Interventional Cardiology & Surgery

Boston Scientific said it is voluntarily recalling all unused inventory of the Lotus Edge transcatheter aortic valve replacement system effective immediately.

In making the announcement today, Boston Scientific chair and CEO Mike Mahoney said the company has been increasingly challenged by the intricacies of the delivery system required to allow physicians to fully reposition and recapture the valve – key features of the system.

“The complexity of the delivery system, manufacturing challenges, the continued need for further technical enhancements, and current market adoption rates led us to the difficult decision to stop investing in the Lotus Edge platform,” Mr. Mahoney said.

Instead, the company will focus on the ACURATE neo2 aortic valve system, the Sentinel cerebral embolic protection device, and other high-growth areas, he noted.

The decision is expected to result in a $225 million to $300 million pretax charge, with $100 million to $150 million of these charges to impact the company’s adjusted results.

The Lotus device was approved in the United States in April 2019 for use in patients with severe aortic stenosis at high surgical risk based on the REPRISE 3 trial.

The Lotus Edge valve was approved in Europe in 2016, but final testing and rollout of the valve in the United States were delayed following a 2017 global recall of all Lotus valves because of reports of premature release of a pin connecting the valve to the delivery system.

Issues with the delivery system led to other Lotus valve recalls in both 2016 and 2014.

“Given the additional time and investment required to develop and reintroduce an enhanced delivery system, the company has chosen to retire the entire Lotus product platform immediately. All related commercial, clinical, research & development and manufacturing activities will also cease,” the statement said.

There is no safety issue for patients who currently have an implanted Lotus Edge valve, the company said.

This article first appeared on Medscape.com.

Boston Scientific said it is voluntarily recalling all unused inventory of the Lotus Edge transcatheter aortic valve replacement system effective immediately.

In making the announcement today, Boston Scientific chair and CEO Mike Mahoney said the company has been increasingly challenged by the intricacies of the delivery system required to allow physicians to fully reposition and recapture the valve – key features of the system.

“The complexity of the delivery system, manufacturing challenges, the continued need for further technical enhancements, and current market adoption rates led us to the difficult decision to stop investing in the Lotus Edge platform,” Mr. Mahoney said.

Instead, the company will focus on the ACURATE neo2 aortic valve system, the Sentinel cerebral embolic protection device, and other high-growth areas, he noted.

The decision is expected to result in a $225 million to $300 million pretax charge, with $100 million to $150 million of these charges to impact the company’s adjusted results.

The Lotus device was approved in the United States in April 2019 for use in patients with severe aortic stenosis at high surgical risk based on the REPRISE 3 trial.

The Lotus Edge valve was approved in Europe in 2016, but final testing and rollout of the valve in the United States were delayed following a 2017 global recall of all Lotus valves because of reports of premature release of a pin connecting the valve to the delivery system.

Issues with the delivery system led to other Lotus valve recalls in both 2016 and 2014.

“Given the additional time and investment required to develop and reintroduce an enhanced delivery system, the company has chosen to retire the entire Lotus product platform immediately. All related commercial, clinical, research & development and manufacturing activities will also cease,” the statement said.

There is no safety issue for patients who currently have an implanted Lotus Edge valve, the company said.

This article first appeared on Medscape.com.

Boston Scientific said it is voluntarily recalling all unused inventory of the Lotus Edge transcatheter aortic valve replacement system effective immediately.

In making the announcement today, Boston Scientific chair and CEO Mike Mahoney said the company has been increasingly challenged by the intricacies of the delivery system required to allow physicians to fully reposition and recapture the valve – key features of the system.

“The complexity of the delivery system, manufacturing challenges, the continued need for further technical enhancements, and current market adoption rates led us to the difficult decision to stop investing in the Lotus Edge platform,” Mr. Mahoney said.

Instead, the company will focus on the ACURATE neo2 aortic valve system, the Sentinel cerebral embolic protection device, and other high-growth areas, he noted.

The decision is expected to result in a $225 million to $300 million pretax charge, with $100 million to $150 million of these charges to impact the company’s adjusted results.

The Lotus device was approved in the United States in April 2019 for use in patients with severe aortic stenosis at high surgical risk based on the REPRISE 3 trial.

The Lotus Edge valve was approved in Europe in 2016, but final testing and rollout of the valve in the United States were delayed following a 2017 global recall of all Lotus valves because of reports of premature release of a pin connecting the valve to the delivery system.

Issues with the delivery system led to other Lotus valve recalls in both 2016 and 2014.

“Given the additional time and investment required to develop and reintroduce an enhanced delivery system, the company has chosen to retire the entire Lotus product platform immediately. All related commercial, clinical, research & development and manufacturing activities will also cease,” the statement said.

There is no safety issue for patients who currently have an implanted Lotus Edge valve, the company said.

This article first appeared on Medscape.com.

One in five patients at elevated stroke risk who underwent cardiac surgery with no history of atrial fibrillation preoperatively or at discharge developed postoperative AFib documented on a continuous cardiac rhythm monitoring device within the first 30 days after leaving the hospital in the randomized SEARCH-AF trial.

“Postoperative atrial fibrillation after cardiac surgery is not confined to the hospitalization period per se. We believe that these data should help inform on clinical practice guidelines on monitoring for postoperative atrial fibrillation in such patients,” said Subodh Verma, MD, PhD, reporting the results at the virtual American Heart Association scientific sessions.

“Guidelines provide little or no direction on optimal monitoring post cardiac surgery, particularly if patients are in sinus rhythm at discharge,” the surgeon noted.

SEARCH-AF was an open-label, multicenter study that included 336 patients at elevated stroke risk with an average CHA₂DS₂-VASc score of 4, no history of preoperative AFib, and none more than briefly with resolution during hospitalization. They were randomized to 30 days of postdischarge continuous cardiac rhythm monitoring with Medtronic’s SEEQ device, to Icentia’s CardioSTAT device, or to usual care, with Holter monitoring at the discretion of the treating physicians.

The primary result was a cumulative duration of AFib or atrial flutter of 6 minutes or longer during that 30-day period. This outcome occurred in 19.6% of the enhanced cardiac monitoring group and 1.7% of usual-care controls. Thus, there is an ongoing persistent occult risk of AFib that typically goes unrecognized. This 10-fold difference in the incidence of postoperative AFib translated into an absolute 17.9% between-group difference and a number-needed-to-treat of 6.

The secondary outcome of a cumulative atrial fib/flutter burden of 6 hours or more during 30 days occurred in 8.6% of the continuously monitored group and none of the controls. A cumulative AFib/flutter burden of 24 hours or greater occurred in 3.1% of the enhanced cardiac monitoring group and zero controls. These are AFib burdens that in other studies have been linked to increased risks of stroke and death, said Dr. Verma, professor of cardiovascular surgery at the University of Toronto.

“From a clinical standpoint, what this trial tells me is for my patients being discharged home tomorrow from the hospital, where they haven’t had AFib and I haven’t initiated anticoagulation, I have a low threshold to monitor these patients and to watch for periods of sustained unrecognized atrial fibrillation,” the surgeon added.
 

Experts: Results won’t change guidelines

Discussant Ben Freedman, MBBS, PhD, noted that the U.S. Preventive Services Task Force has stated that there are insufficient data available to recommend ECG screening for AFib to prevent stroke. Before the task force can be convinced to recommend it and for payers to cover it, a number of key questions need to be answered. And the SEARCH-AF trial doesn’t provide those answers, said Dr. Freedman, professor of cardiology and deputy director of the Heart Research Institute at the University of Sydney.

First off, it’ll be necessary to know if the risk posed by screen-detected AFib, including postoperative AFib, is similar to that of clinical AFib. Next, it must be shown that this screen-detected postoperative AFib is actionable; that is, that a screening strategy to detect postoperative AFib arising after discharge and then treat with oral anticoagulants will actually prevent more strokes than with usual care. There are large studies underway addressing that question, including HEARTLINE, STROKESTOP, and SAFERGUARD-AF, he observed.

In an interview, Rod S. Passman, MD, who gave a state-of-the-art talk on AFib detection at the meeting and wasn’t involved in SEARCH-AF, said he doesn’t consider the results practice-changing.

“It’s not guideline-changing because you’ve only shown that more intensive monitoring finds more AFib. Guideline-changing would be that finding that AFib and doing something about it impacts hard outcomes, and we don’t have that data yet,” said Dr. Passman, an electrophysiologist who is director of the Center for Arrhythmia Research and professor of medicine and preventive medicine at Northwestern University, Chicago.

The SEARCH-AF trial was funded by the Heart and Stroke Foundation of Canada, Bristol Myers Squibb, Pfizer, and Boehringer Ingelheim. Dr. Verma reported having received speaker’s fees and/or research support from those and other pharmaceutical companies. Dr. Freedman disclosed having no financial conflicts.

[email protected]

One in five patients at elevated stroke risk who underwent cardiac surgery with no history of atrial fibrillation preoperatively or at discharge developed postoperative AFib documented on a continuous cardiac rhythm monitoring device within the first 30 days after leaving the hospital in the randomized SEARCH-AF trial.

“Postoperative atrial fibrillation after cardiac surgery is not confined to the hospitalization period per se. We believe that these data should help inform on clinical practice guidelines on monitoring for postoperative atrial fibrillation in such patients,” said Subodh Verma, MD, PhD, reporting the results at the virtual American Heart Association scientific sessions.

“Guidelines provide little or no direction on optimal monitoring post cardiac surgery, particularly if patients are in sinus rhythm at discharge,” the surgeon noted.

SEARCH-AF was an open-label, multicenter study that included 336 patients at elevated stroke risk with an average CHA₂DS₂-VASc score of 4, no history of preoperative AFib, and none more than briefly with resolution during hospitalization. They were randomized to 30 days of postdischarge continuous cardiac rhythm monitoring with Medtronic’s SEEQ device, to Icentia’s CardioSTAT device, or to usual care, with Holter monitoring at the discretion of the treating physicians.

The primary result was a cumulative duration of AFib or atrial flutter of 6 minutes or longer during that 30-day period. This outcome occurred in 19.6% of the enhanced cardiac monitoring group and 1.7% of usual-care controls. Thus, there is an ongoing persistent occult risk of AFib that typically goes unrecognized. This 10-fold difference in the incidence of postoperative AFib translated into an absolute 17.9% between-group difference and a number-needed-to-treat of 6.

The secondary outcome of a cumulative atrial fib/flutter burden of 6 hours or more during 30 days occurred in 8.6% of the continuously monitored group and none of the controls. A cumulative AFib/flutter burden of 24 hours or greater occurred in 3.1% of the enhanced cardiac monitoring group and zero controls. These are AFib burdens that in other studies have been linked to increased risks of stroke and death, said Dr. Verma, professor of cardiovascular surgery at the University of Toronto.

“From a clinical standpoint, what this trial tells me is for my patients being discharged home tomorrow from the hospital, where they haven’t had AFib and I haven’t initiated anticoagulation, I have a low threshold to monitor these patients and to watch for periods of sustained unrecognized atrial fibrillation,” the surgeon added.
 

Experts: Results won’t change guidelines

Discussant Ben Freedman, MBBS, PhD, noted that the U.S. Preventive Services Task Force has stated that there are insufficient data available to recommend ECG screening for AFib to prevent stroke. Before the task force can be convinced to recommend it and for payers to cover it, a number of key questions need to be answered. And the SEARCH-AF trial doesn’t provide those answers, said Dr. Freedman, professor of cardiology and deputy director of the Heart Research Institute at the University of Sydney.

First off, it’ll be necessary to know if the risk posed by screen-detected AFib, including postoperative AFib, is similar to that of clinical AFib. Next, it must be shown that this screen-detected postoperative AFib is actionable; that is, that a screening strategy to detect postoperative AFib arising after discharge and then treat with oral anticoagulants will actually prevent more strokes than with usual care. There are large studies underway addressing that question, including HEARTLINE, STROKESTOP, and SAFERGUARD-AF, he observed.

In an interview, Rod S. Passman, MD, who gave a state-of-the-art talk on AFib detection at the meeting and wasn’t involved in SEARCH-AF, said he doesn’t consider the results practice-changing.

“It’s not guideline-changing because you’ve only shown that more intensive monitoring finds more AFib. Guideline-changing would be that finding that AFib and doing something about it impacts hard outcomes, and we don’t have that data yet,” said Dr. Passman, an electrophysiologist who is director of the Center for Arrhythmia Research and professor of medicine and preventive medicine at Northwestern University, Chicago.

The SEARCH-AF trial was funded by the Heart and Stroke Foundation of Canada, Bristol Myers Squibb, Pfizer, and Boehringer Ingelheim. Dr. Verma reported having received speaker’s fees and/or research support from those and other pharmaceutical companies. Dr. Freedman disclosed having no financial conflicts.

[email protected]

One in five patients at elevated stroke risk who underwent cardiac surgery with no history of atrial fibrillation preoperatively or at discharge developed postoperative AFib documented on a continuous cardiac rhythm monitoring device within the first 30 days after leaving the hospital in the randomized SEARCH-AF trial.

“Postoperative atrial fibrillation after cardiac surgery is not confined to the hospitalization period per se. We believe that these data should help inform on clinical practice guidelines on monitoring for postoperative atrial fibrillation in such patients,” said Subodh Verma, MD, PhD, reporting the results at the virtual American Heart Association scientific sessions.

“Guidelines provide little or no direction on optimal monitoring post cardiac surgery, particularly if patients are in sinus rhythm at discharge,” the surgeon noted.

SEARCH-AF was an open-label, multicenter study that included 336 patients at elevated stroke risk with an average CHA₂DS₂-VASc score of 4, no history of preoperative AFib, and none more than briefly with resolution during hospitalization. They were randomized to 30 days of postdischarge continuous cardiac rhythm monitoring with Medtronic’s SEEQ device, to Icentia’s CardioSTAT device, or to usual care, with Holter monitoring at the discretion of the treating physicians.

The primary result was a cumulative duration of AFib or atrial flutter of 6 minutes or longer during that 30-day period. This outcome occurred in 19.6% of the enhanced cardiac monitoring group and 1.7% of usual-care controls. Thus, there is an ongoing persistent occult risk of AFib that typically goes unrecognized. This 10-fold difference in the incidence of postoperative AFib translated into an absolute 17.9% between-group difference and a number-needed-to-treat of 6.

The secondary outcome of a cumulative atrial fib/flutter burden of 6 hours or more during 30 days occurred in 8.6% of the continuously monitored group and none of the controls. A cumulative AFib/flutter burden of 24 hours or greater occurred in 3.1% of the enhanced cardiac monitoring group and zero controls. These are AFib burdens that in other studies have been linked to increased risks of stroke and death, said Dr. Verma, professor of cardiovascular surgery at the University of Toronto.

“From a clinical standpoint, what this trial tells me is for my patients being discharged home tomorrow from the hospital, where they haven’t had AFib and I haven’t initiated anticoagulation, I have a low threshold to monitor these patients and to watch for periods of sustained unrecognized atrial fibrillation,” the surgeon added.
 

Experts: Results won’t change guidelines

Discussant Ben Freedman, MBBS, PhD, noted that the U.S. Preventive Services Task Force has stated that there are insufficient data available to recommend ECG screening for AFib to prevent stroke. Before the task force can be convinced to recommend it and for payers to cover it, a number of key questions need to be answered. And the SEARCH-AF trial doesn’t provide those answers, said Dr. Freedman, professor of cardiology and deputy director of the Heart Research Institute at the University of Sydney.

First off, it’ll be necessary to know if the risk posed by screen-detected AFib, including postoperative AFib, is similar to that of clinical AFib. Next, it must be shown that this screen-detected postoperative AFib is actionable; that is, that a screening strategy to detect postoperative AFib arising after discharge and then treat with oral anticoagulants will actually prevent more strokes than with usual care. There are large studies underway addressing that question, including HEARTLINE, STROKESTOP, and SAFERGUARD-AF, he observed.

In an interview, Rod S. Passman, MD, who gave a state-of-the-art talk on AFib detection at the meeting and wasn’t involved in SEARCH-AF, said he doesn’t consider the results practice-changing.

“It’s not guideline-changing because you’ve only shown that more intensive monitoring finds more AFib. Guideline-changing would be that finding that AFib and doing something about it impacts hard outcomes, and we don’t have that data yet,” said Dr. Passman, an electrophysiologist who is director of the Center for Arrhythmia Research and professor of medicine and preventive medicine at Northwestern University, Chicago.

The SEARCH-AF trial was funded by the Heart and Stroke Foundation of Canada, Bristol Myers Squibb, Pfizer, and Boehringer Ingelheim. Dr. Verma reported having received speaker’s fees and/or research support from those and other pharmaceutical companies. Dr. Freedman disclosed having no financial conflicts.

[email protected]

Ticagrelor failed to unseat clopidogrel as the guideline-recommended P2Y12 inhibitor of choice in patients undergoing elective percutaneous coronary intervention for stable CAD in the randomized ALPHEUS trial.

“The higher level of platelet inhibition obtained with ticagrelor does not translate into a reduction of periprocedural MI or myocardial injury within 48 hours of high-risk PCI performed in stable coronary patients,” reported Johanne Silvain, MD, PhD, professor of cardiology at the Sorbonne University and director of the ICU at Pitie-Salpetriere Hospital, Paris, at the virtual American Heart Association scientific sessions.

American Heart Association

Myonecrosis hypothesis falls flat

The primary endpoint was the occurrence of major myocardial injury, defined as a periprocedural troponin elevated greater than 5 times the upper limit of normal within 48 hours of PCI; type 4a MI, defined as major myocardial injury plus signs or symptoms of ischemia; or stent thrombosis.

The rates were closely similar: 35.5% with ticagrelor, 36.2% with clopidogrel. The bulk of events consisted of major myocardial injury, with an incidence of 26.7% in the ticagrelor group and 27.7% with clopidogrel. Stent thrombosis occurred in 0.3% of patients in each group. Type 4a MI occurred in 8.5% of the ticagrelor group and 8.2% of patients on clopidogrel.

The study hypothesis was that a substantial portion of periprocedural myonecrosis may be thrombotic in nature, and that a stronger P2Y12 inhibitor could reduce the occurrence of these mini-infarcts and thus provide patient benefit. But the hypothesis was not borne out.

“We don’t know if these events are a risk factor or just a marker of risk,” Dr. Silvain said.

There were no between-group differences in major bleeding events at 48 hours or 30 days. However, the rate of nuisance or minor bleeding at 30 days was 11.2% in the ticagrelor arm, significantly higher than the 7.5% incidence with clopidogrel. Moreover, dyspnea occurred in 11.2% of patients on ticagrelor, compared to 0.2% with clopidogrel. Study drug discontinuation was more frequent in the ticagrelor arm: 2.2%, versus 0.4%.

Dr. Silvain also presented a pooled analysis of the 1,883 patients in ALPHEUS plus 781 from the similarly designed SASSICAIA trial, which compared prasugrel (Effient) to clopidogrel. Neither of the more potent P2Y12 inhibitors showed superiority over clopidogrel.

American Heart Association

Discussant Stephen D. Wiviott, MD, summed things up: “With no evidence for ischemic benefit and higher rates of low-severity bleeding, this trial does not support the use of more potent P2Y12 antagonists for elective PCI. Based on these results, and consistent with SASSICAIA, aspirin with clopidogrel should remain the standard of care in this population.”
 

Troponin response may vary

A striking finding in ALPHEUS was the discrepancy between very high rates of periprocedural troponin elevation and very low rates of clinical events through 30 days of follow-up. “When you look at these modest elevations of troponin it appears that there is a lot of noise here,” said Dr. Wiviott, vice president for clinical trials research and administration at Massachusetts General Hospital and Brigham and Women’s Hospital and a cardiologist at Harvard Medical School, Boston.

Troponin elevations in stable coronary patients undergoing PCI may have a different underlying mechanism than elevated troponins in patients undergoing PCI for an acute coronary syndrome, he added. In stable CAD patients, the phenomenon may be more related to atherosclerosis than to platelet activation and thrombosis.

During a panel discussion, Sunil V. Rao, MD, said cardiologists are “probably going to have to go back to the drawing board and think about what kinds of events are really, really important.”

American Heart Association

[email protected]

SOURCE: Silvain J. AHA 2020. Session LBS 3.

Ticagrelor failed to unseat clopidogrel as the guideline-recommended P2Y12 inhibitor of choice in patients undergoing elective percutaneous coronary intervention for stable CAD in the randomized ALPHEUS trial.

“The higher level of platelet inhibition obtained with ticagrelor does not translate into a reduction of periprocedural MI or myocardial injury within 48 hours of high-risk PCI performed in stable coronary patients,” reported Johanne Silvain, MD, PhD, professor of cardiology at the Sorbonne University and director of the ICU at Pitie-Salpetriere Hospital, Paris, at the virtual American Heart Association scientific sessions.

American Heart Association

Myonecrosis hypothesis falls flat

The primary endpoint was the occurrence of major myocardial injury, defined as a periprocedural troponin elevated greater than 5 times the upper limit of normal within 48 hours of PCI; type 4a MI, defined as major myocardial injury plus signs or symptoms of ischemia; or stent thrombosis.

The rates were closely similar: 35.5% with ticagrelor, 36.2% with clopidogrel. The bulk of events consisted of major myocardial injury, with an incidence of 26.7% in the ticagrelor group and 27.7% with clopidogrel. Stent thrombosis occurred in 0.3% of patients in each group. Type 4a MI occurred in 8.5% of the ticagrelor group and 8.2% of patients on clopidogrel.

The study hypothesis was that a substantial portion of periprocedural myonecrosis may be thrombotic in nature, and that a stronger P2Y12 inhibitor could reduce the occurrence of these mini-infarcts and thus provide patient benefit. But the hypothesis was not borne out.

“We don’t know if these events are a risk factor or just a marker of risk,” Dr. Silvain said.

There were no between-group differences in major bleeding events at 48 hours or 30 days. However, the rate of nuisance or minor bleeding at 30 days was 11.2% in the ticagrelor arm, significantly higher than the 7.5% incidence with clopidogrel. Moreover, dyspnea occurred in 11.2% of patients on ticagrelor, compared to 0.2% with clopidogrel. Study drug discontinuation was more frequent in the ticagrelor arm: 2.2%, versus 0.4%.

Dr. Silvain also presented a pooled analysis of the 1,883 patients in ALPHEUS plus 781 from the similarly designed SASSICAIA trial, which compared prasugrel (Effient) to clopidogrel. Neither of the more potent P2Y12 inhibitors showed superiority over clopidogrel.

American Heart Association

Discussant Stephen D. Wiviott, MD, summed things up: “With no evidence for ischemic benefit and higher rates of low-severity bleeding, this trial does not support the use of more potent P2Y12 antagonists for elective PCI. Based on these results, and consistent with SASSICAIA, aspirin with clopidogrel should remain the standard of care in this population.”
 

Troponin response may vary

A striking finding in ALPHEUS was the discrepancy between very high rates of periprocedural troponin elevation and very low rates of clinical events through 30 days of follow-up. “When you look at these modest elevations of troponin it appears that there is a lot of noise here,” said Dr. Wiviott, vice president for clinical trials research and administration at Massachusetts General Hospital and Brigham and Women’s Hospital and a cardiologist at Harvard Medical School, Boston.

Troponin elevations in stable coronary patients undergoing PCI may have a different underlying mechanism than elevated troponins in patients undergoing PCI for an acute coronary syndrome, he added. In stable CAD patients, the phenomenon may be more related to atherosclerosis than to platelet activation and thrombosis.

During a panel discussion, Sunil V. Rao, MD, said cardiologists are “probably going to have to go back to the drawing board and think about what kinds of events are really, really important.”

American Heart Association

[email protected]

SOURCE: Silvain J. AHA 2020. Session LBS 3.

Ticagrelor failed to unseat clopidogrel as the guideline-recommended P2Y12 inhibitor of choice in patients undergoing elective percutaneous coronary intervention for stable CAD in the randomized ALPHEUS trial.

“The higher level of platelet inhibition obtained with ticagrelor does not translate into a reduction of periprocedural MI or myocardial injury within 48 hours of high-risk PCI performed in stable coronary patients,” reported Johanne Silvain, MD, PhD, professor of cardiology at the Sorbonne University and director of the ICU at Pitie-Salpetriere Hospital, Paris, at the virtual American Heart Association scientific sessions.

American Heart Association

Myonecrosis hypothesis falls flat

The primary endpoint was the occurrence of major myocardial injury, defined as a periprocedural troponin elevated greater than 5 times the upper limit of normal within 48 hours of PCI; type 4a MI, defined as major myocardial injury plus signs or symptoms of ischemia; or stent thrombosis.

The rates were closely similar: 35.5% with ticagrelor, 36.2% with clopidogrel. The bulk of events consisted of major myocardial injury, with an incidence of 26.7% in the ticagrelor group and 27.7% with clopidogrel. Stent thrombosis occurred in 0.3% of patients in each group. Type 4a MI occurred in 8.5% of the ticagrelor group and 8.2% of patients on clopidogrel.

The study hypothesis was that a substantial portion of periprocedural myonecrosis may be thrombotic in nature, and that a stronger P2Y12 inhibitor could reduce the occurrence of these mini-infarcts and thus provide patient benefit. But the hypothesis was not borne out.

“We don’t know if these events are a risk factor or just a marker of risk,” Dr. Silvain said.

There were no between-group differences in major bleeding events at 48 hours or 30 days. However, the rate of nuisance or minor bleeding at 30 days was 11.2% in the ticagrelor arm, significantly higher than the 7.5% incidence with clopidogrel. Moreover, dyspnea occurred in 11.2% of patients on ticagrelor, compared to 0.2% with clopidogrel. Study drug discontinuation was more frequent in the ticagrelor arm: 2.2%, versus 0.4%.

Dr. Silvain also presented a pooled analysis of the 1,883 patients in ALPHEUS plus 781 from the similarly designed SASSICAIA trial, which compared prasugrel (Effient) to clopidogrel. Neither of the more potent P2Y12 inhibitors showed superiority over clopidogrel.

American Heart Association

Discussant Stephen D. Wiviott, MD, summed things up: “With no evidence for ischemic benefit and higher rates of low-severity bleeding, this trial does not support the use of more potent P2Y12 antagonists for elective PCI. Based on these results, and consistent with SASSICAIA, aspirin with clopidogrel should remain the standard of care in this population.”
 

Troponin response may vary

A striking finding in ALPHEUS was the discrepancy between very high rates of periprocedural troponin elevation and very low rates of clinical events through 30 days of follow-up. “When you look at these modest elevations of troponin it appears that there is a lot of noise here,” said Dr. Wiviott, vice president for clinical trials research and administration at Massachusetts General Hospital and Brigham and Women’s Hospital and a cardiologist at Harvard Medical School, Boston.

Troponin elevations in stable coronary patients undergoing PCI may have a different underlying mechanism than elevated troponins in patients undergoing PCI for an acute coronary syndrome, he added. In stable CAD patients, the phenomenon may be more related to atherosclerosis than to platelet activation and thrombosis.

During a panel discussion, Sunil V. Rao, MD, said cardiologists are “probably going to have to go back to the drawing board and think about what kinds of events are really, really important.”

American Heart Association

[email protected]

SOURCE: Silvain J. AHA 2020. Session LBS 3.

Cardiologists are already old hands at virtual meetings this year and are fast becoming experts on Zoom and other teleconferencing platforms, if not on how to unmute their microphones.

With expectations perhaps elevated and the new communications genre’s novelty on the wane, the American Heart Association (AHA) Scientific Sessions 2020 has a chance to both innovate with familiar formats and captivate with the field’s latest research findings.

Although the virtual AHA 2020 might not satisfy longings for face-to-face networking, shop talk, or kidding around over coffee, it will feature many traditional elements of the live conferences adapted for ear buds and small screens. They include late-breaking science (LBS) presentations and panel discussions, poster and live oral abstract presentations, meet-the-trialist talks, fireside-chat discussion forums, early career events, and satellite symposia.

The event may well hold lessons for future iterations of AHA Scientific Sessions in the postpandemic world, which some foresee as, potentially, an amalgam of the time-honored live format and a robust, complementary online presence.

Late-Breaking Science 1. Friday, November 13, 10:30 AM - 11:30 AM CST

The LBS sessions launch with the GALACTIC-HF trial, which — the world recently learned — may expand the burgeoning list of meds shown to improve clinical outcomes in chronic heart failure (HF) with reduced ejection fraction (HFrEF).

In cursory top-line results announced last month, those in the trial of more than 8000 patients who were randomly assigned to receive omecamtiv mecarbil (Amgen/Cytokinetics/Servier) showed a slight but significant benefit for the primary end point of cardiovascular (CV) death or HF events. The hazard ratio (HR), compared with standard care, was 0.92 (95% CI, 0.86 - 0.99; P = .025), noted a press release from Amgen.

Among the announcement’s few other details was a short take on safety outcomes: no difference in risk for “adverse events, including major ischemic cardiac events,” between the active and control groups. The presentation is sure to provide further insights and caveats, if any, along with other information crucial to the study’s interpretation.

Next on the schedule is the closely watched AFFIRM-AHF, billed as the first major outcomes trial of iron administration to iron-deficient patients with acute HF. It randomly assigned more than 1000 such patients to receive IV ferric carboxymaltose or a placebo. The first dose was given in-hospital and subsequent doses at home for 24 weeks or until patients were no longer iron deficient. They were followed to 1 year for the primary end point of recurrent HF hospitalizations or CV death.

The session wraps with the VITAL Rhythm trial, a substudy of the doubly randomized VITAL trial that explored the effects of vitamin D and omega-3 fatty acid supplementation on CV and cancer risk in more than 25,000 patients in the community. The substudy explored the effects of two active therapies, a preparation of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) (Omacor, Reliant Pharmaceuticals) or vitamin D3 supplements, on new-onset atrial fibrillation (AF) as the primary end point; it also looked at risk for sudden death.
 

Late-Breaking Science 2. Friday, November 13, 12:00 PM - 1:00 PM CST

Dominating the session in two presentations, the (TIPS)-3 trial explored a polypill primary-prevention strategy and daily aspirin with vitamin D supplementation in three separate placebo-controlled comparisons in more than 5700 “intermediate risk” participants 55 years and older, mostly in developing countries.

The daily polypill in this trial is a combination of hydrochlorothiazide 25 mg, atenolol 100 mg, ramipril 10 mg, and simvastatin 40 mg; aspirin was given at 75 mg daily and vitamin D at 60,000 IU monthly.

The participants are followed for a primary end point composed of major CV disease, HF, resuscitated cardiac arrest, or ischemia-driven revascularization for the polypill comparison; CV events or cancer for the aspirin comparison; and fracture risk for the vitamin D component of the trial.

In the Swedish Cardiopulmonary Bioimage Study (SCAPIS), presented third in the session, a random sample of adults from throughout Sweden, projected at about 30,000, underwent a 2-day evaluation for metabolic risk factors plus ultrasound and coronary and lung CT scans. The group has been followed for risks for myocardial infarction (MI), sudden death, and other cardiac diseases; and chronic obstructive pulmonary disease (COPD) and other lung disorders.
 

Late-Breaking Science 3. Saturday, November 14, 12:00 PM - 1:00 PM CST

The field may learn more mechanistically about MI associated with nonobstructed coronary arteries (MINOCA) than ever before from the Heart Attack Research Program-Imaging Study (HARP). The observational study is enrolling a projected 450 patients with suspected MI and ischemic symptoms who were referred for cardiac catheterization.

Their evaluation includes coronary optical coherence tomographic (OCT) scanning and cardiac magnetic resonance (CMR) imaging for evidence of coronary plaque disruption as the primary end point. The patients are to be followed for 10 years for a composite of death, unstable angina, stroke, recurrent MI, diagnostic or interventional catheterization, and cardiac hospitalization.

The major direct oral anticoagulant (DOAC) comparisons with warfarin in atrial fibrillation (AF) didn’t include many patients with prosthetic valve implants. In contrast, the RIVER trial enrolled 1005 adults with either persistent or paroxysmal AF and bioprosthetic mitral valves and assigned them to rivaroxaban 20 mg or the vitamin K antagonist.

The presentation will include the noninferiority primary outcome of major clinical events, which is stroke, transient ischemic attack (TIA), major bleeding, death from any cause, valve thrombosis, other systemic embolism, or HF hospitalization over 12 months.

This session also includes ALPHEUS, a trial pitting ticagrelor (Brilinta/Brilique, AstraZeneca) against mainstay clopidogrel in a setting that is mostly uncharted for such comparisons, elective percutaneous coronary intervention (PCI).

About 1900 patients with stable coronary disease were randomly assigned to a month of treatment with either agent on top of continuous aspirin. The primary end point is PCI-related MI or myocardial injury within 48 hours of the procedure.
 

Late-Breaking Science 4. Sunday, November 15, 9:00 AM - 10:00 AM CST

The Self-Assessment Method for Statin Side-effects Or Nocebo (SAMSON) trial may be one of the AHA 2020 frontrunners for early buzz and anticipation. So it’s with some irony that it’s also among the smallest of the LBS studies, at 60 patients, which was nonetheless considered sufficient due to its unusual design.

SAMSON is the latest and perhaps most rigorous attempt to clarify whether symptoms, especially muscle pain or discomfort, attributed to statins by many patients are pharmacologic in origin or, rather, a nocebo effect from negative expectations about statin side effects.

The study patients, all of whom had previously halted statins because of side effects, were assigned to follow three separate regimens, each for month, in a randomized order; they did that four times, for a total of 12 months. The regimens consisted of atorvastatin 20 mg daily, a placebo, or neither.

Patients kept daily logs of any perceived side effects. Parity between side effects experienced on the statin and the placebo would point to a nocebo effect, whereas a significant excess on atorvastatin would suggest they are direct drug effects.

The session also features two randomized trials each on a unique omega-3 fatty acid preparation for either secondary prevention or high-risk primary prevention, in both cases compared with a corn-oil placebo.

The Omega-3 Fatty Acids in Elderly Patients with Myocardial Infarction (OMEMI) trial randomly assigned more than 1000 elderly post-MI patients to take Pikasol (Orkla Care) at 1.8 g EPA and DHA per day or the placebo. It looked for all-cause mortality, nonfatal MI, stroke, revascularization, or hospitalization for new or worsened HF over 24 months.

The STRENGTH trial, with a planned enrollment of about 13,000 high-vascular-risk patients, looked primarily at the effect of daily treatment with Epanova (AstraZeneca), which also contains DHA and EPA, on the composite of CV death, nonfatal MI or stroke, coronary revascularization, and hospitalization for unstable angina. The trial was halted early for low likelihood of benefit, AstraZeneca announced in January of this year.
 

Late-Breaking Science 5. Sunday, November 15, 7:15 PM - 8:30 PM CST

Slated for the session is the primary analysis of the PIONEER 3 trial, conducted in the United States, Europe, and Japan. It compared the BuMA Supreme biodegradable drug-coated stent (SinoMed) with the durable Xience (Abbott Vascular) and Promus (Boston Scientific) drug-eluting stents. The trial followed more than 1600 patients treated for chronic stable angina or acute coronary syndrome (ACS) for the 1-year composite of cardiac death, target-vessel-related MI, and clinically driven target-lesion revascularization.
 

Late-Breaking Science 6. Monday, November 16, 9:00 AM - 10:00 AM CST

The EARLY-AF trial enrolled 303 patients with symptomatic paroxysmal or persistent AF suitable for catheter ablation, assigning them to pulmonary vein isolation (PVI) by cryoablation using the Arctic Front (Medtronic) system or antiarrhythmic drug therapy for rhythm control. The primary end point is time to recurrence of AF, atrial flutter, or atrial tachycardia, whether symptomatic or asymptomatic, as determined by implantable loop recorder. Patients will also be followed for symptoms and arrhythmia burden.

Also in the session, the SEARCH-AF study randomized almost 400 patients undergoing cardiac surgery who were engaged subacutely with one of two commercial portable cardiac rhythm monitoring devices (CardioSTAT, Icentia; or SEEQ, Medtronic) or, alternatively, to receive usual postoperative care

The patients, considered to be at high risk for stroke with no history of AF, were followed for the primary end point of cumulative burden of AF or atrial flutter exceeding 6 minutes or documentation of either arrhythmia by 12-lead ECG within 30 days.

Two other studies in the session look at different approaches to AF screening, one using a handheld ECG monitor in the primary care setting and the other wearable monitors in the form of a patch or wristband. The VITAL-AF presentation is titled “Screening for Atrial Fibrillation in Older Adults at Primary Care Visits Using Single Lead Electrocardiograms.” The other presentation, on the study mSToPS, is called “Three-Year Clinical Outcomes in a Nationwide, Randomized, Pragmatic Clinical Trial of Atrial Fibrillation Screening — Mhealth Screening to Prevent Strokes.”
 

Late-Breaking Science 7. Monday, November 16, 7:00 PM - 8:30 PM CST

In the randomized FIDELIO-DKD trial with more than 5700 patients with type 2 diabetes and associated kidney disease, those assigned to the novel mineralocorticoid receptor antagonist (MRA) finerenone (Bayer) showed an 18% drop in risk for adverse renal events, including death from renal causes (P = .001), over a median of 2.6 years. That primary outcome was previously presented in detail at a nephrology meeting and published in the New England Journal of Medicine in October.

Patients on the MRA showed a similar reduction in a composite CV-event end point, it was also reported at that time. A follow-up presentation at the AHA sessions promises to dive deeper into the trial’s CV outcomes.

In the RAPID-CTCA study, slated next for the session, 1749 patients with suspected or confirmed intermediate-risk ACS were randomly assigned to undergo computed tomographic coronary angiography (CTCA) for guiding treatment decisions or a standard-of-care strategy. It followed patients for the primary end point of death or nonfatal MI over 1 year.

Rilonacept (Arcalyst, Kiniksa/Regeneron) is an interleukin-1α and -1β inhibitor used in several autoinflammatory diseases that went unsuccessfully before regulators for the treatment of gout. The RHAPSODY trial has now explored its use against recurrent pericarditis in a randomized trial that entered 86 patients 12 years and older who had previously experienced at least three episodes.

In top-line results reported to investors in June, patients assigned to receive the drug instead of placebo in weekly injections showed a 96% drop in risk for pericarditis recurrence and “no or minimal pain” on more than 90% of days in the trial. A full presentation is expected during this LBS session.

Also on the schedule is the THALES study, which led the US Food and Drug Administration (FDA) to expand indications for ticagrelor to include stroke prevention in patients with a history of acute ischemic stroke or high-risk TIA based on the trial’s primary results published in July.

In THALES, more than 11,000 patients with mild to moderate acute noncardiogenic ischemic stroke or TIA were randomly assigned within 24 hours to start on daily aspirin with or without ticagrelor given as a 180 mg loading dose followed by 90 mg twice daily for 30 days.

At the end of a month, it was reported, those on dual antiplatelet therapy showed a 17% risk reduction (P = .02) for the primary end point of stroke or death, at the cost of a slight but significant increase in “severe” bleeding (0.5% vs 0.1%; P = .001).

The session is to conclude with two related studies that fell victim in part to the COVID-19 pandemic, both of which explored sotagliflozin (Zynquista, Sanofi/Lexicon), an inhibitor of both sodium-glucose cotransporters 1 and 2 (SGLT1 and SGLT2, respectively) in patients with type 2 diabetes.

SOLOIST-WHF had entered 1222 such patients hospitalized with urgent or worsening HF at 466 centers and randomly assigned them to receive sotagliflozin or placebo; they were followed for the composite of CV death or HF events. SCORED reached an enrollment of 10,584 patients with diabetes and chronic kidney disease at 754 hospitals, following them for the same primary end point.

Lexicon announced in March that the trials would be “closed out early” because of the unavailability of funding “together with uncertainties relating to the COVID-19 pandemic on the trials.” The LBS presentation is expected to include analyses of available data; SOLOIST-WHF launched in summer 2018 and SCORED began in November 2017.
 

Late-Breaking Science 8. Tuesday, November 17, 9:00 AM - 10:00 AM CST

Most of this LBS session is devoted to the AHA COVID-19 Cardiovascular Disease registry, which is looking at the hospital journey, clinical course, and outcomes of patients hospitalized with SARS-CoV-2 infections at centers participating in the organization’s Get With The Guidelines (GWTG) quality-improvement program. As of September, the registry included data from more than 15,000 patients.

Scheduled presentations include a summary of the registry’s design and initial results; an analysis of racial and ethnic variation in therapy and clinical outcomes; an exploration of how body mass index influenced outcomes, including death, use of mechanical ventilation, and cardiovascular end points, in patients with COVID-19; and a deep dive into the relation between CV disease and clinical outcomes in the cohort.

The last of this LBS block’s five talks will cover the randomized Influenza Vaccine to Effectively Stop Cardio Thoracic Events and Decompensated Heart Failure (INVESTED) trial, which compared vaccination with high-dose trivalent influenza vaccine or a standard-dose quadrivalent vaccine in 5388 adults with a history of hospitalization for either MI or HF. Patients were required to have at least one other CV risk factor, such as older age, reduced left ventricular ejection fraction, or diabetes.

INVESTED tracked the patients at 190 centers across an initial pilot flu season and three subsequent flu seasons for the primary end point of death from any cause or cardiopulmonary hospitalization.

The trial is one of at least three that have been looking at the effect of flu vaccination on cardiovascular outcomes; results from the other two — IAMI, with more than 2500 participants, and RCT-IVVE, with an enrollment of 4871 — are planned for presentation in 2021, theheart.org | Medscape Cardiology recently reported.
 

Late-Breaking Science 9. Tuesday, November 17, 12:00 PM - 1:00 PM CST

The conference’s concluding LBS session features three studies that relied on technologic strategies for modifying patient compliance and other care behaviors and one that used human-centered design principles to develop a group-care model aimed improving the management of diabetes, hypertension, and other noncommunicable diseases in economically disadvantaged regions of Kenya.

The EPIC-HF trial tested a strategy for improving HFrEF medication-plan engagement by use of a video and documents delivered to patients several times by email or text prior to their follow-up clinic appointments. The strategy was compared with usual care for its effect on HF-medication optimization over 1 month and 1 year in a total of 306 patients.

Following EPIC-HF on the schedule is the MYROAD trial, looking at the efficacy of discharge instructions provided to patients with acute HF as an audio recording that they and their physicians could replay on demand, the idea being to increase adherence to the instructions. The trial’s 1073 patients were assigned to the novel strategy or usual care and followed for HF rehospitalization within 30 days.

MYROAD is to be followed by a presentation entitled “Digital Care Transformation: One-Year Report of >5,000 Patients Enrolled in a Remote Algorithm-Based CV Risk Management Program to Achieve Optimal Lipid and Hypertension Control.”

Rounding out the LBS session: the Bridging Income Generation With Group Integrated Care (BIGPIC) program, a pilot study that developed and executed “a healthcare delivery model targeting health behaviors, medication adherence, and financial barriers to accessing healthcare” in four rural counties in Kenya.

The model features locally developed plans, tailored for regional needs, that are said to “combine the benefits of microfinance with the peer support available through group medical care to enhance management of hypertension and diabetes.” The microfinance component is aimed at improving household economies to alleviate the financial burden of care and clinic attendance, and for the health effects of improved quality of life.

The study randomized 2890 adults with diabetes or prediabetes to one of four groups: usual care plus microfinance group support, group medical visits only or combined with microfinance group support, or usual care only. They were followed for changes in systolic blood pressure and CV-risk score over 12 months.

Lloyd-Jones and Fauci declared no conflicts.

This article first appeared on Medscape.com.

Cardiologists are already old hands at virtual meetings this year and are fast becoming experts on Zoom and other teleconferencing platforms, if not on how to unmute their microphones.

With expectations perhaps elevated and the new communications genre’s novelty on the wane, the American Heart Association (AHA) Scientific Sessions 2020 has a chance to both innovate with familiar formats and captivate with the field’s latest research findings.

Although the virtual AHA 2020 might not satisfy longings for face-to-face networking, shop talk, or kidding around over coffee, it will feature many traditional elements of the live conferences adapted for ear buds and small screens. They include late-breaking science (LBS) presentations and panel discussions, poster and live oral abstract presentations, meet-the-trialist talks, fireside-chat discussion forums, early career events, and satellite symposia.

The event may well hold lessons for future iterations of AHA Scientific Sessions in the postpandemic world, which some foresee as, potentially, an amalgam of the time-honored live format and a robust, complementary online presence.

Late-Breaking Science 1. Friday, November 13, 10:30 AM - 11:30 AM CST

The LBS sessions launch with the GALACTIC-HF trial, which — the world recently learned — may expand the burgeoning list of meds shown to improve clinical outcomes in chronic heart failure (HF) with reduced ejection fraction (HFrEF).

In cursory top-line results announced last month, those in the trial of more than 8000 patients who were randomly assigned to receive omecamtiv mecarbil (Amgen/Cytokinetics/Servier) showed a slight but significant benefit for the primary end point of cardiovascular (CV) death or HF events. The hazard ratio (HR), compared with standard care, was 0.92 (95% CI, 0.86 - 0.99; P = .025), noted a press release from Amgen.

Among the announcement’s few other details was a short take on safety outcomes: no difference in risk for “adverse events, including major ischemic cardiac events,” between the active and control groups. The presentation is sure to provide further insights and caveats, if any, along with other information crucial to the study’s interpretation.

Next on the schedule is the closely watched AFFIRM-AHF, billed as the first major outcomes trial of iron administration to iron-deficient patients with acute HF. It randomly assigned more than 1000 such patients to receive IV ferric carboxymaltose or a placebo. The first dose was given in-hospital and subsequent doses at home for 24 weeks or until patients were no longer iron deficient. They were followed to 1 year for the primary end point of recurrent HF hospitalizations or CV death.

The session wraps with the VITAL Rhythm trial, a substudy of the doubly randomized VITAL trial that explored the effects of vitamin D and omega-3 fatty acid supplementation on CV and cancer risk in more than 25,000 patients in the community. The substudy explored the effects of two active therapies, a preparation of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) (Omacor, Reliant Pharmaceuticals) or vitamin D3 supplements, on new-onset atrial fibrillation (AF) as the primary end point; it also looked at risk for sudden death.
 

Late-Breaking Science 2. Friday, November 13, 12:00 PM - 1:00 PM CST

Dominating the session in two presentations, the (TIPS)-3 trial explored a polypill primary-prevention strategy and daily aspirin with vitamin D supplementation in three separate placebo-controlled comparisons in more than 5700 “intermediate risk” participants 55 years and older, mostly in developing countries.

The daily polypill in this trial is a combination of hydrochlorothiazide 25 mg, atenolol 100 mg, ramipril 10 mg, and simvastatin 40 mg; aspirin was given at 75 mg daily and vitamin D at 60,000 IU monthly.

The participants are followed for a primary end point composed of major CV disease, HF, resuscitated cardiac arrest, or ischemia-driven revascularization for the polypill comparison; CV events or cancer for the aspirin comparison; and fracture risk for the vitamin D component of the trial.

In the Swedish Cardiopulmonary Bioimage Study (SCAPIS), presented third in the session, a random sample of adults from throughout Sweden, projected at about 30,000, underwent a 2-day evaluation for metabolic risk factors plus ultrasound and coronary and lung CT scans. The group has been followed for risks for myocardial infarction (MI), sudden death, and other cardiac diseases; and chronic obstructive pulmonary disease (COPD) and other lung disorders.
 

Late-Breaking Science 3. Saturday, November 14, 12:00 PM - 1:00 PM CST

The field may learn more mechanistically about MI associated with nonobstructed coronary arteries (MINOCA) than ever before from the Heart Attack Research Program-Imaging Study (HARP). The observational study is enrolling a projected 450 patients with suspected MI and ischemic symptoms who were referred for cardiac catheterization.

Their evaluation includes coronary optical coherence tomographic (OCT) scanning and cardiac magnetic resonance (CMR) imaging for evidence of coronary plaque disruption as the primary end point. The patients are to be followed for 10 years for a composite of death, unstable angina, stroke, recurrent MI, diagnostic or interventional catheterization, and cardiac hospitalization.

The major direct oral anticoagulant (DOAC) comparisons with warfarin in atrial fibrillation (AF) didn’t include many patients with prosthetic valve implants. In contrast, the RIVER trial enrolled 1005 adults with either persistent or paroxysmal AF and bioprosthetic mitral valves and assigned them to rivaroxaban 20 mg or the vitamin K antagonist.

The presentation will include the noninferiority primary outcome of major clinical events, which is stroke, transient ischemic attack (TIA), major bleeding, death from any cause, valve thrombosis, other systemic embolism, or HF hospitalization over 12 months.

This session also includes ALPHEUS, a trial pitting ticagrelor (Brilinta/Brilique, AstraZeneca) against mainstay clopidogrel in a setting that is mostly uncharted for such comparisons, elective percutaneous coronary intervention (PCI).

About 1900 patients with stable coronary disease were randomly assigned to a month of treatment with either agent on top of continuous aspirin. The primary end point is PCI-related MI or myocardial injury within 48 hours of the procedure.
 

Late-Breaking Science 4. Sunday, November 15, 9:00 AM - 10:00 AM CST

The Self-Assessment Method for Statin Side-effects Or Nocebo (SAMSON) trial may be one of the AHA 2020 frontrunners for early buzz and anticipation. So it’s with some irony that it’s also among the smallest of the LBS studies, at 60 patients, which was nonetheless considered sufficient due to its unusual design.

SAMSON is the latest and perhaps most rigorous attempt to clarify whether symptoms, especially muscle pain or discomfort, attributed to statins by many patients are pharmacologic in origin or, rather, a nocebo effect from negative expectations about statin side effects.

The study patients, all of whom had previously halted statins because of side effects, were assigned to follow three separate regimens, each for month, in a randomized order; they did that four times, for a total of 12 months. The regimens consisted of atorvastatin 20 mg daily, a placebo, or neither.

Patients kept daily logs of any perceived side effects. Parity between side effects experienced on the statin and the placebo would point to a nocebo effect, whereas a significant excess on atorvastatin would suggest they are direct drug effects.

The session also features two randomized trials each on a unique omega-3 fatty acid preparation for either secondary prevention or high-risk primary prevention, in both cases compared with a corn-oil placebo.

The Omega-3 Fatty Acids in Elderly Patients with Myocardial Infarction (OMEMI) trial randomly assigned more than 1000 elderly post-MI patients to take Pikasol (Orkla Care) at 1.8 g EPA and DHA per day or the placebo. It looked for all-cause mortality, nonfatal MI, stroke, revascularization, or hospitalization for new or worsened HF over 24 months.

The STRENGTH trial, with a planned enrollment of about 13,000 high-vascular-risk patients, looked primarily at the effect of daily treatment with Epanova (AstraZeneca), which also contains DHA and EPA, on the composite of CV death, nonfatal MI or stroke, coronary revascularization, and hospitalization for unstable angina. The trial was halted early for low likelihood of benefit, AstraZeneca announced in January of this year.
 

Late-Breaking Science 5. Sunday, November 15, 7:15 PM - 8:30 PM CST

Slated for the session is the primary analysis of the PIONEER 3 trial, conducted in the United States, Europe, and Japan. It compared the BuMA Supreme biodegradable drug-coated stent (SinoMed) with the durable Xience (Abbott Vascular) and Promus (Boston Scientific) drug-eluting stents. The trial followed more than 1600 patients treated for chronic stable angina or acute coronary syndrome (ACS) for the 1-year composite of cardiac death, target-vessel-related MI, and clinically driven target-lesion revascularization.
 

Late-Breaking Science 6. Monday, November 16, 9:00 AM - 10:00 AM CST

The EARLY-AF trial enrolled 303 patients with symptomatic paroxysmal or persistent AF suitable for catheter ablation, assigning them to pulmonary vein isolation (PVI) by cryoablation using the Arctic Front (Medtronic) system or antiarrhythmic drug therapy for rhythm control. The primary end point is time to recurrence of AF, atrial flutter, or atrial tachycardia, whether symptomatic or asymptomatic, as determined by implantable loop recorder. Patients will also be followed for symptoms and arrhythmia burden.

Also in the session, the SEARCH-AF study randomized almost 400 patients undergoing cardiac surgery who were engaged subacutely with one of two commercial portable cardiac rhythm monitoring devices (CardioSTAT, Icentia; or SEEQ, Medtronic) or, alternatively, to receive usual postoperative care

The patients, considered to be at high risk for stroke with no history of AF, were followed for the primary end point of cumulative burden of AF or atrial flutter exceeding 6 minutes or documentation of either arrhythmia by 12-lead ECG within 30 days.

Two other studies in the session look at different approaches to AF screening, one using a handheld ECG monitor in the primary care setting and the other wearable monitors in the form of a patch or wristband. The VITAL-AF presentation is titled “Screening for Atrial Fibrillation in Older Adults at Primary Care Visits Using Single Lead Electrocardiograms.” The other presentation, on the study mSToPS, is called “Three-Year Clinical Outcomes in a Nationwide, Randomized, Pragmatic Clinical Trial of Atrial Fibrillation Screening — Mhealth Screening to Prevent Strokes.”
 

Late-Breaking Science 7. Monday, November 16, 7:00 PM - 8:30 PM CST

In the randomized FIDELIO-DKD trial with more than 5700 patients with type 2 diabetes and associated kidney disease, those assigned to the novel mineralocorticoid receptor antagonist (MRA) finerenone (Bayer) showed an 18% drop in risk for adverse renal events, including death from renal causes (P = .001), over a median of 2.6 years. That primary outcome was previously presented in detail at a nephrology meeting and published in the New England Journal of Medicine in October.

Patients on the MRA showed a similar reduction in a composite CV-event end point, it was also reported at that time. A follow-up presentation at the AHA sessions promises to dive deeper into the trial’s CV outcomes.

In the RAPID-CTCA study, slated next for the session, 1749 patients with suspected or confirmed intermediate-risk ACS were randomly assigned to undergo computed tomographic coronary angiography (CTCA) for guiding treatment decisions or a standard-of-care strategy. It followed patients for the primary end point of death or nonfatal MI over 1 year.

Rilonacept (Arcalyst, Kiniksa/Regeneron) is an interleukin-1α and -1β inhibitor used in several autoinflammatory diseases that went unsuccessfully before regulators for the treatment of gout. The RHAPSODY trial has now explored its use against recurrent pericarditis in a randomized trial that entered 86 patients 12 years and older who had previously experienced at least three episodes.

In top-line results reported to investors in June, patients assigned to receive the drug instead of placebo in weekly injections showed a 96% drop in risk for pericarditis recurrence and “no or minimal pain” on more than 90% of days in the trial. A full presentation is expected during this LBS session.

Also on the schedule is the THALES study, which led the US Food and Drug Administration (FDA) to expand indications for ticagrelor to include stroke prevention in patients with a history of acute ischemic stroke or high-risk TIA based on the trial’s primary results published in July.

In THALES, more than 11,000 patients with mild to moderate acute noncardiogenic ischemic stroke or TIA were randomly assigned within 24 hours to start on daily aspirin with or without ticagrelor given as a 180 mg loading dose followed by 90 mg twice daily for 30 days.

At the end of a month, it was reported, those on dual antiplatelet therapy showed a 17% risk reduction (P = .02) for the primary end point of stroke or death, at the cost of a slight but significant increase in “severe” bleeding (0.5% vs 0.1%; P = .001).

The session is to conclude with two related studies that fell victim in part to the COVID-19 pandemic, both of which explored sotagliflozin (Zynquista, Sanofi/Lexicon), an inhibitor of both sodium-glucose cotransporters 1 and 2 (SGLT1 and SGLT2, respectively) in patients with type 2 diabetes.

SOLOIST-WHF had entered 1222 such patients hospitalized with urgent or worsening HF at 466 centers and randomly assigned them to receive sotagliflozin or placebo; they were followed for the composite of CV death or HF events. SCORED reached an enrollment of 10,584 patients with diabetes and chronic kidney disease at 754 hospitals, following them for the same primary end point.

Lexicon announced in March that the trials would be “closed out early” because of the unavailability of funding “together with uncertainties relating to the COVID-19 pandemic on the trials.” The LBS presentation is expected to include analyses of available data; SOLOIST-WHF launched in summer 2018 and SCORED began in November 2017.
 

Late-Breaking Science 8. Tuesday, November 17, 9:00 AM - 10:00 AM CST

Most of this LBS session is devoted to the AHA COVID-19 Cardiovascular Disease registry, which is looking at the hospital journey, clinical course, and outcomes of patients hospitalized with SARS-CoV-2 infections at centers participating in the organization’s Get With The Guidelines (GWTG) quality-improvement program. As of September, the registry included data from more than 15,000 patients.

Scheduled presentations include a summary of the registry’s design and initial results; an analysis of racial and ethnic variation in therapy and clinical outcomes; an exploration of how body mass index influenced outcomes, including death, use of mechanical ventilation, and cardiovascular end points, in patients with COVID-19; and a deep dive into the relation between CV disease and clinical outcomes in the cohort.

The last of this LBS block’s five talks will cover the randomized Influenza Vaccine to Effectively Stop Cardio Thoracic Events and Decompensated Heart Failure (INVESTED) trial, which compared vaccination with high-dose trivalent influenza vaccine or a standard-dose quadrivalent vaccine in 5388 adults with a history of hospitalization for either MI or HF. Patients were required to have at least one other CV risk factor, such as older age, reduced left ventricular ejection fraction, or diabetes.

INVESTED tracked the patients at 190 centers across an initial pilot flu season and three subsequent flu seasons for the primary end point of death from any cause or cardiopulmonary hospitalization.

The trial is one of at least three that have been looking at the effect of flu vaccination on cardiovascular outcomes; results from the other two — IAMI, with more than 2500 participants, and RCT-IVVE, with an enrollment of 4871 — are planned for presentation in 2021, theheart.org | Medscape Cardiology recently reported.
 

Late-Breaking Science 9. Tuesday, November 17, 12:00 PM - 1:00 PM CST

The conference’s concluding LBS session features three studies that relied on technologic strategies for modifying patient compliance and other care behaviors and one that used human-centered design principles to develop a group-care model aimed improving the management of diabetes, hypertension, and other noncommunicable diseases in economically disadvantaged regions of Kenya.

The EPIC-HF trial tested a strategy for improving HFrEF medication-plan engagement by use of a video and documents delivered to patients several times by email or text prior to their follow-up clinic appointments. The strategy was compared with usual care for its effect on HF-medication optimization over 1 month and 1 year in a total of 306 patients.

Following EPIC-HF on the schedule is the MYROAD trial, looking at the efficacy of discharge instructions provided to patients with acute HF as an audio recording that they and their physicians could replay on demand, the idea being to increase adherence to the instructions. The trial’s 1073 patients were assigned to the novel strategy or usual care and followed for HF rehospitalization within 30 days.

MYROAD is to be followed by a presentation entitled “Digital Care Transformation: One-Year Report of >5,000 Patients Enrolled in a Remote Algorithm-Based CV Risk Management Program to Achieve Optimal Lipid and Hypertension Control.”

Rounding out the LBS session: the Bridging Income Generation With Group Integrated Care (BIGPIC) program, a pilot study that developed and executed “a healthcare delivery model targeting health behaviors, medication adherence, and financial barriers to accessing healthcare” in four rural counties in Kenya.

The model features locally developed plans, tailored for regional needs, that are said to “combine the benefits of microfinance with the peer support available through group medical care to enhance management of hypertension and diabetes.” The microfinance component is aimed at improving household economies to alleviate the financial burden of care and clinic attendance, and for the health effects of improved quality of life.

The study randomized 2890 adults with diabetes or prediabetes to one of four groups: usual care plus microfinance group support, group medical visits only or combined with microfinance group support, or usual care only. They were followed for changes in systolic blood pressure and CV-risk score over 12 months.

Lloyd-Jones and Fauci declared no conflicts.

This article first appeared on Medscape.com.

Cardiologists are already old hands at virtual meetings this year and are fast becoming experts on Zoom and other teleconferencing platforms, if not on how to unmute their microphones.

With expectations perhaps elevated and the new communications genre’s novelty on the wane, the American Heart Association (AHA) Scientific Sessions 2020 has a chance to both innovate with familiar formats and captivate with the field’s latest research findings.

Although the virtual AHA 2020 might not satisfy longings for face-to-face networking, shop talk, or kidding around over coffee, it will feature many traditional elements of the live conferences adapted for ear buds and small screens. They include late-breaking science (LBS) presentations and panel discussions, poster and live oral abstract presentations, meet-the-trialist talks, fireside-chat discussion forums, early career events, and satellite symposia.

The event may well hold lessons for future iterations of AHA Scientific Sessions in the postpandemic world, which some foresee as, potentially, an amalgam of the time-honored live format and a robust, complementary online presence.

Late-Breaking Science 1. Friday, November 13, 10:30 AM - 11:30 AM CST

The LBS sessions launch with the GALACTIC-HF trial, which — the world recently learned — may expand the burgeoning list of meds shown to improve clinical outcomes in chronic heart failure (HF) with reduced ejection fraction (HFrEF).

In cursory top-line results announced last month, those in the trial of more than 8000 patients who were randomly assigned to receive omecamtiv mecarbil (Amgen/Cytokinetics/Servier) showed a slight but significant benefit for the primary end point of cardiovascular (CV) death or HF events. The hazard ratio (HR), compared with standard care, was 0.92 (95% CI, 0.86 - 0.99; P = .025), noted a press release from Amgen.

Among the announcement’s few other details was a short take on safety outcomes: no difference in risk for “adverse events, including major ischemic cardiac events,” between the active and control groups. The presentation is sure to provide further insights and caveats, if any, along with other information crucial to the study’s interpretation.

Next on the schedule is the closely watched AFFIRM-AHF, billed as the first major outcomes trial of iron administration to iron-deficient patients with acute HF. It randomly assigned more than 1000 such patients to receive IV ferric carboxymaltose or a placebo. The first dose was given in-hospital and subsequent doses at home for 24 weeks or until patients were no longer iron deficient. They were followed to 1 year for the primary end point of recurrent HF hospitalizations or CV death.

The session wraps with the VITAL Rhythm trial, a substudy of the doubly randomized VITAL trial that explored the effects of vitamin D and omega-3 fatty acid supplementation on CV and cancer risk in more than 25,000 patients in the community. The substudy explored the effects of two active therapies, a preparation of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) (Omacor, Reliant Pharmaceuticals) or vitamin D3 supplements, on new-onset atrial fibrillation (AF) as the primary end point; it also looked at risk for sudden death.
 

Late-Breaking Science 2. Friday, November 13, 12:00 PM - 1:00 PM CST

Dominating the session in two presentations, the (TIPS)-3 trial explored a polypill primary-prevention strategy and daily aspirin with vitamin D supplementation in three separate placebo-controlled comparisons in more than 5700 “intermediate risk” participants 55 years and older, mostly in developing countries.

The daily polypill in this trial is a combination of hydrochlorothiazide 25 mg, atenolol 100 mg, ramipril 10 mg, and simvastatin 40 mg; aspirin was given at 75 mg daily and vitamin D at 60,000 IU monthly.

The participants are followed for a primary end point composed of major CV disease, HF, resuscitated cardiac arrest, or ischemia-driven revascularization for the polypill comparison; CV events or cancer for the aspirin comparison; and fracture risk for the vitamin D component of the trial.

In the Swedish Cardiopulmonary Bioimage Study (SCAPIS), presented third in the session, a random sample of adults from throughout Sweden, projected at about 30,000, underwent a 2-day evaluation for metabolic risk factors plus ultrasound and coronary and lung CT scans. The group has been followed for risks for myocardial infarction (MI), sudden death, and other cardiac diseases; and chronic obstructive pulmonary disease (COPD) and other lung disorders.
 

Late-Breaking Science 3. Saturday, November 14, 12:00 PM - 1:00 PM CST

The field may learn more mechanistically about MI associated with nonobstructed coronary arteries (MINOCA) than ever before from the Heart Attack Research Program-Imaging Study (HARP). The observational study is enrolling a projected 450 patients with suspected MI and ischemic symptoms who were referred for cardiac catheterization.

Their evaluation includes coronary optical coherence tomographic (OCT) scanning and cardiac magnetic resonance (CMR) imaging for evidence of coronary plaque disruption as the primary end point. The patients are to be followed for 10 years for a composite of death, unstable angina, stroke, recurrent MI, diagnostic or interventional catheterization, and cardiac hospitalization.

The major direct oral anticoagulant (DOAC) comparisons with warfarin in atrial fibrillation (AF) didn’t include many patients with prosthetic valve implants. In contrast, the RIVER trial enrolled 1005 adults with either persistent or paroxysmal AF and bioprosthetic mitral valves and assigned them to rivaroxaban 20 mg or the vitamin K antagonist.

The presentation will include the noninferiority primary outcome of major clinical events, which is stroke, transient ischemic attack (TIA), major bleeding, death from any cause, valve thrombosis, other systemic embolism, or HF hospitalization over 12 months.

This session also includes ALPHEUS, a trial pitting ticagrelor (Brilinta/Brilique, AstraZeneca) against mainstay clopidogrel in a setting that is mostly uncharted for such comparisons, elective percutaneous coronary intervention (PCI).

About 1900 patients with stable coronary disease were randomly assigned to a month of treatment with either agent on top of continuous aspirin. The primary end point is PCI-related MI or myocardial injury within 48 hours of the procedure.
 

Late-Breaking Science 4. Sunday, November 15, 9:00 AM - 10:00 AM CST

The Self-Assessment Method for Statin Side-effects Or Nocebo (SAMSON) trial may be one of the AHA 2020 frontrunners for early buzz and anticipation. So it’s with some irony that it’s also among the smallest of the LBS studies, at 60 patients, which was nonetheless considered sufficient due to its unusual design.

SAMSON is the latest and perhaps most rigorous attempt to clarify whether symptoms, especially muscle pain or discomfort, attributed to statins by many patients are pharmacologic in origin or, rather, a nocebo effect from negative expectations about statin side effects.

The study patients, all of whom had previously halted statins because of side effects, were assigned to follow three separate regimens, each for month, in a randomized order; they did that four times, for a total of 12 months. The regimens consisted of atorvastatin 20 mg daily, a placebo, or neither.

Patients kept daily logs of any perceived side effects. Parity between side effects experienced on the statin and the placebo would point to a nocebo effect, whereas a significant excess on atorvastatin would suggest they are direct drug effects.

The session also features two randomized trials each on a unique omega-3 fatty acid preparation for either secondary prevention or high-risk primary prevention, in both cases compared with a corn-oil placebo.

The Omega-3 Fatty Acids in Elderly Patients with Myocardial Infarction (OMEMI) trial randomly assigned more than 1000 elderly post-MI patients to take Pikasol (Orkla Care) at 1.8 g EPA and DHA per day or the placebo. It looked for all-cause mortality, nonfatal MI, stroke, revascularization, or hospitalization for new or worsened HF over 24 months.

The STRENGTH trial, with a planned enrollment of about 13,000 high-vascular-risk patients, looked primarily at the effect of daily treatment with Epanova (AstraZeneca), which also contains DHA and EPA, on the composite of CV death, nonfatal MI or stroke, coronary revascularization, and hospitalization for unstable angina. The trial was halted early for low likelihood of benefit, AstraZeneca announced in January of this year.
 

Late-Breaking Science 5. Sunday, November 15, 7:15 PM - 8:30 PM CST

Slated for the session is the primary analysis of the PIONEER 3 trial, conducted in the United States, Europe, and Japan. It compared the BuMA Supreme biodegradable drug-coated stent (SinoMed) with the durable Xience (Abbott Vascular) and Promus (Boston Scientific) drug-eluting stents. The trial followed more than 1600 patients treated for chronic stable angina or acute coronary syndrome (ACS) for the 1-year composite of cardiac death, target-vessel-related MI, and clinically driven target-lesion revascularization.
 

Late-Breaking Science 6. Monday, November 16, 9:00 AM - 10:00 AM CST

The EARLY-AF trial enrolled 303 patients with symptomatic paroxysmal or persistent AF suitable for catheter ablation, assigning them to pulmonary vein isolation (PVI) by cryoablation using the Arctic Front (Medtronic) system or antiarrhythmic drug therapy for rhythm control. The primary end point is time to recurrence of AF, atrial flutter, or atrial tachycardia, whether symptomatic or asymptomatic, as determined by implantable loop recorder. Patients will also be followed for symptoms and arrhythmia burden.

Also in the session, the SEARCH-AF study randomized almost 400 patients undergoing cardiac surgery who were engaged subacutely with one of two commercial portable cardiac rhythm monitoring devices (CardioSTAT, Icentia; or SEEQ, Medtronic) or, alternatively, to receive usual postoperative care

The patients, considered to be at high risk for stroke with no history of AF, were followed for the primary end point of cumulative burden of AF or atrial flutter exceeding 6 minutes or documentation of either arrhythmia by 12-lead ECG within 30 days.

Two other studies in the session look at different approaches to AF screening, one using a handheld ECG monitor in the primary care setting and the other wearable monitors in the form of a patch or wristband. The VITAL-AF presentation is titled “Screening for Atrial Fibrillation in Older Adults at Primary Care Visits Using Single Lead Electrocardiograms.” The other presentation, on the study mSToPS, is called “Three-Year Clinical Outcomes in a Nationwide, Randomized, Pragmatic Clinical Trial of Atrial Fibrillation Screening — Mhealth Screening to Prevent Strokes.”
 

Late-Breaking Science 7. Monday, November 16, 7:00 PM - 8:30 PM CST

In the randomized FIDELIO-DKD trial with more than 5700 patients with type 2 diabetes and associated kidney disease, those assigned to the novel mineralocorticoid receptor antagonist (MRA) finerenone (Bayer) showed an 18% drop in risk for adverse renal events, including death from renal causes (P = .001), over a median of 2.6 years. That primary outcome was previously presented in detail at a nephrology meeting and published in the New England Journal of Medicine in October.

Patients on the MRA showed a similar reduction in a composite CV-event end point, it was also reported at that time. A follow-up presentation at the AHA sessions promises to dive deeper into the trial’s CV outcomes.

In the RAPID-CTCA study, slated next for the session, 1749 patients with suspected or confirmed intermediate-risk ACS were randomly assigned to undergo computed tomographic coronary angiography (CTCA) for guiding treatment decisions or a standard-of-care strategy. It followed patients for the primary end point of death or nonfatal MI over 1 year.

Rilonacept (Arcalyst, Kiniksa/Regeneron) is an interleukin-1α and -1β inhibitor used in several autoinflammatory diseases that went unsuccessfully before regulators for the treatment of gout. The RHAPSODY trial has now explored its use against recurrent pericarditis in a randomized trial that entered 86 patients 12 years and older who had previously experienced at least three episodes.

In top-line results reported to investors in June, patients assigned to receive the drug instead of placebo in weekly injections showed a 96% drop in risk for pericarditis recurrence and “no or minimal pain” on more than 90% of days in the trial. A full presentation is expected during this LBS session.

Also on the schedule is the THALES study, which led the US Food and Drug Administration (FDA) to expand indications for ticagrelor to include stroke prevention in patients with a history of acute ischemic stroke or high-risk TIA based on the trial’s primary results published in July.

In THALES, more than 11,000 patients with mild to moderate acute noncardiogenic ischemic stroke or TIA were randomly assigned within 24 hours to start on daily aspirin with or without ticagrelor given as a 180 mg loading dose followed by 90 mg twice daily for 30 days.

At the end of a month, it was reported, those on dual antiplatelet therapy showed a 17% risk reduction (P = .02) for the primary end point of stroke or death, at the cost of a slight but significant increase in “severe” bleeding (0.5% vs 0.1%; P = .001).

The session is to conclude with two related studies that fell victim in part to the COVID-19 pandemic, both of which explored sotagliflozin (Zynquista, Sanofi/Lexicon), an inhibitor of both sodium-glucose cotransporters 1 and 2 (SGLT1 and SGLT2, respectively) in patients with type 2 diabetes.

SOLOIST-WHF had entered 1222 such patients hospitalized with urgent or worsening HF at 466 centers and randomly assigned them to receive sotagliflozin or placebo; they were followed for the composite of CV death or HF events. SCORED reached an enrollment of 10,584 patients with diabetes and chronic kidney disease at 754 hospitals, following them for the same primary end point.

Lexicon announced in March that the trials would be “closed out early” because of the unavailability of funding “together with uncertainties relating to the COVID-19 pandemic on the trials.” The LBS presentation is expected to include analyses of available data; SOLOIST-WHF launched in summer 2018 and SCORED began in November 2017.
 

Late-Breaking Science 8. Tuesday, November 17, 9:00 AM - 10:00 AM CST

Most of this LBS session is devoted to the AHA COVID-19 Cardiovascular Disease registry, which is looking at the hospital journey, clinical course, and outcomes of patients hospitalized with SARS-CoV-2 infections at centers participating in the organization’s Get With The Guidelines (GWTG) quality-improvement program. As of September, the registry included data from more than 15,000 patients.

Scheduled presentations include a summary of the registry’s design and initial results; an analysis of racial and ethnic variation in therapy and clinical outcomes; an exploration of how body mass index influenced outcomes, including death, use of mechanical ventilation, and cardiovascular end points, in patients with COVID-19; and a deep dive into the relation between CV disease and clinical outcomes in the cohort.

The last of this LBS block’s five talks will cover the randomized Influenza Vaccine to Effectively Stop Cardio Thoracic Events and Decompensated Heart Failure (INVESTED) trial, which compared vaccination with high-dose trivalent influenza vaccine or a standard-dose quadrivalent vaccine in 5388 adults with a history of hospitalization for either MI or HF. Patients were required to have at least one other CV risk factor, such as older age, reduced left ventricular ejection fraction, or diabetes.

INVESTED tracked the patients at 190 centers across an initial pilot flu season and three subsequent flu seasons for the primary end point of death from any cause or cardiopulmonary hospitalization.

The trial is one of at least three that have been looking at the effect of flu vaccination on cardiovascular outcomes; results from the other two — IAMI, with more than 2500 participants, and RCT-IVVE, with an enrollment of 4871 — are planned for presentation in 2021, theheart.org | Medscape Cardiology recently reported.
 

Late-Breaking Science 9. Tuesday, November 17, 12:00 PM - 1:00 PM CST

The conference’s concluding LBS session features three studies that relied on technologic strategies for modifying patient compliance and other care behaviors and one that used human-centered design principles to develop a group-care model aimed improving the management of diabetes, hypertension, and other noncommunicable diseases in economically disadvantaged regions of Kenya.

The EPIC-HF trial tested a strategy for improving HFrEF medication-plan engagement by use of a video and documents delivered to patients several times by email or text prior to their follow-up clinic appointments. The strategy was compared with usual care for its effect on HF-medication optimization over 1 month and 1 year in a total of 306 patients.

Following EPIC-HF on the schedule is the MYROAD trial, looking at the efficacy of discharge instructions provided to patients with acute HF as an audio recording that they and their physicians could replay on demand, the idea being to increase adherence to the instructions. The trial’s 1073 patients were assigned to the novel strategy or usual care and followed for HF rehospitalization within 30 days.

MYROAD is to be followed by a presentation entitled “Digital Care Transformation: One-Year Report of >5,000 Patients Enrolled in a Remote Algorithm-Based CV Risk Management Program to Achieve Optimal Lipid and Hypertension Control.”

Rounding out the LBS session: the Bridging Income Generation With Group Integrated Care (BIGPIC) program, a pilot study that developed and executed “a healthcare delivery model targeting health behaviors, medication adherence, and financial barriers to accessing healthcare” in four rural counties in Kenya.

The model features locally developed plans, tailored for regional needs, that are said to “combine the benefits of microfinance with the peer support available through group medical care to enhance management of hypertension and diabetes.” The microfinance component is aimed at improving household economies to alleviate the financial burden of care and clinic attendance, and for the health effects of improved quality of life.

The study randomized 2890 adults with diabetes or prediabetes to one of four groups: usual care plus microfinance group support, group medical visits only or combined with microfinance group support, or usual care only. They were followed for changes in systolic blood pressure and CV-risk score over 12 months.

Lloyd-Jones and Fauci declared no conflicts.

This article first appeared on Medscape.com.

In order for percutaneous coronary intervention (PCI) to shine, compared with meds alone in patients with type-2 diabetes and stable coronary disease (CAD), it needs help from aggressive control of LDL cholesterol (LDL-C) levels, suggests a patient-level meta-analysis of three major randomized trials.

Performing PCI in such patients with diabetes conferred further benefit over optimal medical therapy (OMT) for major adverse cardiac or cerebrovascular events (MACCE) only among those whose LDL-C levels had been pushed below the guidelines-specified threshold of 70 mg/dL within 1 year.

At that level of LDL-C control, PCI, compared with the meds-alone strategy, was followed by a nearly 40% drop in 4-year risk for the composite endpoint, which consisted of death from any cause or nonfatal myocardial infarction (MI) or stroke.

Also for patients reaching a 1-year LDL-C of <70 mg/dL, the risk of MACCE was similar for those who had been assigned to coronary bypass surgery (CABG), compared with PCI. But that risk was significantly lower for the CABG group among those reaching LDL-C levels above that threshold.

“The strategy of revascularization with the LDL lowering, that’s the combination that seems to be a winner” in such patients with diabetes and stable CAD, lead author Michael E. Farkouh, MD, MSc, said in an interview.

If their LDL-C “stays above 70 mg/dL, they don’t really enjoy any benefit of PCI. It’s a message to our interventional community to really drive that LDL down,” said Dr. Farkouh, of the University of Toronto. “Not only with statins, but perhaps with PCSK9 inhibitors, ezetimibe, and other therapies to lower that LDL-C.”

The analysis, published Nov. 2 in the Journal of the American College of Cardiology, pooled more than 4,000 patients with diabetes and stable CAD randomized in the BARI 2D, FREEDOM, and COURAGE trials.

The new study adds a twist to an ongoing theme throughout some meta-analyses and clinical trials like ISCHEMIA since the results of COURAGE were unveiled 13 years ago. The latter trial famously saw no significant difference in death, MI, or stroke in patients with stable CAD assigned to OMT with or without PCI. That set off years of controversy about the relative merits of the revascularization and meds-only strategies in stable CAD that persists today.

But, Dr. Farkouh proposed, whether PCI improves clinical outcomes, compared with meds alone, at least in patients with diabetes, may be tied to the success of LDL-C-lowering therapies in reaching that goal, which in the current study was below 70 mg/dL.

“In this analysis of pooled data from the three major trials, we demonstrate that attaining that level of LDL-C at 1 year portends a better outcome for PCI” in patients with diabetes and stable CAD, he said.

The findings “probably need to be studied further, but it is compelling to think that if we can drive the LDL-C down by one year after the procedure, we have better outcomes with PCI,” compared with a meds-only strategy in patients with diabetes and stable CAD. “That really vindicates a lot of those who believe in PCI,” Dr. Farkouh said.

“What’s surprising to me is, if the patient has an LDL less than 70, why is it that there is a benefit of PCI, compared to medical therapy alone? Because they’re already so aggressively managed, you would think there shouldn’t be a benefit,” Sripal Bangalore, MD, MHA, New York University, said in an interview. “For me, that part is difficult to understand.”

The finding somewhat contradicts the results of ISCHEMIA, in which OMT – including LDL-C-lowering therapy – was considered more aggressive than usually managed in practice, Bangalore said. Yet the trial saw no outcomes difference between PCI and the more conservative approach, leading some to speculate that PCI may be a better choice when, for whatever reason, medical therapy isn’t optimal.

The observed superiority of PCI over meds-only at the lowest LDL-C levels is, according to Dr. Banagalore, “more likely because of residual confounding, given the fact that they’re combining three different trials, which are aimed to address different sets of questions.” He was an investigator with the FREEDOM and ISCHEMIA trials but isn’t associated with the current report.

The main message from this observational analysis is that “of course, we want to get the LDL as low as possible in these patients with demonstrated cardiovascular disease and diabetes,” Donald M. Lloyd-Jones, MD, ScM, Northwestern University, Chicago, said in an interview. “Every one of these patients should be shooting for as low an LDL as possible.”

Regardless of revascularization strategy, he said, “we have to get people on a high-intensity statin, or at least their maximally targeted dose, and have a careful and thoughtful conversation about whether they need additional lowering with, perhaps, ezetimibe, if they’re not below the thresholds we’d like to see them at, in this case, 70 mg/dL.”

Still, the current findings that the relative effects of PCI and CABG in these patients may vary by degree of LDL-C reduction “are interesting, but would have to be tested a little bit more directly,” said Dr. Lloyd-Jones, who is not affiliated with the analysis.

An accompanying editorial, which also acknowledges the study’s limitations, says its results “are relevant for clinical practice and may pave the way toward the generation of novel personalized medicine models that can optimize care of patients with type-2 diabetes.” 

They “support the concept of an individualized treatment strategy that accounts for a patient’s LDL-C level to estimate clinical outcomes and expected treatment effects after therapeutic interventions,” say the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.

“For daily practice, these results also underscore the importance of follow-up LDL-C measurements, both as a risk stratifier and as an indicator for therapy adjustments,” they write, noting that “current guidelines provide no formal recommendation on when to check LDL-C after PCI.”

The meta-analysis followed a total of 4050 patients with diabetes and stable CAD from the three randomized trials, those with evaluable baseline and follow-up LDL-C measurements, for a median of 4 years after the 1-year LDL-C assessment. At that time, at least 90% of patients in each of the trials had statin prescriptions, the group reported.

At one year, 34.5% of the total cohort had an LDL-C <70 mg/dL; their mean was 55.8 mg/dL.

And 42.2% had an LDL-C from 70 mg/dL to <100 mg/dL; their mean was 83.4 mg/dL. Compared with patients with an LDL-C <70 mg/dL, their adjusted hazard ratio for the composite endpoint was not elevated at 1.07 (95% CI, 0.86-1.32, P = .54).

Finally, 23.2% had an LDL-C ≥100 mg/dL; the mean was 123.0 mg/dL. Compared with the group with the lowest 1-year LDL-C, their adjusted HR for MACCE was increased at 1.46 (95% CI, 1.15 - 1.85, P = .002).

That HR among the 42.3% of patients in the PCI cohort, compared with the 33.3% assigned to meds only, climbed significantly only among those in the lowest 1-year LDL-C stratum: HR, 0.61 (95% CI, 0.40-0.91, P = .016). Corresponding HRs in the mid-range and highest 1-year LDL strata were close to unity and nonsignificant at P = .71 and P = .98, respectively.

On the other hand, the 24.4% of patients assigned to CABG showed better MACCE outcomes than those in the meds-only group across all three 1-year LDL-C strata.

The risk of MACCE wasn’t significantly altered by CABG, compared with PCI among patients achieving a 1-year LDL-C less than 70 mg/dL. However, it fell by about one-half for CABG vs. PCI in both the mid-range and highest 1-year LDL-C strata, P = .003 and P = .022, respectively.

Dr. Bangalore said he’s entirely behind the results of the study’s comparison of PCI and CABG. “It’s exactly the hypothesis that I’ve been putting forward, that if you want to achieve results as good as CABG, do PCI with aggressive medical therapy.” That means second-generation drug-eluting stents for the target lesions, “and aggressive medical therapy to address all of the nontarget lesions, specifically in diabetics.”

It’s possible, Dr. Lloyd-Jones said, that there is “no longer a dichotomy between revascularization strategies,” with respect to clinical outcomes, in such patients who maintain an LDL less than 70 mg/dL, as the study suggests.

“But I wonder, if it had continued for another 4 years of follow-up, whether we would see the CABG patients start to have more events,” such that the CABG advantage goes away at higher LDL-C levels, he proposed.

Or, Dr. Lloyd-Jones speculated, if all patients had achieved LDL-C below 70 mg/dL, “would there be such a difference between the PCI and CABG groups? My bet would be that it would be small or abolished.”

Dr. Farkouh discloses receiving research grants from Amgen, Novo Nordisk, and Novartis. Disclosures for the other study authors can be found with the original article. Editorialist Dr. Navarese discloses receiving consulting fees or honoraria from Abbott, AstraZeneca, Amgen, Bayer, Sanofi, and Pfizer; and grants from Abbott and Amgen. Dr. Lloyd-Jones has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

In order for percutaneous coronary intervention (PCI) to shine, compared with meds alone in patients with type-2 diabetes and stable coronary disease (CAD), it needs help from aggressive control of LDL cholesterol (LDL-C) levels, suggests a patient-level meta-analysis of three major randomized trials.

Performing PCI in such patients with diabetes conferred further benefit over optimal medical therapy (OMT) for major adverse cardiac or cerebrovascular events (MACCE) only among those whose LDL-C levels had been pushed below the guidelines-specified threshold of 70 mg/dL within 1 year.

At that level of LDL-C control, PCI, compared with the meds-alone strategy, was followed by a nearly 40% drop in 4-year risk for the composite endpoint, which consisted of death from any cause or nonfatal myocardial infarction (MI) or stroke.

Also for patients reaching a 1-year LDL-C of <70 mg/dL, the risk of MACCE was similar for those who had been assigned to coronary bypass surgery (CABG), compared with PCI. But that risk was significantly lower for the CABG group among those reaching LDL-C levels above that threshold.

“The strategy of revascularization with the LDL lowering, that’s the combination that seems to be a winner” in such patients with diabetes and stable CAD, lead author Michael E. Farkouh, MD, MSc, said in an interview.

If their LDL-C “stays above 70 mg/dL, they don’t really enjoy any benefit of PCI. It’s a message to our interventional community to really drive that LDL down,” said Dr. Farkouh, of the University of Toronto. “Not only with statins, but perhaps with PCSK9 inhibitors, ezetimibe, and other therapies to lower that LDL-C.”

The analysis, published Nov. 2 in the Journal of the American College of Cardiology, pooled more than 4,000 patients with diabetes and stable CAD randomized in the BARI 2D, FREEDOM, and COURAGE trials.

The new study adds a twist to an ongoing theme throughout some meta-analyses and clinical trials like ISCHEMIA since the results of COURAGE were unveiled 13 years ago. The latter trial famously saw no significant difference in death, MI, or stroke in patients with stable CAD assigned to OMT with or without PCI. That set off years of controversy about the relative merits of the revascularization and meds-only strategies in stable CAD that persists today.

But, Dr. Farkouh proposed, whether PCI improves clinical outcomes, compared with meds alone, at least in patients with diabetes, may be tied to the success of LDL-C-lowering therapies in reaching that goal, which in the current study was below 70 mg/dL.

“In this analysis of pooled data from the three major trials, we demonstrate that attaining that level of LDL-C at 1 year portends a better outcome for PCI” in patients with diabetes and stable CAD, he said.

The findings “probably need to be studied further, but it is compelling to think that if we can drive the LDL-C down by one year after the procedure, we have better outcomes with PCI,” compared with a meds-only strategy in patients with diabetes and stable CAD. “That really vindicates a lot of those who believe in PCI,” Dr. Farkouh said.

“What’s surprising to me is, if the patient has an LDL less than 70, why is it that there is a benefit of PCI, compared to medical therapy alone? Because they’re already so aggressively managed, you would think there shouldn’t be a benefit,” Sripal Bangalore, MD, MHA, New York University, said in an interview. “For me, that part is difficult to understand.”

The finding somewhat contradicts the results of ISCHEMIA, in which OMT – including LDL-C-lowering therapy – was considered more aggressive than usually managed in practice, Bangalore said. Yet the trial saw no outcomes difference between PCI and the more conservative approach, leading some to speculate that PCI may be a better choice when, for whatever reason, medical therapy isn’t optimal.

The observed superiority of PCI over meds-only at the lowest LDL-C levels is, according to Dr. Banagalore, “more likely because of residual confounding, given the fact that they’re combining three different trials, which are aimed to address different sets of questions.” He was an investigator with the FREEDOM and ISCHEMIA trials but isn’t associated with the current report.

The main message from this observational analysis is that “of course, we want to get the LDL as low as possible in these patients with demonstrated cardiovascular disease and diabetes,” Donald M. Lloyd-Jones, MD, ScM, Northwestern University, Chicago, said in an interview. “Every one of these patients should be shooting for as low an LDL as possible.”

Regardless of revascularization strategy, he said, “we have to get people on a high-intensity statin, or at least their maximally targeted dose, and have a careful and thoughtful conversation about whether they need additional lowering with, perhaps, ezetimibe, if they’re not below the thresholds we’d like to see them at, in this case, 70 mg/dL.”

Still, the current findings that the relative effects of PCI and CABG in these patients may vary by degree of LDL-C reduction “are interesting, but would have to be tested a little bit more directly,” said Dr. Lloyd-Jones, who is not affiliated with the analysis.

An accompanying editorial, which also acknowledges the study’s limitations, says its results “are relevant for clinical practice and may pave the way toward the generation of novel personalized medicine models that can optimize care of patients with type-2 diabetes.” 

They “support the concept of an individualized treatment strategy that accounts for a patient’s LDL-C level to estimate clinical outcomes and expected treatment effects after therapeutic interventions,” say the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.

“For daily practice, these results also underscore the importance of follow-up LDL-C measurements, both as a risk stratifier and as an indicator for therapy adjustments,” they write, noting that “current guidelines provide no formal recommendation on when to check LDL-C after PCI.”

The meta-analysis followed a total of 4050 patients with diabetes and stable CAD from the three randomized trials, those with evaluable baseline and follow-up LDL-C measurements, for a median of 4 years after the 1-year LDL-C assessment. At that time, at least 90% of patients in each of the trials had statin prescriptions, the group reported.

At one year, 34.5% of the total cohort had an LDL-C <70 mg/dL; their mean was 55.8 mg/dL.

And 42.2% had an LDL-C from 70 mg/dL to <100 mg/dL; their mean was 83.4 mg/dL. Compared with patients with an LDL-C <70 mg/dL, their adjusted hazard ratio for the composite endpoint was not elevated at 1.07 (95% CI, 0.86-1.32, P = .54).

Finally, 23.2% had an LDL-C ≥100 mg/dL; the mean was 123.0 mg/dL. Compared with the group with the lowest 1-year LDL-C, their adjusted HR for MACCE was increased at 1.46 (95% CI, 1.15 - 1.85, P = .002).

That HR among the 42.3% of patients in the PCI cohort, compared with the 33.3% assigned to meds only, climbed significantly only among those in the lowest 1-year LDL-C stratum: HR, 0.61 (95% CI, 0.40-0.91, P = .016). Corresponding HRs in the mid-range and highest 1-year LDL strata were close to unity and nonsignificant at P = .71 and P = .98, respectively.

On the other hand, the 24.4% of patients assigned to CABG showed better MACCE outcomes than those in the meds-only group across all three 1-year LDL-C strata.

The risk of MACCE wasn’t significantly altered by CABG, compared with PCI among patients achieving a 1-year LDL-C less than 70 mg/dL. However, it fell by about one-half for CABG vs. PCI in both the mid-range and highest 1-year LDL-C strata, P = .003 and P = .022, respectively.

Dr. Bangalore said he’s entirely behind the results of the study’s comparison of PCI and CABG. “It’s exactly the hypothesis that I’ve been putting forward, that if you want to achieve results as good as CABG, do PCI with aggressive medical therapy.” That means second-generation drug-eluting stents for the target lesions, “and aggressive medical therapy to address all of the nontarget lesions, specifically in diabetics.”

It’s possible, Dr. Lloyd-Jones said, that there is “no longer a dichotomy between revascularization strategies,” with respect to clinical outcomes, in such patients who maintain an LDL less than 70 mg/dL, as the study suggests.

“But I wonder, if it had continued for another 4 years of follow-up, whether we would see the CABG patients start to have more events,” such that the CABG advantage goes away at higher LDL-C levels, he proposed.

Or, Dr. Lloyd-Jones speculated, if all patients had achieved LDL-C below 70 mg/dL, “would there be such a difference between the PCI and CABG groups? My bet would be that it would be small or abolished.”

Dr. Farkouh discloses receiving research grants from Amgen, Novo Nordisk, and Novartis. Disclosures for the other study authors can be found with the original article. Editorialist Dr. Navarese discloses receiving consulting fees or honoraria from Abbott, AstraZeneca, Amgen, Bayer, Sanofi, and Pfizer; and grants from Abbott and Amgen. Dr. Lloyd-Jones has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

In order for percutaneous coronary intervention (PCI) to shine, compared with meds alone in patients with type-2 diabetes and stable coronary disease (CAD), it needs help from aggressive control of LDL cholesterol (LDL-C) levels, suggests a patient-level meta-analysis of three major randomized trials.

Performing PCI in such patients with diabetes conferred further benefit over optimal medical therapy (OMT) for major adverse cardiac or cerebrovascular events (MACCE) only among those whose LDL-C levels had been pushed below the guidelines-specified threshold of 70 mg/dL within 1 year.

At that level of LDL-C control, PCI, compared with the meds-alone strategy, was followed by a nearly 40% drop in 4-year risk for the composite endpoint, which consisted of death from any cause or nonfatal myocardial infarction (MI) or stroke.

Also for patients reaching a 1-year LDL-C of <70 mg/dL, the risk of MACCE was similar for those who had been assigned to coronary bypass surgery (CABG), compared with PCI. But that risk was significantly lower for the CABG group among those reaching LDL-C levels above that threshold.

“The strategy of revascularization with the LDL lowering, that’s the combination that seems to be a winner” in such patients with diabetes and stable CAD, lead author Michael E. Farkouh, MD, MSc, said in an interview.

If their LDL-C “stays above 70 mg/dL, they don’t really enjoy any benefit of PCI. It’s a message to our interventional community to really drive that LDL down,” said Dr. Farkouh, of the University of Toronto. “Not only with statins, but perhaps with PCSK9 inhibitors, ezetimibe, and other therapies to lower that LDL-C.”

The analysis, published Nov. 2 in the Journal of the American College of Cardiology, pooled more than 4,000 patients with diabetes and stable CAD randomized in the BARI 2D, FREEDOM, and COURAGE trials.

The new study adds a twist to an ongoing theme throughout some meta-analyses and clinical trials like ISCHEMIA since the results of COURAGE were unveiled 13 years ago. The latter trial famously saw no significant difference in death, MI, or stroke in patients with stable CAD assigned to OMT with or without PCI. That set off years of controversy about the relative merits of the revascularization and meds-only strategies in stable CAD that persists today.

But, Dr. Farkouh proposed, whether PCI improves clinical outcomes, compared with meds alone, at least in patients with diabetes, may be tied to the success of LDL-C-lowering therapies in reaching that goal, which in the current study was below 70 mg/dL.

“In this analysis of pooled data from the three major trials, we demonstrate that attaining that level of LDL-C at 1 year portends a better outcome for PCI” in patients with diabetes and stable CAD, he said.

The findings “probably need to be studied further, but it is compelling to think that if we can drive the LDL-C down by one year after the procedure, we have better outcomes with PCI,” compared with a meds-only strategy in patients with diabetes and stable CAD. “That really vindicates a lot of those who believe in PCI,” Dr. Farkouh said.

“What’s surprising to me is, if the patient has an LDL less than 70, why is it that there is a benefit of PCI, compared to medical therapy alone? Because they’re already so aggressively managed, you would think there shouldn’t be a benefit,” Sripal Bangalore, MD, MHA, New York University, said in an interview. “For me, that part is difficult to understand.”

The finding somewhat contradicts the results of ISCHEMIA, in which OMT – including LDL-C-lowering therapy – was considered more aggressive than usually managed in practice, Bangalore said. Yet the trial saw no outcomes difference between PCI and the more conservative approach, leading some to speculate that PCI may be a better choice when, for whatever reason, medical therapy isn’t optimal.

The observed superiority of PCI over meds-only at the lowest LDL-C levels is, according to Dr. Banagalore, “more likely because of residual confounding, given the fact that they’re combining three different trials, which are aimed to address different sets of questions.” He was an investigator with the FREEDOM and ISCHEMIA trials but isn’t associated with the current report.

The main message from this observational analysis is that “of course, we want to get the LDL as low as possible in these patients with demonstrated cardiovascular disease and diabetes,” Donald M. Lloyd-Jones, MD, ScM, Northwestern University, Chicago, said in an interview. “Every one of these patients should be shooting for as low an LDL as possible.”

Regardless of revascularization strategy, he said, “we have to get people on a high-intensity statin, or at least their maximally targeted dose, and have a careful and thoughtful conversation about whether they need additional lowering with, perhaps, ezetimibe, if they’re not below the thresholds we’d like to see them at, in this case, 70 mg/dL.”

Still, the current findings that the relative effects of PCI and CABG in these patients may vary by degree of LDL-C reduction “are interesting, but would have to be tested a little bit more directly,” said Dr. Lloyd-Jones, who is not affiliated with the analysis.

An accompanying editorial, which also acknowledges the study’s limitations, says its results “are relevant for clinical practice and may pave the way toward the generation of novel personalized medicine models that can optimize care of patients with type-2 diabetes.” 

They “support the concept of an individualized treatment strategy that accounts for a patient’s LDL-C level to estimate clinical outcomes and expected treatment effects after therapeutic interventions,” say the authors, led by Eliano P. Navarese, MD, PhD, Nicolaus Copernicus University, Bydgoszcz, Poland.

“For daily practice, these results also underscore the importance of follow-up LDL-C measurements, both as a risk stratifier and as an indicator for therapy adjustments,” they write, noting that “current guidelines provide no formal recommendation on when to check LDL-C after PCI.”

The meta-analysis followed a total of 4050 patients with diabetes and stable CAD from the three randomized trials, those with evaluable baseline and follow-up LDL-C measurements, for a median of 4 years after the 1-year LDL-C assessment. At that time, at least 90% of patients in each of the trials had statin prescriptions, the group reported.

At one year, 34.5% of the total cohort had an LDL-C <70 mg/dL; their mean was 55.8 mg/dL.

And 42.2% had an LDL-C from 70 mg/dL to <100 mg/dL; their mean was 83.4 mg/dL. Compared with patients with an LDL-C <70 mg/dL, their adjusted hazard ratio for the composite endpoint was not elevated at 1.07 (95% CI, 0.86-1.32, P = .54).

Finally, 23.2% had an LDL-C ≥100 mg/dL; the mean was 123.0 mg/dL. Compared with the group with the lowest 1-year LDL-C, their adjusted HR for MACCE was increased at 1.46 (95% CI, 1.15 - 1.85, P = .002).

That HR among the 42.3% of patients in the PCI cohort, compared with the 33.3% assigned to meds only, climbed significantly only among those in the lowest 1-year LDL-C stratum: HR, 0.61 (95% CI, 0.40-0.91, P = .016). Corresponding HRs in the mid-range and highest 1-year LDL strata were close to unity and nonsignificant at P = .71 and P = .98, respectively.

On the other hand, the 24.4% of patients assigned to CABG showed better MACCE outcomes than those in the meds-only group across all three 1-year LDL-C strata.

The risk of MACCE wasn’t significantly altered by CABG, compared with PCI among patients achieving a 1-year LDL-C less than 70 mg/dL. However, it fell by about one-half for CABG vs. PCI in both the mid-range and highest 1-year LDL-C strata, P = .003 and P = .022, respectively.

Dr. Bangalore said he’s entirely behind the results of the study’s comparison of PCI and CABG. “It’s exactly the hypothesis that I’ve been putting forward, that if you want to achieve results as good as CABG, do PCI with aggressive medical therapy.” That means second-generation drug-eluting stents for the target lesions, “and aggressive medical therapy to address all of the nontarget lesions, specifically in diabetics.”

It’s possible, Dr. Lloyd-Jones said, that there is “no longer a dichotomy between revascularization strategies,” with respect to clinical outcomes, in such patients who maintain an LDL less than 70 mg/dL, as the study suggests.

“But I wonder, if it had continued for another 4 years of follow-up, whether we would see the CABG patients start to have more events,” such that the CABG advantage goes away at higher LDL-C levels, he proposed.

Or, Dr. Lloyd-Jones speculated, if all patients had achieved LDL-C below 70 mg/dL, “would there be such a difference between the PCI and CABG groups? My bet would be that it would be small or abolished.”

Dr. Farkouh discloses receiving research grants from Amgen, Novo Nordisk, and Novartis. Disclosures for the other study authors can be found with the original article. Editorialist Dr. Navarese discloses receiving consulting fees or honoraria from Abbott, AstraZeneca, Amgen, Bayer, Sanofi, and Pfizer; and grants from Abbott and Amgen. Dr. Lloyd-Jones has disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Transcatheter replacement of a failing surgical bioprosthetic valve showed durably favorable valve hemodynamics coupled with markedly improved patient functional status and excellent quality of life benefits at 5 years of follow-up in the prospective multicenter PARTNER 2 ViV Registry, Rebecca T. Hahn, MD, reported at the Transcatheter Cardiovascular Research Therapeutics virtual annual meeting.

She provided an update on previously reported 3-year outcomes in 365 patients at high to extreme surgical risk who underwent transcatheter aortic valve replacement (TAVR) with a 23-mm or 26-mm Sapien XT valve to address a failing surgical aortic bioprosthesis. The ViV (valve-in-valve) results are quite encouraging, she said at the meeting sponsored by the Cardiovascular Research Foundation.

“I think that this information is changing our algorithm for how we initially make treatment decisions in our patients,” according to the cardiologist.

“We now know that we can salvage a surgical bioprosthetic valve failure with a transcatheter procedure that is relatively safe and has good outcomes out to 5 years – and that’s with a second-generation TAVR valve, not even the third-generation valve,” observed Dr. Hahn, director of interventional echocardiography at New York–Presbyterian/Columbia University Medical Center and professor of clinical medicine at Columbia University, both in New York.

Interventionalists consider the third-generation valve, the Sapien 3, a superior platform compared to the Sapien 2 in use when the PARTNERS 2 ViV Registry started, she added.

At 5 years of follow-up since TAVR valve implantation, the all-cause mortality rate was 50.6%, up significantly from 32.7% at 3 years. However, this high mortality comes as no surprise given that registry participants had a profound comorbidity burden, as reflected in their mean Society of Thoracic Surgeons risk score of 9.1% at the time of TAVR. Of note, the 5-year mortality in surgically high- to extreme-risk patients in the ViV registry was comparable with the 45.9% rate at 5 years following TAVR of a native valve in intermediate-risk patients in the PARTNER 2b trial and superior to the 73% rate with TAVR of a native aortic valve in inoperable patients in PARTNER 2a, the cardiologist said.

The 5-year stroke rate in the ViV registry was 10.1%, up from 6.2% at 3 years. The cumulative incidence of death or stroke through 5 years was 53.8%.

Mortality was significantly lower in recipients of a 26-mm Sapien 2 valve than with the 23-mm version, at 40% at 5 years versus 53%. Recipients of the smaller valve were more often male, had a higher prevalence of coronary artery disease, a higher surgical risk score, a significantly smaller baseline aortic valve area, and a higher mean gradient. Dr. Hahn and her coinvestigators are now examining their data to determine if surgical valve size/patient mismatch was a major driver of adverse outcomes, as has been reported in some other datasets.

At 5 years, the rate of structural valve deterioration–related hemodynamic valve deterioration (SVD-HVD) or bioprosthetic valve failure (BVF) using the soon-to-be-published Valve Academic Research Consortium–3 definitions was 6.6%. The rates of each class of valve deterioration at 5 years in this high- to extreme-risk population were 1.2 per 100 patient-years for SVD-HVD, 0.88 per 100 patient-years for all BVF, and 0.4 per 100 patient-years for SVD-related BVF.

Fully 51% of 5-year survivors were NYHA functional class I, whereas more than 90% of patients were class III or IV at baseline. The mean gradient was 16.8 mm Hg at 5 years, the Doppler velocity index was 0.35, and the mean Kansas City Cardiomyopathy Questionnaire overall summary score was 74.2, all closely similar to the values at 3 years. That dramatic and sustained improvement in the Kansas City Cardiomyopathy Questionnaire from a baseline of 43.1 points is larger than ever seen in any clinical trial of native valve TAVR, Dr. Hahn noted.

For discussant Vinayak N. Bapat, MD a cardiothoracic surgeon at the Minneapolis Heart Institute Foundation, the 5-year PARTNER 2 follow-up data contains a clear take-home message: “These data show that, when we as surgeons are putting in small valves, we ought to put in valves that are expandable.”

Discussant Jeroen J. Bax, MD, had one major caveat regarding the PARTNER 2 ViV Registry findings: They focused on high-surgical-risk patients.

“I think we would all agree that in high-risk patients, valve-in-valve is a better option than redo surgery. But in young, low-risk patients who are getting a bioprosthetic valve – and we’re going to be seeing more and more of them because over 90% of patients in Europe getting aortic valve surgery now are getting a bioprosthetic valve – we really don’t know what the best option is,” said Dr. Bax, professor of cardiology at the University of Leiden (the Netherlands).

He suggested a randomized trial of TAVR versus redo surgery in low-risk patients with failing bioprosthetic valves is in order, particularly in light of concerns raised by a recent report from a French national patient registry. These were “high-quality, real-world data,” Dr. Bax said, and while they showed better early outcomes for TAVR ViV than with redo surgery, there was a crossing of the curves for heart failure hospitalization already by 2 years.

“We need to look closely at younger, low-risk patients,” he concluded.

The PARTNER 2 ViV Registry is funded by Edwards Lifesciences. Dr. Hahn reported receiving research support from Philips Healthcare and 3Mensio and honoraria from Boston Scientific, Edwards Lifesciences, and Philips Healthcare.

[email protected]

SOURCE: Hahn RT. TCT 2020, Late breaker.

Transcatheter replacement of a failing surgical bioprosthetic valve showed durably favorable valve hemodynamics coupled with markedly improved patient functional status and excellent quality of life benefits at 5 years of follow-up in the prospective multicenter PARTNER 2 ViV Registry, Rebecca T. Hahn, MD, reported at the Transcatheter Cardiovascular Research Therapeutics virtual annual meeting.

She provided an update on previously reported 3-year outcomes in 365 patients at high to extreme surgical risk who underwent transcatheter aortic valve replacement (TAVR) with a 23-mm or 26-mm Sapien XT valve to address a failing surgical aortic bioprosthesis. The ViV (valve-in-valve) results are quite encouraging, she said at the meeting sponsored by the Cardiovascular Research Foundation.

“I think that this information is changing our algorithm for how we initially make treatment decisions in our patients,” according to the cardiologist.

“We now know that we can salvage a surgical bioprosthetic valve failure with a transcatheter procedure that is relatively safe and has good outcomes out to 5 years – and that’s with a second-generation TAVR valve, not even the third-generation valve,” observed Dr. Hahn, director of interventional echocardiography at New York–Presbyterian/Columbia University Medical Center and professor of clinical medicine at Columbia University, both in New York.

Interventionalists consider the third-generation valve, the Sapien 3, a superior platform compared to the Sapien 2 in use when the PARTNERS 2 ViV Registry started, she added.

At 5 years of follow-up since TAVR valve implantation, the all-cause mortality rate was 50.6%, up significantly from 32.7% at 3 years. However, this high mortality comes as no surprise given that registry participants had a profound comorbidity burden, as reflected in their mean Society of Thoracic Surgeons risk score of 9.1% at the time of TAVR. Of note, the 5-year mortality in surgically high- to extreme-risk patients in the ViV registry was comparable with the 45.9% rate at 5 years following TAVR of a native valve in intermediate-risk patients in the PARTNER 2b trial and superior to the 73% rate with TAVR of a native aortic valve in inoperable patients in PARTNER 2a, the cardiologist said.

The 5-year stroke rate in the ViV registry was 10.1%, up from 6.2% at 3 years. The cumulative incidence of death or stroke through 5 years was 53.8%.

Mortality was significantly lower in recipients of a 26-mm Sapien 2 valve than with the 23-mm version, at 40% at 5 years versus 53%. Recipients of the smaller valve were more often male, had a higher prevalence of coronary artery disease, a higher surgical risk score, a significantly smaller baseline aortic valve area, and a higher mean gradient. Dr. Hahn and her coinvestigators are now examining their data to determine if surgical valve size/patient mismatch was a major driver of adverse outcomes, as has been reported in some other datasets.

At 5 years, the rate of structural valve deterioration–related hemodynamic valve deterioration (SVD-HVD) or bioprosthetic valve failure (BVF) using the soon-to-be-published Valve Academic Research Consortium–3 definitions was 6.6%. The rates of each class of valve deterioration at 5 years in this high- to extreme-risk population were 1.2 per 100 patient-years for SVD-HVD, 0.88 per 100 patient-years for all BVF, and 0.4 per 100 patient-years for SVD-related BVF.

Fully 51% of 5-year survivors were NYHA functional class I, whereas more than 90% of patients were class III or IV at baseline. The mean gradient was 16.8 mm Hg at 5 years, the Doppler velocity index was 0.35, and the mean Kansas City Cardiomyopathy Questionnaire overall summary score was 74.2, all closely similar to the values at 3 years. That dramatic and sustained improvement in the Kansas City Cardiomyopathy Questionnaire from a baseline of 43.1 points is larger than ever seen in any clinical trial of native valve TAVR, Dr. Hahn noted.

For discussant Vinayak N. Bapat, MD a cardiothoracic surgeon at the Minneapolis Heart Institute Foundation, the 5-year PARTNER 2 follow-up data contains a clear take-home message: “These data show that, when we as surgeons are putting in small valves, we ought to put in valves that are expandable.”

Discussant Jeroen J. Bax, MD, had one major caveat regarding the PARTNER 2 ViV Registry findings: They focused on high-surgical-risk patients.

“I think we would all agree that in high-risk patients, valve-in-valve is a better option than redo surgery. But in young, low-risk patients who are getting a bioprosthetic valve – and we’re going to be seeing more and more of them because over 90% of patients in Europe getting aortic valve surgery now are getting a bioprosthetic valve – we really don’t know what the best option is,” said Dr. Bax, professor of cardiology at the University of Leiden (the Netherlands).

He suggested a randomized trial of TAVR versus redo surgery in low-risk patients with failing bioprosthetic valves is in order, particularly in light of concerns raised by a recent report from a French national patient registry. These were “high-quality, real-world data,” Dr. Bax said, and while they showed better early outcomes for TAVR ViV than with redo surgery, there was a crossing of the curves for heart failure hospitalization already by 2 years.

“We need to look closely at younger, low-risk patients,” he concluded.

The PARTNER 2 ViV Registry is funded by Edwards Lifesciences. Dr. Hahn reported receiving research support from Philips Healthcare and 3Mensio and honoraria from Boston Scientific, Edwards Lifesciences, and Philips Healthcare.

[email protected]

SOURCE: Hahn RT. TCT 2020, Late breaker.

Transcatheter replacement of a failing surgical bioprosthetic valve showed durably favorable valve hemodynamics coupled with markedly improved patient functional status and excellent quality of life benefits at 5 years of follow-up in the prospective multicenter PARTNER 2 ViV Registry, Rebecca T. Hahn, MD, reported at the Transcatheter Cardiovascular Research Therapeutics virtual annual meeting.

She provided an update on previously reported 3-year outcomes in 365 patients at high to extreme surgical risk who underwent transcatheter aortic valve replacement (TAVR) with a 23-mm or 26-mm Sapien XT valve to address a failing surgical aortic bioprosthesis. The ViV (valve-in-valve) results are quite encouraging, she said at the meeting sponsored by the Cardiovascular Research Foundation.

“I think that this information is changing our algorithm for how we initially make treatment decisions in our patients,” according to the cardiologist.

“We now know that we can salvage a surgical bioprosthetic valve failure with a transcatheter procedure that is relatively safe and has good outcomes out to 5 years – and that’s with a second-generation TAVR valve, not even the third-generation valve,” observed Dr. Hahn, director of interventional echocardiography at New York–Presbyterian/Columbia University Medical Center and professor of clinical medicine at Columbia University, both in New York.

Interventionalists consider the third-generation valve, the Sapien 3, a superior platform compared to the Sapien 2 in use when the PARTNERS 2 ViV Registry started, she added.

At 5 years of follow-up since TAVR valve implantation, the all-cause mortality rate was 50.6%, up significantly from 32.7% at 3 years. However, this high mortality comes as no surprise given that registry participants had a profound comorbidity burden, as reflected in their mean Society of Thoracic Surgeons risk score of 9.1% at the time of TAVR. Of note, the 5-year mortality in surgically high- to extreme-risk patients in the ViV registry was comparable with the 45.9% rate at 5 years following TAVR of a native valve in intermediate-risk patients in the PARTNER 2b trial and superior to the 73% rate with TAVR of a native aortic valve in inoperable patients in PARTNER 2a, the cardiologist said.

The 5-year stroke rate in the ViV registry was 10.1%, up from 6.2% at 3 years. The cumulative incidence of death or stroke through 5 years was 53.8%.

Mortality was significantly lower in recipients of a 26-mm Sapien 2 valve than with the 23-mm version, at 40% at 5 years versus 53%. Recipients of the smaller valve were more often male, had a higher prevalence of coronary artery disease, a higher surgical risk score, a significantly smaller baseline aortic valve area, and a higher mean gradient. Dr. Hahn and her coinvestigators are now examining their data to determine if surgical valve size/patient mismatch was a major driver of adverse outcomes, as has been reported in some other datasets.

At 5 years, the rate of structural valve deterioration–related hemodynamic valve deterioration (SVD-HVD) or bioprosthetic valve failure (BVF) using the soon-to-be-published Valve Academic Research Consortium–3 definitions was 6.6%. The rates of each class of valve deterioration at 5 years in this high- to extreme-risk population were 1.2 per 100 patient-years for SVD-HVD, 0.88 per 100 patient-years for all BVF, and 0.4 per 100 patient-years for SVD-related BVF.

Fully 51% of 5-year survivors were NYHA functional class I, whereas more than 90% of patients were class III or IV at baseline. The mean gradient was 16.8 mm Hg at 5 years, the Doppler velocity index was 0.35, and the mean Kansas City Cardiomyopathy Questionnaire overall summary score was 74.2, all closely similar to the values at 3 years. That dramatic and sustained improvement in the Kansas City Cardiomyopathy Questionnaire from a baseline of 43.1 points is larger than ever seen in any clinical trial of native valve TAVR, Dr. Hahn noted.

For discussant Vinayak N. Bapat, MD a cardiothoracic surgeon at the Minneapolis Heart Institute Foundation, the 5-year PARTNER 2 follow-up data contains a clear take-home message: “These data show that, when we as surgeons are putting in small valves, we ought to put in valves that are expandable.”

Discussant Jeroen J. Bax, MD, had one major caveat regarding the PARTNER 2 ViV Registry findings: They focused on high-surgical-risk patients.

“I think we would all agree that in high-risk patients, valve-in-valve is a better option than redo surgery. But in young, low-risk patients who are getting a bioprosthetic valve – and we’re going to be seeing more and more of them because over 90% of patients in Europe getting aortic valve surgery now are getting a bioprosthetic valve – we really don’t know what the best option is,” said Dr. Bax, professor of cardiology at the University of Leiden (the Netherlands).

He suggested a randomized trial of TAVR versus redo surgery in low-risk patients with failing bioprosthetic valves is in order, particularly in light of concerns raised by a recent report from a French national patient registry. These were “high-quality, real-world data,” Dr. Bax said, and while they showed better early outcomes for TAVR ViV than with redo surgery, there was a crossing of the curves for heart failure hospitalization already by 2 years.

“We need to look closely at younger, low-risk patients,” he concluded.

The PARTNER 2 ViV Registry is funded by Edwards Lifesciences. Dr. Hahn reported receiving research support from Philips Healthcare and 3Mensio and honoraria from Boston Scientific, Edwards Lifesciences, and Philips Healthcare.

[email protected]

SOURCE: Hahn RT. TCT 2020, Late breaker.

Giving crushed prasugrel (Effient) to patients with ST-segment elevation myocardial infarction (STEMI) en route to a planned primary percutaneous coronary intervention (PCI) does not improve reperfusion rates, results of the COMPARE CRUSH trial show.

Patients assigned to prasugrel as crushed or integral tablets had similar rates of the study’s co-primary endpoints of thrombolysis in myocardial infarction (TIMI) 3 flow in the infarct-related artery at first angiography (31% vs. 32.7%; P = .64) and complete ST-segment resolution 1 hour post PCI (59.9% vs. 57.3%; P = .55).

“These findings hold in spite of the fact that crushed tablets of prasugrel led to more potent platelet inhibition compared with integral tablets,” said study author Georgios Vlachojannis, MD, PhD, University Medical Center Utrecht, the Netherlands.

“Whether faster and more potent antiplatelet therapy can improve coronary reperfusion in contemporary STEMI treatment regimen warrants further investigation.”

The results were reported in a late-breaking clinical science session at the Transcatheter Cardiovascular Therapeutics virtual annual meeting and published simultaneously in the journal Circulation. The meeting was sponsored by the Cardiovascular Research Foundation.

Fibrinolytics and glycoprotein IIb/IIIa inhibitors have demonstrated improved coronary reperfusion and outcomes when given pre hospital. Prior studies have also shown that early administration of a crushed P2Y12 inhibitor increases bioavailability and speeds platelet inhibition in STEMI patients, Dr. Vlachojannis noted.

However, the large randomized ATLANTIC trial, which compared prehospital to cath lab administration of crushed or integral ticagrelor (Brilinta), also found no difference in either TIMI flow in the infarct-related artery or ST-segment resolution.

Between November 2017 and March 2020, the investigator-initiated COMPARE CRUSH trial randomly allocated 727 STEMI patients (mean age, 62 years; 23% female) undergoing primary PCI to receive in the ambulance a 60-mg loading dose of prasugrel as either crushed or integral tablets.

The median time from onset of symptoms to first medical contact was 59 minutes, from first medical contact to study treatment 22 minutes, and from study treatment to primary PCI 57 minutes. These times did not differ between groups.

Platelet reactivity at the beginning of coronary angiography was significantly lower in the crushed group than in the integral group (P2Y12 reactivity units 192 vs. 227; P < .01). This resulted in significantly fewer patients in the crushed group with high platelet reactivity, defined as P2Y12 reactivity units >208, prior to the start of PCI (43.3% vs. 62.6%; P < .01).

There was no difference between the crushed and integral groups in the primary safety endpoint of TIMI major and BARC type 3 or higher bleeding within 48 hours after study treatment (0.4% vs 0.7%).

Death, MI, stroke, and urgent revascularization rates were also similar between groups during index hospitalization and at 30 days. Definite stent thrombosis occurred in one patient in the crushed group and two patients in the integral group.

In an exploratory analysis, the co-primary endpoint results were consistent across multiple subgroups, although there was a trend toward greater benefit on TIMI 3 flow in the crushed tablet group in patients older than age 75 years (P for interaction = .04), presenting with anterior infarction (P for interaction = .03), or with a history of prior PCI (P for interaction < .01).

“However, these results should be regarded as hypothesis-generating,” the authors wrote. “Opioids use in the ambulance was remarkably low in our study compared with the ATLANTIC trial, which might explain that we did not observe any significant interaction.”

Notably, morphine was used in half the ATLANTIC patients and was thought to have possibly delayed the absorption of ticagrelor.

During discussion following the presentation, Sunil V. Rao, MD, Duke University Medical Center, Durham, N.C., asked: “Based on what you found, which is really no clinical advantage but no safety issue either, are you having your patients with ST-segment MI administering crushed prasugrel now?”

Dr. Vlachojannis said they didn’t see any clinical impact but reiterated that high platelet reactivity was reduced by one-third. “If this now translates into a safer primary PCI procedure, we can’t say. The study wasn’t powered for this kind of endpoint. Is this enough to give you a recommendation, Sunil, I’m not sure.”

“What we know with COMPARE CRUSH, and this is important, is that we tried to give the medication as soon as possible and tried to give this medication in a formulation which has the most favorable pharmacodynamics profile, and we still see it’s not doing the job,” he added.

Fellow panelist Philippe Gabriel Steg, MD, Imperial College London, questioned whether treatment time may play a role in teasing out the relatively modest differences that platelet reactivity may have on clinical outcomes.

Dr. Vlachojannis said the time from symptom onset to first medical contact was very fast and similar to that in the ATLANTIC trial. “The short time intervals have certainly influenced the outcomes.”

Panelist Marco Valgimigli, MD, PhD, University Hospital Bern, Switzerland, followed up on the morphine issue, asking whether the investigators tested for an interaction between morphine or opioid use and platelet reactivity at the time of PCI.

“We haven’t looked into this but you probably have the ON-TIME 3 data in your mind when you’re asking this, where crushed ticagrelor given in the ambulance didn’t influence platelet reactivity at the time point of PCI,” Dr. Vlachojannis said. “We are going to look further into the data and certainly the platelet reactivity analysis is going to be very interesting in this data set.”

The study was an investigator-initiated trial sponsored by Maasstad Cardiovascular Research B.V. with unrestricted grants from Shanghai MicroPort Medical and Daiichi Sankyo. Dr. Vlachojannis declared receiving consulting fees from AstraZeneca, and research grants from Daiichi Sankyo and Shanghai MicroPort.

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

Giving crushed prasugrel (Effient) to patients with ST-segment elevation myocardial infarction (STEMI) en route to a planned primary percutaneous coronary intervention (PCI) does not improve reperfusion rates, results of the COMPARE CRUSH trial show.

Patients assigned to prasugrel as crushed or integral tablets had similar rates of the study’s co-primary endpoints of thrombolysis in myocardial infarction (TIMI) 3 flow in the infarct-related artery at first angiography (31% vs. 32.7%; P = .64) and complete ST-segment resolution 1 hour post PCI (59.9% vs. 57.3%; P = .55).

“These findings hold in spite of the fact that crushed tablets of prasugrel led to more potent platelet inhibition compared with integral tablets,” said study author Georgios Vlachojannis, MD, PhD, University Medical Center Utrecht, the Netherlands.

“Whether faster and more potent antiplatelet therapy can improve coronary reperfusion in contemporary STEMI treatment regimen warrants further investigation.”

The results were reported in a late-breaking clinical science session at the Transcatheter Cardiovascular Therapeutics virtual annual meeting and published simultaneously in the journal Circulation. The meeting was sponsored by the Cardiovascular Research Foundation.

Fibrinolytics and glycoprotein IIb/IIIa inhibitors have demonstrated improved coronary reperfusion and outcomes when given pre hospital. Prior studies have also shown that early administration of a crushed P2Y12 inhibitor increases bioavailability and speeds platelet inhibition in STEMI patients, Dr. Vlachojannis noted.

However, the large randomized ATLANTIC trial, which compared prehospital to cath lab administration of crushed or integral ticagrelor (Brilinta), also found no difference in either TIMI flow in the infarct-related artery or ST-segment resolution.

Between November 2017 and March 2020, the investigator-initiated COMPARE CRUSH trial randomly allocated 727 STEMI patients (mean age, 62 years; 23% female) undergoing primary PCI to receive in the ambulance a 60-mg loading dose of prasugrel as either crushed or integral tablets.

The median time from onset of symptoms to first medical contact was 59 minutes, from first medical contact to study treatment 22 minutes, and from study treatment to primary PCI 57 minutes. These times did not differ between groups.

Platelet reactivity at the beginning of coronary angiography was significantly lower in the crushed group than in the integral group (P2Y12 reactivity units 192 vs. 227; P < .01). This resulted in significantly fewer patients in the crushed group with high platelet reactivity, defined as P2Y12 reactivity units >208, prior to the start of PCI (43.3% vs. 62.6%; P < .01).

There was no difference between the crushed and integral groups in the primary safety endpoint of TIMI major and BARC type 3 or higher bleeding within 48 hours after study treatment (0.4% vs 0.7%).

Death, MI, stroke, and urgent revascularization rates were also similar between groups during index hospitalization and at 30 days. Definite stent thrombosis occurred in one patient in the crushed group and two patients in the integral group.

In an exploratory analysis, the co-primary endpoint results were consistent across multiple subgroups, although there was a trend toward greater benefit on TIMI 3 flow in the crushed tablet group in patients older than age 75 years (P for interaction = .04), presenting with anterior infarction (P for interaction = .03), or with a history of prior PCI (P for interaction < .01).

“However, these results should be regarded as hypothesis-generating,” the authors wrote. “Opioids use in the ambulance was remarkably low in our study compared with the ATLANTIC trial, which might explain that we did not observe any significant interaction.”

Notably, morphine was used in half the ATLANTIC patients and was thought to have possibly delayed the absorption of ticagrelor.

During discussion following the presentation, Sunil V. Rao, MD, Duke University Medical Center, Durham, N.C., asked: “Based on what you found, which is really no clinical advantage but no safety issue either, are you having your patients with ST-segment MI administering crushed prasugrel now?”

Dr. Vlachojannis said they didn’t see any clinical impact but reiterated that high platelet reactivity was reduced by one-third. “If this now translates into a safer primary PCI procedure, we can’t say. The study wasn’t powered for this kind of endpoint. Is this enough to give you a recommendation, Sunil, I’m not sure.”

“What we know with COMPARE CRUSH, and this is important, is that we tried to give the medication as soon as possible and tried to give this medication in a formulation which has the most favorable pharmacodynamics profile, and we still see it’s not doing the job,” he added.

Fellow panelist Philippe Gabriel Steg, MD, Imperial College London, questioned whether treatment time may play a role in teasing out the relatively modest differences that platelet reactivity may have on clinical outcomes.

Dr. Vlachojannis said the time from symptom onset to first medical contact was very fast and similar to that in the ATLANTIC trial. “The short time intervals have certainly influenced the outcomes.”

Panelist Marco Valgimigli, MD, PhD, University Hospital Bern, Switzerland, followed up on the morphine issue, asking whether the investigators tested for an interaction between morphine or opioid use and platelet reactivity at the time of PCI.

“We haven’t looked into this but you probably have the ON-TIME 3 data in your mind when you’re asking this, where crushed ticagrelor given in the ambulance didn’t influence platelet reactivity at the time point of PCI,” Dr. Vlachojannis said. “We are going to look further into the data and certainly the platelet reactivity analysis is going to be very interesting in this data set.”

The study was an investigator-initiated trial sponsored by Maasstad Cardiovascular Research B.V. with unrestricted grants from Shanghai MicroPort Medical and Daiichi Sankyo. Dr. Vlachojannis declared receiving consulting fees from AstraZeneca, and research grants from Daiichi Sankyo and Shanghai MicroPort.

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

Giving crushed prasugrel (Effient) to patients with ST-segment elevation myocardial infarction (STEMI) en route to a planned primary percutaneous coronary intervention (PCI) does not improve reperfusion rates, results of the COMPARE CRUSH trial show.

Patients assigned to prasugrel as crushed or integral tablets had similar rates of the study’s co-primary endpoints of thrombolysis in myocardial infarction (TIMI) 3 flow in the infarct-related artery at first angiography (31% vs. 32.7%; P = .64) and complete ST-segment resolution 1 hour post PCI (59.9% vs. 57.3%; P = .55).

“These findings hold in spite of the fact that crushed tablets of prasugrel led to more potent platelet inhibition compared with integral tablets,” said study author Georgios Vlachojannis, MD, PhD, University Medical Center Utrecht, the Netherlands.

“Whether faster and more potent antiplatelet therapy can improve coronary reperfusion in contemporary STEMI treatment regimen warrants further investigation.”

The results were reported in a late-breaking clinical science session at the Transcatheter Cardiovascular Therapeutics virtual annual meeting and published simultaneously in the journal Circulation. The meeting was sponsored by the Cardiovascular Research Foundation.

Fibrinolytics and glycoprotein IIb/IIIa inhibitors have demonstrated improved coronary reperfusion and outcomes when given pre hospital. Prior studies have also shown that early administration of a crushed P2Y12 inhibitor increases bioavailability and speeds platelet inhibition in STEMI patients, Dr. Vlachojannis noted.

However, the large randomized ATLANTIC trial, which compared prehospital to cath lab administration of crushed or integral ticagrelor (Brilinta), also found no difference in either TIMI flow in the infarct-related artery or ST-segment resolution.

Between November 2017 and March 2020, the investigator-initiated COMPARE CRUSH trial randomly allocated 727 STEMI patients (mean age, 62 years; 23% female) undergoing primary PCI to receive in the ambulance a 60-mg loading dose of prasugrel as either crushed or integral tablets.

The median time from onset of symptoms to first medical contact was 59 minutes, from first medical contact to study treatment 22 minutes, and from study treatment to primary PCI 57 minutes. These times did not differ between groups.

Platelet reactivity at the beginning of coronary angiography was significantly lower in the crushed group than in the integral group (P2Y12 reactivity units 192 vs. 227; P < .01). This resulted in significantly fewer patients in the crushed group with high platelet reactivity, defined as P2Y12 reactivity units >208, prior to the start of PCI (43.3% vs. 62.6%; P < .01).

There was no difference between the crushed and integral groups in the primary safety endpoint of TIMI major and BARC type 3 or higher bleeding within 48 hours after study treatment (0.4% vs 0.7%).

Death, MI, stroke, and urgent revascularization rates were also similar between groups during index hospitalization and at 30 days. Definite stent thrombosis occurred in one patient in the crushed group and two patients in the integral group.

In an exploratory analysis, the co-primary endpoint results were consistent across multiple subgroups, although there was a trend toward greater benefit on TIMI 3 flow in the crushed tablet group in patients older than age 75 years (P for interaction = .04), presenting with anterior infarction (P for interaction = .03), or with a history of prior PCI (P for interaction < .01).

“However, these results should be regarded as hypothesis-generating,” the authors wrote. “Opioids use in the ambulance was remarkably low in our study compared with the ATLANTIC trial, which might explain that we did not observe any significant interaction.”

Notably, morphine was used in half the ATLANTIC patients and was thought to have possibly delayed the absorption of ticagrelor.

During discussion following the presentation, Sunil V. Rao, MD, Duke University Medical Center, Durham, N.C., asked: “Based on what you found, which is really no clinical advantage but no safety issue either, are you having your patients with ST-segment MI administering crushed prasugrel now?”

Dr. Vlachojannis said they didn’t see any clinical impact but reiterated that high platelet reactivity was reduced by one-third. “If this now translates into a safer primary PCI procedure, we can’t say. The study wasn’t powered for this kind of endpoint. Is this enough to give you a recommendation, Sunil, I’m not sure.”

“What we know with COMPARE CRUSH, and this is important, is that we tried to give the medication as soon as possible and tried to give this medication in a formulation which has the most favorable pharmacodynamics profile, and we still see it’s not doing the job,” he added.

Fellow panelist Philippe Gabriel Steg, MD, Imperial College London, questioned whether treatment time may play a role in teasing out the relatively modest differences that platelet reactivity may have on clinical outcomes.

Dr. Vlachojannis said the time from symptom onset to first medical contact was very fast and similar to that in the ATLANTIC trial. “The short time intervals have certainly influenced the outcomes.”

Panelist Marco Valgimigli, MD, PhD, University Hospital Bern, Switzerland, followed up on the morphine issue, asking whether the investigators tested for an interaction between morphine or opioid use and platelet reactivity at the time of PCI.

“We haven’t looked into this but you probably have the ON-TIME 3 data in your mind when you’re asking this, where crushed ticagrelor given in the ambulance didn’t influence platelet reactivity at the time point of PCI,” Dr. Vlachojannis said. “We are going to look further into the data and certainly the platelet reactivity analysis is going to be very interesting in this data set.”

The study was an investigator-initiated trial sponsored by Maasstad Cardiovascular Research B.V. with unrestricted grants from Shanghai MicroPort Medical and Daiichi Sankyo. Dr. Vlachojannis declared receiving consulting fees from AstraZeneca, and research grants from Daiichi Sankyo and Shanghai MicroPort.

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

“I disapprove of what you say, but I will defend to the death your right to say it.” The choice of the secretary general of the European Association for Cardio-Thoracic Surgery to open with this quote was the first hint that the next presentation at the 2019 annual meeting would be anything but dull. The session chair followed with a reminder to keep the discussion polite and civil.

Presenter David Taggart, MD, PhD, did not disappoint. The professor of cardiovascular surgery at the University of Oxford (England) began with the announcement that he had withdrawn his name from a recent paper in the New England Journal of Medicine. He then proceeded to accuse his coinvestigators of misrepresenting the findings of a major clinical trial.

Dr. Taggart was chair of the surgical committee for the Abbott-sponsored EXCEL trial, which compared two procedures for patients who had blockages in their left main coronary artery: percutaneous coronary intervention (PCI) using coronary stents, and coronary artery bypass graft surgery (CABG). The investigators designed the trial to compare outcomes for the two treatments using a composite endpoint of death, stroke, and MI. The 3-year follow-up data had been published in NEJM without controversy – or, at least, without public controversy.

But when it came time to publish the 5-year follow-up, there was a significantly higher rate of death in the stent group, and both Dr. Taggart and the journal editors were concerned that this finding was being downplayed in the manuscript.

In their comments to the authors, the journal editors had recommended including the mortality difference (unless clearly trivial) ‘”in the concluding statement in the final paragraph.” Yet, the concluding statement of the published paper read that there “was no significant difference between PCI and CABG.”

In Dr. Taggart’s view, that claim was dangerous for patients, and so he was left with no choice but to remove himself as an author, a first for the academic with over 300 scientific papers to his name.

Earlier publications from the EXCEL trial had influenced European treatment guidelines. But subsequent allegations of misconduct and hidden data spurred the EACTS to repudiate those guidelines out of concern “that some results in the EXCEL trial appear to have been concealed and that some patients may therefore have received the wrong clinical advice.”

The controversy pitted cardiothoracic surgeons against interventional cardiologists, who were seen as increasingly encroaching on the surgeons’ turf. Dr. Taggart was a long-time critic of the subspecialty.

Surgeons demanded an independent analysis of the EXCEL trial data – a demand that the investigators have yet to satisfy. Dr. Taggart was the first to speak publicly, but others had major reservations about the trial reporting and conduct years earlier.
 

Mortality data held back

One such person was Lars Wallentin, MD, a professor of cardiology at Uppsala (Sweden) University Hospital, who chaired the independent committee that monitored the safety and scientific validity of the EXCEL trial.

The committee, known as the data and safety monitoring board (DSMB), received a report on March 23, 2016, that showed that increasingly more patients who had received stents were dying, compared with the group of patients that had undergone CABG. A graph of the survival curves showed the gap between the two groups widening after 3 years (Figure 1).

By September of that year, Dr. Wallentin and other members of the DSMB were anxious to share the concerning mortality difference with the broader medical community.

They were aware that EACTS and the European Society of Cardiology had started the process of updating their guidelines on myocardial revascularization, and were keen for the guideline writing committee to see all of the data.

Meanwhile, the trial investigators, led by principal investigator Gregg Stone, MD, then at New York–Presbyterian Hospital and Columbia University Medical Center, were preparing to publish a report of the 3-year outcomes. Recruitment for EXCEL started in September 2010, so at the time of the 3-year analysis in 2016, some patients had been followed up for over 5 years. But the data, published in NEJM in October 2016, were capped at 3 years (Figure 2). It didn’t show the widening gap in late mortality that Dr. Wallentin and the rest of the DSMB had seen.

When asked about this, the investigators said they were transparent about their plans to cap the data at 3 years in an amendment to the study protocol. Stone’s coprincipal investigators were interventional cardiologist Patrick Serruys, MD, then of Imperial College London; and two surgeons: Joseph Sabik, MD, then of the Cleveland Clinic Foundation, and A. Pieter Kappetein, MD, PhD, then at Erasmus Medical Center, Rotterdam. The four principal investigators all declared financial payments from stent manufacturers either to themselves or their institutions.

Study sponsor Abbott has distanced itself from the decisions made and has referred all questions about the trial to the EXCEL investigators. Charles Simonton, chief medical officer at Abbott (now at Abiomed) was a coauthor on both the 3- and 5-year papers. Dr. Wallentin believes that the sponsor must have been aware of the DSMB’s concerns.
 

Continuing DSMB concerns

A year later, the DSMB was still troubled. Dr. Wallentin emailed Dr. Stone in September 2017 asking for an updated analysis of the mortality data without any capping in time.

Dr. Wallentin added that he didn’t think that unblinding the mortality results would be an issue at that stage because these were late deaths in a trial where the interventions were long completed. But, he warned, “it might be very concerning if, in the future, suspicions were raised that already available information on mortality was withheld from the cardiology and thoracic surgery community.”

The investigators took a month to respond. They declined the request, saying that the trial was not statistically powered to measure mortality. In his email to Dr. Wallentin, Dr. Stone stressed that they were committed to complete disclosure of all of the EXCEL data and that the responsible time point to unblind was after 4 years. His coprincipal investigators (Dr. Serruys, Dr. Sabik, and Dr. Kappetein) as well as EXCEL statistical committee chair Stuart Pocock, PhD, and Mr. Simonton were all copied on the email.

Dr. Wallentin deferred to the principal investigators’ arguments.
 

Missing MI data

Death was not the only outcome of the EXCEL trial to draw scrutiny.

The EXCEL investigators used a unique definition of MI that was almost exclusively based on a rise in the cardiac biomarker CK-MB. This protocol definition of MI was later adapted into the Society for Cardiovascular Angiography and Interventions definition in a paper coauthored by Dr. Stone. The investigators agreed to also measure MIs that met the more commonly used Third Universal Definition as a secondary endpoint. The Third Universal Definition of Myocardial Infarction uses a change in biomarkers – preferably troponin or alternatively CK-MB – coupled with other clinical signs.

It is standard practice to report secondary endpoints in any analysis of the main findings of a study. Yet, the EXCEL investigators did not report the universal definition of MI in either the 3-year or 5-year publications.

This is critical because MI according to one definition may not count according to the other, and the final tally could tip the trial results positive, negative, or neutral for coronary stents.

In Dr. Taggart’s opinion, the protocol definition puts CABG at a disadvantage because it uses the same biomarker threshold for procedural-related MI for both PCI and CABG. Because surgery involves more manipulation of the heart, cardiac enzyme levels will naturally be higher after CABG than PCI. These procedure-related enzyme elevations are not “true clinical MIs,” according to Dr. Taggart and others.

Late last year, a dataset containing the 3-year follow-up of EXCEL, including the information on the universal definition of MI, was leaked to the BBC. Working with biostatisticians, the BBC confirmed that according to this definition, there were more MIs in the stent group.

Originally, the investigators disputed the finding, calling the BBC data “imaginary.” They claimed that they were unable to calculate a rate of MI according to the universal definition because they lacked routine collection of troponins, although the universal definition also allows use of CK-MB. They have since published an analysis of 5-year MI data according to the universal definition, which showed twice the rate of MI in the PCI group.

From the leaked data, the BBC calculated the main composite endpoint of death, stroke, and MI using the universal definition of MI. Now the results swung in favor of CABG.
 

Impact on guidelines

None of this was known at the time the European cardiology societies convened a committee to write their new guidelines on myocardial revascularization. The writing panel disagreed about whether PCI and CABG were equivalent for patients with left main coronary artery disease (CAD).

Besides EXCEL, another study, the NOBLE trial, compared PCI and CABG in left main CAD and came to opposite conclusions – conclusions that matched the leaked data. In that trial, European investigators chose a slightly different primary endpoint: a composite of death, MI, stroke, and the need for a repeat procedure. They used the universal definition of MI exclusively, and notably, they omitted procedural MI from their clinical event count. The results, published at the same time as the EXCEL 3-year findings, suggested that CABG was better.

Given the discrepant findings of two large trials, the guideline committee considered all of the available data comparing the two methods of revascularization for left main CAD. But even then, things weren’t clear-cut. One draft meta-analysis, supported by the National Institute for Health Research, suggested that results were worse for first- and second-generation drug-eluting coronary stents – including those used in EXCEL – compared with surgery.

Another meta-analysis, later published in The Lancet, drew a different conclusion and found that PCI was just as good as surgery. The main author, Stuart Head, a cardiothoracic surgeon on the ESC/EACTS guideline committee, was a research fellow with EXCEL investigator Dr. Kappetein at Erasmus. EXCEL investigators Dr. Stone, Dr. Kappetein, and Dr. Serruys were coauthors of the Lancet meta-analysis.

There was heated discussion about the committee’s draft recommendations, which gave both CABG and PCI a Class IA recommendation in patients with left main CAD and low anatomical complexity. In October 2017, the ESC commissioned an anonymous external reviewer to weigh in. James Brophy, MD, PhD, a cardiologist and professor of medicine and epidemiology at McGill University, Montreal, confirmed that he was the reviewer after he published an updated version in June 2020.

Looking at all of the data available at the time comparing the procedures for left main CAD, Dr. Brophy’s analysis suggested a 73% chance that the excess in death, stroke, or MI represents at least two excess events per 100 patients treated with PCI rather than CABG.

Dr. Brophy thought that most patients would find these differences clinically meaningful and advised against giving both procedures the same class of recommendation. He was also concerned that many readers will skip to the summary recommendation table without reading the entire guideline document.

“I feel this is misleading in its present form,” he wrote in 2017.

Despite Dr. Brophy’s review, the guideline committee stuck with its original recommendations. The final 2018 ESC/EACTS Guidelines on myocardial revascularization gave equal weight to both CABG and PCI in patients with left main CAD and low anatomical complexity. In contrast, US guidelines do not put PCI and CABG on the same footing for any group of patients with left main CAD.

The lead author of the ESC/EACTS guidelines section on left main disease, and around a third of those on the writing task force, all declared financial payments from stent manufacturers either to themselves or their institutions. The EXCEL principal investigator, Dr. Kappetein, was secretary general of EACTS and oversaw the guidelines process for the surgical organization. He left to work for Medtronic midway through the process and was later joined there by his former research fellow, Stuart Head.

Dr. Brophy said in an interview that given the final guideline recommendations, he assumed that the committee had other reviews and went with the majority opinion.

But not everyone involved in the guidelines saw Dr. Brophy’s review. Nick Freemantle, a statistical reviewer appointed by EACTS, expected to see it but didn’t. This omission calls into question the neutrality of the whole process, in his view.

Mr. Freemantle believes that the deck was stacked so that he only saw the pieces of evidence that supported the conclusions that were already decided and that he was not shown “the bits that don’t fit that neatly.”

“And without that narrative, it all feels a bit grubby, to be honest,” he said.

Professor Barbara Casadei, ESC president, disputed this, saying that the guidelines were approved by all surgical members, including the EACTS council.

Missing from Dr. Brophy’s review were the later data from EXCEL. As he had told the DSMB in 2017, Stone presented the 4-year data from EXCEL at the TCT conference in September 2018. At this point, the analysis showed that 10.3% of people had died after PCI and 7.4% after CABG.

But this presentation was not given much prominence at the conference, which Dr. Stone organized, and occurred during a didactic session in a small room rather than on one of the main stages where the 3-year data from EXCEL were announced with much fanfare. The presentation also took place 3 weeks after the European guidelines were published.
 

Surgeons withdraw support

After the BBC report last year that the universal definition of MI data had been collected but not published in the 3-year follow-up manuscript, and showed more MI in the PCI group than the protocol definition, the EACTS withdrew its support for the guidelines. The ESC continued to uphold the guidelines «until there is robust scientific evidence (as opposed to allegations) indicating we should do otherwise,” said Ms. Casadei.

A spokesperson for NEJM said the journal stood by the EXCEL papers because “there is no credible harm to patients from the publication of the paper and accurate reporting of trial results.” NEJM has since conducted a review and published a series of letters in response. The letters have reinvigorated rather than appeased the dissenters, as reported by Medscape.

A number of cardiologists and researchers started a petition on change.org to revise the EACTS/ESC left main CAD guidelines, and surgical societies across the globe have written to the editor of NEJM asking him to retract or amend the EXCEL papers.

This has not happened. The journal’s editor maintains that the letters containing the analyses are “sufficient information” to allow readers and guideline authors to “evaluate the trial findings.”

Dr. Taggart was dismissive of that response. “There is still no recognition or acknowledgment that failure to publish these data in 2016 ‘misled’ the guideline writers for the ESC/EACTS guidelines, and there is still no formal correction of the 2016 and 2019 NEJM manuscripts.”

Over a year after the BBC received the leaked data, the EXCEL investigators published an analysis of the primary outcome using the universal definition of MI data in the Journal of the American College of Cardiology.

It shows 141 events in the PCI arm, compared with 102 in the CABG arm. The investigators acknowledge that the rates of procedural MI differ depending on the definition used. According to their analysis, the protocol definition was predictive of mortality after both treatments, whereas the universal definition of procedural MI was predictive of mortality only after CABG. Not everyone agrees with this interpretation, and an accompanying editorial questioned these conclusions.

For Dr. Wallentin, it’s a relief that these data are in the public domain so that their interpretation and clinical consequences can be “openly discussed.” He hoped that the whole experience will result in something constructive and useful for the future.

As for the guidelines, the tide may be turning.

In a joint statement with EACTS on Oct. 6, 2020, the ESC agreed to review its guidelines for left main disease in the light of emerging, longer-term outcome data from the trials of CABG versus PCI.

Dr. Taggart has no regrets about speaking out despite this being “an exceedingly painful and bruising experience.”

The saga, he said, “reflects very badly on our specialty, the investigators, industry, and the world’s ‘leading’ medical journal.”

This article first appeared on Medscape.com.

“I disapprove of what you say, but I will defend to the death your right to say it.” The choice of the secretary general of the European Association for Cardio-Thoracic Surgery to open with this quote was the first hint that the next presentation at the 2019 annual meeting would be anything but dull. The session chair followed with a reminder to keep the discussion polite and civil.

Presenter David Taggart, MD, PhD, did not disappoint. The professor of cardiovascular surgery at the University of Oxford (England) began with the announcement that he had withdrawn his name from a recent paper in the New England Journal of Medicine. He then proceeded to accuse his coinvestigators of misrepresenting the findings of a major clinical trial.

Dr. Taggart was chair of the surgical committee for the Abbott-sponsored EXCEL trial, which compared two procedures for patients who had blockages in their left main coronary artery: percutaneous coronary intervention (PCI) using coronary stents, and coronary artery bypass graft surgery (CABG). The investigators designed the trial to compare outcomes for the two treatments using a composite endpoint of death, stroke, and MI. The 3-year follow-up data had been published in NEJM without controversy – or, at least, without public controversy.

But when it came time to publish the 5-year follow-up, there was a significantly higher rate of death in the stent group, and both Dr. Taggart and the journal editors were concerned that this finding was being downplayed in the manuscript.

In their comments to the authors, the journal editors had recommended including the mortality difference (unless clearly trivial) ‘”in the concluding statement in the final paragraph.” Yet, the concluding statement of the published paper read that there “was no significant difference between PCI and CABG.”

In Dr. Taggart’s view, that claim was dangerous for patients, and so he was left with no choice but to remove himself as an author, a first for the academic with over 300 scientific papers to his name.

Earlier publications from the EXCEL trial had influenced European treatment guidelines. But subsequent allegations of misconduct and hidden data spurred the EACTS to repudiate those guidelines out of concern “that some results in the EXCEL trial appear to have been concealed and that some patients may therefore have received the wrong clinical advice.”

The controversy pitted cardiothoracic surgeons against interventional cardiologists, who were seen as increasingly encroaching on the surgeons’ turf. Dr. Taggart was a long-time critic of the subspecialty.

Surgeons demanded an independent analysis of the EXCEL trial data – a demand that the investigators have yet to satisfy. Dr. Taggart was the first to speak publicly, but others had major reservations about the trial reporting and conduct years earlier.
 

Mortality data held back

One such person was Lars Wallentin, MD, a professor of cardiology at Uppsala (Sweden) University Hospital, who chaired the independent committee that monitored the safety and scientific validity of the EXCEL trial.

The committee, known as the data and safety monitoring board (DSMB), received a report on March 23, 2016, that showed that increasingly more patients who had received stents were dying, compared with the group of patients that had undergone CABG. A graph of the survival curves showed the gap between the two groups widening after 3 years (Figure 1).

By September of that year, Dr. Wallentin and other members of the DSMB were anxious to share the concerning mortality difference with the broader medical community.

They were aware that EACTS and the European Society of Cardiology had started the process of updating their guidelines on myocardial revascularization, and were keen for the guideline writing committee to see all of the data.

Meanwhile, the trial investigators, led by principal investigator Gregg Stone, MD, then at New York–Presbyterian Hospital and Columbia University Medical Center, were preparing to publish a report of the 3-year outcomes. Recruitment for EXCEL started in September 2010, so at the time of the 3-year analysis in 2016, some patients had been followed up for over 5 years. But the data, published in NEJM in October 2016, were capped at 3 years (Figure 2). It didn’t show the widening gap in late mortality that Dr. Wallentin and the rest of the DSMB had seen.

When asked about this, the investigators said they were transparent about their plans to cap the data at 3 years in an amendment to the study protocol. Stone’s coprincipal investigators were interventional cardiologist Patrick Serruys, MD, then of Imperial College London; and two surgeons: Joseph Sabik, MD, then of the Cleveland Clinic Foundation, and A. Pieter Kappetein, MD, PhD, then at Erasmus Medical Center, Rotterdam. The four principal investigators all declared financial payments from stent manufacturers either to themselves or their institutions.

Study sponsor Abbott has distanced itself from the decisions made and has referred all questions about the trial to the EXCEL investigators. Charles Simonton, chief medical officer at Abbott (now at Abiomed) was a coauthor on both the 3- and 5-year papers. Dr. Wallentin believes that the sponsor must have been aware of the DSMB’s concerns.
 

Continuing DSMB concerns

A year later, the DSMB was still troubled. Dr. Wallentin emailed Dr. Stone in September 2017 asking for an updated analysis of the mortality data without any capping in time.

Dr. Wallentin added that he didn’t think that unblinding the mortality results would be an issue at that stage because these were late deaths in a trial where the interventions were long completed. But, he warned, “it might be very concerning if, in the future, suspicions were raised that already available information on mortality was withheld from the cardiology and thoracic surgery community.”

The investigators took a month to respond. They declined the request, saying that the trial was not statistically powered to measure mortality. In his email to Dr. Wallentin, Dr. Stone stressed that they were committed to complete disclosure of all of the EXCEL data and that the responsible time point to unblind was after 4 years. His coprincipal investigators (Dr. Serruys, Dr. Sabik, and Dr. Kappetein) as well as EXCEL statistical committee chair Stuart Pocock, PhD, and Mr. Simonton were all copied on the email.

Dr. Wallentin deferred to the principal investigators’ arguments.
 

Missing MI data

Death was not the only outcome of the EXCEL trial to draw scrutiny.

The EXCEL investigators used a unique definition of MI that was almost exclusively based on a rise in the cardiac biomarker CK-MB. This protocol definition of MI was later adapted into the Society for Cardiovascular Angiography and Interventions definition in a paper coauthored by Dr. Stone. The investigators agreed to also measure MIs that met the more commonly used Third Universal Definition as a secondary endpoint. The Third Universal Definition of Myocardial Infarction uses a change in biomarkers – preferably troponin or alternatively CK-MB – coupled with other clinical signs.

It is standard practice to report secondary endpoints in any analysis of the main findings of a study. Yet, the EXCEL investigators did not report the universal definition of MI in either the 3-year or 5-year publications.

This is critical because MI according to one definition may not count according to the other, and the final tally could tip the trial results positive, negative, or neutral for coronary stents.

In Dr. Taggart’s opinion, the protocol definition puts CABG at a disadvantage because it uses the same biomarker threshold for procedural-related MI for both PCI and CABG. Because surgery involves more manipulation of the heart, cardiac enzyme levels will naturally be higher after CABG than PCI. These procedure-related enzyme elevations are not “true clinical MIs,” according to Dr. Taggart and others.

Late last year, a dataset containing the 3-year follow-up of EXCEL, including the information on the universal definition of MI, was leaked to the BBC. Working with biostatisticians, the BBC confirmed that according to this definition, there were more MIs in the stent group.

Originally, the investigators disputed the finding, calling the BBC data “imaginary.” They claimed that they were unable to calculate a rate of MI according to the universal definition because they lacked routine collection of troponins, although the universal definition also allows use of CK-MB. They have since published an analysis of 5-year MI data according to the universal definition, which showed twice the rate of MI in the PCI group.

From the leaked data, the BBC calculated the main composite endpoint of death, stroke, and MI using the universal definition of MI. Now the results swung in favor of CABG.
 

Impact on guidelines

None of this was known at the time the European cardiology societies convened a committee to write their new guidelines on myocardial revascularization. The writing panel disagreed about whether PCI and CABG were equivalent for patients with left main coronary artery disease (CAD).

Besides EXCEL, another study, the NOBLE trial, compared PCI and CABG in left main CAD and came to opposite conclusions – conclusions that matched the leaked data. In that trial, European investigators chose a slightly different primary endpoint: a composite of death, MI, stroke, and the need for a repeat procedure. They used the universal definition of MI exclusively, and notably, they omitted procedural MI from their clinical event count. The results, published at the same time as the EXCEL 3-year findings, suggested that CABG was better.

Given the discrepant findings of two large trials, the guideline committee considered all of the available data comparing the two methods of revascularization for left main CAD. But even then, things weren’t clear-cut. One draft meta-analysis, supported by the National Institute for Health Research, suggested that results were worse for first- and second-generation drug-eluting coronary stents – including those used in EXCEL – compared with surgery.

Another meta-analysis, later published in The Lancet, drew a different conclusion and found that PCI was just as good as surgery. The main author, Stuart Head, a cardiothoracic surgeon on the ESC/EACTS guideline committee, was a research fellow with EXCEL investigator Dr. Kappetein at Erasmus. EXCEL investigators Dr. Stone, Dr. Kappetein, and Dr. Serruys were coauthors of the Lancet meta-analysis.

There was heated discussion about the committee’s draft recommendations, which gave both CABG and PCI a Class IA recommendation in patients with left main CAD and low anatomical complexity. In October 2017, the ESC commissioned an anonymous external reviewer to weigh in. James Brophy, MD, PhD, a cardiologist and professor of medicine and epidemiology at McGill University, Montreal, confirmed that he was the reviewer after he published an updated version in June 2020.

Looking at all of the data available at the time comparing the procedures for left main CAD, Dr. Brophy’s analysis suggested a 73% chance that the excess in death, stroke, or MI represents at least two excess events per 100 patients treated with PCI rather than CABG.

Dr. Brophy thought that most patients would find these differences clinically meaningful and advised against giving both procedures the same class of recommendation. He was also concerned that many readers will skip to the summary recommendation table without reading the entire guideline document.

“I feel this is misleading in its present form,” he wrote in 2017.

Despite Dr. Brophy’s review, the guideline committee stuck with its original recommendations. The final 2018 ESC/EACTS Guidelines on myocardial revascularization gave equal weight to both CABG and PCI in patients with left main CAD and low anatomical complexity. In contrast, US guidelines do not put PCI and CABG on the same footing for any group of patients with left main CAD.

The lead author of the ESC/EACTS guidelines section on left main disease, and around a third of those on the writing task force, all declared financial payments from stent manufacturers either to themselves or their institutions. The EXCEL principal investigator, Dr. Kappetein, was secretary general of EACTS and oversaw the guidelines process for the surgical organization. He left to work for Medtronic midway through the process and was later joined there by his former research fellow, Stuart Head.

Dr. Brophy said in an interview that given the final guideline recommendations, he assumed that the committee had other reviews and went with the majority opinion.

But not everyone involved in the guidelines saw Dr. Brophy’s review. Nick Freemantle, a statistical reviewer appointed by EACTS, expected to see it but didn’t. This omission calls into question the neutrality of the whole process, in his view.

Mr. Freemantle believes that the deck was stacked so that he only saw the pieces of evidence that supported the conclusions that were already decided and that he was not shown “the bits that don’t fit that neatly.”

“And without that narrative, it all feels a bit grubby, to be honest,” he said.

Professor Barbara Casadei, ESC president, disputed this, saying that the guidelines were approved by all surgical members, including the EACTS council.

Missing from Dr. Brophy’s review were the later data from EXCEL. As he had told the DSMB in 2017, Stone presented the 4-year data from EXCEL at the TCT conference in September 2018. At this point, the analysis showed that 10.3% of people had died after PCI and 7.4% after CABG.

But this presentation was not given much prominence at the conference, which Dr. Stone organized, and occurred during a didactic session in a small room rather than on one of the main stages where the 3-year data from EXCEL were announced with much fanfare. The presentation also took place 3 weeks after the European guidelines were published.
 

Surgeons withdraw support

After the BBC report last year that the universal definition of MI data had been collected but not published in the 3-year follow-up manuscript, and showed more MI in the PCI group than the protocol definition, the EACTS withdrew its support for the guidelines. The ESC continued to uphold the guidelines «until there is robust scientific evidence (as opposed to allegations) indicating we should do otherwise,” said Ms. Casadei.

A spokesperson for NEJM said the journal stood by the EXCEL papers because “there is no credible harm to patients from the publication of the paper and accurate reporting of trial results.” NEJM has since conducted a review and published a series of letters in response. The letters have reinvigorated rather than appeased the dissenters, as reported by Medscape.

A number of cardiologists and researchers started a petition on change.org to revise the EACTS/ESC left main CAD guidelines, and surgical societies across the globe have written to the editor of NEJM asking him to retract or amend the EXCEL papers.

This has not happened. The journal’s editor maintains that the letters containing the analyses are “sufficient information” to allow readers and guideline authors to “evaluate the trial findings.”

Dr. Taggart was dismissive of that response. “There is still no recognition or acknowledgment that failure to publish these data in 2016 ‘misled’ the guideline writers for the ESC/EACTS guidelines, and there is still no formal correction of the 2016 and 2019 NEJM manuscripts.”

Over a year after the BBC received the leaked data, the EXCEL investigators published an analysis of the primary outcome using the universal definition of MI data in the Journal of the American College of Cardiology.

It shows 141 events in the PCI arm, compared with 102 in the CABG arm. The investigators acknowledge that the rates of procedural MI differ depending on the definition used. According to their analysis, the protocol definition was predictive of mortality after both treatments, whereas the universal definition of procedural MI was predictive of mortality only after CABG. Not everyone agrees with this interpretation, and an accompanying editorial questioned these conclusions.

For Dr. Wallentin, it’s a relief that these data are in the public domain so that their interpretation and clinical consequences can be “openly discussed.” He hoped that the whole experience will result in something constructive and useful for the future.

As for the guidelines, the tide may be turning.

In a joint statement with EACTS on Oct. 6, 2020, the ESC agreed to review its guidelines for left main disease in the light of emerging, longer-term outcome data from the trials of CABG versus PCI.

Dr. Taggart has no regrets about speaking out despite this being “an exceedingly painful and bruising experience.”

The saga, he said, “reflects very badly on our specialty, the investigators, industry, and the world’s ‘leading’ medical journal.”

This article first appeared on Medscape.com.

“I disapprove of what you say, but I will defend to the death your right to say it.” The choice of the secretary general of the European Association for Cardio-Thoracic Surgery to open with this quote was the first hint that the next presentation at the 2019 annual meeting would be anything but dull. The session chair followed with a reminder to keep the discussion polite and civil.

Presenter David Taggart, MD, PhD, did not disappoint. The professor of cardiovascular surgery at the University of Oxford (England) began with the announcement that he had withdrawn his name from a recent paper in the New England Journal of Medicine. He then proceeded to accuse his coinvestigators of misrepresenting the findings of a major clinical trial.

Dr. Taggart was chair of the surgical committee for the Abbott-sponsored EXCEL trial, which compared two procedures for patients who had blockages in their left main coronary artery: percutaneous coronary intervention (PCI) using coronary stents, and coronary artery bypass graft surgery (CABG). The investigators designed the trial to compare outcomes for the two treatments using a composite endpoint of death, stroke, and MI. The 3-year follow-up data had been published in NEJM without controversy – or, at least, without public controversy.

But when it came time to publish the 5-year follow-up, there was a significantly higher rate of death in the stent group, and both Dr. Taggart and the journal editors were concerned that this finding was being downplayed in the manuscript.

In their comments to the authors, the journal editors had recommended including the mortality difference (unless clearly trivial) ‘”in the concluding statement in the final paragraph.” Yet, the concluding statement of the published paper read that there “was no significant difference between PCI and CABG.”

In Dr. Taggart’s view, that claim was dangerous for patients, and so he was left with no choice but to remove himself as an author, a first for the academic with over 300 scientific papers to his name.

Earlier publications from the EXCEL trial had influenced European treatment guidelines. But subsequent allegations of misconduct and hidden data spurred the EACTS to repudiate those guidelines out of concern “that some results in the EXCEL trial appear to have been concealed and that some patients may therefore have received the wrong clinical advice.”

The controversy pitted cardiothoracic surgeons against interventional cardiologists, who were seen as increasingly encroaching on the surgeons’ turf. Dr. Taggart was a long-time critic of the subspecialty.

Surgeons demanded an independent analysis of the EXCEL trial data – a demand that the investigators have yet to satisfy. Dr. Taggart was the first to speak publicly, but others had major reservations about the trial reporting and conduct years earlier.
 

Mortality data held back

One such person was Lars Wallentin, MD, a professor of cardiology at Uppsala (Sweden) University Hospital, who chaired the independent committee that monitored the safety and scientific validity of the EXCEL trial.

The committee, known as the data and safety monitoring board (DSMB), received a report on March 23, 2016, that showed that increasingly more patients who had received stents were dying, compared with the group of patients that had undergone CABG. A graph of the survival curves showed the gap between the two groups widening after 3 years (Figure 1).

By September of that year, Dr. Wallentin and other members of the DSMB were anxious to share the concerning mortality difference with the broader medical community.

They were aware that EACTS and the European Society of Cardiology had started the process of updating their guidelines on myocardial revascularization, and were keen for the guideline writing committee to see all of the data.

Meanwhile, the trial investigators, led by principal investigator Gregg Stone, MD, then at New York–Presbyterian Hospital and Columbia University Medical Center, were preparing to publish a report of the 3-year outcomes. Recruitment for EXCEL started in September 2010, so at the time of the 3-year analysis in 2016, some patients had been followed up for over 5 years. But the data, published in NEJM in October 2016, were capped at 3 years (Figure 2). It didn’t show the widening gap in late mortality that Dr. Wallentin and the rest of the DSMB had seen.

When asked about this, the investigators said they were transparent about their plans to cap the data at 3 years in an amendment to the study protocol. Stone’s coprincipal investigators were interventional cardiologist Patrick Serruys, MD, then of Imperial College London; and two surgeons: Joseph Sabik, MD, then of the Cleveland Clinic Foundation, and A. Pieter Kappetein, MD, PhD, then at Erasmus Medical Center, Rotterdam. The four principal investigators all declared financial payments from stent manufacturers either to themselves or their institutions.

Study sponsor Abbott has distanced itself from the decisions made and has referred all questions about the trial to the EXCEL investigators. Charles Simonton, chief medical officer at Abbott (now at Abiomed) was a coauthor on both the 3- and 5-year papers. Dr. Wallentin believes that the sponsor must have been aware of the DSMB’s concerns.
 

Continuing DSMB concerns

A year later, the DSMB was still troubled. Dr. Wallentin emailed Dr. Stone in September 2017 asking for an updated analysis of the mortality data without any capping in time.

Dr. Wallentin added that he didn’t think that unblinding the mortality results would be an issue at that stage because these were late deaths in a trial where the interventions were long completed. But, he warned, “it might be very concerning if, in the future, suspicions were raised that already available information on mortality was withheld from the cardiology and thoracic surgery community.”

The investigators took a month to respond. They declined the request, saying that the trial was not statistically powered to measure mortality. In his email to Dr. Wallentin, Dr. Stone stressed that they were committed to complete disclosure of all of the EXCEL data and that the responsible time point to unblind was after 4 years. His coprincipal investigators (Dr. Serruys, Dr. Sabik, and Dr. Kappetein) as well as EXCEL statistical committee chair Stuart Pocock, PhD, and Mr. Simonton were all copied on the email.

Dr. Wallentin deferred to the principal investigators’ arguments.
 

Missing MI data

Death was not the only outcome of the EXCEL trial to draw scrutiny.

The EXCEL investigators used a unique definition of MI that was almost exclusively based on a rise in the cardiac biomarker CK-MB. This protocol definition of MI was later adapted into the Society for Cardiovascular Angiography and Interventions definition in a paper coauthored by Dr. Stone. The investigators agreed to also measure MIs that met the more commonly used Third Universal Definition as a secondary endpoint. The Third Universal Definition of Myocardial Infarction uses a change in biomarkers – preferably troponin or alternatively CK-MB – coupled with other clinical signs.

It is standard practice to report secondary endpoints in any analysis of the main findings of a study. Yet, the EXCEL investigators did not report the universal definition of MI in either the 3-year or 5-year publications.

This is critical because MI according to one definition may not count according to the other, and the final tally could tip the trial results positive, negative, or neutral for coronary stents.

In Dr. Taggart’s opinion, the protocol definition puts CABG at a disadvantage because it uses the same biomarker threshold for procedural-related MI for both PCI and CABG. Because surgery involves more manipulation of the heart, cardiac enzyme levels will naturally be higher after CABG than PCI. These procedure-related enzyme elevations are not “true clinical MIs,” according to Dr. Taggart and others.

Late last year, a dataset containing the 3-year follow-up of EXCEL, including the information on the universal definition of MI, was leaked to the BBC. Working with biostatisticians, the BBC confirmed that according to this definition, there were more MIs in the stent group.

Originally, the investigators disputed the finding, calling the BBC data “imaginary.” They claimed that they were unable to calculate a rate of MI according to the universal definition because they lacked routine collection of troponins, although the universal definition also allows use of CK-MB. They have since published an analysis of 5-year MI data according to the universal definition, which showed twice the rate of MI in the PCI group.

From the leaked data, the BBC calculated the main composite endpoint of death, stroke, and MI using the universal definition of MI. Now the results swung in favor of CABG.
 

Impact on guidelines

None of this was known at the time the European cardiology societies convened a committee to write their new guidelines on myocardial revascularization. The writing panel disagreed about whether PCI and CABG were equivalent for patients with left main coronary artery disease (CAD).

Besides EXCEL, another study, the NOBLE trial, compared PCI and CABG in left main CAD and came to opposite conclusions – conclusions that matched the leaked data. In that trial, European investigators chose a slightly different primary endpoint: a composite of death, MI, stroke, and the need for a repeat procedure. They used the universal definition of MI exclusively, and notably, they omitted procedural MI from their clinical event count. The results, published at the same time as the EXCEL 3-year findings, suggested that CABG was better.

Given the discrepant findings of two large trials, the guideline committee considered all of the available data comparing the two methods of revascularization for left main CAD. But even then, things weren’t clear-cut. One draft meta-analysis, supported by the National Institute for Health Research, suggested that results were worse for first- and second-generation drug-eluting coronary stents – including those used in EXCEL – compared with surgery.

Another meta-analysis, later published in The Lancet, drew a different conclusion and found that PCI was just as good as surgery. The main author, Stuart Head, a cardiothoracic surgeon on the ESC/EACTS guideline committee, was a research fellow with EXCEL investigator Dr. Kappetein at Erasmus. EXCEL investigators Dr. Stone, Dr. Kappetein, and Dr. Serruys were coauthors of the Lancet meta-analysis.

There was heated discussion about the committee’s draft recommendations, which gave both CABG and PCI a Class IA recommendation in patients with left main CAD and low anatomical complexity. In October 2017, the ESC commissioned an anonymous external reviewer to weigh in. James Brophy, MD, PhD, a cardiologist and professor of medicine and epidemiology at McGill University, Montreal, confirmed that he was the reviewer after he published an updated version in June 2020.

Looking at all of the data available at the time comparing the procedures for left main CAD, Dr. Brophy’s analysis suggested a 73% chance that the excess in death, stroke, or MI represents at least two excess events per 100 patients treated with PCI rather than CABG.

Dr. Brophy thought that most patients would find these differences clinically meaningful and advised against giving both procedures the same class of recommendation. He was also concerned that many readers will skip to the summary recommendation table without reading the entire guideline document.

“I feel this is misleading in its present form,” he wrote in 2017.

Despite Dr. Brophy’s review, the guideline committee stuck with its original recommendations. The final 2018 ESC/EACTS Guidelines on myocardial revascularization gave equal weight to both CABG and PCI in patients with left main CAD and low anatomical complexity. In contrast, US guidelines do not put PCI and CABG on the same footing for any group of patients with left main CAD.

The lead author of the ESC/EACTS guidelines section on left main disease, and around a third of those on the writing task force, all declared financial payments from stent manufacturers either to themselves or their institutions. The EXCEL principal investigator, Dr. Kappetein, was secretary general of EACTS and oversaw the guidelines process for the surgical organization. He left to work for Medtronic midway through the process and was later joined there by his former research fellow, Stuart Head.

Dr. Brophy said in an interview that given the final guideline recommendations, he assumed that the committee had other reviews and went with the majority opinion.

But not everyone involved in the guidelines saw Dr. Brophy’s review. Nick Freemantle, a statistical reviewer appointed by EACTS, expected to see it but didn’t. This omission calls into question the neutrality of the whole process, in his view.

Mr. Freemantle believes that the deck was stacked so that he only saw the pieces of evidence that supported the conclusions that were already decided and that he was not shown “the bits that don’t fit that neatly.”

“And without that narrative, it all feels a bit grubby, to be honest,” he said.

Professor Barbara Casadei, ESC president, disputed this, saying that the guidelines were approved by all surgical members, including the EACTS council.

Missing from Dr. Brophy’s review were the later data from EXCEL. As he had told the DSMB in 2017, Stone presented the 4-year data from EXCEL at the TCT conference in September 2018. At this point, the analysis showed that 10.3% of people had died after PCI and 7.4% after CABG.

But this presentation was not given much prominence at the conference, which Dr. Stone organized, and occurred during a didactic session in a small room rather than on one of the main stages where the 3-year data from EXCEL were announced with much fanfare. The presentation also took place 3 weeks after the European guidelines were published.
 

Surgeons withdraw support

After the BBC report last year that the universal definition of MI data had been collected but not published in the 3-year follow-up manuscript, and showed more MI in the PCI group than the protocol definition, the EACTS withdrew its support for the guidelines. The ESC continued to uphold the guidelines «until there is robust scientific evidence (as opposed to allegations) indicating we should do otherwise,” said Ms. Casadei.

A spokesperson for NEJM said the journal stood by the EXCEL papers because “there is no credible harm to patients from the publication of the paper and accurate reporting of trial results.” NEJM has since conducted a review and published a series of letters in response. The letters have reinvigorated rather than appeased the dissenters, as reported by Medscape.

A number of cardiologists and researchers started a petition on change.org to revise the EACTS/ESC left main CAD guidelines, and surgical societies across the globe have written to the editor of NEJM asking him to retract or amend the EXCEL papers.

This has not happened. The journal’s editor maintains that the letters containing the analyses are “sufficient information” to allow readers and guideline authors to “evaluate the trial findings.”

Dr. Taggart was dismissive of that response. “There is still no recognition or acknowledgment that failure to publish these data in 2016 ‘misled’ the guideline writers for the ESC/EACTS guidelines, and there is still no formal correction of the 2016 and 2019 NEJM manuscripts.”

Over a year after the BBC received the leaked data, the EXCEL investigators published an analysis of the primary outcome using the universal definition of MI data in the Journal of the American College of Cardiology.

It shows 141 events in the PCI arm, compared with 102 in the CABG arm. The investigators acknowledge that the rates of procedural MI differ depending on the definition used. According to their analysis, the protocol definition was predictive of mortality after both treatments, whereas the universal definition of procedural MI was predictive of mortality only after CABG. Not everyone agrees with this interpretation, and an accompanying editorial questioned these conclusions.

For Dr. Wallentin, it’s a relief that these data are in the public domain so that their interpretation and clinical consequences can be “openly discussed.” He hoped that the whole experience will result in something constructive and useful for the future.

As for the guidelines, the tide may be turning.

In a joint statement with EACTS on Oct. 6, 2020, the ESC agreed to review its guidelines for left main disease in the light of emerging, longer-term outcome data from the trials of CABG versus PCI.

Dr. Taggart has no regrets about speaking out despite this being “an exceedingly painful and bruising experience.”

The saga, he said, “reflects very badly on our specialty, the investigators, industry, and the world’s ‘leading’ medical journal.”

This article first appeared on Medscape.com.

The American College of Cardiology (ACC) has released a new Expert Consensus Decision Pathway (ECDP) on the management of conduction disturbances after transcatheter aortic valve replacement (TAVR).

The document provides guidance to clinicians in identifying and managing this common complication of TAVR, covering the pre-TAVR, periprocedural and post-TAVR periods.

“Conduction disturbances after TAVR are common and there is currently heterogeneity in how they’re managed, ranging from a casual observational approach to invasive electrophysiological studies and preemptive pacemaker implantation,” said writing committee chair Scott Lilly, MD, PhD, from the Ohio State Wexner Medical Center in Columbus.

“We felt this kind of collaborative effort to review what little research there is on this topic and come to [an] expert consensus was long overdue,” he added.

The document was published online Oct. 21 in the Journal of the American College of Cardiology.

Dr. Lilly stressed in an interview that this effort is an ECDP and not a guideline “because there is not data out there to solidly stand on and say, ‘This is the way we should do things.’ “

His hope is that this document will generate more discussion on this topic and spur some (probably National Institutes of Health–sponsored) clinical trials to better guide practice.
 

Not uncommon and not decreasing

Complete heart block requiring permanent pacemaker (PPM) implantation is seen in about 15% of patients within 30 days after TAVR. While this is a clear indication for PPM, there is no consensus on the management of less severe conduction disturbances such as new bundle branch or transient complete atrioventricular (AV) heart block.

Unlike the rates of bleeding, vascular injury, and stroke, which have decreased over time, the rates of in-hospital PPM implantation after TAVR have not changed significantly since commercialization in 2012. This is a concern because TAVR is increasingly used in younger, lower-risk patients.

“The pacemaker rate really hasn’t improved at a clip we would like to see if it was going to be a durable technology,” Dr. Lilly said.

Consensus regarding a reasonable strategy to manage cardiac conduction disturbances after TAVR has been elusive. This is a result of several things: a dearth of adequately powered, randomized controlled trials; the often transient nature of the conduction disturbances; evolving technologies; and the interplay of cardiology subspecialties involved.

The 2013 European Society of Cardiology guidelines address pacing post-TAVR, but do not provide in-depth discussion on the topic. This is the first effort sponsored by a cardiovascular society in the United States to review the existing data and experience and propose evidence-based expert guidance.
 

Pre-TAVR assessment

Pre-TAVR assessment should consider the patient’s risk for postprocedure conduction disturbances, the authors said. Since bradyarrythmias and aortic stenosis may present similarly (fatigue, lightheadedness, and syncope being hallmarks of both), a careful history is needed to determine if bradyarrhythmia is present.

An electrocardiogram (ECG) or ambulatory rhythm monitoring may identify baseline conduction abnormalities and help predict the need for post-TAVR PPM.

“In this section, we underscored some of the literature that has raised awareness about the presence of preexisting arrhythmias in TAVR patients and suggest that monitoring in selected patients before the procedure is reasonable, particularly those presenting with syncope or lightheadedness,” said Dr. Lilly.
 

Intraprocedural management

On the day of the procedure, patients determined to have elevated risk for complete AV heart block require careful perioperative ECG and hemodynamic monitoring. Regardless of preexisting risk, said the authors that all patients should be monitored on a telemetry unit during the procedure with ability to do emergency pacing if necessary.

“In the periprocedural section, we address the role of electrophysiological studies for identifying patients at high-risk of subsequent heart block,” said Dr. Lilly. “That’s a practice that’s occurring at a number of centers, but the data out there is insufficient to establish it as a pacemaker indication. Routine EP testing for patients deemed at risk for conduction disturbances after TAVR is not guideline-based and more research is needed.”

The document also outlines the effects of medications and anesthesia on postprocedure conduction abnormalities.
 

Post-TAVR management

The authors define post-TAVR management as continuing through 30-days after discharge.

The ECDP carefully outlines which patients can be discharged without monitoring and those for whom outpatient monitoring can be considered.

“If I’m going to pick one thing from this section, it’s the monitoring piece. A lot of patients that have a conduction disturbance right after TAVR – but you’re not sure if it’s going to progress and require a pacemaker – might stay in the hospital for an extended time waiting to see if the heart holds up,” reported Dr. Lilly.

“But a number of centers are now discharging people at 1 or 2 days, which begs the question: What do you do with these folks? Our group has published data showing that 30-day monitoring in select patients is a safe approach,” said Dr. Lilly.

There are shortcomings, however, in existing data, and recommendations will likely change as more data are collected, he explained.

As well, there remains uncertainty in how conduction block should be managed after TAVR, and clinical judgment is “foundational” in this, wrote the authors.

“This document is meant to help programs deal with these situations right now, acknowledging full and well, that really good randomized clinical data is not available,” said Dr. Lilly.

Dr. Lilly has disclosed no relevant financial relationships. The work of the writing committee was supported exclusively by the American College of Cardiology without commercial support.
 

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

The American College of Cardiology (ACC) has released a new Expert Consensus Decision Pathway (ECDP) on the management of conduction disturbances after transcatheter aortic valve replacement (TAVR).

The document provides guidance to clinicians in identifying and managing this common complication of TAVR, covering the pre-TAVR, periprocedural and post-TAVR periods.

“Conduction disturbances after TAVR are common and there is currently heterogeneity in how they’re managed, ranging from a casual observational approach to invasive electrophysiological studies and preemptive pacemaker implantation,” said writing committee chair Scott Lilly, MD, PhD, from the Ohio State Wexner Medical Center in Columbus.

“We felt this kind of collaborative effort to review what little research there is on this topic and come to [an] expert consensus was long overdue,” he added.

The document was published online Oct. 21 in the Journal of the American College of Cardiology.

Dr. Lilly stressed in an interview that this effort is an ECDP and not a guideline “because there is not data out there to solidly stand on and say, ‘This is the way we should do things.’ “

His hope is that this document will generate more discussion on this topic and spur some (probably National Institutes of Health–sponsored) clinical trials to better guide practice.
 

Not uncommon and not decreasing

Complete heart block requiring permanent pacemaker (PPM) implantation is seen in about 15% of patients within 30 days after TAVR. While this is a clear indication for PPM, there is no consensus on the management of less severe conduction disturbances such as new bundle branch or transient complete atrioventricular (AV) heart block.

Unlike the rates of bleeding, vascular injury, and stroke, which have decreased over time, the rates of in-hospital PPM implantation after TAVR have not changed significantly since commercialization in 2012. This is a concern because TAVR is increasingly used in younger, lower-risk patients.

“The pacemaker rate really hasn’t improved at a clip we would like to see if it was going to be a durable technology,” Dr. Lilly said.

Consensus regarding a reasonable strategy to manage cardiac conduction disturbances after TAVR has been elusive. This is a result of several things: a dearth of adequately powered, randomized controlled trials; the often transient nature of the conduction disturbances; evolving technologies; and the interplay of cardiology subspecialties involved.

The 2013 European Society of Cardiology guidelines address pacing post-TAVR, but do not provide in-depth discussion on the topic. This is the first effort sponsored by a cardiovascular society in the United States to review the existing data and experience and propose evidence-based expert guidance.
 

Pre-TAVR assessment

Pre-TAVR assessment should consider the patient’s risk for postprocedure conduction disturbances, the authors said. Since bradyarrythmias and aortic stenosis may present similarly (fatigue, lightheadedness, and syncope being hallmarks of both), a careful history is needed to determine if bradyarrhythmia is present.

An electrocardiogram (ECG) or ambulatory rhythm monitoring may identify baseline conduction abnormalities and help predict the need for post-TAVR PPM.

“In this section, we underscored some of the literature that has raised awareness about the presence of preexisting arrhythmias in TAVR patients and suggest that monitoring in selected patients before the procedure is reasonable, particularly those presenting with syncope or lightheadedness,” said Dr. Lilly.
 

Intraprocedural management

On the day of the procedure, patients determined to have elevated risk for complete AV heart block require careful perioperative ECG and hemodynamic monitoring. Regardless of preexisting risk, said the authors that all patients should be monitored on a telemetry unit during the procedure with ability to do emergency pacing if necessary.

“In the periprocedural section, we address the role of electrophysiological studies for identifying patients at high-risk of subsequent heart block,” said Dr. Lilly. “That’s a practice that’s occurring at a number of centers, but the data out there is insufficient to establish it as a pacemaker indication. Routine EP testing for patients deemed at risk for conduction disturbances after TAVR is not guideline-based and more research is needed.”

The document also outlines the effects of medications and anesthesia on postprocedure conduction abnormalities.
 

Post-TAVR management

The authors define post-TAVR management as continuing through 30-days after discharge.

The ECDP carefully outlines which patients can be discharged without monitoring and those for whom outpatient monitoring can be considered.

“If I’m going to pick one thing from this section, it’s the monitoring piece. A lot of patients that have a conduction disturbance right after TAVR – but you’re not sure if it’s going to progress and require a pacemaker – might stay in the hospital for an extended time waiting to see if the heart holds up,” reported Dr. Lilly.

“But a number of centers are now discharging people at 1 or 2 days, which begs the question: What do you do with these folks? Our group has published data showing that 30-day monitoring in select patients is a safe approach,” said Dr. Lilly.

There are shortcomings, however, in existing data, and recommendations will likely change as more data are collected, he explained.

As well, there remains uncertainty in how conduction block should be managed after TAVR, and clinical judgment is “foundational” in this, wrote the authors.

“This document is meant to help programs deal with these situations right now, acknowledging full and well, that really good randomized clinical data is not available,” said Dr. Lilly.

Dr. Lilly has disclosed no relevant financial relationships. The work of the writing committee was supported exclusively by the American College of Cardiology without commercial support.
 

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

The American College of Cardiology (ACC) has released a new Expert Consensus Decision Pathway (ECDP) on the management of conduction disturbances after transcatheter aortic valve replacement (TAVR).

The document provides guidance to clinicians in identifying and managing this common complication of TAVR, covering the pre-TAVR, periprocedural and post-TAVR periods.

“Conduction disturbances after TAVR are common and there is currently heterogeneity in how they’re managed, ranging from a casual observational approach to invasive electrophysiological studies and preemptive pacemaker implantation,” said writing committee chair Scott Lilly, MD, PhD, from the Ohio State Wexner Medical Center in Columbus.

“We felt this kind of collaborative effort to review what little research there is on this topic and come to [an] expert consensus was long overdue,” he added.

The document was published online Oct. 21 in the Journal of the American College of Cardiology.

Dr. Lilly stressed in an interview that this effort is an ECDP and not a guideline “because there is not data out there to solidly stand on and say, ‘This is the way we should do things.’ “

His hope is that this document will generate more discussion on this topic and spur some (probably National Institutes of Health–sponsored) clinical trials to better guide practice.
 

Not uncommon and not decreasing

Complete heart block requiring permanent pacemaker (PPM) implantation is seen in about 15% of patients within 30 days after TAVR. While this is a clear indication for PPM, there is no consensus on the management of less severe conduction disturbances such as new bundle branch or transient complete atrioventricular (AV) heart block.

Unlike the rates of bleeding, vascular injury, and stroke, which have decreased over time, the rates of in-hospital PPM implantation after TAVR have not changed significantly since commercialization in 2012. This is a concern because TAVR is increasingly used in younger, lower-risk patients.

“The pacemaker rate really hasn’t improved at a clip we would like to see if it was going to be a durable technology,” Dr. Lilly said.

Consensus regarding a reasonable strategy to manage cardiac conduction disturbances after TAVR has been elusive. This is a result of several things: a dearth of adequately powered, randomized controlled trials; the often transient nature of the conduction disturbances; evolving technologies; and the interplay of cardiology subspecialties involved.

The 2013 European Society of Cardiology guidelines address pacing post-TAVR, but do not provide in-depth discussion on the topic. This is the first effort sponsored by a cardiovascular society in the United States to review the existing data and experience and propose evidence-based expert guidance.
 

Pre-TAVR assessment

Pre-TAVR assessment should consider the patient’s risk for postprocedure conduction disturbances, the authors said. Since bradyarrythmias and aortic stenosis may present similarly (fatigue, lightheadedness, and syncope being hallmarks of both), a careful history is needed to determine if bradyarrhythmia is present.

An electrocardiogram (ECG) or ambulatory rhythm monitoring may identify baseline conduction abnormalities and help predict the need for post-TAVR PPM.

“In this section, we underscored some of the literature that has raised awareness about the presence of preexisting arrhythmias in TAVR patients and suggest that monitoring in selected patients before the procedure is reasonable, particularly those presenting with syncope or lightheadedness,” said Dr. Lilly.
 

Intraprocedural management

On the day of the procedure, patients determined to have elevated risk for complete AV heart block require careful perioperative ECG and hemodynamic monitoring. Regardless of preexisting risk, said the authors that all patients should be monitored on a telemetry unit during the procedure with ability to do emergency pacing if necessary.

“In the periprocedural section, we address the role of electrophysiological studies for identifying patients at high-risk of subsequent heart block,” said Dr. Lilly. “That’s a practice that’s occurring at a number of centers, but the data out there is insufficient to establish it as a pacemaker indication. Routine EP testing for patients deemed at risk for conduction disturbances after TAVR is not guideline-based and more research is needed.”

The document also outlines the effects of medications and anesthesia on postprocedure conduction abnormalities.
 

Post-TAVR management

The authors define post-TAVR management as continuing through 30-days after discharge.

The ECDP carefully outlines which patients can be discharged without monitoring and those for whom outpatient monitoring can be considered.

“If I’m going to pick one thing from this section, it’s the monitoring piece. A lot of patients that have a conduction disturbance right after TAVR – but you’re not sure if it’s going to progress and require a pacemaker – might stay in the hospital for an extended time waiting to see if the heart holds up,” reported Dr. Lilly.

“But a number of centers are now discharging people at 1 or 2 days, which begs the question: What do you do with these folks? Our group has published data showing that 30-day monitoring in select patients is a safe approach,” said Dr. Lilly.

There are shortcomings, however, in existing data, and recommendations will likely change as more data are collected, he explained.

As well, there remains uncertainty in how conduction block should be managed after TAVR, and clinical judgment is “foundational” in this, wrote the authors.

“This document is meant to help programs deal with these situations right now, acknowledging full and well, that really good randomized clinical data is not available,” said Dr. Lilly.

Dr. Lilly has disclosed no relevant financial relationships. The work of the writing committee was supported exclusively by the American College of Cardiology without commercial support.
 

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

Regular consumption of foods rich in omega-3 fatty acids was associated with improved prognosis after ST-segment myocardial infarction (STEMI) in a new observational study.

Dmitriy Danilchenko/Shutterstock

The prospective study, which involved 944 patients with STEMI who underwent primary percutaneous coronary intervention (PCI), showed that plasma levels of fatty acids at the time of the STEMI were inversely associated with both incident major adverse cardiovascular events (MACE) and cardiovascular readmissions (adjusted hazard ratio, 0.76 and 0.74 for 1-SD increase; for both, P < .05).

No association was seen for the endpoint of all-cause mortality.

“What we showed is that your consumption of fish and other sources of omega-3 fatty acids before the heart attack impacts your prognosis after the heart attack. It’s a novel approach because it’s not primary prevention or secondary prevention,” said Aleix Sala-Vila, PharmD, PhD, from the Institut Hospital del Mar d’Investigacions Mèdiques (IMIM) in Barcelona, Spain.

Sala-Vila, co–senior author Antoni Bayés-Genís, MD, PhD, Heart Universitari Germans Trias I Pujol, Barcelona, and first author Iolanda Lázaro, PhD, also from IMIM, reported their findings online Oct. 26 in the Journal of the American College of Cardiology.

It has been established that dietary omega-3 eicosapentaenoic acid (EPA) has cardioprotective properties, but observational studies and randomized trials of EPA intake have yielded disparate findings.

This study avoided the usual traps of nutritional epidemiology research – self-reported food diaries and intake questionnaires. For this study, the researchers measured tissue levels of EPA and alpha-linolenic acid (ALA) by measuring serum phosphatidylcholine (PC) levels, which reflect dietary intake during the previous 3 or 4 weeks.

This technique, said Sala-Vila, not only provides a more reliable measure of fatty acid intake over time but also avoids measurement errors related to fatty acid content variation.

For example, “The EPA content of a piece of fish eaten in January could be very different from one eaten in June,” explained Sala-Vila.

That said, he acknowledged that this technique, which uses gas chromatography, does not at present have a clear clinical application. “It’s quite difficult just to convert levels of serum-PC EPA into consumption of fatty fish. We feel that the best advice at this point is that given by the American Heart Association to eat two servings of fatty fish a week.”
 

EPA and ALA: Partners in prevention?

In addition to the findings regarding EPA, the researchers also found that serum-PC ALA was inversely related to all-cause mortality after STEMI (HR, 0.65 for 1-SD increase; P < .05).

A trend was seen for an association between ALA and lower risk for incident MACE (P = .093).

ALA is readily available from inexpensive plant sources (eg, chia seeds, flax seeds, walnuts, soy beans) and has been associated with lower all-cause mortality in high-risk individuals.

This omega-3 fatty acid is often given short shrift in the fatty acid world because of the seven-step enzymatic process needed to convert it into more beneficial forms.

“We know that the conversion of ALA to EPA or DHA [docohexaenoic acid] is marginal, but we decided to include it in the study because we feel that this fatty acid is becoming more important because there are some issues with fish consumption – people are concerned about pollutants and sustainability, and some just don’t like it,” explained Sala-Vila.

“We were shocked to see that the marine-derived and vegetable-derived fatty acids don’t appear to compete, but rather they act synergistically,” said Sala-Villa. The researchers suggested that marine and vegetable omega-3 fatty acids may act as “partners in prevention.”

“We are not metabolically adapted to converting ALA to EPA, but despite this, there is a large body of evidence showing that one way to increase the status of EPA and DHA in our membranes is by eating these sources of fatty acids,” said Sala-Vila.

For almost 20 years, Sala-Vila has been studying how the consumption of foods rich in omega-3 affects disease. Two of his current projects involve studying levels of ALA in red blood cell membranes as a risk factor for ischemic stroke and omega-3 status in individuals with cognitive impairment who are at high risk for Alzheimer’s disease.
 

Applicable to all patients with atherosclerosis

In comments to theheart.org | Medscape Cardiology, Deepak Bhatt, MD, called the study “terrific,” adding that the effort is “as good as it gets” for observational nutrition research.

“I think one has to view these findings in the larger universe of what is really a revolution in omega-3 fatty acid research,” said Bhatt.

This universe, he said, includes a wealth of observational research showing the benefits of omega-3s, two outcome trials – JELIS and REDUCE-IT – that showed the benefits of EPA supplementation, and two imaging studies – EVAPORATE and CHERRY – that showed favorable effects of EPA on the vasculature.

REDUCE-IT, for which Bhatt served as principal investigator, showed that treatment with icosapent ethyl (Vascepa), a high-dose purified form of EPA, led to a 25% relative risk reduction in MACE in an at-risk Western population.

The results, said Bhatt, who co-wrote an editorial that accompanies the current Sala-Vila article, “likely apply to all patients with atherosclerosis or who are at high risk for it” and supports the practice of counseling patients to increase their intake of food rich in omega-3 fatty acids.

The field may be due for a shake-up, he noted. At next month’s American Heart Association meeting, the results of another trial of another prescription-grade EPA/DHA supplement will be presented, and they are expected to be negative.

AstraZeneca announced in January 2020 the early closure of the STRENGTH trial of Epanova after an interim analysis showed a low likelihood of their product demonstrating benefit in the enrolled population.

Epanova is a fish-oil derived mixture of free fatty acids, primarily EPA and DHA. It is approved in the United States and is indicated as an adjunct to diet to reduce triglyceride levels in adults with severe (≥500 mg/dL) hypertriglyceridemia. This indication is not affected by the data from the STRENGTH trial, according to a company press release.

Sala-Vila has received grants and support from the California Walnut Commission, including a grant to support part of this study. Bayés-Genís and Bhatt have relationships with a number of companies.
 

This article first appeared on Medscape.com.

Regular consumption of foods rich in omega-3 fatty acids was associated with improved prognosis after ST-segment myocardial infarction (STEMI) in a new observational study.

Dmitriy Danilchenko/Shutterstock

The prospective study, which involved 944 patients with STEMI who underwent primary percutaneous coronary intervention (PCI), showed that plasma levels of fatty acids at the time of the STEMI were inversely associated with both incident major adverse cardiovascular events (MACE) and cardiovascular readmissions (adjusted hazard ratio, 0.76 and 0.74 for 1-SD increase; for both, P < .05).

No association was seen for the endpoint of all-cause mortality.

“What we showed is that your consumption of fish and other sources of omega-3 fatty acids before the heart attack impacts your prognosis after the heart attack. It’s a novel approach because it’s not primary prevention or secondary prevention,” said Aleix Sala-Vila, PharmD, PhD, from the Institut Hospital del Mar d’Investigacions Mèdiques (IMIM) in Barcelona, Spain.

Sala-Vila, co–senior author Antoni Bayés-Genís, MD, PhD, Heart Universitari Germans Trias I Pujol, Barcelona, and first author Iolanda Lázaro, PhD, also from IMIM, reported their findings online Oct. 26 in the Journal of the American College of Cardiology.

It has been established that dietary omega-3 eicosapentaenoic acid (EPA) has cardioprotective properties, but observational studies and randomized trials of EPA intake have yielded disparate findings.

This study avoided the usual traps of nutritional epidemiology research – self-reported food diaries and intake questionnaires. For this study, the researchers measured tissue levels of EPA and alpha-linolenic acid (ALA) by measuring serum phosphatidylcholine (PC) levels, which reflect dietary intake during the previous 3 or 4 weeks.

This technique, said Sala-Vila, not only provides a more reliable measure of fatty acid intake over time but also avoids measurement errors related to fatty acid content variation.

For example, “The EPA content of a piece of fish eaten in January could be very different from one eaten in June,” explained Sala-Vila.

That said, he acknowledged that this technique, which uses gas chromatography, does not at present have a clear clinical application. “It’s quite difficult just to convert levels of serum-PC EPA into consumption of fatty fish. We feel that the best advice at this point is that given by the American Heart Association to eat two servings of fatty fish a week.”
 

EPA and ALA: Partners in prevention?

In addition to the findings regarding EPA, the researchers also found that serum-PC ALA was inversely related to all-cause mortality after STEMI (HR, 0.65 for 1-SD increase; P < .05).

A trend was seen for an association between ALA and lower risk for incident MACE (P = .093).

ALA is readily available from inexpensive plant sources (eg, chia seeds, flax seeds, walnuts, soy beans) and has been associated with lower all-cause mortality in high-risk individuals.

This omega-3 fatty acid is often given short shrift in the fatty acid world because of the seven-step enzymatic process needed to convert it into more beneficial forms.

“We know that the conversion of ALA to EPA or DHA [docohexaenoic acid] is marginal, but we decided to include it in the study because we feel that this fatty acid is becoming more important because there are some issues with fish consumption – people are concerned about pollutants and sustainability, and some just don’t like it,” explained Sala-Vila.

“We were shocked to see that the marine-derived and vegetable-derived fatty acids don’t appear to compete, but rather they act synergistically,” said Sala-Villa. The researchers suggested that marine and vegetable omega-3 fatty acids may act as “partners in prevention.”

“We are not metabolically adapted to converting ALA to EPA, but despite this, there is a large body of evidence showing that one way to increase the status of EPA and DHA in our membranes is by eating these sources of fatty acids,” said Sala-Vila.

For almost 20 years, Sala-Vila has been studying how the consumption of foods rich in omega-3 affects disease. Two of his current projects involve studying levels of ALA in red blood cell membranes as a risk factor for ischemic stroke and omega-3 status in individuals with cognitive impairment who are at high risk for Alzheimer’s disease.
 

Applicable to all patients with atherosclerosis

In comments to theheart.org | Medscape Cardiology, Deepak Bhatt, MD, called the study “terrific,” adding that the effort is “as good as it gets” for observational nutrition research.

“I think one has to view these findings in the larger universe of what is really a revolution in omega-3 fatty acid research,” said Bhatt.

This universe, he said, includes a wealth of observational research showing the benefits of omega-3s, two outcome trials – JELIS and REDUCE-IT – that showed the benefits of EPA supplementation, and two imaging studies – EVAPORATE and CHERRY – that showed favorable effects of EPA on the vasculature.

REDUCE-IT, for which Bhatt served as principal investigator, showed that treatment with icosapent ethyl (Vascepa), a high-dose purified form of EPA, led to a 25% relative risk reduction in MACE in an at-risk Western population.

The results, said Bhatt, who co-wrote an editorial that accompanies the current Sala-Vila article, “likely apply to all patients with atherosclerosis or who are at high risk for it” and supports the practice of counseling patients to increase their intake of food rich in omega-3 fatty acids.

The field may be due for a shake-up, he noted. At next month’s American Heart Association meeting, the results of another trial of another prescription-grade EPA/DHA supplement will be presented, and they are expected to be negative.

AstraZeneca announced in January 2020 the early closure of the STRENGTH trial of Epanova after an interim analysis showed a low likelihood of their product demonstrating benefit in the enrolled population.

Epanova is a fish-oil derived mixture of free fatty acids, primarily EPA and DHA. It is approved in the United States and is indicated as an adjunct to diet to reduce triglyceride levels in adults with severe (≥500 mg/dL) hypertriglyceridemia. This indication is not affected by the data from the STRENGTH trial, according to a company press release.

Sala-Vila has received grants and support from the California Walnut Commission, including a grant to support part of this study. Bayés-Genís and Bhatt have relationships with a number of companies.
 

This article first appeared on Medscape.com.

Regular consumption of foods rich in omega-3 fatty acids was associated with improved prognosis after ST-segment myocardial infarction (STEMI) in a new observational study.

Dmitriy Danilchenko/Shutterstock

The prospective study, which involved 944 patients with STEMI who underwent primary percutaneous coronary intervention (PCI), showed that plasma levels of fatty acids at the time of the STEMI were inversely associated with both incident major adverse cardiovascular events (MACE) and cardiovascular readmissions (adjusted hazard ratio, 0.76 and 0.74 for 1-SD increase; for both, P < .05).

No association was seen for the endpoint of all-cause mortality.

“What we showed is that your consumption of fish and other sources of omega-3 fatty acids before the heart attack impacts your prognosis after the heart attack. It’s a novel approach because it’s not primary prevention or secondary prevention,” said Aleix Sala-Vila, PharmD, PhD, from the Institut Hospital del Mar d’Investigacions Mèdiques (IMIM) in Barcelona, Spain.

Sala-Vila, co–senior author Antoni Bayés-Genís, MD, PhD, Heart Universitari Germans Trias I Pujol, Barcelona, and first author Iolanda Lázaro, PhD, also from IMIM, reported their findings online Oct. 26 in the Journal of the American College of Cardiology.

It has been established that dietary omega-3 eicosapentaenoic acid (EPA) has cardioprotective properties, but observational studies and randomized trials of EPA intake have yielded disparate findings.

This study avoided the usual traps of nutritional epidemiology research – self-reported food diaries and intake questionnaires. For this study, the researchers measured tissue levels of EPA and alpha-linolenic acid (ALA) by measuring serum phosphatidylcholine (PC) levels, which reflect dietary intake during the previous 3 or 4 weeks.

This technique, said Sala-Vila, not only provides a more reliable measure of fatty acid intake over time but also avoids measurement errors related to fatty acid content variation.

For example, “The EPA content of a piece of fish eaten in January could be very different from one eaten in June,” explained Sala-Vila.

That said, he acknowledged that this technique, which uses gas chromatography, does not at present have a clear clinical application. “It’s quite difficult just to convert levels of serum-PC EPA into consumption of fatty fish. We feel that the best advice at this point is that given by the American Heart Association to eat two servings of fatty fish a week.”
 

EPA and ALA: Partners in prevention?

In addition to the findings regarding EPA, the researchers also found that serum-PC ALA was inversely related to all-cause mortality after STEMI (HR, 0.65 for 1-SD increase; P < .05).

A trend was seen for an association between ALA and lower risk for incident MACE (P = .093).

ALA is readily available from inexpensive plant sources (eg, chia seeds, flax seeds, walnuts, soy beans) and has been associated with lower all-cause mortality in high-risk individuals.

This omega-3 fatty acid is often given short shrift in the fatty acid world because of the seven-step enzymatic process needed to convert it into more beneficial forms.

“We know that the conversion of ALA to EPA or DHA [docohexaenoic acid] is marginal, but we decided to include it in the study because we feel that this fatty acid is becoming more important because there are some issues with fish consumption – people are concerned about pollutants and sustainability, and some just don’t like it,” explained Sala-Vila.

“We were shocked to see that the marine-derived and vegetable-derived fatty acids don’t appear to compete, but rather they act synergistically,” said Sala-Villa. The researchers suggested that marine and vegetable omega-3 fatty acids may act as “partners in prevention.”

“We are not metabolically adapted to converting ALA to EPA, but despite this, there is a large body of evidence showing that one way to increase the status of EPA and DHA in our membranes is by eating these sources of fatty acids,” said Sala-Vila.

For almost 20 years, Sala-Vila has been studying how the consumption of foods rich in omega-3 affects disease. Two of his current projects involve studying levels of ALA in red blood cell membranes as a risk factor for ischemic stroke and omega-3 status in individuals with cognitive impairment who are at high risk for Alzheimer’s disease.
 

Applicable to all patients with atherosclerosis

In comments to theheart.org | Medscape Cardiology, Deepak Bhatt, MD, called the study “terrific,” adding that the effort is “as good as it gets” for observational nutrition research.

“I think one has to view these findings in the larger universe of what is really a revolution in omega-3 fatty acid research,” said Bhatt.

This universe, he said, includes a wealth of observational research showing the benefits of omega-3s, two outcome trials – JELIS and REDUCE-IT – that showed the benefits of EPA supplementation, and two imaging studies – EVAPORATE and CHERRY – that showed favorable effects of EPA on the vasculature.

REDUCE-IT, for which Bhatt served as principal investigator, showed that treatment with icosapent ethyl (Vascepa), a high-dose purified form of EPA, led to a 25% relative risk reduction in MACE in an at-risk Western population.

The results, said Bhatt, who co-wrote an editorial that accompanies the current Sala-Vila article, “likely apply to all patients with atherosclerosis or who are at high risk for it” and supports the practice of counseling patients to increase their intake of food rich in omega-3 fatty acids.

The field may be due for a shake-up, he noted. At next month’s American Heart Association meeting, the results of another trial of another prescription-grade EPA/DHA supplement will be presented, and they are expected to be negative.

AstraZeneca announced in January 2020 the early closure of the STRENGTH trial of Epanova after an interim analysis showed a low likelihood of their product demonstrating benefit in the enrolled population.

Epanova is a fish-oil derived mixture of free fatty acids, primarily EPA and DHA. It is approved in the United States and is indicated as an adjunct to diet to reduce triglyceride levels in adults with severe (≥500 mg/dL) hypertriglyceridemia. This indication is not affected by the data from the STRENGTH trial, according to a company press release.

Sala-Vila has received grants and support from the California Walnut Commission, including a grant to support part of this study. Bayés-Genís and Bhatt have relationships with a number of companies.
 

This article first appeared on Medscape.com.