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New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.

In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.

Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.

Preventing a tsunami of heart disease

The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.

Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.

Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).

Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.

The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).

“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.

NYU Langone

Double down on screening

Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”

“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.

Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”

As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”

“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.

“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.

In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”

The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.

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

New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.

In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.

Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.

Preventing a tsunami of heart disease

The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.

Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.

Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).

Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.

The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).

“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.

NYU Langone

Double down on screening

Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”

“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.

Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”

As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”

“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.

“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.

In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”

The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.

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

New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.

In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.

Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.

Preventing a tsunami of heart disease

The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.

Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.

Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).

Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.

The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).

“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.

NYU Langone

Double down on screening

Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”

“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.

Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”

As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”

“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.

“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.

In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”

The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.

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

NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.

Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.

“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.

The goal is getting patients on triple therapy

The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.

Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.

Simultaneously with her report, the findings also appeared online in JAMA.

At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.

At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.

Effective interventions and the need for a champion

The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:

• Analysis of the barriers to evidence-based care at each clinic.
• Development of local interdisciplinary care pathways to address the identified barriers.
• Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
• Education of the clinic staff, including provision of educational materials.
• Auditing of clinic performance using specified metrics and feedback on the findings.

Clinics in the usual care group were given current clinical practice guidelines.

The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.

Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.

“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.

Research advances often don’t translate into management changes

“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.

“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.

Mitchel L. Zoler/MDedge News

“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”

The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.

The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.

COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.

NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.

Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.

“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.

The goal is getting patients on triple therapy

The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.

Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.

Simultaneously with her report, the findings also appeared online in JAMA.

At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.

At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.

Effective interventions and the need for a champion

The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:

• Analysis of the barriers to evidence-based care at each clinic.
• Development of local interdisciplinary care pathways to address the identified barriers.
• Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
• Education of the clinic staff, including provision of educational materials.
• Auditing of clinic performance using specified metrics and feedback on the findings.

Clinics in the usual care group were given current clinical practice guidelines.

The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.

Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.

“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.

Research advances often don’t translate into management changes

“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.

“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.

Mitchel L. Zoler/MDedge News

“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”

The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.

The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.

COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.

NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.

Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.

“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Mitchel L. Zoler/MDedge News

“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.

The goal is getting patients on triple therapy

The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.

Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.

Simultaneously with her report, the findings also appeared online in JAMA.

At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.

At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.

Effective interventions and the need for a champion

The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:

• Analysis of the barriers to evidence-based care at each clinic.
• Development of local interdisciplinary care pathways to address the identified barriers.
• Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
• Education of the clinic staff, including provision of educational materials.
• Auditing of clinic performance using specified metrics and feedback on the findings.

Clinics in the usual care group were given current clinical practice guidelines.

The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.

Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.

“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.

Research advances often don’t translate into management changes

“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.

“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.

Mitchel L. Zoler/MDedge News

“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”

The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.

The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.

COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.

NEW ORLEANS – Causal artificial intelligence (AI) can translate polygenic scores (PGS) and other genetic information into risk reduction strategies for coronary artery disease (CAD) that is tailored for each individual patient, according to an analysis presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Tested for LDL cholesterol (LDL-C) and systolic blood pressure (SBP), causal AI explained how much each of these risk factors must improve at the level of each individual patient “to overcome overall inherited risk,” reported Brian Ference, MD, MPhil, director of translational therapeutics, University of Cambridge (England).

Ted Bosworth/MDedge News

Unlike the “black box” risk assessments common to machine learning, which relies on disparate forms of information of often unknown relative significance, causal AI explains cause and effect. In the case of CAD, its ability to encode the biological causes means that it can “both predict outcomes and prescribe specific actions to change those outcomes,” Dr. Ference explained.

The concept is testable against observed biology using randomized evidence, which was the objective of the study Dr. Ference presented in the late-breaker session.
 

Causal AI trained on nearly 2 million patients

This study employed a causal AI platform trained on roughly 1.3 million participants in Mendelian randomization studies, as well as more than 500,000 participants in randomized clinical trials. The PGS estimate of inherited risk was constructed from almost 4.1 million variants from genomewide association studies.

To test the ability of causal AI to reveal how much LDL-C or SBP had to be reduced to overcome the inherited risk of CAD based on PGS, it was applied to 445,765 participants of European ancestry in the UK Biobank. The goal was to determine how much those with greater than average risk would need to lower their LDL-C or SBP to achieve average CAD risk.

When validated against observed rates of events, causal AI accurately characterized risk before estimating what reductions in LDL-C, SBP, or both would attenuate that risk.

Providing examples, Dr. Ference explained that a PGS in the 80^th percentile can be overcome by lowering LDL-C by 14 mg/dL. Alternatively, the 80^th percentile risk could also be overcome by simultaneously lowering LDL-C and SBP by 7 mg/dL and 2.5 mm Hg, respectively.

Required risk factor reductions increase with age because of the increased risk of the events. For example, while a 14.8 mg/dL reduction in LDL-C would be adequate to overcome risk defined by a PGS in the 80^th percentile at age 35, reductions of 18.2 mg/dL, 28.9 mg/dL, and 42.6 mg/dL would be required, respectively, at ages 45, 55, and 65 years. The values climb similarly for SBP.

Family history of CAD adds an independent variable that further contributes to the ability of causal AI to estimate risk and the degree of risk factor attenuation to overcome the risk.

Even though family history is equivalent to having PGS above the 95^th percentile, it is an independent and additive variable, according to Dr. Ference. As a result, inherited risk of CAD depends on both.

Still when family history is factored into the analysis, “causal AI accurately estimated the magnitude of lower LDL-C, SBP, or both needed to overcome overall inherited risk at all levels of higher or lower PGS,” he reported.

According to Dr. Ference, the value of causal AI is that it can generate very specific goals for each patient regarding modifiable risk factors. Causal effects of risk factors encoded in time units of exposure allow the patient and the clinician to understand the biology and the basis of the disease burden.
 

Treatments become understandable to patients

“Encoding biology creates algorithms that are deeply explainable because they reveal why a person is at risk, how to reduce that risk, and how much each person will benefit from specific actions to reduce risk,” Dr. Ference said.

A real-world, randomized trial to confirm that the information from causal AI can reduce the risk of CAD is expected to start in 2023, but Dr. Ference thinks that causal AI for managing CAD risk, independent of this planned trial, is essentially inevitable. PGS, which he thinks will be performed routinely in all individuals within 10 years, is only likely to improve. He foresees large advantages of this form of personalized medicine.

Ted Bosworth/MDedge News

Ami Bhatt, MD, chief innovation officer for the American College of Cardiology, Washington, agreed, seeing a direct relationship between precision health as the pathway to improvements in population health.

By explaining risk factors in terms of mechanisms and specific goals to ameliorate these risks, it “engages our patients with agency,” said Dr. Bhatt. She suggested that the information provided by causal AI has the potential to empower patients while creating a collaborative approach with clinicians to CAD prevention.

With patient-specific information provided in the context of the disease biology, “you increase the sense of transparency,” Dr. Bhatt said.

She suggested this direction of research is wholly consistent with initiatives such as those from the World Health Organization to improve precision medicine as a step toward equipping patients to manage their own health.

Dr. Ference reported financial relationships with Amgen, AstraZeneca, CiVi Pharma, Daiichi Sankyo, DalCOR, Esperion, Eli Lilly, Ionis Pharmaceuticals, KrKA, Medicines Company, Merck, Mylan, Novo Nordisk, Novartis, and Sanofi, and Viatris. Dr. Bhatt reported no potential conflicts of interest.

NEW ORLEANS – Causal artificial intelligence (AI) can translate polygenic scores (PGS) and other genetic information into risk reduction strategies for coronary artery disease (CAD) that is tailored for each individual patient, according to an analysis presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Tested for LDL cholesterol (LDL-C) and systolic blood pressure (SBP), causal AI explained how much each of these risk factors must improve at the level of each individual patient “to overcome overall inherited risk,” reported Brian Ference, MD, MPhil, director of translational therapeutics, University of Cambridge (England).

Ted Bosworth/MDedge News

Unlike the “black box” risk assessments common to machine learning, which relies on disparate forms of information of often unknown relative significance, causal AI explains cause and effect. In the case of CAD, its ability to encode the biological causes means that it can “both predict outcomes and prescribe specific actions to change those outcomes,” Dr. Ference explained.

The concept is testable against observed biology using randomized evidence, which was the objective of the study Dr. Ference presented in the late-breaker session.
 

Causal AI trained on nearly 2 million patients

This study employed a causal AI platform trained on roughly 1.3 million participants in Mendelian randomization studies, as well as more than 500,000 participants in randomized clinical trials. The PGS estimate of inherited risk was constructed from almost 4.1 million variants from genomewide association studies.

To test the ability of causal AI to reveal how much LDL-C or SBP had to be reduced to overcome the inherited risk of CAD based on PGS, it was applied to 445,765 participants of European ancestry in the UK Biobank. The goal was to determine how much those with greater than average risk would need to lower their LDL-C or SBP to achieve average CAD risk.

When validated against observed rates of events, causal AI accurately characterized risk before estimating what reductions in LDL-C, SBP, or both would attenuate that risk.

Providing examples, Dr. Ference explained that a PGS in the 80^th percentile can be overcome by lowering LDL-C by 14 mg/dL. Alternatively, the 80^th percentile risk could also be overcome by simultaneously lowering LDL-C and SBP by 7 mg/dL and 2.5 mm Hg, respectively.

Required risk factor reductions increase with age because of the increased risk of the events. For example, while a 14.8 mg/dL reduction in LDL-C would be adequate to overcome risk defined by a PGS in the 80^th percentile at age 35, reductions of 18.2 mg/dL, 28.9 mg/dL, and 42.6 mg/dL would be required, respectively, at ages 45, 55, and 65 years. The values climb similarly for SBP.

Family history of CAD adds an independent variable that further contributes to the ability of causal AI to estimate risk and the degree of risk factor attenuation to overcome the risk.

Even though family history is equivalent to having PGS above the 95^th percentile, it is an independent and additive variable, according to Dr. Ference. As a result, inherited risk of CAD depends on both.

Still when family history is factored into the analysis, “causal AI accurately estimated the magnitude of lower LDL-C, SBP, or both needed to overcome overall inherited risk at all levels of higher or lower PGS,” he reported.

According to Dr. Ference, the value of causal AI is that it can generate very specific goals for each patient regarding modifiable risk factors. Causal effects of risk factors encoded in time units of exposure allow the patient and the clinician to understand the biology and the basis of the disease burden.
 

Treatments become understandable to patients

“Encoding biology creates algorithms that are deeply explainable because they reveal why a person is at risk, how to reduce that risk, and how much each person will benefit from specific actions to reduce risk,” Dr. Ference said.

A real-world, randomized trial to confirm that the information from causal AI can reduce the risk of CAD is expected to start in 2023, but Dr. Ference thinks that causal AI for managing CAD risk, independent of this planned trial, is essentially inevitable. PGS, which he thinks will be performed routinely in all individuals within 10 years, is only likely to improve. He foresees large advantages of this form of personalized medicine.

Ted Bosworth/MDedge News

Ami Bhatt, MD, chief innovation officer for the American College of Cardiology, Washington, agreed, seeing a direct relationship between precision health as the pathway to improvements in population health.

By explaining risk factors in terms of mechanisms and specific goals to ameliorate these risks, it “engages our patients with agency,” said Dr. Bhatt. She suggested that the information provided by causal AI has the potential to empower patients while creating a collaborative approach with clinicians to CAD prevention.

With patient-specific information provided in the context of the disease biology, “you increase the sense of transparency,” Dr. Bhatt said.

She suggested this direction of research is wholly consistent with initiatives such as those from the World Health Organization to improve precision medicine as a step toward equipping patients to manage their own health.

Dr. Ference reported financial relationships with Amgen, AstraZeneca, CiVi Pharma, Daiichi Sankyo, DalCOR, Esperion, Eli Lilly, Ionis Pharmaceuticals, KrKA, Medicines Company, Merck, Mylan, Novo Nordisk, Novartis, and Sanofi, and Viatris. Dr. Bhatt reported no potential conflicts of interest.

NEW ORLEANS – Causal artificial intelligence (AI) can translate polygenic scores (PGS) and other genetic information into risk reduction strategies for coronary artery disease (CAD) that is tailored for each individual patient, according to an analysis presented at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

Tested for LDL cholesterol (LDL-C) and systolic blood pressure (SBP), causal AI explained how much each of these risk factors must improve at the level of each individual patient “to overcome overall inherited risk,” reported Brian Ference, MD, MPhil, director of translational therapeutics, University of Cambridge (England).

Ted Bosworth/MDedge News

Unlike the “black box” risk assessments common to machine learning, which relies on disparate forms of information of often unknown relative significance, causal AI explains cause and effect. In the case of CAD, its ability to encode the biological causes means that it can “both predict outcomes and prescribe specific actions to change those outcomes,” Dr. Ference explained.

The concept is testable against observed biology using randomized evidence, which was the objective of the study Dr. Ference presented in the late-breaker session.
 

Causal AI trained on nearly 2 million patients

This study employed a causal AI platform trained on roughly 1.3 million participants in Mendelian randomization studies, as well as more than 500,000 participants in randomized clinical trials. The PGS estimate of inherited risk was constructed from almost 4.1 million variants from genomewide association studies.

To test the ability of causal AI to reveal how much LDL-C or SBP had to be reduced to overcome the inherited risk of CAD based on PGS, it was applied to 445,765 participants of European ancestry in the UK Biobank. The goal was to determine how much those with greater than average risk would need to lower their LDL-C or SBP to achieve average CAD risk.

When validated against observed rates of events, causal AI accurately characterized risk before estimating what reductions in LDL-C, SBP, or both would attenuate that risk.

Providing examples, Dr. Ference explained that a PGS in the 80^th percentile can be overcome by lowering LDL-C by 14 mg/dL. Alternatively, the 80^th percentile risk could also be overcome by simultaneously lowering LDL-C and SBP by 7 mg/dL and 2.5 mm Hg, respectively.

Required risk factor reductions increase with age because of the increased risk of the events. For example, while a 14.8 mg/dL reduction in LDL-C would be adequate to overcome risk defined by a PGS in the 80^th percentile at age 35, reductions of 18.2 mg/dL, 28.9 mg/dL, and 42.6 mg/dL would be required, respectively, at ages 45, 55, and 65 years. The values climb similarly for SBP.

Family history of CAD adds an independent variable that further contributes to the ability of causal AI to estimate risk and the degree of risk factor attenuation to overcome the risk.

Even though family history is equivalent to having PGS above the 95^th percentile, it is an independent and additive variable, according to Dr. Ference. As a result, inherited risk of CAD depends on both.

Still when family history is factored into the analysis, “causal AI accurately estimated the magnitude of lower LDL-C, SBP, or both needed to overcome overall inherited risk at all levels of higher or lower PGS,” he reported.

According to Dr. Ference, the value of causal AI is that it can generate very specific goals for each patient regarding modifiable risk factors. Causal effects of risk factors encoded in time units of exposure allow the patient and the clinician to understand the biology and the basis of the disease burden.
 

Treatments become understandable to patients

“Encoding biology creates algorithms that are deeply explainable because they reveal why a person is at risk, how to reduce that risk, and how much each person will benefit from specific actions to reduce risk,” Dr. Ference said.

A real-world, randomized trial to confirm that the information from causal AI can reduce the risk of CAD is expected to start in 2023, but Dr. Ference thinks that causal AI for managing CAD risk, independent of this planned trial, is essentially inevitable. PGS, which he thinks will be performed routinely in all individuals within 10 years, is only likely to improve. He foresees large advantages of this form of personalized medicine.

Ted Bosworth/MDedge News

Ami Bhatt, MD, chief innovation officer for the American College of Cardiology, Washington, agreed, seeing a direct relationship between precision health as the pathway to improvements in population health.

By explaining risk factors in terms of mechanisms and specific goals to ameliorate these risks, it “engages our patients with agency,” said Dr. Bhatt. She suggested that the information provided by causal AI has the potential to empower patients while creating a collaborative approach with clinicians to CAD prevention.

With patient-specific information provided in the context of the disease biology, “you increase the sense of transparency,” Dr. Bhatt said.

She suggested this direction of research is wholly consistent with initiatives such as those from the World Health Organization to improve precision medicine as a step toward equipping patients to manage their own health.

Dr. Ference reported financial relationships with Amgen, AstraZeneca, CiVi Pharma, Daiichi Sankyo, DalCOR, Esperion, Eli Lilly, Ionis Pharmaceuticals, KrKA, Medicines Company, Merck, Mylan, Novo Nordisk, Novartis, and Sanofi, and Viatris. Dr. Bhatt reported no potential conflicts of interest.

A secondary analysis of a large landmark clinical trial of how the sodium-glucose cotransporter 2 (SGLT2) inhibitor dapagliflozin effects cardiovascular risk has identified two biomarkers that can help better determine which patients with type 2 diabetes (T2D) and cardiovascular disease risk would derive the most benefit from the drug.

Brigham and Women’s Hospital

The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.

“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”

Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
 

Study results

The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.

The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).

Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.

Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).

“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”

Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
 

Results clarify which patients will benefit

This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.

Lundquist Institute

“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”

The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”

He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.

Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.

Dr. Budoff has no relevant disclosures.

A secondary analysis of a large landmark clinical trial of how the sodium-glucose cotransporter 2 (SGLT2) inhibitor dapagliflozin effects cardiovascular risk has identified two biomarkers that can help better determine which patients with type 2 diabetes (T2D) and cardiovascular disease risk would derive the most benefit from the drug.

Brigham and Women’s Hospital

The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.

“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”

Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
 

Study results

The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.

The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).

Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.

Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).

“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”

Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
 

Results clarify which patients will benefit

This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.

Lundquist Institute

“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”

The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”

He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.

Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.

Dr. Budoff has no relevant disclosures.

A secondary analysis of a large landmark clinical trial of how the sodium-glucose cotransporter 2 (SGLT2) inhibitor dapagliflozin effects cardiovascular risk has identified two biomarkers that can help better determine which patients with type 2 diabetes (T2D) and cardiovascular disease risk would derive the most benefit from the drug.

Brigham and Women’s Hospital

The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.

“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”

Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
 

Study results

The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.

The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).

Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.

Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).

“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”

Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
 

Results clarify which patients will benefit

This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.

Lundquist Institute

“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”

The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”

He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.

Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.

Dr. Budoff has no relevant disclosures.

Two types of electronically delivered letter strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination and a repeat reminder letter – increased flu shot uptake, compared with usual care alone, in a national study of seniors in Denmark.

And in a prespecified subanalysis focusing on older adults with cardiovascular disease, these two strategies were also effective in boosting vaccine uptake in those with or without CVD.

The findings are from the Nationwide Utilization of Danish Government Electronic Letter System for Increasing Influenza Vaccine Uptake (NUDGE-FLU) trial, which compared usual care alone with one of nine different electronic letter “behavioral nudge” strategies during the 2022-2023 flu season in people aged 65 years and older.  

Pix by Marti/Fotolia

Niklas Dyrby Johansen, MD, Hospital–Herlev and Gentofte and Copenhagen University, presented the main study findings in a late-breaking clinical trial session at the joint scientific sessions of the American College of Cardiology and the World Heart Federation, and the article was simultaneously published in The Lancet

The subanalysis in patients with CVD was published online March 5 in Circulation.

“Despite modest effect sizes, the results may have important implications when translated to a population level,” Dr. Dyrby Johansen concluded during his presentation. Still, the authors write, “the low-touch (no person-to-person interaction), inexpensive, and highly scalable nature of these electronic letters might have important population-level public health implications.”  

They note that, among approximately 63 million Medicare beneficiaries in the United States, a 0.89–percentage point absolute increase in vaccination rate achieved through the most successful electronic letter in NUDGE-FLU, the one highlighting cardiovascular gain, would be expected to lead to 500,000 additional vaccinations and potentially prevent 7,849 illnesses, 4,395 medical visits, 714 hospitalizations, and 66 deaths each year.

Electronic letter systems similar to the one used in this trial are already in place in several European countries, including Sweden, Norway, and Ireland, the researchers note.

In countries such as the United States, where implementing a nationwide government electronic letter system might not be feasible, nudges could be done via email, text message, or other systems, but whether this would be as effective remains to be seen.

Commenting on the findings, David Cho, MD, UCLA Health and chair of the ACC Health Care Innovation Council, commended the researchers on engaging patients with more than a million separate nudges sent out during one flu season, and randomly assigning participants to 10 different types of nudges, calling it “impressive.”

“I think the concept that the nudge is to plant an idea that leads to an action is pretty much the basis of a lot of these health care interventions, which seems like a small way to have a big impact at outcome,” Dr. Cho noted. “The behavioral science aspects of the nudges are also fascinating to me personally, and I think to a lot of the cardiologists in the audience – about how you actually get people to act. I think it’s been a lifelong question for people in general, how do you get people to follow through on an action?”

“So I found the fact that secondary gain from a cardiovascular health standpoint, but also the repeated nudges were sort of simple ways that you could have people take ownership and get their flu vaccination,” he said.

“This is ACC, this is a cardiovascular conference, but the influence of vaccine is not just a primary care problem, it is also directly affecting cardiovascular disease,” Dr. Cho concluded.

‘Small but important effect’

In an accompanying editorial (Lancet. 2023 Mar 5. doi: 10.1016/S0140-6736(23)00453-1), Melissa Stockwell, MD, Columbia University, New York, writes, “The study by Johansen and colleagues highlights the small but still important effect of scalable, digital interventions across an entire at-risk population.”

A difference of 0.89% in the entire study population of over 960,000 adults age 65 years or older would be more than 8,500 additional adults protected, she notes. “That increase is important for a scalable intervention that has a low cost per letter.”

Moreover, “that the cardiovascular gain–framed messages worked best in those who had not been vaccinated in the previous season further highlights the potential impact on a more vaccine-hesitant population,” Dr. Stockwell notes. 

However, with the mandatory government electronic notification system in Denmark, “notifications are sent via regular email and SMS message, and recipients log in through a portal or smartphone app to view the letter.” Similar studies in the United States that included this extra step of needing to sign in online have not been effective in older populations.

Another limitation is that the intervention may have a different effect in populations for which there is a digital divide between people with or without Internet access of sufficient data on their mobile phones.

First-of-its kind, nationwide pragmatic trial

The NUDGE-FLU protocol was previously published in the American Heart Journal. NUDGE-FLU is a first-of-its kind nationwide, pragmatic, registry-based, cluster-randomized implementation trial of electronically delivered nudges to increase influenza vaccination uptake, the researchers note.

They identified 964,870 individuals who were 65 years or older (or would turn 65 by Jan. 15, 2023) who lived in one of 691,820 households in Denmark.

This excluded individuals who lived in a nursing home or were exempt from the government’s mandatory electronic letter system that is used for official communications.

Households were randomly assigned 9:1:1:1:1:1:1:1:1:1 to receive usual care alone or to one of nine electronic letter strategies based on different behavioral science approaches to encourage influenza vaccination uptake:

• Standard electronic letter
• Standard electronic letter sent at randomization and again 14 days later (repeated letter)
• Depersonalized letter without the recipient’s name
• Gain-framing nudge (“Vaccinations help end pandemics, like COVID-19 and the flu. Protect yourself and your loved ones.”)
• Loss-framing nudge (“When too few people get vaccinated, pandemics from diseases like COVID-19 and the flu can spread and place you and your loved ones at risk.”)
• Collective-goal nudge (“78% of Danes 65 and above were vaccinated against influenza last year. Help us achieve an even higher goal this year.”)  
• Active choice or implementation-intention prompt (“We encourage you to record your appointment time here.”)
• Cardiovascular gain–framing nudge (“In addition to its protection against influenza infection, influenza vaccination also seems to protect against cardiovascular disease such as heart attacks and heart failure.”)
• Expert-authority statement (“I recommend everyone over the age of 65 years to get vaccinated against influenza – Tyra Grove Krause, Executive Vice President, Statens Serum Institut.”)

The electronic letters were sent out Sept. 16, 2022, and the primary endpoint was vaccine receipt on or before Jan. 1, 2023.

All individuals received an informative vaccination encouragement letter from the Danish Health Authority (usual care) delivered via the same electronic letter system during Sept. 17 through Sept. 21, 2022. 

The individuals had a mean age of 73.8 years, 51.5% were women, and 27.4% had chronic cardiovascular disease.

The analyses were done in one randomly selected individual per household.

Influenza vaccination rates were significantly higher in the cardiovascular gain–framing nudge group vs. usual care (81.00% vs. 80.12%; difference, 0.89 percentage points; P < .0001) and in the repeat-letter group vs. usual care (80.85% vs 80.12%; difference, 0.73 percentage points; P = .0006).

These two strategies also improved vaccination rates across major subgroups.

The cardiovascular gain–framed letter was particularly effective among participants who had not been vaccinated for influenza in the previous season.

The seven other letter strategies did not increase flu shot uptake.

Subanalysis in CVD

In the prespecified subanalysis of the NUDGE-FLU trial of patients aged 65 and older that focused on patients with CVD, Daniel Modin, MB, and colleagues report that 83.1% of patients with CVD vs. 79.2% of patients without CVD received influenza vaccination within the requested time (P < .0001).

The two nudging strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination or a repeat letter – that were effective in boosting flu shot rates in the main analysis were also effective in all major CVD subgroups (ischemic heart disease, pulmonary heart disease, heart failure, atrial fibrillation, cerebrovascular disease, atherosclerotic CVD, embolic or thrombotic disease, and congenital heart disease).

Despite strong guideline endorsement, “influenza vaccination rates remain suboptimal in patients with high-risk cardiovascular disease,” Dr. Morin and colleagues write, possibly because of “insufficient knowledge among patients and providers of potential clinical benefits, concerns about vaccine safety, and other forms of vaccine hesitancy.”

Their findings suggest that “select digital behaviorally informed nudges delivered in advance of vaccine availability might be utilized to increase influenza vaccinate uptake in individuals with cardiovascular disease.”

NUDGE-HF was funded by Sanofi. Dr. Johansen and Dr. Modin have no disclosures. The disclosures of the other authors are listed with the articles. Dr. Stockwell has no disclosures.

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

Two types of electronically delivered letter strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination and a repeat reminder letter – increased flu shot uptake, compared with usual care alone, in a national study of seniors in Denmark.

And in a prespecified subanalysis focusing on older adults with cardiovascular disease, these two strategies were also effective in boosting vaccine uptake in those with or without CVD.

The findings are from the Nationwide Utilization of Danish Government Electronic Letter System for Increasing Influenza Vaccine Uptake (NUDGE-FLU) trial, which compared usual care alone with one of nine different electronic letter “behavioral nudge” strategies during the 2022-2023 flu season in people aged 65 years and older.  

Pix by Marti/Fotolia

Niklas Dyrby Johansen, MD, Hospital–Herlev and Gentofte and Copenhagen University, presented the main study findings in a late-breaking clinical trial session at the joint scientific sessions of the American College of Cardiology and the World Heart Federation, and the article was simultaneously published in The Lancet

The subanalysis in patients with CVD was published online March 5 in Circulation.

“Despite modest effect sizes, the results may have important implications when translated to a population level,” Dr. Dyrby Johansen concluded during his presentation. Still, the authors write, “the low-touch (no person-to-person interaction), inexpensive, and highly scalable nature of these electronic letters might have important population-level public health implications.”  

They note that, among approximately 63 million Medicare beneficiaries in the United States, a 0.89–percentage point absolute increase in vaccination rate achieved through the most successful electronic letter in NUDGE-FLU, the one highlighting cardiovascular gain, would be expected to lead to 500,000 additional vaccinations and potentially prevent 7,849 illnesses, 4,395 medical visits, 714 hospitalizations, and 66 deaths each year.

Electronic letter systems similar to the one used in this trial are already in place in several European countries, including Sweden, Norway, and Ireland, the researchers note.

In countries such as the United States, where implementing a nationwide government electronic letter system might not be feasible, nudges could be done via email, text message, or other systems, but whether this would be as effective remains to be seen.

Commenting on the findings, David Cho, MD, UCLA Health and chair of the ACC Health Care Innovation Council, commended the researchers on engaging patients with more than a million separate nudges sent out during one flu season, and randomly assigning participants to 10 different types of nudges, calling it “impressive.”

“I think the concept that the nudge is to plant an idea that leads to an action is pretty much the basis of a lot of these health care interventions, which seems like a small way to have a big impact at outcome,” Dr. Cho noted. “The behavioral science aspects of the nudges are also fascinating to me personally, and I think to a lot of the cardiologists in the audience – about how you actually get people to act. I think it’s been a lifelong question for people in general, how do you get people to follow through on an action?”

“So I found the fact that secondary gain from a cardiovascular health standpoint, but also the repeated nudges were sort of simple ways that you could have people take ownership and get their flu vaccination,” he said.

“This is ACC, this is a cardiovascular conference, but the influence of vaccine is not just a primary care problem, it is also directly affecting cardiovascular disease,” Dr. Cho concluded.

‘Small but important effect’

In an accompanying editorial (Lancet. 2023 Mar 5. doi: 10.1016/S0140-6736(23)00453-1), Melissa Stockwell, MD, Columbia University, New York, writes, “The study by Johansen and colleagues highlights the small but still important effect of scalable, digital interventions across an entire at-risk population.”

A difference of 0.89% in the entire study population of over 960,000 adults age 65 years or older would be more than 8,500 additional adults protected, she notes. “That increase is important for a scalable intervention that has a low cost per letter.”

Moreover, “that the cardiovascular gain–framed messages worked best in those who had not been vaccinated in the previous season further highlights the potential impact on a more vaccine-hesitant population,” Dr. Stockwell notes. 

However, with the mandatory government electronic notification system in Denmark, “notifications are sent via regular email and SMS message, and recipients log in through a portal or smartphone app to view the letter.” Similar studies in the United States that included this extra step of needing to sign in online have not been effective in older populations.

Another limitation is that the intervention may have a different effect in populations for which there is a digital divide between people with or without Internet access of sufficient data on their mobile phones.

First-of-its kind, nationwide pragmatic trial

The NUDGE-FLU protocol was previously published in the American Heart Journal. NUDGE-FLU is a first-of-its kind nationwide, pragmatic, registry-based, cluster-randomized implementation trial of electronically delivered nudges to increase influenza vaccination uptake, the researchers note.

They identified 964,870 individuals who were 65 years or older (or would turn 65 by Jan. 15, 2023) who lived in one of 691,820 households in Denmark.

This excluded individuals who lived in a nursing home or were exempt from the government’s mandatory electronic letter system that is used for official communications.

Households were randomly assigned 9:1:1:1:1:1:1:1:1:1 to receive usual care alone or to one of nine electronic letter strategies based on different behavioral science approaches to encourage influenza vaccination uptake:

• Standard electronic letter
• Standard electronic letter sent at randomization and again 14 days later (repeated letter)
• Depersonalized letter without the recipient’s name
• Gain-framing nudge (“Vaccinations help end pandemics, like COVID-19 and the flu. Protect yourself and your loved ones.”)
• Loss-framing nudge (“When too few people get vaccinated, pandemics from diseases like COVID-19 and the flu can spread and place you and your loved ones at risk.”)
• Collective-goal nudge (“78% of Danes 65 and above were vaccinated against influenza last year. Help us achieve an even higher goal this year.”)  
• Active choice or implementation-intention prompt (“We encourage you to record your appointment time here.”)
• Cardiovascular gain–framing nudge (“In addition to its protection against influenza infection, influenza vaccination also seems to protect against cardiovascular disease such as heart attacks and heart failure.”)
• Expert-authority statement (“I recommend everyone over the age of 65 years to get vaccinated against influenza – Tyra Grove Krause, Executive Vice President, Statens Serum Institut.”)

The electronic letters were sent out Sept. 16, 2022, and the primary endpoint was vaccine receipt on or before Jan. 1, 2023.

All individuals received an informative vaccination encouragement letter from the Danish Health Authority (usual care) delivered via the same electronic letter system during Sept. 17 through Sept. 21, 2022. 

The individuals had a mean age of 73.8 years, 51.5% were women, and 27.4% had chronic cardiovascular disease.

The analyses were done in one randomly selected individual per household.

Influenza vaccination rates were significantly higher in the cardiovascular gain–framing nudge group vs. usual care (81.00% vs. 80.12%; difference, 0.89 percentage points; P < .0001) and in the repeat-letter group vs. usual care (80.85% vs 80.12%; difference, 0.73 percentage points; P = .0006).

These two strategies also improved vaccination rates across major subgroups.

The cardiovascular gain–framed letter was particularly effective among participants who had not been vaccinated for influenza in the previous season.

The seven other letter strategies did not increase flu shot uptake.

Subanalysis in CVD

In the prespecified subanalysis of the NUDGE-FLU trial of patients aged 65 and older that focused on patients with CVD, Daniel Modin, MB, and colleagues report that 83.1% of patients with CVD vs. 79.2% of patients without CVD received influenza vaccination within the requested time (P < .0001).

The two nudging strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination or a repeat letter – that were effective in boosting flu shot rates in the main analysis were also effective in all major CVD subgroups (ischemic heart disease, pulmonary heart disease, heart failure, atrial fibrillation, cerebrovascular disease, atherosclerotic CVD, embolic or thrombotic disease, and congenital heart disease).

Despite strong guideline endorsement, “influenza vaccination rates remain suboptimal in patients with high-risk cardiovascular disease,” Dr. Morin and colleagues write, possibly because of “insufficient knowledge among patients and providers of potential clinical benefits, concerns about vaccine safety, and other forms of vaccine hesitancy.”

Their findings suggest that “select digital behaviorally informed nudges delivered in advance of vaccine availability might be utilized to increase influenza vaccinate uptake in individuals with cardiovascular disease.”

NUDGE-HF was funded by Sanofi. Dr. Johansen and Dr. Modin have no disclosures. The disclosures of the other authors are listed with the articles. Dr. Stockwell has no disclosures.

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

Two types of electronically delivered letter strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination and a repeat reminder letter – increased flu shot uptake, compared with usual care alone, in a national study of seniors in Denmark.

And in a prespecified subanalysis focusing on older adults with cardiovascular disease, these two strategies were also effective in boosting vaccine uptake in those with or without CVD.

The findings are from the Nationwide Utilization of Danish Government Electronic Letter System for Increasing Influenza Vaccine Uptake (NUDGE-FLU) trial, which compared usual care alone with one of nine different electronic letter “behavioral nudge” strategies during the 2022-2023 flu season in people aged 65 years and older.  

Pix by Marti/Fotolia

Niklas Dyrby Johansen, MD, Hospital–Herlev and Gentofte and Copenhagen University, presented the main study findings in a late-breaking clinical trial session at the joint scientific sessions of the American College of Cardiology and the World Heart Federation, and the article was simultaneously published in The Lancet

The subanalysis in patients with CVD was published online March 5 in Circulation.

“Despite modest effect sizes, the results may have important implications when translated to a population level,” Dr. Dyrby Johansen concluded during his presentation. Still, the authors write, “the low-touch (no person-to-person interaction), inexpensive, and highly scalable nature of these electronic letters might have important population-level public health implications.”  

They note that, among approximately 63 million Medicare beneficiaries in the United States, a 0.89–percentage point absolute increase in vaccination rate achieved through the most successful electronic letter in NUDGE-FLU, the one highlighting cardiovascular gain, would be expected to lead to 500,000 additional vaccinations and potentially prevent 7,849 illnesses, 4,395 medical visits, 714 hospitalizations, and 66 deaths each year.

Electronic letter systems similar to the one used in this trial are already in place in several European countries, including Sweden, Norway, and Ireland, the researchers note.

In countries such as the United States, where implementing a nationwide government electronic letter system might not be feasible, nudges could be done via email, text message, or other systems, but whether this would be as effective remains to be seen.

Commenting on the findings, David Cho, MD, UCLA Health and chair of the ACC Health Care Innovation Council, commended the researchers on engaging patients with more than a million separate nudges sent out during one flu season, and randomly assigning participants to 10 different types of nudges, calling it “impressive.”

“I think the concept that the nudge is to plant an idea that leads to an action is pretty much the basis of a lot of these health care interventions, which seems like a small way to have a big impact at outcome,” Dr. Cho noted. “The behavioral science aspects of the nudges are also fascinating to me personally, and I think to a lot of the cardiologists in the audience – about how you actually get people to act. I think it’s been a lifelong question for people in general, how do you get people to follow through on an action?”

“So I found the fact that secondary gain from a cardiovascular health standpoint, but also the repeated nudges were sort of simple ways that you could have people take ownership and get their flu vaccination,” he said.

“This is ACC, this is a cardiovascular conference, but the influence of vaccine is not just a primary care problem, it is also directly affecting cardiovascular disease,” Dr. Cho concluded.

‘Small but important effect’

In an accompanying editorial (Lancet. 2023 Mar 5. doi: 10.1016/S0140-6736(23)00453-1), Melissa Stockwell, MD, Columbia University, New York, writes, “The study by Johansen and colleagues highlights the small but still important effect of scalable, digital interventions across an entire at-risk population.”

A difference of 0.89% in the entire study population of over 960,000 adults age 65 years or older would be more than 8,500 additional adults protected, she notes. “That increase is important for a scalable intervention that has a low cost per letter.”

Moreover, “that the cardiovascular gain–framed messages worked best in those who had not been vaccinated in the previous season further highlights the potential impact on a more vaccine-hesitant population,” Dr. Stockwell notes. 

However, with the mandatory government electronic notification system in Denmark, “notifications are sent via regular email and SMS message, and recipients log in through a portal or smartphone app to view the letter.” Similar studies in the United States that included this extra step of needing to sign in online have not been effective in older populations.

Another limitation is that the intervention may have a different effect in populations for which there is a digital divide between people with or without Internet access of sufficient data on their mobile phones.

First-of-its kind, nationwide pragmatic trial

The NUDGE-FLU protocol was previously published in the American Heart Journal. NUDGE-FLU is a first-of-its kind nationwide, pragmatic, registry-based, cluster-randomized implementation trial of electronically delivered nudges to increase influenza vaccination uptake, the researchers note.

They identified 964,870 individuals who were 65 years or older (or would turn 65 by Jan. 15, 2023) who lived in one of 691,820 households in Denmark.

This excluded individuals who lived in a nursing home or were exempt from the government’s mandatory electronic letter system that is used for official communications.

Households were randomly assigned 9:1:1:1:1:1:1:1:1:1 to receive usual care alone or to one of nine electronic letter strategies based on different behavioral science approaches to encourage influenza vaccination uptake:

• Standard electronic letter
• Standard electronic letter sent at randomization and again 14 days later (repeated letter)
• Depersonalized letter without the recipient’s name
• Gain-framing nudge (“Vaccinations help end pandemics, like COVID-19 and the flu. Protect yourself and your loved ones.”)
• Loss-framing nudge (“When too few people get vaccinated, pandemics from diseases like COVID-19 and the flu can spread and place you and your loved ones at risk.”)
• Collective-goal nudge (“78% of Danes 65 and above were vaccinated against influenza last year. Help us achieve an even higher goal this year.”)  
• Active choice or implementation-intention prompt (“We encourage you to record your appointment time here.”)
• Cardiovascular gain–framing nudge (“In addition to its protection against influenza infection, influenza vaccination also seems to protect against cardiovascular disease such as heart attacks and heart failure.”)
• Expert-authority statement (“I recommend everyone over the age of 65 years to get vaccinated against influenza – Tyra Grove Krause, Executive Vice President, Statens Serum Institut.”)

The electronic letters were sent out Sept. 16, 2022, and the primary endpoint was vaccine receipt on or before Jan. 1, 2023.

All individuals received an informative vaccination encouragement letter from the Danish Health Authority (usual care) delivered via the same electronic letter system during Sept. 17 through Sept. 21, 2022. 

The individuals had a mean age of 73.8 years, 51.5% were women, and 27.4% had chronic cardiovascular disease.

The analyses were done in one randomly selected individual per household.

Influenza vaccination rates were significantly higher in the cardiovascular gain–framing nudge group vs. usual care (81.00% vs. 80.12%; difference, 0.89 percentage points; P < .0001) and in the repeat-letter group vs. usual care (80.85% vs 80.12%; difference, 0.73 percentage points; P = .0006).

These two strategies also improved vaccination rates across major subgroups.

The cardiovascular gain–framed letter was particularly effective among participants who had not been vaccinated for influenza in the previous season.

The seven other letter strategies did not increase flu shot uptake.

Subanalysis in CVD

In the prespecified subanalysis of the NUDGE-FLU trial of patients aged 65 and older that focused on patients with CVD, Daniel Modin, MB, and colleagues report that 83.1% of patients with CVD vs. 79.2% of patients without CVD received influenza vaccination within the requested time (P < .0001).

The two nudging strategies – a letter highlighting potential cardiovascular benefits of influenza vaccination or a repeat letter – that were effective in boosting flu shot rates in the main analysis were also effective in all major CVD subgroups (ischemic heart disease, pulmonary heart disease, heart failure, atrial fibrillation, cerebrovascular disease, atherosclerotic CVD, embolic or thrombotic disease, and congenital heart disease).

Despite strong guideline endorsement, “influenza vaccination rates remain suboptimal in patients with high-risk cardiovascular disease,” Dr. Morin and colleagues write, possibly because of “insufficient knowledge among patients and providers of potential clinical benefits, concerns about vaccine safety, and other forms of vaccine hesitancy.”

Their findings suggest that “select digital behaviorally informed nudges delivered in advance of vaccine availability might be utilized to increase influenza vaccinate uptake in individuals with cardiovascular disease.”

NUDGE-HF was funded by Sanofi. Dr. Johansen and Dr. Modin have no disclosures. The disclosures of the other authors are listed with the articles. Dr. Stockwell has no disclosures.

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

A new approach to lowering cholesterol with the use of bempedoic acid (Nexletol, Esperion) brought about a significant reduction in cardiovascular events in patients intolerant to statins in the large phase 3, placebo-controlled CLEAR Outcomes trial.

The drug lowered LDL cholesterol by 21% in the study and reduced the composite primary endpoint, including cardiovascular death, MI, stroke, or coronary revascularization, by 13%; MI was reduced by 23% and coronary revascularization, by 19%.

The drug was also well tolerated in the mixed population of primary and secondary prevention patients unable or unwilling to take statins.

Mitchel L. Zoler/MDedge News

“These findings establish bempedoic acid as an effective approach to reduce major cardiovascular events in statin-intolerant patients,” study chair, Steven E. Nissen, MD, of the Cleveland Clinic concluded.

Dr. Nissen presented the CLEAR Outcomes trial at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

The study was simultaneously published online in the New England Journal of Medicine. Top-line results were previously reported in December 2022.

Dr. Nissen pointed out that, while in the current study bempedoic acid was studied as monotherapy, he believes the drug will mainly be used in clinical practice in combination with ezetimibe, a combination shown to reduce LDL by 38%. “I think this is how it will be used in clinical practice. So, we can get an almost 40% LDL reduction – that’s about the same as 40 mg simvastatin or 20 mg atorvastatin – without giving a statin. And I think that’s where I see the potential of this therapy,” he said.

Dr. Nissen described statin intolerance as “a vexing problem” that prevents many patients from achieving LDL cholesterol levels associated with cardiovascular benefits.

He explained that bempedoic acid, an adenosine triphosphate citrate lyase inhibitor, inhibits hepatic cholesterol synthesis upstream of hydroxymethylglutaryl coenzyme A reductase, the enzyme inhibited by statins. Bempedoic acid is a prodrug activated in the liver, but not in peripheral tissues, resulting in a low incidence of muscle-related adverse events. Although bempedoic acid is approved for lowering LDL cholesterol, this is the first trial to assess its effects on cardiovascular outcomes.
 

CLEAR Outcomes

The CLEAR Outcomes trial included 13,970 patients (48% women) from 32 countries who were unable or unwilling to take statins owing to unacceptable adverse effects and who had, or were at high risk for, cardiovascular disease. They were randomly assigned to oral bempedoic acid, 180 mg daily, or placebo.

The mean LDL cholesterol level at baseline was 139 mg/dL in both groups, and after 6 months, the reduction in the level was greater with bempedoic acid than with placebo by 29.2 mg/dL (a 21.1% reduction).

The drug was also associated with a 22% reduction in high-sensitivity C-reactive protein.

After a median duration of follow-up of 40.6 months, the incidence of a primary endpoint (cardiovascular death, MI, stroke, or coronary revascularization) was significantly lower (by 13%) with bempedoic acid than with placebo (11.7% vs. 13.3%; hazard ratio, 0.87; P = .004).

The absolute risk reduction was 1.6 percentage points, and the number needed to treat for 40 months to prevent one event was 63.

The secondary composite endpoint of cardiovascular death/stroke/MI was reduced by 15% (8.2% vs. 9.5%; HR, 0.85; P = .006). Fatal or nonfatal MI was reduced by 23% (3.7% vs. 4.8%; HR, 0.77; P = .002), and coronary revascularization was reduced by 19% (6.2% vs. 7.6%; HR, 0.81; P = .001).

Bempedoic acid had no significant effects on fatal or nonfatal stroke, death from cardiovascular causes, and death from any cause.

Subgroup analysis showed similar results across all groups and no difference in treatment effect between men and women.

Adverse events were reported by 25% of patients in both groups, with adverse events leading to discontinuation reported by 10.8% of the bempedoic acid group and 10.4% of the placebo group.

Muscle disorders were reported in 15.0% of the bempedoic acid group versus 15.4% of the placebo group. And there was also no difference in new cases of diabetes (16.1% vs. 17.1%).

Bempedoic acid was associated with small increases in the incidence of gout (3.1% vs. 2.1%) and cholelithiasis (2.2% vs. 1.2%), and also small increases in serum creatinine, uric acid, and hepatic enzyme levels.

In the NEJM article, the authors pointed out that the concept of statin intolerance remains controversial. Some recent studies suggested that reported adverse effects represent an anticipation of harm, often described as the “nocebo” effect.

“Whether real or perceived, statin intolerance remains a vexing clinical problem that can prevent patients who are guideline eligible for statin treatment from reaching LDL cholesterol levels associated with clinical benefits. Accordingly, alternative nonstatin therapies are needed to manage the LDL cholesterol level in these patients,” they wrote.

“Management of patients unable or unwilling to take statins represents a challenging and frustrating clinical issue. Regardless whether this problem represents the ‘nocebo’ effect or actual intolerance, these high-risk patients need effective alternative therapies,” Dr. Nissen concluded. “The CLEAR Outcomes trial provides a sound rationale for use of bempedoic acid to reduce major adverse cardiovascular outcomes in patients intolerant to statins.”
 

‘Compelling findings’

Discussing the trial at the ACC late-breaking clinical trial session, Michelle O’Donoghue, MD, Brigham and Women’s Hospital, Boston, noted that this is the largest trial to date in statin-intolerant patients.

She pointed out that although the issue of statin intolerance remains controversial, adherence to statins is often not good, so this is an important patient population to study.

She said it was “quite remarkable” that 48% of the study were women, adding: “There is still much that we need to understand about why women appear to be less willing or able to tolerate statin therapy.” 

Dr. O’Donoghue concluded that the study showed “compelling findings,” and the event reduction was in line with what would be expected from the LDL cholesterol reduction, further supporting the LDL cholesterol hypothesis. 

She added: “Bempedoic acid is an important addition to our arsenal of nonstatin LDL-lowering therapies. And while it was overall well tolerated, it did not get a complete free pass, as there were some modest safety concerns.”

In an editorial accompanying the NEJM publication, John Alexander, MD, Duke Clinical Research Institute, Durham, N.C., wrote: “The compelling results of the CLEAR Outcomes trial will and should increase the use of bempedoic acid in patients with established atherosclerotic vascular disease and in those at high risk for vascular disease who are unable or unwilling to take statins.”

He warned, however, that it is premature to consider bempedoic acid as an alternative to statins. “Given the overwhelming evidence of the vascular benefits of statins, clinicians should continue their efforts to prescribe them at the maximum tolerated doses for appropriate patients, including those who may have discontinued statins because of presumed side effects.”.

Dr. Alexander also pointed out that although bempedoic acid also reduces the LDL cholesterol level in patients taking statins, the clinical benefits of bempedoic acid added to standard statin therapy are unknown. 

On the observation that bempedoic acid had no observed effect on mortality, he noted that “Many individual trials of statins have also not shown an effect of the agent on mortality; it was only through the meta-analysis of multiple clinical trials that the effects of statins on mortality became clear.”

“Bempedoic acid has now entered the list of evidence-based alternatives to statins for primary and secondary prevention in patients at high cardiovascular risk,” Dr. Alexander concluded. “The benefits of bempedoic acid are now clearer, and it is now our responsibility to translate this information into better primary and secondary prevention for more at-risk patients, who will, as a result, benefit from fewer cardiovascular events.”

In a second editorial, John F. Keaney Jr., MD, Brigham and Women’s Hospital, said the lack of a clear association between bempedoic acid and muscle disorders, new-onset diabetes, or worsening hyperglycemia is “welcome news” for statin-intolerant patients.

But he cautioned that “these data must be interpreted cautiously, because bempedoic acid, when combined with a statin, appears to enhance the occurrence of muscle symptoms. Moreover, bempedoic acid has its own reported side effects, including tendon rupture, increased uric acid levels, gout, and reduced glomerular filtration rate, which are not seen with statin use.”

In terms of drug interactions, Dr. Keaney noted that bempedoic acid can increase the circulating levels of simvastatin and pravastatin, so it should not be used in patients who are receiving these agents at doses above 20 mg and 40 mg, respectively. Similarly, bempedoic acid should not be used with fibrates other than fenofibrate because of concerns regarding cholelithiasis.

“Available data clearly indicate that bempedoic acid can be used as an adjunct to statin and nonstatin therapies (except as noted above) to produce an additional 16%-26% reduction in the LDL cholesterol level,” he added. “However, it is not yet clear to what extent adjunctive bempedoic acid will further reduce the risk of cardiovascular events.”

The CLEAR Outcomes trial was supported by Esperion Therapeutics. Dr. Nissen reported receiving grants from AbbVie, AstraZeneca, Bristol-Myers Squibb, Eli Lilly, Esperion, Novartis, and Silence Pharmaceuticals and consultancies with Amgen and Glenmark Pharmaceuticals.

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

A new approach to lowering cholesterol with the use of bempedoic acid (Nexletol, Esperion) brought about a significant reduction in cardiovascular events in patients intolerant to statins in the large phase 3, placebo-controlled CLEAR Outcomes trial.

The drug lowered LDL cholesterol by 21% in the study and reduced the composite primary endpoint, including cardiovascular death, MI, stroke, or coronary revascularization, by 13%; MI was reduced by 23% and coronary revascularization, by 19%.

The drug was also well tolerated in the mixed population of primary and secondary prevention patients unable or unwilling to take statins.

Mitchel L. Zoler/MDedge News

“These findings establish bempedoic acid as an effective approach to reduce major cardiovascular events in statin-intolerant patients,” study chair, Steven E. Nissen, MD, of the Cleveland Clinic concluded.

Dr. Nissen presented the CLEAR Outcomes trial at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

The study was simultaneously published online in the New England Journal of Medicine. Top-line results were previously reported in December 2022.

Dr. Nissen pointed out that, while in the current study bempedoic acid was studied as monotherapy, he believes the drug will mainly be used in clinical practice in combination with ezetimibe, a combination shown to reduce LDL by 38%. “I think this is how it will be used in clinical practice. So, we can get an almost 40% LDL reduction – that’s about the same as 40 mg simvastatin or 20 mg atorvastatin – without giving a statin. And I think that’s where I see the potential of this therapy,” he said.

Dr. Nissen described statin intolerance as “a vexing problem” that prevents many patients from achieving LDL cholesterol levels associated with cardiovascular benefits.

He explained that bempedoic acid, an adenosine triphosphate citrate lyase inhibitor, inhibits hepatic cholesterol synthesis upstream of hydroxymethylglutaryl coenzyme A reductase, the enzyme inhibited by statins. Bempedoic acid is a prodrug activated in the liver, but not in peripheral tissues, resulting in a low incidence of muscle-related adverse events. Although bempedoic acid is approved for lowering LDL cholesterol, this is the first trial to assess its effects on cardiovascular outcomes.
 

CLEAR Outcomes

The CLEAR Outcomes trial included 13,970 patients (48% women) from 32 countries who were unable or unwilling to take statins owing to unacceptable adverse effects and who had, or were at high risk for, cardiovascular disease. They were randomly assigned to oral bempedoic acid, 180 mg daily, or placebo.

The mean LDL cholesterol level at baseline was 139 mg/dL in both groups, and after 6 months, the reduction in the level was greater with bempedoic acid than with placebo by 29.2 mg/dL (a 21.1% reduction).

The drug was also associated with a 22% reduction in high-sensitivity C-reactive protein.

After a median duration of follow-up of 40.6 months, the incidence of a primary endpoint (cardiovascular death, MI, stroke, or coronary revascularization) was significantly lower (by 13%) with bempedoic acid than with placebo (11.7% vs. 13.3%; hazard ratio, 0.87; P = .004).

The absolute risk reduction was 1.6 percentage points, and the number needed to treat for 40 months to prevent one event was 63.

The secondary composite endpoint of cardiovascular death/stroke/MI was reduced by 15% (8.2% vs. 9.5%; HR, 0.85; P = .006). Fatal or nonfatal MI was reduced by 23% (3.7% vs. 4.8%; HR, 0.77; P = .002), and coronary revascularization was reduced by 19% (6.2% vs. 7.6%; HR, 0.81; P = .001).

Bempedoic acid had no significant effects on fatal or nonfatal stroke, death from cardiovascular causes, and death from any cause.

Subgroup analysis showed similar results across all groups and no difference in treatment effect between men and women.

Adverse events were reported by 25% of patients in both groups, with adverse events leading to discontinuation reported by 10.8% of the bempedoic acid group and 10.4% of the placebo group.

Muscle disorders were reported in 15.0% of the bempedoic acid group versus 15.4% of the placebo group. And there was also no difference in new cases of diabetes (16.1% vs. 17.1%).

Bempedoic acid was associated with small increases in the incidence of gout (3.1% vs. 2.1%) and cholelithiasis (2.2% vs. 1.2%), and also small increases in serum creatinine, uric acid, and hepatic enzyme levels.

In the NEJM article, the authors pointed out that the concept of statin intolerance remains controversial. Some recent studies suggested that reported adverse effects represent an anticipation of harm, often described as the “nocebo” effect.

“Whether real or perceived, statin intolerance remains a vexing clinical problem that can prevent patients who are guideline eligible for statin treatment from reaching LDL cholesterol levels associated with clinical benefits. Accordingly, alternative nonstatin therapies are needed to manage the LDL cholesterol level in these patients,” they wrote.

“Management of patients unable or unwilling to take statins represents a challenging and frustrating clinical issue. Regardless whether this problem represents the ‘nocebo’ effect or actual intolerance, these high-risk patients need effective alternative therapies,” Dr. Nissen concluded. “The CLEAR Outcomes trial provides a sound rationale for use of bempedoic acid to reduce major adverse cardiovascular outcomes in patients intolerant to statins.”
 

‘Compelling findings’

Discussing the trial at the ACC late-breaking clinical trial session, Michelle O’Donoghue, MD, Brigham and Women’s Hospital, Boston, noted that this is the largest trial to date in statin-intolerant patients.

She pointed out that although the issue of statin intolerance remains controversial, adherence to statins is often not good, so this is an important patient population to study.

She said it was “quite remarkable” that 48% of the study were women, adding: “There is still much that we need to understand about why women appear to be less willing or able to tolerate statin therapy.” 

Dr. O’Donoghue concluded that the study showed “compelling findings,” and the event reduction was in line with what would be expected from the LDL cholesterol reduction, further supporting the LDL cholesterol hypothesis. 

She added: “Bempedoic acid is an important addition to our arsenal of nonstatin LDL-lowering therapies. And while it was overall well tolerated, it did not get a complete free pass, as there were some modest safety concerns.”

In an editorial accompanying the NEJM publication, John Alexander, MD, Duke Clinical Research Institute, Durham, N.C., wrote: “The compelling results of the CLEAR Outcomes trial will and should increase the use of bempedoic acid in patients with established atherosclerotic vascular disease and in those at high risk for vascular disease who are unable or unwilling to take statins.”

He warned, however, that it is premature to consider bempedoic acid as an alternative to statins. “Given the overwhelming evidence of the vascular benefits of statins, clinicians should continue their efforts to prescribe them at the maximum tolerated doses for appropriate patients, including those who may have discontinued statins because of presumed side effects.”.

Dr. Alexander also pointed out that although bempedoic acid also reduces the LDL cholesterol level in patients taking statins, the clinical benefits of bempedoic acid added to standard statin therapy are unknown. 

On the observation that bempedoic acid had no observed effect on mortality, he noted that “Many individual trials of statins have also not shown an effect of the agent on mortality; it was only through the meta-analysis of multiple clinical trials that the effects of statins on mortality became clear.”

“Bempedoic acid has now entered the list of evidence-based alternatives to statins for primary and secondary prevention in patients at high cardiovascular risk,” Dr. Alexander concluded. “The benefits of bempedoic acid are now clearer, and it is now our responsibility to translate this information into better primary and secondary prevention for more at-risk patients, who will, as a result, benefit from fewer cardiovascular events.”

In a second editorial, John F. Keaney Jr., MD, Brigham and Women’s Hospital, said the lack of a clear association between bempedoic acid and muscle disorders, new-onset diabetes, or worsening hyperglycemia is “welcome news” for statin-intolerant patients.

But he cautioned that “these data must be interpreted cautiously, because bempedoic acid, when combined with a statin, appears to enhance the occurrence of muscle symptoms. Moreover, bempedoic acid has its own reported side effects, including tendon rupture, increased uric acid levels, gout, and reduced glomerular filtration rate, which are not seen with statin use.”

In terms of drug interactions, Dr. Keaney noted that bempedoic acid can increase the circulating levels of simvastatin and pravastatin, so it should not be used in patients who are receiving these agents at doses above 20 mg and 40 mg, respectively. Similarly, bempedoic acid should not be used with fibrates other than fenofibrate because of concerns regarding cholelithiasis.

“Available data clearly indicate that bempedoic acid can be used as an adjunct to statin and nonstatin therapies (except as noted above) to produce an additional 16%-26% reduction in the LDL cholesterol level,” he added. “However, it is not yet clear to what extent adjunctive bempedoic acid will further reduce the risk of cardiovascular events.”

The CLEAR Outcomes trial was supported by Esperion Therapeutics. Dr. Nissen reported receiving grants from AbbVie, AstraZeneca, Bristol-Myers Squibb, Eli Lilly, Esperion, Novartis, and Silence Pharmaceuticals and consultancies with Amgen and Glenmark Pharmaceuticals.

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

A new approach to lowering cholesterol with the use of bempedoic acid (Nexletol, Esperion) brought about a significant reduction in cardiovascular events in patients intolerant to statins in the large phase 3, placebo-controlled CLEAR Outcomes trial.

The drug lowered LDL cholesterol by 21% in the study and reduced the composite primary endpoint, including cardiovascular death, MI, stroke, or coronary revascularization, by 13%; MI was reduced by 23% and coronary revascularization, by 19%.

The drug was also well tolerated in the mixed population of primary and secondary prevention patients unable or unwilling to take statins.

Mitchel L. Zoler/MDedge News

“These findings establish bempedoic acid as an effective approach to reduce major cardiovascular events in statin-intolerant patients,” study chair, Steven E. Nissen, MD, of the Cleveland Clinic concluded.

Dr. Nissen presented the CLEAR Outcomes trial at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.

The study was simultaneously published online in the New England Journal of Medicine. Top-line results were previously reported in December 2022.

Dr. Nissen pointed out that, while in the current study bempedoic acid was studied as monotherapy, he believes the drug will mainly be used in clinical practice in combination with ezetimibe, a combination shown to reduce LDL by 38%. “I think this is how it will be used in clinical practice. So, we can get an almost 40% LDL reduction – that’s about the same as 40 mg simvastatin or 20 mg atorvastatin – without giving a statin. And I think that’s where I see the potential of this therapy,” he said.

Dr. Nissen described statin intolerance as “a vexing problem” that prevents many patients from achieving LDL cholesterol levels associated with cardiovascular benefits.

He explained that bempedoic acid, an adenosine triphosphate citrate lyase inhibitor, inhibits hepatic cholesterol synthesis upstream of hydroxymethylglutaryl coenzyme A reductase, the enzyme inhibited by statins. Bempedoic acid is a prodrug activated in the liver, but not in peripheral tissues, resulting in a low incidence of muscle-related adverse events. Although bempedoic acid is approved for lowering LDL cholesterol, this is the first trial to assess its effects on cardiovascular outcomes.
 

CLEAR Outcomes

The CLEAR Outcomes trial included 13,970 patients (48% women) from 32 countries who were unable or unwilling to take statins owing to unacceptable adverse effects and who had, or were at high risk for, cardiovascular disease. They were randomly assigned to oral bempedoic acid, 180 mg daily, or placebo.

The mean LDL cholesterol level at baseline was 139 mg/dL in both groups, and after 6 months, the reduction in the level was greater with bempedoic acid than with placebo by 29.2 mg/dL (a 21.1% reduction).

The drug was also associated with a 22% reduction in high-sensitivity C-reactive protein.

After a median duration of follow-up of 40.6 months, the incidence of a primary endpoint (cardiovascular death, MI, stroke, or coronary revascularization) was significantly lower (by 13%) with bempedoic acid than with placebo (11.7% vs. 13.3%; hazard ratio, 0.87; P = .004).

The absolute risk reduction was 1.6 percentage points, and the number needed to treat for 40 months to prevent one event was 63.

The secondary composite endpoint of cardiovascular death/stroke/MI was reduced by 15% (8.2% vs. 9.5%; HR, 0.85; P = .006). Fatal or nonfatal MI was reduced by 23% (3.7% vs. 4.8%; HR, 0.77; P = .002), and coronary revascularization was reduced by 19% (6.2% vs. 7.6%; HR, 0.81; P = .001).

Bempedoic acid had no significant effects on fatal or nonfatal stroke, death from cardiovascular causes, and death from any cause.

Subgroup analysis showed similar results across all groups and no difference in treatment effect between men and women.

Adverse events were reported by 25% of patients in both groups, with adverse events leading to discontinuation reported by 10.8% of the bempedoic acid group and 10.4% of the placebo group.

Muscle disorders were reported in 15.0% of the bempedoic acid group versus 15.4% of the placebo group. And there was also no difference in new cases of diabetes (16.1% vs. 17.1%).

Bempedoic acid was associated with small increases in the incidence of gout (3.1% vs. 2.1%) and cholelithiasis (2.2% vs. 1.2%), and also small increases in serum creatinine, uric acid, and hepatic enzyme levels.

In the NEJM article, the authors pointed out that the concept of statin intolerance remains controversial. Some recent studies suggested that reported adverse effects represent an anticipation of harm, often described as the “nocebo” effect.

“Whether real or perceived, statin intolerance remains a vexing clinical problem that can prevent patients who are guideline eligible for statin treatment from reaching LDL cholesterol levels associated with clinical benefits. Accordingly, alternative nonstatin therapies are needed to manage the LDL cholesterol level in these patients,” they wrote.

“Management of patients unable or unwilling to take statins represents a challenging and frustrating clinical issue. Regardless whether this problem represents the ‘nocebo’ effect or actual intolerance, these high-risk patients need effective alternative therapies,” Dr. Nissen concluded. “The CLEAR Outcomes trial provides a sound rationale for use of bempedoic acid to reduce major adverse cardiovascular outcomes in patients intolerant to statins.”
 

‘Compelling findings’

Discussing the trial at the ACC late-breaking clinical trial session, Michelle O’Donoghue, MD, Brigham and Women’s Hospital, Boston, noted that this is the largest trial to date in statin-intolerant patients.

She pointed out that although the issue of statin intolerance remains controversial, adherence to statins is often not good, so this is an important patient population to study.

She said it was “quite remarkable” that 48% of the study were women, adding: “There is still much that we need to understand about why women appear to be less willing or able to tolerate statin therapy.” 

Dr. O’Donoghue concluded that the study showed “compelling findings,” and the event reduction was in line with what would be expected from the LDL cholesterol reduction, further supporting the LDL cholesterol hypothesis. 

She added: “Bempedoic acid is an important addition to our arsenal of nonstatin LDL-lowering therapies. And while it was overall well tolerated, it did not get a complete free pass, as there were some modest safety concerns.”

In an editorial accompanying the NEJM publication, John Alexander, MD, Duke Clinical Research Institute, Durham, N.C., wrote: “The compelling results of the CLEAR Outcomes trial will and should increase the use of bempedoic acid in patients with established atherosclerotic vascular disease and in those at high risk for vascular disease who are unable or unwilling to take statins.”

He warned, however, that it is premature to consider bempedoic acid as an alternative to statins. “Given the overwhelming evidence of the vascular benefits of statins, clinicians should continue their efforts to prescribe them at the maximum tolerated doses for appropriate patients, including those who may have discontinued statins because of presumed side effects.”.

Dr. Alexander also pointed out that although bempedoic acid also reduces the LDL cholesterol level in patients taking statins, the clinical benefits of bempedoic acid added to standard statin therapy are unknown. 

On the observation that bempedoic acid had no observed effect on mortality, he noted that “Many individual trials of statins have also not shown an effect of the agent on mortality; it was only through the meta-analysis of multiple clinical trials that the effects of statins on mortality became clear.”

“Bempedoic acid has now entered the list of evidence-based alternatives to statins for primary and secondary prevention in patients at high cardiovascular risk,” Dr. Alexander concluded. “The benefits of bempedoic acid are now clearer, and it is now our responsibility to translate this information into better primary and secondary prevention for more at-risk patients, who will, as a result, benefit from fewer cardiovascular events.”

In a second editorial, John F. Keaney Jr., MD, Brigham and Women’s Hospital, said the lack of a clear association between bempedoic acid and muscle disorders, new-onset diabetes, or worsening hyperglycemia is “welcome news” for statin-intolerant patients.

But he cautioned that “these data must be interpreted cautiously, because bempedoic acid, when combined with a statin, appears to enhance the occurrence of muscle symptoms. Moreover, bempedoic acid has its own reported side effects, including tendon rupture, increased uric acid levels, gout, and reduced glomerular filtration rate, which are not seen with statin use.”

In terms of drug interactions, Dr. Keaney noted that bempedoic acid can increase the circulating levels of simvastatin and pravastatin, so it should not be used in patients who are receiving these agents at doses above 20 mg and 40 mg, respectively. Similarly, bempedoic acid should not be used with fibrates other than fenofibrate because of concerns regarding cholelithiasis.

“Available data clearly indicate that bempedoic acid can be used as an adjunct to statin and nonstatin therapies (except as noted above) to produce an additional 16%-26% reduction in the LDL cholesterol level,” he added. “However, it is not yet clear to what extent adjunctive bempedoic acid will further reduce the risk of cardiovascular events.”

The CLEAR Outcomes trial was supported by Esperion Therapeutics. Dr. Nissen reported receiving grants from AbbVie, AstraZeneca, Bristol-Myers Squibb, Eli Lilly, Esperion, Novartis, and Silence Pharmaceuticals and consultancies with Amgen and Glenmark Pharmaceuticals.

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

Increased public health and research efforts to optimize prepregnancy cardiovascular health are needed, particularly among those in under-represented racial and ethnic groups, according to a new scientific statement from the American Heart Association.

“We have released this statement at this time because there is a maternal health crisis in the U.S. with rising maternal morbidity and mortality rates, which are the highest among high-income countries,” chair of the scientific statement writing group, Sadiya S. Khan, MD, told this news organization.

Cardiovascular disease (CVD) is the leading cause of death during pregnancy and the postpartum period and represents 26.5% of pregnancy-related deaths, the statement reports.

“While there is a lot of emphasis in trying to reduce cardiovascular risk during the period of actual pregnancy, much of that risk has often already developed and the women have been living with it for some time, so interventions during pregnancy may be too late,” Dr. Khan, assistant professor of medicine and preventive medicine at Northwestern University, Chicago, said.

“We wanted to try and emphasize the importance of starting to reduce cardiovascular risk earlier before pregnancy. In terms of improving cardiovascular health, this should have benefits both for the mother and the child,” she added.

The statement, “Optimizing Prepregnancy Cardiovascular Health to Improve Outcomes in Pregnant and Postpartum Individuals and Offspring” was published online in a “Go Red For Women” spotlight issue of the AHA publication Circulation.

The statement notes that low levels of prepregnancy cardiovascular health are associated with several pregnancy complications, including hypertensive disorders of pregnancy, preterm birth, small-for-gestational-age birth, and gestational diabetes. Currently, nearly one in five births are complicated by such an adverse pregnancy outcome, and there is a strong association between these complications and risk for subsequent cardiovascular disease.
 

Prepregnancy window

Over the past decade, rates of adverse pregnancy outcomes have increased significantly in the United States, with a near doubling in rates of hypertensive disorders of pregnancy, and there are persistent disparities, with Black individuals significantly more likely to experience adverse pregnancy outcomes, the statement notes.

Emerging data suggest that these complications have, at least in part, prepregnancy origins. Thus, the prepregnancy period may be a critical window during which interventions have a great potential for benefit in both women and their offspring, it says.

The authors suggest a life-course approach to measure, modify, and monitor prepregnancy cardiovascular health, with all clinicians who interact with pregnancy-capable individuals emphasizing optimization of cardiovascular health beginning early in childhood.

“Leveraging these opportunities to target cardiovascular health has the potential to improve health across the life course and for subsequent generations,” they add.
 

Critical research gap

Despite the evidence linking an individual’s prepregnancy health to their offspring’s health, there are no large trials to test whether improving overall cardiovascular health before pregnancy will reduce pregnancy complications, pregnancy-related cardiovascular death, or cardiovascular risk for offspring. The statement authors suggest that such a trial should be considered.

“This would be a big undertaking, but it could be feasible and could be really impactful,” Dr. Khan said. “Of course it would be challenging to recruit women who are planning a pregnancy and to follow them to see if they do get pregnant and consider interventions and outcomes, but given the importance of the need, we think this is something that should be invested in.”

She pointed out that the main way to improve the cardiovascular health of this cohort would be through behavioral counseling on physical activity and diet. “We need to develop strategies tailored to this age group – young women and those who may already have young children – and often the last thing they are thinking about is themselves and their own health.”

She explained that while it is presumed that controlling cardiovascular risk factors will be beneficial, the bigger question is how that can be achieved. “Behavioral interventions are difficult to achieve and often have low adherence, so the focus of the trials should be on strategies on how to deliver behavioral counseling to achieve better cardiovascular health in this population.”

Dr. Khan stressed that any approaches to improving prepregnancy cardiovascular health must address the current racial disparities that are present. “We must make sure that our policies are successful not just in improving cardiovascular health but to ensure it is done equitably. We must find ways to ensure all individuals can access care.”

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

Increased public health and research efforts to optimize prepregnancy cardiovascular health are needed, particularly among those in under-represented racial and ethnic groups, according to a new scientific statement from the American Heart Association.

“We have released this statement at this time because there is a maternal health crisis in the U.S. with rising maternal morbidity and mortality rates, which are the highest among high-income countries,” chair of the scientific statement writing group, Sadiya S. Khan, MD, told this news organization.

Cardiovascular disease (CVD) is the leading cause of death during pregnancy and the postpartum period and represents 26.5% of pregnancy-related deaths, the statement reports.

“While there is a lot of emphasis in trying to reduce cardiovascular risk during the period of actual pregnancy, much of that risk has often already developed and the women have been living with it for some time, so interventions during pregnancy may be too late,” Dr. Khan, assistant professor of medicine and preventive medicine at Northwestern University, Chicago, said.

“We wanted to try and emphasize the importance of starting to reduce cardiovascular risk earlier before pregnancy. In terms of improving cardiovascular health, this should have benefits both for the mother and the child,” she added.

The statement, “Optimizing Prepregnancy Cardiovascular Health to Improve Outcomes in Pregnant and Postpartum Individuals and Offspring” was published online in a “Go Red For Women” spotlight issue of the AHA publication Circulation.

The statement notes that low levels of prepregnancy cardiovascular health are associated with several pregnancy complications, including hypertensive disorders of pregnancy, preterm birth, small-for-gestational-age birth, and gestational diabetes. Currently, nearly one in five births are complicated by such an adverse pregnancy outcome, and there is a strong association between these complications and risk for subsequent cardiovascular disease.
 

Prepregnancy window

Over the past decade, rates of adverse pregnancy outcomes have increased significantly in the United States, with a near doubling in rates of hypertensive disorders of pregnancy, and there are persistent disparities, with Black individuals significantly more likely to experience adverse pregnancy outcomes, the statement notes.

Emerging data suggest that these complications have, at least in part, prepregnancy origins. Thus, the prepregnancy period may be a critical window during which interventions have a great potential for benefit in both women and their offspring, it says.

The authors suggest a life-course approach to measure, modify, and monitor prepregnancy cardiovascular health, with all clinicians who interact with pregnancy-capable individuals emphasizing optimization of cardiovascular health beginning early in childhood.

“Leveraging these opportunities to target cardiovascular health has the potential to improve health across the life course and for subsequent generations,” they add.
 

Critical research gap

Despite the evidence linking an individual’s prepregnancy health to their offspring’s health, there are no large trials to test whether improving overall cardiovascular health before pregnancy will reduce pregnancy complications, pregnancy-related cardiovascular death, or cardiovascular risk for offspring. The statement authors suggest that such a trial should be considered.

“This would be a big undertaking, but it could be feasible and could be really impactful,” Dr. Khan said. “Of course it would be challenging to recruit women who are planning a pregnancy and to follow them to see if they do get pregnant and consider interventions and outcomes, but given the importance of the need, we think this is something that should be invested in.”

She pointed out that the main way to improve the cardiovascular health of this cohort would be through behavioral counseling on physical activity and diet. “We need to develop strategies tailored to this age group – young women and those who may already have young children – and often the last thing they are thinking about is themselves and their own health.”

She explained that while it is presumed that controlling cardiovascular risk factors will be beneficial, the bigger question is how that can be achieved. “Behavioral interventions are difficult to achieve and often have low adherence, so the focus of the trials should be on strategies on how to deliver behavioral counseling to achieve better cardiovascular health in this population.”

Dr. Khan stressed that any approaches to improving prepregnancy cardiovascular health must address the current racial disparities that are present. “We must make sure that our policies are successful not just in improving cardiovascular health but to ensure it is done equitably. We must find ways to ensure all individuals can access care.”

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

Increased public health and research efforts to optimize prepregnancy cardiovascular health are needed, particularly among those in under-represented racial and ethnic groups, according to a new scientific statement from the American Heart Association.

“We have released this statement at this time because there is a maternal health crisis in the U.S. with rising maternal morbidity and mortality rates, which are the highest among high-income countries,” chair of the scientific statement writing group, Sadiya S. Khan, MD, told this news organization.

Cardiovascular disease (CVD) is the leading cause of death during pregnancy and the postpartum period and represents 26.5% of pregnancy-related deaths, the statement reports.

“While there is a lot of emphasis in trying to reduce cardiovascular risk during the period of actual pregnancy, much of that risk has often already developed and the women have been living with it for some time, so interventions during pregnancy may be too late,” Dr. Khan, assistant professor of medicine and preventive medicine at Northwestern University, Chicago, said.

“We wanted to try and emphasize the importance of starting to reduce cardiovascular risk earlier before pregnancy. In terms of improving cardiovascular health, this should have benefits both for the mother and the child,” she added.

The statement, “Optimizing Prepregnancy Cardiovascular Health to Improve Outcomes in Pregnant and Postpartum Individuals and Offspring” was published online in a “Go Red For Women” spotlight issue of the AHA publication Circulation.

The statement notes that low levels of prepregnancy cardiovascular health are associated with several pregnancy complications, including hypertensive disorders of pregnancy, preterm birth, small-for-gestational-age birth, and gestational diabetes. Currently, nearly one in five births are complicated by such an adverse pregnancy outcome, and there is a strong association between these complications and risk for subsequent cardiovascular disease.
 

Prepregnancy window

Over the past decade, rates of adverse pregnancy outcomes have increased significantly in the United States, with a near doubling in rates of hypertensive disorders of pregnancy, and there are persistent disparities, with Black individuals significantly more likely to experience adverse pregnancy outcomes, the statement notes.

Emerging data suggest that these complications have, at least in part, prepregnancy origins. Thus, the prepregnancy period may be a critical window during which interventions have a great potential for benefit in both women and their offspring, it says.

The authors suggest a life-course approach to measure, modify, and monitor prepregnancy cardiovascular health, with all clinicians who interact with pregnancy-capable individuals emphasizing optimization of cardiovascular health beginning early in childhood.

“Leveraging these opportunities to target cardiovascular health has the potential to improve health across the life course and for subsequent generations,” they add.
 

Critical research gap

Despite the evidence linking an individual’s prepregnancy health to their offspring’s health, there are no large trials to test whether improving overall cardiovascular health before pregnancy will reduce pregnancy complications, pregnancy-related cardiovascular death, or cardiovascular risk for offspring. The statement authors suggest that such a trial should be considered.

“This would be a big undertaking, but it could be feasible and could be really impactful,” Dr. Khan said. “Of course it would be challenging to recruit women who are planning a pregnancy and to follow them to see if they do get pregnant and consider interventions and outcomes, but given the importance of the need, we think this is something that should be invested in.”

She pointed out that the main way to improve the cardiovascular health of this cohort would be through behavioral counseling on physical activity and diet. “We need to develop strategies tailored to this age group – young women and those who may already have young children – and often the last thing they are thinking about is themselves and their own health.”

She explained that while it is presumed that controlling cardiovascular risk factors will be beneficial, the bigger question is how that can be achieved. “Behavioral interventions are difficult to achieve and often have low adherence, so the focus of the trials should be on strategies on how to deliver behavioral counseling to achieve better cardiovascular health in this population.”

Dr. Khan stressed that any approaches to improving prepregnancy cardiovascular health must address the current racial disparities that are present. “We must make sure that our policies are successful not just in improving cardiovascular health but to ensure it is done equitably. We must find ways to ensure all individuals can access care.”

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

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

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

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

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

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

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

In the first study to examine how intermittent fasting combined with exercise impacts nonalcoholic fatty liver disease (NAFLD), the combined strategy was more effective than aerobic exercise alone or no intervention (control).

However, the combined approach did not give significantly added benefit, compared with fasting alone, the researchers report.

Eighty patients with NAFLD were randomized to one of four lifestyle strategies (alternate-day fasting, aerobic exercise, both, or neither) for 3 months.

The primary outcome was change in intrahepatic triglyceride (IHTG) content from baseline to study end, measured by magnetic resonance imaging proton density fat fraction.

The results suggest that “combining intermittent fasting with exercise is effective for reducing hepatic steatosis [fatty liver] in patients with NAFLD but may offer no additional benefit versus fasting alone,” Mark Ezpeleta, PhD, formerly at the University of Illinois, Chicago, and now at the University of Colorado Anschutz Medical Campus, and colleagues conclude.

“Our findings also indicate that the combination intervention was effective for reducing body weight, fat mass, waist circumference, [the liver enzyme alanine transaminase (ALT)], fasting insulin, [and] insulin resistance and increasing insulin sensitivity, among patients with obesity and NAFLD versus controls,” the group reports.  

“When we compared the results of our study groups, we saw clearly that the most improved patients were in the group that followed the alternate-day fasting diet and exercised 5 days a week,” senior author Krista A. Varady, PhD, professor of nutrition, University of Illinois, said in a press release from the university.

“The people who only dieted or only exercised did not see the same improvements,” she added, “which reinforces the importance of these two relatively inexpensive lifestyle modifications on overall health and on combating chronic diseases like fatty liver disease.”

Moreover, “alternate-day fasting and exercise interventions can be difficult for people to stick to, and in prior studies we have seen significant dropout,” she noted. “It was very interesting to see that in this trial we had very high adherence to the interventions.”

The study was recently published in Cell Metabolism.  

An estimated 65% of people with obesity have NAFLD, or fat in the liver that is not the result of excessive alcohol consumption, which is strongly related to the development of insulin resistance and type 2 diabetes, the group writes.

Thiazolidinediones such as pioglitazone reduce hepatic steatosis, but there is mounting concern about the weight-gaining effect of these compounds.

Recent attention has focused on lifestyle interventions to resolve hepatic steatosis, and previous trials showed that alternate-day fasting was effective for certain outcomes in NAFLD, but those studies did not measure changes in IHTG content or include an exercise intervention.

The researchers enrolled 80 adults with obesity and NAFLD and randomized them to one of four groups for 3 months:

• Alternate day fasting group: Participants were instructed to consume 600 kcal at dinner between 5 PM and 8 PM on a fasting day alternating with food as desired on a feasting day.
• Exercise group: A 60-minute moderate-intensity aerobic exercise session 5 times a week.
• Fasting plus exercise group.
• Control group (no intervention).

Participants were age 23-65 (mean age, 44) and 81% were women.

Half were Hispanic, and the rest were Black (30%), White (11%), or Asian (9%).

They had a mean weight of 99 kg (218 lb) and a mean body mass index of 36 kg/m².

Dropout rates were minimal in the combination group (0%) and fasting groups (5%) and moderately high in the exercise group (25%).

IHTG content was reduced by a significantly greater amount in the combination group (–5.48%) than in the exercise alone group (–1.30%; P = .02) or in the control group (–0.17%; P < .01) and by a greater amount than in the fasting alone group, although this was not significant (–2.25%; P = .05).

Lean mass, aspartate transaminase (AST), A1c, blood pressure, plasma lipids, liver fibrosis score, and hepatokines (fetuin-A, FGF-21, and selenoprotein P) did not differ between groups.

Researchers acknowledge that although the combination intervention resulted in improved NAFLD parameters, IHTG and ALT did not reach the normal range.  

Participants likely had early stage NAFLD (their baseline IHTG was in the 16% to 18% range, where 5% to 33% is mild steatosis) and they were likely highly motivated (indicated by the low dropout rate), so the findings may not be generalizable.

The study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health. Dr. Varady has reported receiving author fees from the Hachette Book Group for the book entitled “The Every Other Day Diet.” The other authors have reported no relevant financial relationships.

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

In the first study to examine how intermittent fasting combined with exercise impacts nonalcoholic fatty liver disease (NAFLD), the combined strategy was more effective than aerobic exercise alone or no intervention (control).

However, the combined approach did not give significantly added benefit, compared with fasting alone, the researchers report.

Eighty patients with NAFLD were randomized to one of four lifestyle strategies (alternate-day fasting, aerobic exercise, both, or neither) for 3 months.

The primary outcome was change in intrahepatic triglyceride (IHTG) content from baseline to study end, measured by magnetic resonance imaging proton density fat fraction.

The results suggest that “combining intermittent fasting with exercise is effective for reducing hepatic steatosis [fatty liver] in patients with NAFLD but may offer no additional benefit versus fasting alone,” Mark Ezpeleta, PhD, formerly at the University of Illinois, Chicago, and now at the University of Colorado Anschutz Medical Campus, and colleagues conclude.

“Our findings also indicate that the combination intervention was effective for reducing body weight, fat mass, waist circumference, [the liver enzyme alanine transaminase (ALT)], fasting insulin, [and] insulin resistance and increasing insulin sensitivity, among patients with obesity and NAFLD versus controls,” the group reports.  

“When we compared the results of our study groups, we saw clearly that the most improved patients were in the group that followed the alternate-day fasting diet and exercised 5 days a week,” senior author Krista A. Varady, PhD, professor of nutrition, University of Illinois, said in a press release from the university.

“The people who only dieted or only exercised did not see the same improvements,” she added, “which reinforces the importance of these two relatively inexpensive lifestyle modifications on overall health and on combating chronic diseases like fatty liver disease.”

Moreover, “alternate-day fasting and exercise interventions can be difficult for people to stick to, and in prior studies we have seen significant dropout,” she noted. “It was very interesting to see that in this trial we had very high adherence to the interventions.”

The study was recently published in Cell Metabolism.  

An estimated 65% of people with obesity have NAFLD, or fat in the liver that is not the result of excessive alcohol consumption, which is strongly related to the development of insulin resistance and type 2 diabetes, the group writes.

Thiazolidinediones such as pioglitazone reduce hepatic steatosis, but there is mounting concern about the weight-gaining effect of these compounds.

Recent attention has focused on lifestyle interventions to resolve hepatic steatosis, and previous trials showed that alternate-day fasting was effective for certain outcomes in NAFLD, but those studies did not measure changes in IHTG content or include an exercise intervention.

The researchers enrolled 80 adults with obesity and NAFLD and randomized them to one of four groups for 3 months:

• Alternate day fasting group: Participants were instructed to consume 600 kcal at dinner between 5 PM and 8 PM on a fasting day alternating with food as desired on a feasting day.
• Exercise group: A 60-minute moderate-intensity aerobic exercise session 5 times a week.
• Fasting plus exercise group.
• Control group (no intervention).

Participants were age 23-65 (mean age, 44) and 81% were women.

Half were Hispanic, and the rest were Black (30%), White (11%), or Asian (9%).

They had a mean weight of 99 kg (218 lb) and a mean body mass index of 36 kg/m².

Dropout rates were minimal in the combination group (0%) and fasting groups (5%) and moderately high in the exercise group (25%).

IHTG content was reduced by a significantly greater amount in the combination group (–5.48%) than in the exercise alone group (–1.30%; P = .02) or in the control group (–0.17%; P < .01) and by a greater amount than in the fasting alone group, although this was not significant (–2.25%; P = .05).

Lean mass, aspartate transaminase (AST), A1c, blood pressure, plasma lipids, liver fibrosis score, and hepatokines (fetuin-A, FGF-21, and selenoprotein P) did not differ between groups.

Researchers acknowledge that although the combination intervention resulted in improved NAFLD parameters, IHTG and ALT did not reach the normal range.  

Participants likely had early stage NAFLD (their baseline IHTG was in the 16% to 18% range, where 5% to 33% is mild steatosis) and they were likely highly motivated (indicated by the low dropout rate), so the findings may not be generalizable.

The study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health. Dr. Varady has reported receiving author fees from the Hachette Book Group for the book entitled “The Every Other Day Diet.” The other authors have reported no relevant financial relationships.

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

In the first study to examine how intermittent fasting combined with exercise impacts nonalcoholic fatty liver disease (NAFLD), the combined strategy was more effective than aerobic exercise alone or no intervention (control).

However, the combined approach did not give significantly added benefit, compared with fasting alone, the researchers report.

Eighty patients with NAFLD were randomized to one of four lifestyle strategies (alternate-day fasting, aerobic exercise, both, or neither) for 3 months.

The primary outcome was change in intrahepatic triglyceride (IHTG) content from baseline to study end, measured by magnetic resonance imaging proton density fat fraction.

The results suggest that “combining intermittent fasting with exercise is effective for reducing hepatic steatosis [fatty liver] in patients with NAFLD but may offer no additional benefit versus fasting alone,” Mark Ezpeleta, PhD, formerly at the University of Illinois, Chicago, and now at the University of Colorado Anschutz Medical Campus, and colleagues conclude.

“Our findings also indicate that the combination intervention was effective for reducing body weight, fat mass, waist circumference, [the liver enzyme alanine transaminase (ALT)], fasting insulin, [and] insulin resistance and increasing insulin sensitivity, among patients with obesity and NAFLD versus controls,” the group reports.  

“When we compared the results of our study groups, we saw clearly that the most improved patients were in the group that followed the alternate-day fasting diet and exercised 5 days a week,” senior author Krista A. Varady, PhD, professor of nutrition, University of Illinois, said in a press release from the university.

“The people who only dieted or only exercised did not see the same improvements,” she added, “which reinforces the importance of these two relatively inexpensive lifestyle modifications on overall health and on combating chronic diseases like fatty liver disease.”

Moreover, “alternate-day fasting and exercise interventions can be difficult for people to stick to, and in prior studies we have seen significant dropout,” she noted. “It was very interesting to see that in this trial we had very high adherence to the interventions.”

The study was recently published in Cell Metabolism.  

An estimated 65% of people with obesity have NAFLD, or fat in the liver that is not the result of excessive alcohol consumption, which is strongly related to the development of insulin resistance and type 2 diabetes, the group writes.

Thiazolidinediones such as pioglitazone reduce hepatic steatosis, but there is mounting concern about the weight-gaining effect of these compounds.

Recent attention has focused on lifestyle interventions to resolve hepatic steatosis, and previous trials showed that alternate-day fasting was effective for certain outcomes in NAFLD, but those studies did not measure changes in IHTG content or include an exercise intervention.

The researchers enrolled 80 adults with obesity and NAFLD and randomized them to one of four groups for 3 months:

• Alternate day fasting group: Participants were instructed to consume 600 kcal at dinner between 5 PM and 8 PM on a fasting day alternating with food as desired on a feasting day.
• Exercise group: A 60-minute moderate-intensity aerobic exercise session 5 times a week.
• Fasting plus exercise group.
• Control group (no intervention).

Participants were age 23-65 (mean age, 44) and 81% were women.

Half were Hispanic, and the rest were Black (30%), White (11%), or Asian (9%).

They had a mean weight of 99 kg (218 lb) and a mean body mass index of 36 kg/m².

Dropout rates were minimal in the combination group (0%) and fasting groups (5%) and moderately high in the exercise group (25%).

IHTG content was reduced by a significantly greater amount in the combination group (–5.48%) than in the exercise alone group (–1.30%; P = .02) or in the control group (–0.17%; P < .01) and by a greater amount than in the fasting alone group, although this was not significant (–2.25%; P = .05).

Lean mass, aspartate transaminase (AST), A1c, blood pressure, plasma lipids, liver fibrosis score, and hepatokines (fetuin-A, FGF-21, and selenoprotein P) did not differ between groups.

Researchers acknowledge that although the combination intervention resulted in improved NAFLD parameters, IHTG and ALT did not reach the normal range.  

Participants likely had early stage NAFLD (their baseline IHTG was in the 16% to 18% range, where 5% to 33% is mild steatosis) and they were likely highly motivated (indicated by the low dropout rate), so the findings may not be generalizable.

The study was funded by the National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health. Dr. Varady has reported receiving author fees from the Hachette Book Group for the book entitled “The Every Other Day Diet.” The other authors have reported no relevant financial relationships.

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

A new meta-analysis has added evidence questioning the utility and efficacy of prophylactic low-dose aspirin for preventing cardiovascular events in people who don’t have atherosclerotic cardiovascular disease (ASCVD), whether or not they’re also taking statins, and finds that at every level of ASCVD risk the aspirin carries a risk of major bleeding that exceeds its potentially protective benefits.

In a study published online in JACC: Advances, the researchers, led by Safi U. Khan, MD, MS, analyzed data from 16 trials with 171,215 individuals, with a median age of 64 years. Of the population analyzed, 35% were taking statins.

“This study focused on patients without ASCVD who are taking aspirin with or without statin therapy to prevent ASCVD events,” Dr. Khan, a cardiovascular disease fellow at Houston Methodist DeBakey Heart and Vascular Institute, told this news organization. “We noted that the absolute risk of major bleeding in this patient population exceeds the absolute reduction in MI by aspirin across different ASCVD risk categories. Furthermore, concomitant statin therapy use further diminishes aspirin’s cardiovascular effects without influencing bleeding risk.”

Across the 16 studies, people taking aspirin had a relative risk reduction of 15% for MI vs. controls (RR .85; 95% confidence interval [CI], .77 to .95; P < .001). However, they had a 48% greater risk of major bleeding (RR, 1.48; 95% CI, 1.31-1.66; P < .001).

The meta-analysis also found that aspirin, either as monotherapy or with a statin, carried a slight to significant benefit depending on the estimated risk of developing ASCVD. The risk of major bleeding exceeded the benefit across all three risk-stratified groups. The greatest benefit, and greatest risk, was in the groups with high to very-high ASCVD risk groups, defined as a 20%-30% and 30% or greater ASCVD risk, respectively: 20-37 fewer MIs per 10,000 with monotherapy and 27-49 fewer with statin, but 78-98 more major bleeding events with monotherapy and 74-95 more with statin.

And aspirin, either as monotherapy or with statin, didn’t reduce the risk of other key endpoints: stroke, all-cause mortality, or cardiovascular mortality. While aspirin was associated with a lower risk of nonfatal MI (RR, .82; 95% CI, .72 to .94; P ≤. 001), it  wasn’t associated with reducing the risk of nonfatal stroke. Aspirin patients had a significantly 32% greater risk of intracranial hemorrhage (RR, 1.32; 95% CI, 1.12-1.55; P ≤ .001) and 51% increased risk of gastrointestinal bleeding (RR, 1.51; 95% CI, 1.33-1.72; P ≤ .001).

“We used randomized data from all key primary prevention of aspirin trials and estimated the absolute effects of aspirin therapy with or without concomitant statin across different baseline risks of the patients,” Dr. Khan said. “This approach allowed us to identify aspirin therapy’s risk-benefit equilibrium, which is tilted towards more harm than benefit.”

He acknowledged study limitations included using study-level rather than patient-level meta-analysis, and the inability to calculate effects in younger populations at high absolute risk.  

The investigators acknowledged the controversy surrounding aspirin use to prevent ASCVD, noting the three major guidelines: the 2019 American College of Cardiology/American Heart Association and the 2021 European Society of Cardiology guidelines for aspirin only among asymptomatic individuals with high risk of ASCVD events, low bleeding risk, and age 70 years and younger; and the United States Preventive Services Task Force guidelines, updated in 2022, recommending individualized low-dose aspirin only among adults ages 40-59 years with 10-year ASCVD risk of 10% or greater and a low bleeding risk.

The findings are not a clarion call to halt aspirin therapy, Dr. Khan said. “This research focuses only on patients who do not have ASCVD,” he said. “Patients who do have ASCVD should continue with aspirin and statin therapy. However, we noted that aspirin has a limited role for patients who do not have ASCVD beyond lifestyle modifications, smoking cessation, exercise, and preventive statin therapy. Therefore, they should only consider using aspirin if their physicians suggest that the risk of having a cardiovascular event exceeds their bleeding risk. Otherwise, they should discuss with their physicians about omitting aspirin.”

The study confirms the move away from low-dose aspirin to prevent ASCVD, said Tahmid Rahman, MD, cardiologist and associate director of the Center for Advanced Lipid Management at Stony Brook (N.Y.) Heart Institute. “The study really continues to add to essentially what we already know,” he said. “There was a big push that aspirin, initially before the major statin trials, was the way to go to prevent heart disease, but with later studies, and especially now with newer antiplatelet therapies and longer duration of medication for people with both secondary prevention and primary prevention, we are getting away from routine aspirin, especially in primary prevention.”

A new meta-analysis has added evidence questioning the utility and efficacy of prophylactic low-dose aspirin for preventing cardiovascular events in people who don’t have atherosclerotic cardiovascular disease (ASCVD), whether or not they’re also taking statins, and finds that at every level of ASCVD risk the aspirin carries a risk of major bleeding that exceeds its potentially protective benefits.

In a study published online in JACC: Advances, the researchers, led by Safi U. Khan, MD, MS, analyzed data from 16 trials with 171,215 individuals, with a median age of 64 years. Of the population analyzed, 35% were taking statins.

“This study focused on patients without ASCVD who are taking aspirin with or without statin therapy to prevent ASCVD events,” Dr. Khan, a cardiovascular disease fellow at Houston Methodist DeBakey Heart and Vascular Institute, told this news organization. “We noted that the absolute risk of major bleeding in this patient population exceeds the absolute reduction in MI by aspirin across different ASCVD risk categories. Furthermore, concomitant statin therapy use further diminishes aspirin’s cardiovascular effects without influencing bleeding risk.”

Across the 16 studies, people taking aspirin had a relative risk reduction of 15% for MI vs. controls (RR .85; 95% confidence interval [CI], .77 to .95; P < .001). However, they had a 48% greater risk of major bleeding (RR, 1.48; 95% CI, 1.31-1.66; P < .001).

The meta-analysis also found that aspirin, either as monotherapy or with a statin, carried a slight to significant benefit depending on the estimated risk of developing ASCVD. The risk of major bleeding exceeded the benefit across all three risk-stratified groups. The greatest benefit, and greatest risk, was in the groups with high to very-high ASCVD risk groups, defined as a 20%-30% and 30% or greater ASCVD risk, respectively: 20-37 fewer MIs per 10,000 with monotherapy and 27-49 fewer with statin, but 78-98 more major bleeding events with monotherapy and 74-95 more with statin.

And aspirin, either as monotherapy or with statin, didn’t reduce the risk of other key endpoints: stroke, all-cause mortality, or cardiovascular mortality. While aspirin was associated with a lower risk of nonfatal MI (RR, .82; 95% CI, .72 to .94; P ≤. 001), it  wasn’t associated with reducing the risk of nonfatal stroke. Aspirin patients had a significantly 32% greater risk of intracranial hemorrhage (RR, 1.32; 95% CI, 1.12-1.55; P ≤ .001) and 51% increased risk of gastrointestinal bleeding (RR, 1.51; 95% CI, 1.33-1.72; P ≤ .001).

“We used randomized data from all key primary prevention of aspirin trials and estimated the absolute effects of aspirin therapy with or without concomitant statin across different baseline risks of the patients,” Dr. Khan said. “This approach allowed us to identify aspirin therapy’s risk-benefit equilibrium, which is tilted towards more harm than benefit.”

He acknowledged study limitations included using study-level rather than patient-level meta-analysis, and the inability to calculate effects in younger populations at high absolute risk.  

The investigators acknowledged the controversy surrounding aspirin use to prevent ASCVD, noting the three major guidelines: the 2019 American College of Cardiology/American Heart Association and the 2021 European Society of Cardiology guidelines for aspirin only among asymptomatic individuals with high risk of ASCVD events, low bleeding risk, and age 70 years and younger; and the United States Preventive Services Task Force guidelines, updated in 2022, recommending individualized low-dose aspirin only among adults ages 40-59 years with 10-year ASCVD risk of 10% or greater and a low bleeding risk.

The findings are not a clarion call to halt aspirin therapy, Dr. Khan said. “This research focuses only on patients who do not have ASCVD,” he said. “Patients who do have ASCVD should continue with aspirin and statin therapy. However, we noted that aspirin has a limited role for patients who do not have ASCVD beyond lifestyle modifications, smoking cessation, exercise, and preventive statin therapy. Therefore, they should only consider using aspirin if their physicians suggest that the risk of having a cardiovascular event exceeds their bleeding risk. Otherwise, they should discuss with their physicians about omitting aspirin.”

The study confirms the move away from low-dose aspirin to prevent ASCVD, said Tahmid Rahman, MD, cardiologist and associate director of the Center for Advanced Lipid Management at Stony Brook (N.Y.) Heart Institute. “The study really continues to add to essentially what we already know,” he said. “There was a big push that aspirin, initially before the major statin trials, was the way to go to prevent heart disease, but with later studies, and especially now with newer antiplatelet therapies and longer duration of medication for people with both secondary prevention and primary prevention, we are getting away from routine aspirin, especially in primary prevention.”

A new meta-analysis has added evidence questioning the utility and efficacy of prophylactic low-dose aspirin for preventing cardiovascular events in people who don’t have atherosclerotic cardiovascular disease (ASCVD), whether or not they’re also taking statins, and finds that at every level of ASCVD risk the aspirin carries a risk of major bleeding that exceeds its potentially protective benefits.

In a study published online in JACC: Advances, the researchers, led by Safi U. Khan, MD, MS, analyzed data from 16 trials with 171,215 individuals, with a median age of 64 years. Of the population analyzed, 35% were taking statins.

“This study focused on patients without ASCVD who are taking aspirin with or without statin therapy to prevent ASCVD events,” Dr. Khan, a cardiovascular disease fellow at Houston Methodist DeBakey Heart and Vascular Institute, told this news organization. “We noted that the absolute risk of major bleeding in this patient population exceeds the absolute reduction in MI by aspirin across different ASCVD risk categories. Furthermore, concomitant statin therapy use further diminishes aspirin’s cardiovascular effects without influencing bleeding risk.”

Across the 16 studies, people taking aspirin had a relative risk reduction of 15% for MI vs. controls (RR .85; 95% confidence interval [CI], .77 to .95; P < .001). However, they had a 48% greater risk of major bleeding (RR, 1.48; 95% CI, 1.31-1.66; P < .001).

The meta-analysis also found that aspirin, either as monotherapy or with a statin, carried a slight to significant benefit depending on the estimated risk of developing ASCVD. The risk of major bleeding exceeded the benefit across all three risk-stratified groups. The greatest benefit, and greatest risk, was in the groups with high to very-high ASCVD risk groups, defined as a 20%-30% and 30% or greater ASCVD risk, respectively: 20-37 fewer MIs per 10,000 with monotherapy and 27-49 fewer with statin, but 78-98 more major bleeding events with monotherapy and 74-95 more with statin.

And aspirin, either as monotherapy or with statin, didn’t reduce the risk of other key endpoints: stroke, all-cause mortality, or cardiovascular mortality. While aspirin was associated with a lower risk of nonfatal MI (RR, .82; 95% CI, .72 to .94; P ≤. 001), it  wasn’t associated with reducing the risk of nonfatal stroke. Aspirin patients had a significantly 32% greater risk of intracranial hemorrhage (RR, 1.32; 95% CI, 1.12-1.55; P ≤ .001) and 51% increased risk of gastrointestinal bleeding (RR, 1.51; 95% CI, 1.33-1.72; P ≤ .001).

“We used randomized data from all key primary prevention of aspirin trials and estimated the absolute effects of aspirin therapy with or without concomitant statin across different baseline risks of the patients,” Dr. Khan said. “This approach allowed us to identify aspirin therapy’s risk-benefit equilibrium, which is tilted towards more harm than benefit.”

He acknowledged study limitations included using study-level rather than patient-level meta-analysis, and the inability to calculate effects in younger populations at high absolute risk.  

The investigators acknowledged the controversy surrounding aspirin use to prevent ASCVD, noting the three major guidelines: the 2019 American College of Cardiology/American Heart Association and the 2021 European Society of Cardiology guidelines for aspirin only among asymptomatic individuals with high risk of ASCVD events, low bleeding risk, and age 70 years and younger; and the United States Preventive Services Task Force guidelines, updated in 2022, recommending individualized low-dose aspirin only among adults ages 40-59 years with 10-year ASCVD risk of 10% or greater and a low bleeding risk.

The findings are not a clarion call to halt aspirin therapy, Dr. Khan said. “This research focuses only on patients who do not have ASCVD,” he said. “Patients who do have ASCVD should continue with aspirin and statin therapy. However, we noted that aspirin has a limited role for patients who do not have ASCVD beyond lifestyle modifications, smoking cessation, exercise, and preventive statin therapy. Therefore, they should only consider using aspirin if their physicians suggest that the risk of having a cardiovascular event exceeds their bleeding risk. Otherwise, they should discuss with their physicians about omitting aspirin.”

The study confirms the move away from low-dose aspirin to prevent ASCVD, said Tahmid Rahman, MD, cardiologist and associate director of the Center for Advanced Lipid Management at Stony Brook (N.Y.) Heart Institute. “The study really continues to add to essentially what we already know,” he said. “There was a big push that aspirin, initially before the major statin trials, was the way to go to prevent heart disease, but with later studies, and especially now with newer antiplatelet therapies and longer duration of medication for people with both secondary prevention and primary prevention, we are getting away from routine aspirin, especially in primary prevention.”