSD, depression, anxiety, and insomnia as a result of the pandemic, said Hrayr Pierre Attarian, MD, professor of neurology at Northwestern University, Chicago. These results should act as a rallying cry for implementing more policies tailored to prevent burnout, he said.

“What we are seeing during this terrible pandemic is burnout on steroids,” said Dr. Attarian, medical director of Northwestern’s Center for Sleep Disorders. There are already high burnout rates, “so this should be doubly important.”

Rooting out this problem starts at the institutional level, but merely advising providers to “be well” wouldn’t make inroads. “There needs to be fluid dialogue between health care workers and the leadership,” he said.

Among his proposed remedies: Access to confidential and free mental health resources, increased administrative support, flexible hours, respect for work-life balance, and forgiveness for occasional errors that don’t result in harm.

“Sometimes even the perception that a mistake has been made is taken as proof of guilt,” Dr. Attarian said. “It is not conducive to wellness. Extra income does not replace a nurturing work environment.”

Furthermore, “as a profession, we must stop glorifying ‘overwork.’ We must stop wearing ‘lack of sleep’ as badge of honor,” he said. “Sleep is a biological imperative like self-preservation, hunger, and thirst. When we don’t sleep anxiety, pain, and depression get amplified. Our perception of distress is off, as is our judgment.”

The Federation of State Physician Health Programs provides a directory that physicians can use for referrals to confidential consultation or treatment.

Christopher Bundy, MD, MPH, executive medical director of Washington Physicians Health Program in Seattle, has been following Dr. Hendrickson’s longitudinal study with keen interest. As president of the Federation of State Physician Health Programs, he hopes to translate the findings into practice.

“Obviously, the COVID-19 pandemic has been a ‘black swan’ in terms of workforce sustainability issues,” Dr. Bundy said, citing “high rates of burnout, disillusionment, and dissatisfaction.” He sees some similarities with his former role in treating war veterans.

“The invisible wounds of combat, the psychological scars don’t really become apparent until after you’re out of the war zone,” said Dr. Bundy, clinical associate professor of psychiatry at the University of Washington.

Likewise, he expects the “emotional chickens will come home to roost as the pandemic subsides.” Until then, “people are just focused on survival, and in doing their jobs and protecting their patients.” Eventually, “their own wounds inside the pandemic will take hold.”
 

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

Despite the clinical value of medical devices, there is a potential for these products to cause adverse skin reactions in some patients. Findings from a European retrospective study, published in the European Journal of Allergy and Clinical Immunology, show that nearly one-quarter of patients with suspected allergic contact dermatitis were referred for patch testing for contact allergies associated with medical devices, highlighting the possibility of a high prevalence of contact allergens in these devices.

“We found it important to publish these findings, because up until now no clear figures have been reported regarding this particular clinical problem,” said study author Olivier Aerts, MD, a researcher in the contact allergy unit at the University Hospital Antwerp, Belgium, in an interview with this news organization.

For the study, Dr. Aerts and colleagues conducted a retrospective analysis of medical device users with suspected allergic contact dermatitis. All patients had been patch tested at a tertiary European clinic between 2018 and 2020.

The cohort included patients who experienced suspected contact allergy from medical adhesives (n = 57), gloves (n = 38), topical and surface medical devices (n = 38), glucose sensors and insulin pumps (n = 74), and prostheses (n = 75). Other medical products associated with contact allergy in another 44 patients included surgical glues, face masks, compression stockings, condoms, and suture materials.

Overall, 326 patients had been patch-tested during the 30-month study period. Approximately 25.8% of all patients – including 299 adults and 27 children – were referred for contact allergy associated with medical devices.

Acrylates were the most frequently encountered contact allergens and were found in diabetes devices and medical adhesives. Potential skin sensitizers included colophonium-related substances, D-limonene, isothiazolinone derivatives, salicylates, and sulphites, all of which were identified across most products.

According to the investigators, many of the labels for the medical devices made no mention of the potential skin sensitizers, except in the cases of some topical and surface disinfectants. And many topical products are often marketed as medical devices rather than cosmetics, further complicating labeling issues, according to Dr. Aerts.

“What should be done to help any patient suffering from allergic contact due to medical devices is that these devices should be labeled with all their components, or at the very least with the potential skin sensitizers these may contain,” Dr. Aerts explained. He added that manufacturers should “establish more cooperation with physicians/dermatologists who evaluate such patients,” a cooperation that often exists with cosmetic companies.

Dr. Aerts noted that while it’s important for patch testers and dermatologists to be aware of the prevalence of allergic contact dermatitis in medical device users, companies producing these devices should also be aware of these potential issues. “Additionally, legislators/regulators should perhaps focus some more on the cutaneous side effects these products may provoke,” he said, “as this awareness may hopefully also serve as a stimulant to perform more clinical allergy research in this field.”

Leonard Bielory, MD, an allergist at Robert Wood Johnson University Hospital in Rahway, New Jersey, told this news organization that the findings are “alarming” and should heighten clinicians’ awareness of the possibility of allergic contact dermatitis among medical device users.

Dr. Bielory, who wasn’t involved in the research, noted that the findings from this study may not be entirely generalizable to the U.S., given the study was performed in Europe. “In contrast to other countries, the U.S. is very conscientious about allergic responses to items being used in hospitals,” he added, “or such that the issue here is that many of these things would be an adverse reaction, which you have to report.” He suggested that further research in this field is needed to determine the prevalence of possible skin sensitizers in products specifically developed and marketed in the U.S.

The study had no specific funding. Dr. Aerts and Dr. Bielory have disclosed no relevant financial relationships.

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

Despite the clinical value of medical devices, there is a potential for these products to cause adverse skin reactions in some patients. Findings from a European retrospective study, published in the European Journal of Allergy and Clinical Immunology, show that nearly one-quarter of patients with suspected allergic contact dermatitis were referred for patch testing for contact allergies associated with medical devices, highlighting the possibility of a high prevalence of contact allergens in these devices.

“We found it important to publish these findings, because up until now no clear figures have been reported regarding this particular clinical problem,” said study author Olivier Aerts, MD, a researcher in the contact allergy unit at the University Hospital Antwerp, Belgium, in an interview with this news organization.

For the study, Dr. Aerts and colleagues conducted a retrospective analysis of medical device users with suspected allergic contact dermatitis. All patients had been patch tested at a tertiary European clinic between 2018 and 2020.

The cohort included patients who experienced suspected contact allergy from medical adhesives (n = 57), gloves (n = 38), topical and surface medical devices (n = 38), glucose sensors and insulin pumps (n = 74), and prostheses (n = 75). Other medical products associated with contact allergy in another 44 patients included surgical glues, face masks, compression stockings, condoms, and suture materials.

Overall, 326 patients had been patch-tested during the 30-month study period. Approximately 25.8% of all patients – including 299 adults and 27 children – were referred for contact allergy associated with medical devices.

Acrylates were the most frequently encountered contact allergens and were found in diabetes devices and medical adhesives. Potential skin sensitizers included colophonium-related substances, D-limonene, isothiazolinone derivatives, salicylates, and sulphites, all of which were identified across most products.

According to the investigators, many of the labels for the medical devices made no mention of the potential skin sensitizers, except in the cases of some topical and surface disinfectants. And many topical products are often marketed as medical devices rather than cosmetics, further complicating labeling issues, according to Dr. Aerts.

“What should be done to help any patient suffering from allergic contact due to medical devices is that these devices should be labeled with all their components, or at the very least with the potential skin sensitizers these may contain,” Dr. Aerts explained. He added that manufacturers should “establish more cooperation with physicians/dermatologists who evaluate such patients,” a cooperation that often exists with cosmetic companies.

Dr. Aerts noted that while it’s important for patch testers and dermatologists to be aware of the prevalence of allergic contact dermatitis in medical device users, companies producing these devices should also be aware of these potential issues. “Additionally, legislators/regulators should perhaps focus some more on the cutaneous side effects these products may provoke,” he said, “as this awareness may hopefully also serve as a stimulant to perform more clinical allergy research in this field.”

Leonard Bielory, MD, an allergist at Robert Wood Johnson University Hospital in Rahway, New Jersey, told this news organization that the findings are “alarming” and should heighten clinicians’ awareness of the possibility of allergic contact dermatitis among medical device users.

Dr. Bielory, who wasn’t involved in the research, noted that the findings from this study may not be entirely generalizable to the U.S., given the study was performed in Europe. “In contrast to other countries, the U.S. is very conscientious about allergic responses to items being used in hospitals,” he added, “or such that the issue here is that many of these things would be an adverse reaction, which you have to report.” He suggested that further research in this field is needed to determine the prevalence of possible skin sensitizers in products specifically developed and marketed in the U.S.

The study had no specific funding. Dr. Aerts and Dr. Bielory have disclosed no relevant financial relationships.

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

Despite the clinical value of medical devices, there is a potential for these products to cause adverse skin reactions in some patients. Findings from a European retrospective study, published in the European Journal of Allergy and Clinical Immunology, show that nearly one-quarter of patients with suspected allergic contact dermatitis were referred for patch testing for contact allergies associated with medical devices, highlighting the possibility of a high prevalence of contact allergens in these devices.

“We found it important to publish these findings, because up until now no clear figures have been reported regarding this particular clinical problem,” said study author Olivier Aerts, MD, a researcher in the contact allergy unit at the University Hospital Antwerp, Belgium, in an interview with this news organization.

For the study, Dr. Aerts and colleagues conducted a retrospective analysis of medical device users with suspected allergic contact dermatitis. All patients had been patch tested at a tertiary European clinic between 2018 and 2020.

The cohort included patients who experienced suspected contact allergy from medical adhesives (n = 57), gloves (n = 38), topical and surface medical devices (n = 38), glucose sensors and insulin pumps (n = 74), and prostheses (n = 75). Other medical products associated with contact allergy in another 44 patients included surgical glues, face masks, compression stockings, condoms, and suture materials.

Overall, 326 patients had been patch-tested during the 30-month study period. Approximately 25.8% of all patients – including 299 adults and 27 children – were referred for contact allergy associated with medical devices.

Acrylates were the most frequently encountered contact allergens and were found in diabetes devices and medical adhesives. Potential skin sensitizers included colophonium-related substances, D-limonene, isothiazolinone derivatives, salicylates, and sulphites, all of which were identified across most products.

According to the investigators, many of the labels for the medical devices made no mention of the potential skin sensitizers, except in the cases of some topical and surface disinfectants. And many topical products are often marketed as medical devices rather than cosmetics, further complicating labeling issues, according to Dr. Aerts.

“What should be done to help any patient suffering from allergic contact due to medical devices is that these devices should be labeled with all their components, or at the very least with the potential skin sensitizers these may contain,” Dr. Aerts explained. He added that manufacturers should “establish more cooperation with physicians/dermatologists who evaluate such patients,” a cooperation that often exists with cosmetic companies.

Dr. Aerts noted that while it’s important for patch testers and dermatologists to be aware of the prevalence of allergic contact dermatitis in medical device users, companies producing these devices should also be aware of these potential issues. “Additionally, legislators/regulators should perhaps focus some more on the cutaneous side effects these products may provoke,” he said, “as this awareness may hopefully also serve as a stimulant to perform more clinical allergy research in this field.”

Leonard Bielory, MD, an allergist at Robert Wood Johnson University Hospital in Rahway, New Jersey, told this news organization that the findings are “alarming” and should heighten clinicians’ awareness of the possibility of allergic contact dermatitis among medical device users.

Dr. Bielory, who wasn’t involved in the research, noted that the findings from this study may not be entirely generalizable to the U.S., given the study was performed in Europe. “In contrast to other countries, the U.S. is very conscientious about allergic responses to items being used in hospitals,” he added, “or such that the issue here is that many of these things would be an adverse reaction, which you have to report.” He suggested that further research in this field is needed to determine the prevalence of possible skin sensitizers in products specifically developed and marketed in the U.S.

The study had no specific funding. Dr. Aerts and Dr. Bielory have disclosed no relevant financial relationships.

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