Emergency Medicine

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.

Dietary patterns with higher inflammatory potential were significantly associated with a higher incidence of cardiovascular disease (CVD) and stroke in a new pooled analysis of three prospective cohort studies.

The analysis included 210,145 U.S. women and men followed for up to 32 years in the Nurses’ Health Studies I and II and the Health Professionals Follow-up Study.

After adjustment for use of anti-inflammatory medications and CVD risk factors, those whose dietary pattern ranked in the highest quintile of inflammatory potential had a 38% higher risk of CVD (hazard ratio comparing highest with lowest quintiles, 1.38), a 46% higher risk of coronary heart disease (HR, 1.46), and a 28% higher risk of stroke (HR, 1.28) (all P for trend < .001).

Jun Li, MD, PhD, and colleagues at Harvard School of Public Health and Harvard Medical School, Boston, published the findings of their study in the Nov. 10 issue of the Journal of the American College of Cardiology.

The inflammatory potential of a diet was assessed using a food-based, dietary index called the “empirical dietary inflammatory pattern” or EDIP.

In an interview, Dr. Li explained that the EDIP was developed 4 years ago by many of the same authors involved with this study, including nutrition heavyweights Walter C. Willett, MD, DrPH, and Frank B. Hu, MD, PhD, both from Harvard.

“We summarized all the foods people eat into 39 defined food groups and did a reduced-rank regression analysis that looked at these 39 food groups and three inflammatory markers – interleukin-6, C-reactive protein, and tumor necrosis factor–alpha receptor 2. We found 18 food groups that are most predictive of these biomarkers, and the EDIP was calculated as the weighted sum of these 18 food groups.”

Individuals who had higher intakes of green-leafy vegetables (kale, spinach, arugula), dark-yellow vegetables (pumpkin, yellow peppers, carrots), whole grains, fruits, tea, coffee and wine had lower long-term CVD risk than those with higher intakes of red meat, processed meat, organ meat, refined carbohydrates, and sweetened beverages. 

The associations were consistent across cohorts and between sexes and remained significant in multiple sensitivity analysis that adjusted for alcohol consumption, smoking pack-years, use of lipid-lowering and antihypertensive medications, sodium intake, and blood pressure.

In a secondary analysis, diets with higher inflammatory potential were also associated with significantly higher biomarker levels indicative of more systemic, vascular, and metabolic inflammation, as well as less favorable lipid profiles.

“We wanted to be able to provide guidance on dietary patterns and food combinations,” said Dr. Li. “If you tell people to eat more polyunsaturated fats instead of saturated fat or trans fat, most people don’t know what foods are higher and lower in those nutrients. Also, many foods have different nutrients – some of which are good and some of which are bad – so we wanted to help people find the foods with the higher proportion of healthy nutrients rather than point out specific nutrients to avoid.”

Researchers used prospectively gathered data from the Nurses’ Health Studies I and II starting from 1984 and from the Health Professionals Follow-up Study. After excluding participants with missing diet information or previously diagnosed heart disease, stroke or cancer, over 210,000 participants were included in the analysis. Participants completed a survey every 4 years to ascertain dietary intake. 
 

Prevention, not treatment

In an editorial comment, Ramon Estruch, MD, PhD, from the Hospital Clinic in Barcelona, and colleagues suggested that it might be time for better dietary guidelines.

“A better knowledge of health protection provided by different foods and dietary patterns, mainly their anti-inflammatory properties, should provide the basis for designing even healthier dietary patterns to protect against heart disease,” the editorialists wrote.

They added extra-virgin olive oil, fatty fish, and tomatoes to the list of foods with “established anti-inflammatory activity.”

In a comment, Dr. Estruch said the findings of this new study are confirmatory of the PREDIMED trial, which showed a reduction in risk of major CV events in individuals at high cardiovascular risk assigned to an anti-inflammatory Mediterranean diet pattern supplemented with extra-virgin olive oil or nuts as compared with those assigned to a reduced-fat diet. 

“The study of Jun Li et al. confirms that an anti-inflammatory diet is useful to prevent cardiovascular events and, more important, that healthy dietary patterns may be even healthier if subjects increase consumption of foods with the highest anti-inflammatory potential,” he said, adding that “mechanistic explanations add plausibility to the results of observational studies.”

Dr. Estruch was the principal investigator of PREDIMED. This trial was originally published in 2013 and then retracted and republished in 2018, with some required corrections, but the results had not materially changed.

Dr. Li is supported by grants from the National Institute of Diabetes and Digestive and Kidney Diseases and Boston Nutrition Obesity Research Center. Dr. Estruch disclosed no financial relationships relevant to the contents of this article.  

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

Dietary patterns with higher inflammatory potential were significantly associated with a higher incidence of cardiovascular disease (CVD) and stroke in a new pooled analysis of three prospective cohort studies.

The analysis included 210,145 U.S. women and men followed for up to 32 years in the Nurses’ Health Studies I and II and the Health Professionals Follow-up Study.

After adjustment for use of anti-inflammatory medications and CVD risk factors, those whose dietary pattern ranked in the highest quintile of inflammatory potential had a 38% higher risk of CVD (hazard ratio comparing highest with lowest quintiles, 1.38), a 46% higher risk of coronary heart disease (HR, 1.46), and a 28% higher risk of stroke (HR, 1.28) (all P for trend < .001).

Jun Li, MD, PhD, and colleagues at Harvard School of Public Health and Harvard Medical School, Boston, published the findings of their study in the Nov. 10 issue of the Journal of the American College of Cardiology.

The inflammatory potential of a diet was assessed using a food-based, dietary index called the “empirical dietary inflammatory pattern” or EDIP.

In an interview, Dr. Li explained that the EDIP was developed 4 years ago by many of the same authors involved with this study, including nutrition heavyweights Walter C. Willett, MD, DrPH, and Frank B. Hu, MD, PhD, both from Harvard.

“We summarized all the foods people eat into 39 defined food groups and did a reduced-rank regression analysis that looked at these 39 food groups and three inflammatory markers – interleukin-6, C-reactive protein, and tumor necrosis factor–alpha receptor 2. We found 18 food groups that are most predictive of these biomarkers, and the EDIP was calculated as the weighted sum of these 18 food groups.”

Individuals who had higher intakes of green-leafy vegetables (kale, spinach, arugula), dark-yellow vegetables (pumpkin, yellow peppers, carrots), whole grains, fruits, tea, coffee and wine had lower long-term CVD risk than those with higher intakes of red meat, processed meat, organ meat, refined carbohydrates, and sweetened beverages. 

The associations were consistent across cohorts and between sexes and remained significant in multiple sensitivity analysis that adjusted for alcohol consumption, smoking pack-years, use of lipid-lowering and antihypertensive medications, sodium intake, and blood pressure.

In a secondary analysis, diets with higher inflammatory potential were also associated with significantly higher biomarker levels indicative of more systemic, vascular, and metabolic inflammation, as well as less favorable lipid profiles.

“We wanted to be able to provide guidance on dietary patterns and food combinations,” said Dr. Li. “If you tell people to eat more polyunsaturated fats instead of saturated fat or trans fat, most people don’t know what foods are higher and lower in those nutrients. Also, many foods have different nutrients – some of which are good and some of which are bad – so we wanted to help people find the foods with the higher proportion of healthy nutrients rather than point out specific nutrients to avoid.”

Researchers used prospectively gathered data from the Nurses’ Health Studies I and II starting from 1984 and from the Health Professionals Follow-up Study. After excluding participants with missing diet information or previously diagnosed heart disease, stroke or cancer, over 210,000 participants were included in the analysis. Participants completed a survey every 4 years to ascertain dietary intake. 
 

Prevention, not treatment

In an editorial comment, Ramon Estruch, MD, PhD, from the Hospital Clinic in Barcelona, and colleagues suggested that it might be time for better dietary guidelines.

“A better knowledge of health protection provided by different foods and dietary patterns, mainly their anti-inflammatory properties, should provide the basis for designing even healthier dietary patterns to protect against heart disease,” the editorialists wrote.

They added extra-virgin olive oil, fatty fish, and tomatoes to the list of foods with “established anti-inflammatory activity.”

In a comment, Dr. Estruch said the findings of this new study are confirmatory of the PREDIMED trial, which showed a reduction in risk of major CV events in individuals at high cardiovascular risk assigned to an anti-inflammatory Mediterranean diet pattern supplemented with extra-virgin olive oil or nuts as compared with those assigned to a reduced-fat diet. 

“The study of Jun Li et al. confirms that an anti-inflammatory diet is useful to prevent cardiovascular events and, more important, that healthy dietary patterns may be even healthier if subjects increase consumption of foods with the highest anti-inflammatory potential,” he said, adding that “mechanistic explanations add plausibility to the results of observational studies.”

Dr. Estruch was the principal investigator of PREDIMED. This trial was originally published in 2013 and then retracted and republished in 2018, with some required corrections, but the results had not materially changed.

Dr. Li is supported by grants from the National Institute of Diabetes and Digestive and Kidney Diseases and Boston Nutrition Obesity Research Center. Dr. Estruch disclosed no financial relationships relevant to the contents of this article.  

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

Dietary patterns with higher inflammatory potential were significantly associated with a higher incidence of cardiovascular disease (CVD) and stroke in a new pooled analysis of three prospective cohort studies.

The analysis included 210,145 U.S. women and men followed for up to 32 years in the Nurses’ Health Studies I and II and the Health Professionals Follow-up Study.

After adjustment for use of anti-inflammatory medications and CVD risk factors, those whose dietary pattern ranked in the highest quintile of inflammatory potential had a 38% higher risk of CVD (hazard ratio comparing highest with lowest quintiles, 1.38), a 46% higher risk of coronary heart disease (HR, 1.46), and a 28% higher risk of stroke (HR, 1.28) (all P for trend < .001).

Jun Li, MD, PhD, and colleagues at Harvard School of Public Health and Harvard Medical School, Boston, published the findings of their study in the Nov. 10 issue of the Journal of the American College of Cardiology.

The inflammatory potential of a diet was assessed using a food-based, dietary index called the “empirical dietary inflammatory pattern” or EDIP.

In an interview, Dr. Li explained that the EDIP was developed 4 years ago by many of the same authors involved with this study, including nutrition heavyweights Walter C. Willett, MD, DrPH, and Frank B. Hu, MD, PhD, both from Harvard.

“We summarized all the foods people eat into 39 defined food groups and did a reduced-rank regression analysis that looked at these 39 food groups and three inflammatory markers – interleukin-6, C-reactive protein, and tumor necrosis factor–alpha receptor 2. We found 18 food groups that are most predictive of these biomarkers, and the EDIP was calculated as the weighted sum of these 18 food groups.”

Individuals who had higher intakes of green-leafy vegetables (kale, spinach, arugula), dark-yellow vegetables (pumpkin, yellow peppers, carrots), whole grains, fruits, tea, coffee and wine had lower long-term CVD risk than those with higher intakes of red meat, processed meat, organ meat, refined carbohydrates, and sweetened beverages. 

The associations were consistent across cohorts and between sexes and remained significant in multiple sensitivity analysis that adjusted for alcohol consumption, smoking pack-years, use of lipid-lowering and antihypertensive medications, sodium intake, and blood pressure.

In a secondary analysis, diets with higher inflammatory potential were also associated with significantly higher biomarker levels indicative of more systemic, vascular, and metabolic inflammation, as well as less favorable lipid profiles.

“We wanted to be able to provide guidance on dietary patterns and food combinations,” said Dr. Li. “If you tell people to eat more polyunsaturated fats instead of saturated fat or trans fat, most people don’t know what foods are higher and lower in those nutrients. Also, many foods have different nutrients – some of which are good and some of which are bad – so we wanted to help people find the foods with the higher proportion of healthy nutrients rather than point out specific nutrients to avoid.”

Researchers used prospectively gathered data from the Nurses’ Health Studies I and II starting from 1984 and from the Health Professionals Follow-up Study. After excluding participants with missing diet information or previously diagnosed heart disease, stroke or cancer, over 210,000 participants were included in the analysis. Participants completed a survey every 4 years to ascertain dietary intake. 
 

Prevention, not treatment

In an editorial comment, Ramon Estruch, MD, PhD, from the Hospital Clinic in Barcelona, and colleagues suggested that it might be time for better dietary guidelines.

“A better knowledge of health protection provided by different foods and dietary patterns, mainly their anti-inflammatory properties, should provide the basis for designing even healthier dietary patterns to protect against heart disease,” the editorialists wrote.

They added extra-virgin olive oil, fatty fish, and tomatoes to the list of foods with “established anti-inflammatory activity.”

In a comment, Dr. Estruch said the findings of this new study are confirmatory of the PREDIMED trial, which showed a reduction in risk of major CV events in individuals at high cardiovascular risk assigned to an anti-inflammatory Mediterranean diet pattern supplemented with extra-virgin olive oil or nuts as compared with those assigned to a reduced-fat diet. 

“The study of Jun Li et al. confirms that an anti-inflammatory diet is useful to prevent cardiovascular events and, more important, that healthy dietary patterns may be even healthier if subjects increase consumption of foods with the highest anti-inflammatory potential,” he said, adding that “mechanistic explanations add plausibility to the results of observational studies.”

Dr. Estruch was the principal investigator of PREDIMED. This trial was originally published in 2013 and then retracted and republished in 2018, with some required corrections, but the results had not materially changed.

Dr. Li is supported by grants from the National Institute of Diabetes and Digestive and Kidney Diseases and Boston Nutrition Obesity Research Center. Dr. Estruch disclosed no financial relationships relevant to the contents of this article.  

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

Thyroid dysfunction had virtually no independent impact on survival in a retrospective study of nearly 5,000 English patients with chronic heart failure, adding to evidence that subclinical thyroid disorders in these patients requires no special management beyond ongoing monitoring.

Sebastian Kaulitzki/Fotolia

“Although thyroid dysfunction is related to outcome in patients with chronic heart failure, the association disappears when adjustment is made for established prognostic variables, such as age, NT-proBNP [N-terminal of the prohormone brain natriuretic peptide], and [New York Heart Association] class,” wrote Nathan A. Samuel, MBChB, and coauthors in the American Journal of Cardiology.

Results from several earlier studies had shown evidence for reduced survival in heart failure patients with thyroid dysfunction, but in analyses that did not adjust for heart failure severity, such as a 2013 report that used data from the Sudden Cardiac Death in Heart Failure Trial SCD-HeFT. Other studies that adjusted for heart failure severity based on serum level of natriuretic peptides did not show significant associations between thyroid function and mortality, and when those results couple with the new report they together minimize the immediate risk from subclinical thyroid dysfunction faced by heart failure patients, wrote the authors of the new report.

Don’t treat subclinical thyroid dysfunction

“Our results suggest that subclinical thyroid disease has little impact on outcomes, and that we should not treat subclinical hypothyroidism in the expectation of improving outlook,” said Andrew L. Clark, MD, senior author on the new report and professor and head of the department of academic cardiology at Hull (England) York Medical School.

“Both hyper-and hypothyroidism can cause heart failure, so thyroid function should always be checked in patients when they present with heart failure. A small proportion of patients have heart failure that is potentially reversible” with thyroid-directed treatment, Dr. Clark said in an interview.

But “subclinical disease should probably not be treated, although we have not conducted a clinical trial that proves this assertion. We speculate, based on our findings, that such a trial is unlikely to be positive.”

Patients with subclinical thyroid disorders, particularly subclinical hypothyroidism, “need to be followed and treated should they develop clinical disease,” he maintained. “Except in extreme circumstances, such as the handful of patients who might have gross myxedema and may be near coma, thyroid replacement therapy for those [with heart failure] who have clinical hypothyroidism should follow standard lines.”

It is important to monitor thyroid function,” agreed Dr. Samuel, a researcher in the department of academic cardiology at Hull York Medical School. “We found that thyroxine use was most common among patients with hyperthyroidism, suggesting that they were previously hypothyroid and had received inappropriate treatment.”

Confounder adjustment mitigates the thyroid link

The new analysis used data collected from 6,782 consecutive heart failure patients enrolled during 2000-2018 at a community heart failure clinic that serves patients in the region of Hull, England. The researchers identified 4,992 of these patients with confirmed heart failure and adequate data for their analyses, including 2,997 (60%) with heart failure with reduced ejection fraction (HFrEF) and 1,995 (40%) with heart failure with normal ejection fraction (HFnEF, the term used by the authors but often called heart failure with preserved ejection fraction).

Thyroid hormone levels showed that 90% of these patients were euthyroid, 6% were hyperthyroid, and 4% were hypothyroid, rates consistent with prior reports for both the general population and heart failure patients. Only 12 patients (0.2%) had overt hypothyroidism, and fewer that 1% (about 45 patients) had overt hyperthyroidism. Patients averaged about 73 years of age, and during a median 4.6 years of follow-up 58% died.

Both the hypo- and hyperthyroid patients showed significantly higher mortality rates than euthyroid patients in a univariate analysis. But the patients with thyroid dysfunction also had more comorbidities, more severe heart failure symptoms measured by NYHA functional class, and more severe heart failure measured as higher serum levels of NT-proBNP.

In a multivariate analysis that adjusted for these factors, the significant differences disappeared among the entire group of heart failure patients for the outcomes of all-cause mortality, and mortality or hospitalization with heart failure. The multivariate analysis also showed no significant association between higher levels of thyroid-stimulating hormone (TSH) and all-cause death or death plus heart failure hospitalization among the patients with HFrEF.

Among patients with HFnEF, the multivariate adjusted analysis showed a small increase in both mortality and mortality plus hospitalization for heart failure, a 2% rise for each of these two endpoints for each 1 mIU/L increase in TSH, the authors reported. Although the P value for each of these two significant differences among patients with HFnEF was .02, the 95% confidence interval included 1.00 and ranged from 1.00 to 1.04.

The multivariate analysis identified three variables with the strongest associations with all-cause mortality: older age, higher levels of NT-proBNP, and higher NYHA class indicating greater functional impairment.

The results support the hypothesis that “worsening heart failure can lead to down-regulation of thyroid hormone signaling,” the authors suggested. Their study is also “the first to examine the prognostic significance of thyroid dysfunction in a large population of patients with HFnEF.” This analysis showed a “weak but significant association between increasing TSH and both mortality and the composite endpoint in patients with HFnEF.”

“HFnEF is a heterogeneous group of conditions that are difficult to diagnose in many cases. Therefore, future studies are needed to provide further clarity on the effect of thyroid dysfunction in these patients,” Dr. Samuel said.

The study received no commercial funding. Dr. Samuel and Dr. Clark had no disclosures.

[email protected]

SOURCE: Samuel NA et al. Am J Cardiol. 2020 Oct 24. doi: 10.1016/j.amjcard.2020.10.034.

Thyroid dysfunction had virtually no independent impact on survival in a retrospective study of nearly 5,000 English patients with chronic heart failure, adding to evidence that subclinical thyroid disorders in these patients requires no special management beyond ongoing monitoring.

Sebastian Kaulitzki/Fotolia

“Although thyroid dysfunction is related to outcome in patients with chronic heart failure, the association disappears when adjustment is made for established prognostic variables, such as age, NT-proBNP [N-terminal of the prohormone brain natriuretic peptide], and [New York Heart Association] class,” wrote Nathan A. Samuel, MBChB, and coauthors in the American Journal of Cardiology.

Results from several earlier studies had shown evidence for reduced survival in heart failure patients with thyroid dysfunction, but in analyses that did not adjust for heart failure severity, such as a 2013 report that used data from the Sudden Cardiac Death in Heart Failure Trial SCD-HeFT. Other studies that adjusted for heart failure severity based on serum level of natriuretic peptides did not show significant associations between thyroid function and mortality, and when those results couple with the new report they together minimize the immediate risk from subclinical thyroid dysfunction faced by heart failure patients, wrote the authors of the new report.

Don’t treat subclinical thyroid dysfunction

“Our results suggest that subclinical thyroid disease has little impact on outcomes, and that we should not treat subclinical hypothyroidism in the expectation of improving outlook,” said Andrew L. Clark, MD, senior author on the new report and professor and head of the department of academic cardiology at Hull (England) York Medical School.

“Both hyper-and hypothyroidism can cause heart failure, so thyroid function should always be checked in patients when they present with heart failure. A small proportion of patients have heart failure that is potentially reversible” with thyroid-directed treatment, Dr. Clark said in an interview.

But “subclinical disease should probably not be treated, although we have not conducted a clinical trial that proves this assertion. We speculate, based on our findings, that such a trial is unlikely to be positive.”

Patients with subclinical thyroid disorders, particularly subclinical hypothyroidism, “need to be followed and treated should they develop clinical disease,” he maintained. “Except in extreme circumstances, such as the handful of patients who might have gross myxedema and may be near coma, thyroid replacement therapy for those [with heart failure] who have clinical hypothyroidism should follow standard lines.”

It is important to monitor thyroid function,” agreed Dr. Samuel, a researcher in the department of academic cardiology at Hull York Medical School. “We found that thyroxine use was most common among patients with hyperthyroidism, suggesting that they were previously hypothyroid and had received inappropriate treatment.”

Confounder adjustment mitigates the thyroid link

The new analysis used data collected from 6,782 consecutive heart failure patients enrolled during 2000-2018 at a community heart failure clinic that serves patients in the region of Hull, England. The researchers identified 4,992 of these patients with confirmed heart failure and adequate data for their analyses, including 2,997 (60%) with heart failure with reduced ejection fraction (HFrEF) and 1,995 (40%) with heart failure with normal ejection fraction (HFnEF, the term used by the authors but often called heart failure with preserved ejection fraction).

Thyroid hormone levels showed that 90% of these patients were euthyroid, 6% were hyperthyroid, and 4% were hypothyroid, rates consistent with prior reports for both the general population and heart failure patients. Only 12 patients (0.2%) had overt hypothyroidism, and fewer that 1% (about 45 patients) had overt hyperthyroidism. Patients averaged about 73 years of age, and during a median 4.6 years of follow-up 58% died.

Both the hypo- and hyperthyroid patients showed significantly higher mortality rates than euthyroid patients in a univariate analysis. But the patients with thyroid dysfunction also had more comorbidities, more severe heart failure symptoms measured by NYHA functional class, and more severe heart failure measured as higher serum levels of NT-proBNP.

In a multivariate analysis that adjusted for these factors, the significant differences disappeared among the entire group of heart failure patients for the outcomes of all-cause mortality, and mortality or hospitalization with heart failure. The multivariate analysis also showed no significant association between higher levels of thyroid-stimulating hormone (TSH) and all-cause death or death plus heart failure hospitalization among the patients with HFrEF.

Among patients with HFnEF, the multivariate adjusted analysis showed a small increase in both mortality and mortality plus hospitalization for heart failure, a 2% rise for each of these two endpoints for each 1 mIU/L increase in TSH, the authors reported. Although the P value for each of these two significant differences among patients with HFnEF was .02, the 95% confidence interval included 1.00 and ranged from 1.00 to 1.04.

The multivariate analysis identified three variables with the strongest associations with all-cause mortality: older age, higher levels of NT-proBNP, and higher NYHA class indicating greater functional impairment.

The results support the hypothesis that “worsening heart failure can lead to down-regulation of thyroid hormone signaling,” the authors suggested. Their study is also “the first to examine the prognostic significance of thyroid dysfunction in a large population of patients with HFnEF.” This analysis showed a “weak but significant association between increasing TSH and both mortality and the composite endpoint in patients with HFnEF.”

“HFnEF is a heterogeneous group of conditions that are difficult to diagnose in many cases. Therefore, future studies are needed to provide further clarity on the effect of thyroid dysfunction in these patients,” Dr. Samuel said.

The study received no commercial funding. Dr. Samuel and Dr. Clark had no disclosures.

[email protected]

SOURCE: Samuel NA et al. Am J Cardiol. 2020 Oct 24. doi: 10.1016/j.amjcard.2020.10.034.

Thyroid dysfunction had virtually no independent impact on survival in a retrospective study of nearly 5,000 English patients with chronic heart failure, adding to evidence that subclinical thyroid disorders in these patients requires no special management beyond ongoing monitoring.

Sebastian Kaulitzki/Fotolia

“Although thyroid dysfunction is related to outcome in patients with chronic heart failure, the association disappears when adjustment is made for established prognostic variables, such as age, NT-proBNP [N-terminal of the prohormone brain natriuretic peptide], and [New York Heart Association] class,” wrote Nathan A. Samuel, MBChB, and coauthors in the American Journal of Cardiology.

Results from several earlier studies had shown evidence for reduced survival in heart failure patients with thyroid dysfunction, but in analyses that did not adjust for heart failure severity, such as a 2013 report that used data from the Sudden Cardiac Death in Heart Failure Trial SCD-HeFT. Other studies that adjusted for heart failure severity based on serum level of natriuretic peptides did not show significant associations between thyroid function and mortality, and when those results couple with the new report they together minimize the immediate risk from subclinical thyroid dysfunction faced by heart failure patients, wrote the authors of the new report.

Don’t treat subclinical thyroid dysfunction

“Our results suggest that subclinical thyroid disease has little impact on outcomes, and that we should not treat subclinical hypothyroidism in the expectation of improving outlook,” said Andrew L. Clark, MD, senior author on the new report and professor and head of the department of academic cardiology at Hull (England) York Medical School.

“Both hyper-and hypothyroidism can cause heart failure, so thyroid function should always be checked in patients when they present with heart failure. A small proportion of patients have heart failure that is potentially reversible” with thyroid-directed treatment, Dr. Clark said in an interview.

But “subclinical disease should probably not be treated, although we have not conducted a clinical trial that proves this assertion. We speculate, based on our findings, that such a trial is unlikely to be positive.”

Patients with subclinical thyroid disorders, particularly subclinical hypothyroidism, “need to be followed and treated should they develop clinical disease,” he maintained. “Except in extreme circumstances, such as the handful of patients who might have gross myxedema and may be near coma, thyroid replacement therapy for those [with heart failure] who have clinical hypothyroidism should follow standard lines.”

It is important to monitor thyroid function,” agreed Dr. Samuel, a researcher in the department of academic cardiology at Hull York Medical School. “We found that thyroxine use was most common among patients with hyperthyroidism, suggesting that they were previously hypothyroid and had received inappropriate treatment.”

Confounder adjustment mitigates the thyroid link

The new analysis used data collected from 6,782 consecutive heart failure patients enrolled during 2000-2018 at a community heart failure clinic that serves patients in the region of Hull, England. The researchers identified 4,992 of these patients with confirmed heart failure and adequate data for their analyses, including 2,997 (60%) with heart failure with reduced ejection fraction (HFrEF) and 1,995 (40%) with heart failure with normal ejection fraction (HFnEF, the term used by the authors but often called heart failure with preserved ejection fraction).

Thyroid hormone levels showed that 90% of these patients were euthyroid, 6% were hyperthyroid, and 4% were hypothyroid, rates consistent with prior reports for both the general population and heart failure patients. Only 12 patients (0.2%) had overt hypothyroidism, and fewer that 1% (about 45 patients) had overt hyperthyroidism. Patients averaged about 73 years of age, and during a median 4.6 years of follow-up 58% died.

Both the hypo- and hyperthyroid patients showed significantly higher mortality rates than euthyroid patients in a univariate analysis. But the patients with thyroid dysfunction also had more comorbidities, more severe heart failure symptoms measured by NYHA functional class, and more severe heart failure measured as higher serum levels of NT-proBNP.

In a multivariate analysis that adjusted for these factors, the significant differences disappeared among the entire group of heart failure patients for the outcomes of all-cause mortality, and mortality or hospitalization with heart failure. The multivariate analysis also showed no significant association between higher levels of thyroid-stimulating hormone (TSH) and all-cause death or death plus heart failure hospitalization among the patients with HFrEF.

Among patients with HFnEF, the multivariate adjusted analysis showed a small increase in both mortality and mortality plus hospitalization for heart failure, a 2% rise for each of these two endpoints for each 1 mIU/L increase in TSH, the authors reported. Although the P value for each of these two significant differences among patients with HFnEF was .02, the 95% confidence interval included 1.00 and ranged from 1.00 to 1.04.

The multivariate analysis identified three variables with the strongest associations with all-cause mortality: older age, higher levels of NT-proBNP, and higher NYHA class indicating greater functional impairment.

The results support the hypothesis that “worsening heart failure can lead to down-regulation of thyroid hormone signaling,” the authors suggested. Their study is also “the first to examine the prognostic significance of thyroid dysfunction in a large population of patients with HFnEF.” This analysis showed a “weak but significant association between increasing TSH and both mortality and the composite endpoint in patients with HFnEF.”

“HFnEF is a heterogeneous group of conditions that are difficult to diagnose in many cases. Therefore, future studies are needed to provide further clarity on the effect of thyroid dysfunction in these patients,” Dr. Samuel said.

The study received no commercial funding. Dr. Samuel and Dr. Clark had no disclosures.

[email protected]

SOURCE: Samuel NA et al. Am J Cardiol. 2020 Oct 24. doi: 10.1016/j.amjcard.2020.10.034.

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.

Endocrine diseases of any type – not just diabetes – can represent a cardiovascular risk and patients with those disorders should be screened for high cholesterol, according to a new clinical practice guideline from the Endocrine Society.

“The simple recommendation to check a lipid panel in patients with endocrine diseases and calculate cardiovascular risk may be practice changing because that is not done routinely,” Connie Newman, MD, chair of the Endocrine Society committee that developed the guideline, said in an interview.

“Usually the focus is on assessment and treatment of the endocrine disease, rather than on assessment and treatment of atherosclerotic cardiovascular disease risk,” said Newman, an adjunct professor of medicine in the department of medicine, division of endocrinology, diabetes & metabolism, at New York University.

Whereas diabetes, well-known for its increased cardiovascular risk profile, is commonly addressed in other cardiovascular and cholesterol practice management guidelines, the array of other endocrine diseases are not typically included.

“This guideline is the first of its kind,” Dr. Newman said. “The Endocrine Society has not previously issued a guideline on lipid management in endocrine disorders [and] other organizations have not written guidelines on this topic. 

“Rather, guidelines have been written on cholesterol management, but these do not describe cholesterol management in patients with endocrine diseases such as thyroid disease [hypothyroidism and hyperthyroidism], Cushing’s syndrome, acromegaly, growth hormone deficiency, menopause, male hypogonadism, and obesity,” she noted.

But these conditions carry a host of cardiovascular risk factors that may require careful monitoring and management.

“Although endocrine hormones, such as thyroid hormone, cortisol, estrogen, testosterone, growth hormone, and insulin, affect pathways for lipid metabolism, physicians lack guidance on lipid abnormalities, cardiovascular risk, and treatment to reduce lipids and cardiovascular risk in patients with endocrine diseases,” she explained.

Vinaya Simha, MD, an internal medicine specialist at the Mayo Clinic in Rochester, Minn., agrees that the guideline is notable in addressing an unmet need.

Recommendations that stand out to Dr. Simha include the suggestion of adding eicosapentaenoic acid (EPA) ethyl ester to reduce the risk of cardiovascular disease in adults with diabetes or atherosclerotic cardiovascular disease who have elevated triglyceride levels despite statin treatment.

James L. Rosenzweig, MD, an endocrinologist at Hebrew SeniorLife in Boston, agreed that this is an important addition to an area that needs more guidance.

“Many of these clinical situations can exacerbate dyslipidemia and some also increase the cardiovascular risk to a greater extent in combination with elevated cholesterol and/or triglycerides,” he said in an interview. 

“In many cases, treatment of the underlying disorder appropriately can have an important impact in resolving the lipid disorder. In others, more aggressive pharmacological treatment is indicated,” he said.

“I think that this will be a valuable resource, especially for endocrinologists, but it can be used as well by providers in other disciplines.”
 

Key recommendations for different endocrine conditions

The guideline, published in the Journal of Clinical Endocrinology & Metabolism, details those risks and provides evidence-based recommendations on their management and treatment.

Key recommendations include:

• Obtain a lipid panel and evaluate cardiovascular risk factors in all adults with endocrine disorders.
• In patients with  and risk factors for cardiovascular disease, start statin therapy in addition to lifestyle modification to reduce cardiovascular risk. “This could mean earlier treatment because other guidelines recommend consideration of therapy at age 40,” Dr. Newman said.
• Statin therapy is also recommended for adults over 40 with  with a duration of diabetes of more than 20 years and/or microvascular complications, regardless of their cardiovascular risk score. “This means earlier treatment of patients with type 1 diabetes with statins in order to reduce cardiovascular disease risk,” Dr. Newman noted.
• In patients with hyperlipidemia, rule out  as the cause before treating with lipid-lowering medications. And among patients who are found to have hypothyroidism, reevaluate the lipid profile when the patient has thyroid hormone levels in the normal range.
• Adults with persistent endogenous Cushing’s syndrome should have their lipid profile monitored. Statin therapy should be considered in addition to lifestyle modifications, irrespective of the cardiovascular risk score.
• In postmenopausal women, high cholesterol or triglycerides should be treated with statins rather than hormone therapy.
• Evaluate and treat lipids and other cardiovascular risk factors in women who enter menopause early (before the age of 40-45 years).

Nice summary of ‘risk-enhancing’ endocrine disorders

Dr. Simha said in an interview that the new guideline is “probably the first comprehensive statement addressing lipid treatment in patients with a broad range of endocrine disorders besides diabetes.”

“Most of the treatment recommendations are congruent with other current guidelines such as the American College of Cardiology/American Heart Association [guidelines], but there is specific mention of which endocrine disorders represent enhanced cardiovascular risk,” she explained.

The new recommendations are notable for including “a nice summary of how different endocrine disorders affect lipid values, and also which endocrine disorders need to be considered as ‘risk-enhancing factors,’ ” Dr. Simha noted.

“The use of EPA in patients with hypertriglyceridemia is novel, compared to the ACC/AHA recommendation. This reflects new data which is now available,” she added.

The American Association of Clinical Endocrinologists also just issued a new algorithm on lipid management and prevention of cardiovascular disease in which treatment of hypertriglyceridemia is emphasized.

In addition, the new Endocrine Society guideline “also mentions an LDL [cholesterol] treatment threshold of 70 mg/dL, and 55 mg/dL in some patient categories, which previous guidelines have not,” Dr. Simha noted.

Overall, Dr. Newman added that the goal of the guideline is to increase awareness of key issues with endocrine diseases that may not necessarily be on clinicians’ radars.

“We hope that it will make a lipid panel and cardiovascular risk evaluation routine in adults with endocrine diseases and cause a greater focus on therapies to reduce heart disease and stroke,” she said.

Dr. Newman, Dr. Simha, and Dr. Rosenzweig reported no relevant financial relationships.

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

Endocrine diseases of any type – not just diabetes – can represent a cardiovascular risk and patients with those disorders should be screened for high cholesterol, according to a new clinical practice guideline from the Endocrine Society.

“The simple recommendation to check a lipid panel in patients with endocrine diseases and calculate cardiovascular risk may be practice changing because that is not done routinely,” Connie Newman, MD, chair of the Endocrine Society committee that developed the guideline, said in an interview.

“Usually the focus is on assessment and treatment of the endocrine disease, rather than on assessment and treatment of atherosclerotic cardiovascular disease risk,” said Newman, an adjunct professor of medicine in the department of medicine, division of endocrinology, diabetes & metabolism, at New York University.

Whereas diabetes, well-known for its increased cardiovascular risk profile, is commonly addressed in other cardiovascular and cholesterol practice management guidelines, the array of other endocrine diseases are not typically included.

“This guideline is the first of its kind,” Dr. Newman said. “The Endocrine Society has not previously issued a guideline on lipid management in endocrine disorders [and] other organizations have not written guidelines on this topic. 

“Rather, guidelines have been written on cholesterol management, but these do not describe cholesterol management in patients with endocrine diseases such as thyroid disease [hypothyroidism and hyperthyroidism], Cushing’s syndrome, acromegaly, growth hormone deficiency, menopause, male hypogonadism, and obesity,” she noted.

But these conditions carry a host of cardiovascular risk factors that may require careful monitoring and management.

“Although endocrine hormones, such as thyroid hormone, cortisol, estrogen, testosterone, growth hormone, and insulin, affect pathways for lipid metabolism, physicians lack guidance on lipid abnormalities, cardiovascular risk, and treatment to reduce lipids and cardiovascular risk in patients with endocrine diseases,” she explained.

Vinaya Simha, MD, an internal medicine specialist at the Mayo Clinic in Rochester, Minn., agrees that the guideline is notable in addressing an unmet need.

Recommendations that stand out to Dr. Simha include the suggestion of adding eicosapentaenoic acid (EPA) ethyl ester to reduce the risk of cardiovascular disease in adults with diabetes or atherosclerotic cardiovascular disease who have elevated triglyceride levels despite statin treatment.

James L. Rosenzweig, MD, an endocrinologist at Hebrew SeniorLife in Boston, agreed that this is an important addition to an area that needs more guidance.

“Many of these clinical situations can exacerbate dyslipidemia and some also increase the cardiovascular risk to a greater extent in combination with elevated cholesterol and/or triglycerides,” he said in an interview. 

“In many cases, treatment of the underlying disorder appropriately can have an important impact in resolving the lipid disorder. In others, more aggressive pharmacological treatment is indicated,” he said.

“I think that this will be a valuable resource, especially for endocrinologists, but it can be used as well by providers in other disciplines.”
 

Key recommendations for different endocrine conditions

The guideline, published in the Journal of Clinical Endocrinology & Metabolism, details those risks and provides evidence-based recommendations on their management and treatment.

Key recommendations include:

• Obtain a lipid panel and evaluate cardiovascular risk factors in all adults with endocrine disorders.
• In patients with  and risk factors for cardiovascular disease, start statin therapy in addition to lifestyle modification to reduce cardiovascular risk. “This could mean earlier treatment because other guidelines recommend consideration of therapy at age 40,” Dr. Newman said.
• Statin therapy is also recommended for adults over 40 with  with a duration of diabetes of more than 20 years and/or microvascular complications, regardless of their cardiovascular risk score. “This means earlier treatment of patients with type 1 diabetes with statins in order to reduce cardiovascular disease risk,” Dr. Newman noted.
• In patients with hyperlipidemia, rule out  as the cause before treating with lipid-lowering medications. And among patients who are found to have hypothyroidism, reevaluate the lipid profile when the patient has thyroid hormone levels in the normal range.
• Adults with persistent endogenous Cushing’s syndrome should have their lipid profile monitored. Statin therapy should be considered in addition to lifestyle modifications, irrespective of the cardiovascular risk score.
• In postmenopausal women, high cholesterol or triglycerides should be treated with statins rather than hormone therapy.
• Evaluate and treat lipids and other cardiovascular risk factors in women who enter menopause early (before the age of 40-45 years).

Nice summary of ‘risk-enhancing’ endocrine disorders

Dr. Simha said in an interview that the new guideline is “probably the first comprehensive statement addressing lipid treatment in patients with a broad range of endocrine disorders besides diabetes.”

“Most of the treatment recommendations are congruent with other current guidelines such as the American College of Cardiology/American Heart Association [guidelines], but there is specific mention of which endocrine disorders represent enhanced cardiovascular risk,” she explained.

The new recommendations are notable for including “a nice summary of how different endocrine disorders affect lipid values, and also which endocrine disorders need to be considered as ‘risk-enhancing factors,’ ” Dr. Simha noted.

“The use of EPA in patients with hypertriglyceridemia is novel, compared to the ACC/AHA recommendation. This reflects new data which is now available,” she added.

The American Association of Clinical Endocrinologists also just issued a new algorithm on lipid management and prevention of cardiovascular disease in which treatment of hypertriglyceridemia is emphasized.

In addition, the new Endocrine Society guideline “also mentions an LDL [cholesterol] treatment threshold of 70 mg/dL, and 55 mg/dL in some patient categories, which previous guidelines have not,” Dr. Simha noted.

Overall, Dr. Newman added that the goal of the guideline is to increase awareness of key issues with endocrine diseases that may not necessarily be on clinicians’ radars.

“We hope that it will make a lipid panel and cardiovascular risk evaluation routine in adults with endocrine diseases and cause a greater focus on therapies to reduce heart disease and stroke,” she said.

Dr. Newman, Dr. Simha, and Dr. Rosenzweig reported no relevant financial relationships.

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

Endocrine diseases of any type – not just diabetes – can represent a cardiovascular risk and patients with those disorders should be screened for high cholesterol, according to a new clinical practice guideline from the Endocrine Society.

“The simple recommendation to check a lipid panel in patients with endocrine diseases and calculate cardiovascular risk may be practice changing because that is not done routinely,” Connie Newman, MD, chair of the Endocrine Society committee that developed the guideline, said in an interview.

“Usually the focus is on assessment and treatment of the endocrine disease, rather than on assessment and treatment of atherosclerotic cardiovascular disease risk,” said Newman, an adjunct professor of medicine in the department of medicine, division of endocrinology, diabetes & metabolism, at New York University.

Whereas diabetes, well-known for its increased cardiovascular risk profile, is commonly addressed in other cardiovascular and cholesterol practice management guidelines, the array of other endocrine diseases are not typically included.

“This guideline is the first of its kind,” Dr. Newman said. “The Endocrine Society has not previously issued a guideline on lipid management in endocrine disorders [and] other organizations have not written guidelines on this topic. 

“Rather, guidelines have been written on cholesterol management, but these do not describe cholesterol management in patients with endocrine diseases such as thyroid disease [hypothyroidism and hyperthyroidism], Cushing’s syndrome, acromegaly, growth hormone deficiency, menopause, male hypogonadism, and obesity,” she noted.

But these conditions carry a host of cardiovascular risk factors that may require careful monitoring and management.

“Although endocrine hormones, such as thyroid hormone, cortisol, estrogen, testosterone, growth hormone, and insulin, affect pathways for lipid metabolism, physicians lack guidance on lipid abnormalities, cardiovascular risk, and treatment to reduce lipids and cardiovascular risk in patients with endocrine diseases,” she explained.

Vinaya Simha, MD, an internal medicine specialist at the Mayo Clinic in Rochester, Minn., agrees that the guideline is notable in addressing an unmet need.

Recommendations that stand out to Dr. Simha include the suggestion of adding eicosapentaenoic acid (EPA) ethyl ester to reduce the risk of cardiovascular disease in adults with diabetes or atherosclerotic cardiovascular disease who have elevated triglyceride levels despite statin treatment.

James L. Rosenzweig, MD, an endocrinologist at Hebrew SeniorLife in Boston, agreed that this is an important addition to an area that needs more guidance.

“Many of these clinical situations can exacerbate dyslipidemia and some also increase the cardiovascular risk to a greater extent in combination with elevated cholesterol and/or triglycerides,” he said in an interview. 

“In many cases, treatment of the underlying disorder appropriately can have an important impact in resolving the lipid disorder. In others, more aggressive pharmacological treatment is indicated,” he said.

“I think that this will be a valuable resource, especially for endocrinologists, but it can be used as well by providers in other disciplines.”
 

Key recommendations for different endocrine conditions

The guideline, published in the Journal of Clinical Endocrinology & Metabolism, details those risks and provides evidence-based recommendations on their management and treatment.

Key recommendations include:

• Obtain a lipid panel and evaluate cardiovascular risk factors in all adults with endocrine disorders.
• In patients with  and risk factors for cardiovascular disease, start statin therapy in addition to lifestyle modification to reduce cardiovascular risk. “This could mean earlier treatment because other guidelines recommend consideration of therapy at age 40,” Dr. Newman said.
• Statin therapy is also recommended for adults over 40 with  with a duration of diabetes of more than 20 years and/or microvascular complications, regardless of their cardiovascular risk score. “This means earlier treatment of patients with type 1 diabetes with statins in order to reduce cardiovascular disease risk,” Dr. Newman noted.
• In patients with hyperlipidemia, rule out  as the cause before treating with lipid-lowering medications. And among patients who are found to have hypothyroidism, reevaluate the lipid profile when the patient has thyroid hormone levels in the normal range.
• Adults with persistent endogenous Cushing’s syndrome should have their lipid profile monitored. Statin therapy should be considered in addition to lifestyle modifications, irrespective of the cardiovascular risk score.
• In postmenopausal women, high cholesterol or triglycerides should be treated with statins rather than hormone therapy.
• Evaluate and treat lipids and other cardiovascular risk factors in women who enter menopause early (before the age of 40-45 years).

Nice summary of ‘risk-enhancing’ endocrine disorders

Dr. Simha said in an interview that the new guideline is “probably the first comprehensive statement addressing lipid treatment in patients with a broad range of endocrine disorders besides diabetes.”

“Most of the treatment recommendations are congruent with other current guidelines such as the American College of Cardiology/American Heart Association [guidelines], but there is specific mention of which endocrine disorders represent enhanced cardiovascular risk,” she explained.

The new recommendations are notable for including “a nice summary of how different endocrine disorders affect lipid values, and also which endocrine disorders need to be considered as ‘risk-enhancing factors,’ ” Dr. Simha noted.

“The use of EPA in patients with hypertriglyceridemia is novel, compared to the ACC/AHA recommendation. This reflects new data which is now available,” she added.

The American Association of Clinical Endocrinologists also just issued a new algorithm on lipid management and prevention of cardiovascular disease in which treatment of hypertriglyceridemia is emphasized.

In addition, the new Endocrine Society guideline “also mentions an LDL [cholesterol] treatment threshold of 70 mg/dL, and 55 mg/dL in some patient categories, which previous guidelines have not,” Dr. Simha noted.

Overall, Dr. Newman added that the goal of the guideline is to increase awareness of key issues with endocrine diseases that may not necessarily be on clinicians’ radars.

“We hope that it will make a lipid panel and cardiovascular risk evaluation routine in adults with endocrine diseases and cause a greater focus on therapies to reduce heart disease and stroke,” she said.

Dr. Newman, Dr. Simha, and Dr. Rosenzweig reported no relevant financial relationships.

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

Most fecal immunochemical tests (FIT) in the hospital setting or the ED are performed for inappropriate indications, according to new data.

“This is the largest study that focuses exclusively on the use of FIT in the ED, inpatient wards, and in the ICU, and it shows significant misuse,” said investigator Umer Bhatti, MD, from Indiana University, Indianapolis.

The only “validated indication” for FIT is to screen for colorectal cancer. However, “99.5% of the FIT tests done in our study were for inappropriate indications,” he reported at the annual meeting of the American College of Gastroenterology, where the study was honored with an ACG Presidential Poster Award.

And the inappropriate use of FIT in these settings had no positive effect on clinical decision-making, he added.

For their study, Dr. Bhatti and colleagues looked at all instances of FIT use in their hospital’s electronic medical records from November 2017 to October 2019 to assess how often FIT was being used, the indications for which it was being used, and the impact of its use on clinical care.

They identified 550 patients, 48% of whom were women, who underwent at least one FIT test. Mean age of the study cohort was 54 years. Only three of the tests, or 0.5%, were performed to screen for colorectal cancer (95% confidence interval, 0.09%-1.52%).

Among the indications documented for FIT were anemia in 242 (44.0%) patients, suspected GI bleeding in 225 (40.9%), abdominal pain in 31 (5.6%), and change in bowel habits in 19 (3.5%).

The tests were performed most often in the ED (45.3%) and on the hospital floor (42.2%), but were also performed in the ICU (10.5%) and burn unit (2.0%).

Overall, 297 of the tests, or 54%, were negative, and 253, or 46%, were positive.

“GI consults were obtained in 46.2% of the FIT-positive group, compared with 13.1% of the FIT-negative patients” (odds ratio, 5.93; 95% CI, 3.88-9.04, P < .0001), Dr. Bhatti reported.

Among FIT-positive patients, those with overt bleeding were more likely to receive a GI consultation than those without (OR, 3.3; 95% CI, 1.9-5.5; P < .0001).

Of the 117 FIT-positive patients who underwent a GI consultation, upper endoscopy was a more common outcome than colonoscopy (51.3% vs. 23.1%; P < .0001). Of the 34 patients who underwent colonoscopy or sigmoidoscopy, one was diagnosed with colorectal cancer and one with advanced adenoma.

Overt GI bleeding was a better predictor of a GI consultation than a positive FIT result. In fact, use of FIT for patients with overt GI bleeding indicates a poor understanding of the test’s utility, the investigators reported.

“For patients with overt GI bleeding, having a positive FIT made no difference on how often a bleeding source was identified on endoscopy, suggesting that FIT should not be used to guide decisions about endoscopy or hospitalization,” Dr. Bhatti said.

In light of these findings, the team urges their peers to consider measures to reduce FIT tests for unnecessary indications.

“We feel that FIT is unfit for use in the inpatient and emergency settings, and measures should be taken to curb its use,” Dr. Bhatti concluded. “We presented our data to our hospital leadership and a decision was made to remove the FIT as an orderable test from the EMR.”

These results are “striking,” said Jennifer Christie, MD, from the University, Atlanta.

“We should be educating our ER providers and inpatient providers about the proper use of FIT,” she said in an interview. “Another option – and this has been done in many settings with the fecal occult blood test – is just take FIT off the units or out of the ER, so providers won’t be tempted to use it as an assessment of these patients. Because often times, as this study showed, it doesn’t really impact outcomes.”

In fact, unnecessary FI testing could put patients at risk for unnecessary procedures. “We also know that calling for an inpatient or ER consult from a gastroenterologist may increase both length of stay and costs,” she added.

Dr. Bhatti and Dr. Christie disclosed no relevant financial relationships.

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

Most fecal immunochemical tests (FIT) in the hospital setting or the ED are performed for inappropriate indications, according to new data.

“This is the largest study that focuses exclusively on the use of FIT in the ED, inpatient wards, and in the ICU, and it shows significant misuse,” said investigator Umer Bhatti, MD, from Indiana University, Indianapolis.

The only “validated indication” for FIT is to screen for colorectal cancer. However, “99.5% of the FIT tests done in our study were for inappropriate indications,” he reported at the annual meeting of the American College of Gastroenterology, where the study was honored with an ACG Presidential Poster Award.

And the inappropriate use of FIT in these settings had no positive effect on clinical decision-making, he added.

For their study, Dr. Bhatti and colleagues looked at all instances of FIT use in their hospital’s electronic medical records from November 2017 to October 2019 to assess how often FIT was being used, the indications for which it was being used, and the impact of its use on clinical care.

They identified 550 patients, 48% of whom were women, who underwent at least one FIT test. Mean age of the study cohort was 54 years. Only three of the tests, or 0.5%, were performed to screen for colorectal cancer (95% confidence interval, 0.09%-1.52%).

Among the indications documented for FIT were anemia in 242 (44.0%) patients, suspected GI bleeding in 225 (40.9%), abdominal pain in 31 (5.6%), and change in bowel habits in 19 (3.5%).

The tests were performed most often in the ED (45.3%) and on the hospital floor (42.2%), but were also performed in the ICU (10.5%) and burn unit (2.0%).

Overall, 297 of the tests, or 54%, were negative, and 253, or 46%, were positive.

“GI consults were obtained in 46.2% of the FIT-positive group, compared with 13.1% of the FIT-negative patients” (odds ratio, 5.93; 95% CI, 3.88-9.04, P < .0001), Dr. Bhatti reported.

Among FIT-positive patients, those with overt bleeding were more likely to receive a GI consultation than those without (OR, 3.3; 95% CI, 1.9-5.5; P < .0001).

Of the 117 FIT-positive patients who underwent a GI consultation, upper endoscopy was a more common outcome than colonoscopy (51.3% vs. 23.1%; P < .0001). Of the 34 patients who underwent colonoscopy or sigmoidoscopy, one was diagnosed with colorectal cancer and one with advanced adenoma.

Overt GI bleeding was a better predictor of a GI consultation than a positive FIT result. In fact, use of FIT for patients with overt GI bleeding indicates a poor understanding of the test’s utility, the investigators reported.

“For patients with overt GI bleeding, having a positive FIT made no difference on how often a bleeding source was identified on endoscopy, suggesting that FIT should not be used to guide decisions about endoscopy or hospitalization,” Dr. Bhatti said.

In light of these findings, the team urges their peers to consider measures to reduce FIT tests for unnecessary indications.

“We feel that FIT is unfit for use in the inpatient and emergency settings, and measures should be taken to curb its use,” Dr. Bhatti concluded. “We presented our data to our hospital leadership and a decision was made to remove the FIT as an orderable test from the EMR.”

These results are “striking,” said Jennifer Christie, MD, from the University, Atlanta.

“We should be educating our ER providers and inpatient providers about the proper use of FIT,” she said in an interview. “Another option – and this has been done in many settings with the fecal occult blood test – is just take FIT off the units or out of the ER, so providers won’t be tempted to use it as an assessment of these patients. Because often times, as this study showed, it doesn’t really impact outcomes.”

In fact, unnecessary FI testing could put patients at risk for unnecessary procedures. “We also know that calling for an inpatient or ER consult from a gastroenterologist may increase both length of stay and costs,” she added.

Dr. Bhatti and Dr. Christie disclosed no relevant financial relationships.

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

Most fecal immunochemical tests (FIT) in the hospital setting or the ED are performed for inappropriate indications, according to new data.

“This is the largest study that focuses exclusively on the use of FIT in the ED, inpatient wards, and in the ICU, and it shows significant misuse,” said investigator Umer Bhatti, MD, from Indiana University, Indianapolis.

The only “validated indication” for FIT is to screen for colorectal cancer. However, “99.5% of the FIT tests done in our study were for inappropriate indications,” he reported at the annual meeting of the American College of Gastroenterology, where the study was honored with an ACG Presidential Poster Award.

And the inappropriate use of FIT in these settings had no positive effect on clinical decision-making, he added.

For their study, Dr. Bhatti and colleagues looked at all instances of FIT use in their hospital’s electronic medical records from November 2017 to October 2019 to assess how often FIT was being used, the indications for which it was being used, and the impact of its use on clinical care.

They identified 550 patients, 48% of whom were women, who underwent at least one FIT test. Mean age of the study cohort was 54 years. Only three of the tests, or 0.5%, were performed to screen for colorectal cancer (95% confidence interval, 0.09%-1.52%).

Among the indications documented for FIT were anemia in 242 (44.0%) patients, suspected GI bleeding in 225 (40.9%), abdominal pain in 31 (5.6%), and change in bowel habits in 19 (3.5%).

The tests were performed most often in the ED (45.3%) and on the hospital floor (42.2%), but were also performed in the ICU (10.5%) and burn unit (2.0%).

Overall, 297 of the tests, or 54%, were negative, and 253, or 46%, were positive.

“GI consults were obtained in 46.2% of the FIT-positive group, compared with 13.1% of the FIT-negative patients” (odds ratio, 5.93; 95% CI, 3.88-9.04, P < .0001), Dr. Bhatti reported.

Among FIT-positive patients, those with overt bleeding were more likely to receive a GI consultation than those without (OR, 3.3; 95% CI, 1.9-5.5; P < .0001).

Of the 117 FIT-positive patients who underwent a GI consultation, upper endoscopy was a more common outcome than colonoscopy (51.3% vs. 23.1%; P < .0001). Of the 34 patients who underwent colonoscopy or sigmoidoscopy, one was diagnosed with colorectal cancer and one with advanced adenoma.

Overt GI bleeding was a better predictor of a GI consultation than a positive FIT result. In fact, use of FIT for patients with overt GI bleeding indicates a poor understanding of the test’s utility, the investigators reported.

“For patients with overt GI bleeding, having a positive FIT made no difference on how often a bleeding source was identified on endoscopy, suggesting that FIT should not be used to guide decisions about endoscopy or hospitalization,” Dr. Bhatti said.

In light of these findings, the team urges their peers to consider measures to reduce FIT tests for unnecessary indications.

“We feel that FIT is unfit for use in the inpatient and emergency settings, and measures should be taken to curb its use,” Dr. Bhatti concluded. “We presented our data to our hospital leadership and a decision was made to remove the FIT as an orderable test from the EMR.”

These results are “striking,” said Jennifer Christie, MD, from the University, Atlanta.

“We should be educating our ER providers and inpatient providers about the proper use of FIT,” she said in an interview. “Another option – and this has been done in many settings with the fecal occult blood test – is just take FIT off the units or out of the ER, so providers won’t be tempted to use it as an assessment of these patients. Because often times, as this study showed, it doesn’t really impact outcomes.”

In fact, unnecessary FI testing could put patients at risk for unnecessary procedures. “We also know that calling for an inpatient or ER consult from a gastroenterologist may increase both length of stay and costs,” she added.

Dr. Bhatti and Dr. Christie disclosed no relevant financial relationships.

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

A smartphone app that combines passively collected physiologic data from wearable devices, such as fitness trackers, and self-reported symptoms can discriminate between COVID-19–positive and –negative individuals among those who report symptoms, new data suggest.

LDProd/Getty Images

After analyzing data from more than 30,000 participants, researchers from the Digital Engagement and Tracking for Early Control and Treatment (DETECT) study concluded that adding individual changes in sensor data improves models based on symptoms alone for differentiating symptomatic persons who are COVID-19 positive and symptomatic persons who are COVID-19 negative.

The combination can potentially identify infection clusters before wider community spread occurs, Giorgio Quer, PhD, and colleagues report in an article published online Oct. 29 in Nature Medicine. DETECT investigators note that marrying participant-reported symptoms with personal sensor data, such as deviation from normal sleep duration and resting heart rate, resulted in an area under the curve (AUC) of 0.80 (interquartile range [IQR], 0.73-0.86) for differentiating between symptomatic individuals who were positive and those who were negative for COVID-19.

“By better characterizing each individual’s unique baseline, you can then identify changes that may indicate that someone has a viral illness,” said Dr. Quer, director of artificial intelligence at Scripps Research Translational Institute in La Jolla, Calif. “In previous research, we found that the proportion of individuals with elevated resting heart rate and sleep duration compared with their normal could significantly improve real-time detection of influenza-like illness rates at the state level,” he said in an interview.

Thus, continuous passively captured data may be a useful adjunct to bricks-and-mortar site testing, which is generally a one-off or infrequent sampling assay and is not always easily accessible, he added. Furthermore, traditional screening with temperature and symptom reporting is inadequate. An elevation in temperature is not as common as frequently believed for people who test positive for COVID-19, Dr. Quer continued. “Early identification via sensor variables of those who are presymptomatic or even asymptomatic would be especially valuable, as people may potentially be infectious during this period, and early detection is the ultimate goal,” Dr. Quer said.

According to his group, adding these physiologic changes from baseline values significantly outperformed detection (P < .01) using a British model described in an earlier study by by Cristina Menni, PhD, and associates. That method, in which symptoms were considered alone, yielded an AUC of 0.71 (IQR, 0.63-0.79).

According to Dr. Quer, one in five Americans currently wear an electronic device. “If we could enroll even a small percentage of these individuals, we’d be able to potentially identify clusters before they have the opportunity to spread,” he said.
 

DETECT study details

During the period March 15 to June 7, 2020, the study enrolled 30,529 participants from all 50 states. They ranged in age from younger than 35 years (23.1%) to older than 65 years (12.8%); the majority (63.5%) were aged 35-65 years, and 62% were women. Sensor devices in use by the cohort included Fitbit activity trackers (78.4%) and Apple HealthKit (31.2%).

Participants downloaded an app called MyDataHelps, which collects smartwatch and activity tracker information, including self-reported symptoms and diagnostic testing results. The app also monitors changes from baseline in resting heart rate, sleep duration, and physical activity, as measured by steps.

Overall, 3,811 participants reported having at least one symptom of some kind (e.g., fatigue, cough, dyspnea, loss of taste or smell). Of these, 54 reported testing positive for COVID-19, and 279 reported testing negative.

Sleep and activity were significantly different for the positive and negative groups, with an AUC of 0.68 (IQR, 0.57-0.79) for the sleep metric and 0.69 (IQR, 0.61-0.77) for the activity metric, suggesting that these parameters were more affected in COVID-19–positive participants.

When the investigators combined resting heart rate, sleep, and activity into a single metric, predictive performance improved to an AUC of 0.72 (IQR, 0.64-0.80).

The next step, Dr. Quer said, is to include an alert to notify users of possible infection.
 

Alerting users to possible COVID-19 infection

In a similar study, an alert feature was already incorporated. The study, led by Michael P. Snyder, PhD, director of the Center for Genomics and Personalized Medicine at Stanford (Calif.) University, will soon be published online in Nature Biomedical Engineering. In that study, presymptomatic detection of COVID-19 was achieved in more than 80% of participants using resting heart rate.

“The median is 4 days prior to symptom formation,” Dr. Snyder said in an interview. “We have an alarm system to notify people when their heart rate is elevated. So a positive signal from a smartwatch can be used to follow up by polymerase chain reaction [testing].”

Dr. Snyder said these approaches offer a roadmap to containing widespread infections. “Public health authorities need to be open to these technologies and begin incorporating them into their tracking,” he said. “Right now, people do temperature checks, which are of limited value. Resting heart rate is much better information.”

Although the DETECT researchers have not yet received feedback on their results, they believe public health authorities could recommend the use of such apps. “These are devices that people routinely wear for tracking their fitness and sleep, so it would be relatively easy to use the data for viral illness tracking,” said co–lead author Jennifer Radin, PhD, an epidemiologist at Scripps. “Testing resources are still limited and don’t allow for routine serial testing of individuals who may be asymptomatic or presymptomatic. Wearables can offer a different way to routinely monitor and screen people for changes in their data that may indicate COVID-19.”

The marshaling of data through consumer digital platforms to fight the coronavirus is gaining ground. New York State and New Jersey are already embracing smartphone apps to alert individuals to possible exposure to the virus.

More than 710,000 New Yorkers have downloaded the COVID NY Alert app, launched in October to help protect individuals and communities from COVID-19 by sending alerts without compromising privacy or personal information. “Upon receiving a notification about a potential exposure, users are then able to self-quarantine, get tested, and reduce the potential exposure risk to family, friends, coworkers, and others,” Jonah Bruno, a spokesperson for the New York State Department of Health, said in an interview.

And recently the Mayo Clinic and Safe Health Systems launched a platform to store COVID-19 testing and vaccination data.

Both the Scripps and Stanford platforms are part of a global technologic response to the COVID-19 pandemic. Prospective studies, led by device manufacturers and academic institutions, allow individuals to voluntarily share sensor and clinical data to address the crisis. Similar approaches have been used to track COVID-19 in large populations in Germany via the Corona Data Donation app.

The study by Dr. Quer and colleagues was funded by a grant from the National Center for Advancing Translational Sciences at the National Institutes of Health. One coauthor reported grants from Janssen and personal fees from Otsuka and Livongo outside of the submitted work. The other authors have disclosed no relevant financial relationships. Dr. Snyder has ties to Personalis, Qbio, January, SensOmics, Protos, Mirvie, and Oralome.
 

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

A smartphone app that combines passively collected physiologic data from wearable devices, such as fitness trackers, and self-reported symptoms can discriminate between COVID-19–positive and –negative individuals among those who report symptoms, new data suggest.

LDProd/Getty Images

After analyzing data from more than 30,000 participants, researchers from the Digital Engagement and Tracking for Early Control and Treatment (DETECT) study concluded that adding individual changes in sensor data improves models based on symptoms alone for differentiating symptomatic persons who are COVID-19 positive and symptomatic persons who are COVID-19 negative.

The combination can potentially identify infection clusters before wider community spread occurs, Giorgio Quer, PhD, and colleagues report in an article published online Oct. 29 in Nature Medicine. DETECT investigators note that marrying participant-reported symptoms with personal sensor data, such as deviation from normal sleep duration and resting heart rate, resulted in an area under the curve (AUC) of 0.80 (interquartile range [IQR], 0.73-0.86) for differentiating between symptomatic individuals who were positive and those who were negative for COVID-19.

“By better characterizing each individual’s unique baseline, you can then identify changes that may indicate that someone has a viral illness,” said Dr. Quer, director of artificial intelligence at Scripps Research Translational Institute in La Jolla, Calif. “In previous research, we found that the proportion of individuals with elevated resting heart rate and sleep duration compared with their normal could significantly improve real-time detection of influenza-like illness rates at the state level,” he said in an interview.

Thus, continuous passively captured data may be a useful adjunct to bricks-and-mortar site testing, which is generally a one-off or infrequent sampling assay and is not always easily accessible, he added. Furthermore, traditional screening with temperature and symptom reporting is inadequate. An elevation in temperature is not as common as frequently believed for people who test positive for COVID-19, Dr. Quer continued. “Early identification via sensor variables of those who are presymptomatic or even asymptomatic would be especially valuable, as people may potentially be infectious during this period, and early detection is the ultimate goal,” Dr. Quer said.

According to his group, adding these physiologic changes from baseline values significantly outperformed detection (P < .01) using a British model described in an earlier study by by Cristina Menni, PhD, and associates. That method, in which symptoms were considered alone, yielded an AUC of 0.71 (IQR, 0.63-0.79).

According to Dr. Quer, one in five Americans currently wear an electronic device. “If we could enroll even a small percentage of these individuals, we’d be able to potentially identify clusters before they have the opportunity to spread,” he said.
 

DETECT study details

During the period March 15 to June 7, 2020, the study enrolled 30,529 participants from all 50 states. They ranged in age from younger than 35 years (23.1%) to older than 65 years (12.8%); the majority (63.5%) were aged 35-65 years, and 62% were women. Sensor devices in use by the cohort included Fitbit activity trackers (78.4%) and Apple HealthKit (31.2%).

Participants downloaded an app called MyDataHelps, which collects smartwatch and activity tracker information, including self-reported symptoms and diagnostic testing results. The app also monitors changes from baseline in resting heart rate, sleep duration, and physical activity, as measured by steps.

Overall, 3,811 participants reported having at least one symptom of some kind (e.g., fatigue, cough, dyspnea, loss of taste or smell). Of these, 54 reported testing positive for COVID-19, and 279 reported testing negative.

Sleep and activity were significantly different for the positive and negative groups, with an AUC of 0.68 (IQR, 0.57-0.79) for the sleep metric and 0.69 (IQR, 0.61-0.77) for the activity metric, suggesting that these parameters were more affected in COVID-19–positive participants.

When the investigators combined resting heart rate, sleep, and activity into a single metric, predictive performance improved to an AUC of 0.72 (IQR, 0.64-0.80).

The next step, Dr. Quer said, is to include an alert to notify users of possible infection.
 

Alerting users to possible COVID-19 infection

In a similar study, an alert feature was already incorporated. The study, led by Michael P. Snyder, PhD, director of the Center for Genomics and Personalized Medicine at Stanford (Calif.) University, will soon be published online in Nature Biomedical Engineering. In that study, presymptomatic detection of COVID-19 was achieved in more than 80% of participants using resting heart rate.

“The median is 4 days prior to symptom formation,” Dr. Snyder said in an interview. “We have an alarm system to notify people when their heart rate is elevated. So a positive signal from a smartwatch can be used to follow up by polymerase chain reaction [testing].”

Dr. Snyder said these approaches offer a roadmap to containing widespread infections. “Public health authorities need to be open to these technologies and begin incorporating them into their tracking,” he said. “Right now, people do temperature checks, which are of limited value. Resting heart rate is much better information.”

Although the DETECT researchers have not yet received feedback on their results, they believe public health authorities could recommend the use of such apps. “These are devices that people routinely wear for tracking their fitness and sleep, so it would be relatively easy to use the data for viral illness tracking,” said co–lead author Jennifer Radin, PhD, an epidemiologist at Scripps. “Testing resources are still limited and don’t allow for routine serial testing of individuals who may be asymptomatic or presymptomatic. Wearables can offer a different way to routinely monitor and screen people for changes in their data that may indicate COVID-19.”

The marshaling of data through consumer digital platforms to fight the coronavirus is gaining ground. New York State and New Jersey are already embracing smartphone apps to alert individuals to possible exposure to the virus.

More than 710,000 New Yorkers have downloaded the COVID NY Alert app, launched in October to help protect individuals and communities from COVID-19 by sending alerts without compromising privacy or personal information. “Upon receiving a notification about a potential exposure, users are then able to self-quarantine, get tested, and reduce the potential exposure risk to family, friends, coworkers, and others,” Jonah Bruno, a spokesperson for the New York State Department of Health, said in an interview.

And recently the Mayo Clinic and Safe Health Systems launched a platform to store COVID-19 testing and vaccination data.

Both the Scripps and Stanford platforms are part of a global technologic response to the COVID-19 pandemic. Prospective studies, led by device manufacturers and academic institutions, allow individuals to voluntarily share sensor and clinical data to address the crisis. Similar approaches have been used to track COVID-19 in large populations in Germany via the Corona Data Donation app.

The study by Dr. Quer and colleagues was funded by a grant from the National Center for Advancing Translational Sciences at the National Institutes of Health. One coauthor reported grants from Janssen and personal fees from Otsuka and Livongo outside of the submitted work. The other authors have disclosed no relevant financial relationships. Dr. Snyder has ties to Personalis, Qbio, January, SensOmics, Protos, Mirvie, and Oralome.
 

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

A smartphone app that combines passively collected physiologic data from wearable devices, such as fitness trackers, and self-reported symptoms can discriminate between COVID-19–positive and –negative individuals among those who report symptoms, new data suggest.

LDProd/Getty Images

After analyzing data from more than 30,000 participants, researchers from the Digital Engagement and Tracking for Early Control and Treatment (DETECT) study concluded that adding individual changes in sensor data improves models based on symptoms alone for differentiating symptomatic persons who are COVID-19 positive and symptomatic persons who are COVID-19 negative.

The combination can potentially identify infection clusters before wider community spread occurs, Giorgio Quer, PhD, and colleagues report in an article published online Oct. 29 in Nature Medicine. DETECT investigators note that marrying participant-reported symptoms with personal sensor data, such as deviation from normal sleep duration and resting heart rate, resulted in an area under the curve (AUC) of 0.80 (interquartile range [IQR], 0.73-0.86) for differentiating between symptomatic individuals who were positive and those who were negative for COVID-19.

“By better characterizing each individual’s unique baseline, you can then identify changes that may indicate that someone has a viral illness,” said Dr. Quer, director of artificial intelligence at Scripps Research Translational Institute in La Jolla, Calif. “In previous research, we found that the proportion of individuals with elevated resting heart rate and sleep duration compared with their normal could significantly improve real-time detection of influenza-like illness rates at the state level,” he said in an interview.

Thus, continuous passively captured data may be a useful adjunct to bricks-and-mortar site testing, which is generally a one-off or infrequent sampling assay and is not always easily accessible, he added. Furthermore, traditional screening with temperature and symptom reporting is inadequate. An elevation in temperature is not as common as frequently believed for people who test positive for COVID-19, Dr. Quer continued. “Early identification via sensor variables of those who are presymptomatic or even asymptomatic would be especially valuable, as people may potentially be infectious during this period, and early detection is the ultimate goal,” Dr. Quer said.

According to his group, adding these physiologic changes from baseline values significantly outperformed detection (P < .01) using a British model described in an earlier study by by Cristina Menni, PhD, and associates. That method, in which symptoms were considered alone, yielded an AUC of 0.71 (IQR, 0.63-0.79).

According to Dr. Quer, one in five Americans currently wear an electronic device. “If we could enroll even a small percentage of these individuals, we’d be able to potentially identify clusters before they have the opportunity to spread,” he said.
 

DETECT study details

During the period March 15 to June 7, 2020, the study enrolled 30,529 participants from all 50 states. They ranged in age from younger than 35 years (23.1%) to older than 65 years (12.8%); the majority (63.5%) were aged 35-65 years, and 62% were women. Sensor devices in use by the cohort included Fitbit activity trackers (78.4%) and Apple HealthKit (31.2%).

Participants downloaded an app called MyDataHelps, which collects smartwatch and activity tracker information, including self-reported symptoms and diagnostic testing results. The app also monitors changes from baseline in resting heart rate, sleep duration, and physical activity, as measured by steps.

Overall, 3,811 participants reported having at least one symptom of some kind (e.g., fatigue, cough, dyspnea, loss of taste or smell). Of these, 54 reported testing positive for COVID-19, and 279 reported testing negative.

Sleep and activity were significantly different for the positive and negative groups, with an AUC of 0.68 (IQR, 0.57-0.79) for the sleep metric and 0.69 (IQR, 0.61-0.77) for the activity metric, suggesting that these parameters were more affected in COVID-19–positive participants.

When the investigators combined resting heart rate, sleep, and activity into a single metric, predictive performance improved to an AUC of 0.72 (IQR, 0.64-0.80).

The next step, Dr. Quer said, is to include an alert to notify users of possible infection.
 

Alerting users to possible COVID-19 infection

In a similar study, an alert feature was already incorporated. The study, led by Michael P. Snyder, PhD, director of the Center for Genomics and Personalized Medicine at Stanford (Calif.) University, will soon be published online in Nature Biomedical Engineering. In that study, presymptomatic detection of COVID-19 was achieved in more than 80% of participants using resting heart rate.

“The median is 4 days prior to symptom formation,” Dr. Snyder said in an interview. “We have an alarm system to notify people when their heart rate is elevated. So a positive signal from a smartwatch can be used to follow up by polymerase chain reaction [testing].”

Dr. Snyder said these approaches offer a roadmap to containing widespread infections. “Public health authorities need to be open to these technologies and begin incorporating them into their tracking,” he said. “Right now, people do temperature checks, which are of limited value. Resting heart rate is much better information.”

Although the DETECT researchers have not yet received feedback on their results, they believe public health authorities could recommend the use of such apps. “These are devices that people routinely wear for tracking their fitness and sleep, so it would be relatively easy to use the data for viral illness tracking,” said co–lead author Jennifer Radin, PhD, an epidemiologist at Scripps. “Testing resources are still limited and don’t allow for routine serial testing of individuals who may be asymptomatic or presymptomatic. Wearables can offer a different way to routinely monitor and screen people for changes in their data that may indicate COVID-19.”

The marshaling of data through consumer digital platforms to fight the coronavirus is gaining ground. New York State and New Jersey are already embracing smartphone apps to alert individuals to possible exposure to the virus.

More than 710,000 New Yorkers have downloaded the COVID NY Alert app, launched in October to help protect individuals and communities from COVID-19 by sending alerts without compromising privacy or personal information. “Upon receiving a notification about a potential exposure, users are then able to self-quarantine, get tested, and reduce the potential exposure risk to family, friends, coworkers, and others,” Jonah Bruno, a spokesperson for the New York State Department of Health, said in an interview.

And recently the Mayo Clinic and Safe Health Systems launched a platform to store COVID-19 testing and vaccination data.

Both the Scripps and Stanford platforms are part of a global technologic response to the COVID-19 pandemic. Prospective studies, led by device manufacturers and academic institutions, allow individuals to voluntarily share sensor and clinical data to address the crisis. Similar approaches have been used to track COVID-19 in large populations in Germany via the Corona Data Donation app.

The study by Dr. Quer and colleagues was funded by a grant from the National Center for Advancing Translational Sciences at the National Institutes of Health. One coauthor reported grants from Janssen and personal fees from Otsuka and Livongo outside of the submitted work. The other authors have disclosed no relevant financial relationships. Dr. Snyder has ties to Personalis, Qbio, January, SensOmics, Protos, Mirvie, and Oralome.
 

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

The latest recommendations from sports cardiologists on getting athletes with COVID-19 back on the playing field safely emphasize a more judicious approach to screening for cardiac injury.

The new recommendations, made by the American College of Cardiology’s Sports and Exercise Cardiology Section, are for adult athletes in competitive sports and also for two important groups: younger athletes taking part in competitive high school sports and older athletes aged 35 and older, the Masters athletes, who continue to be active throughout their lives. The document was published online in JAMA Cardiology.

Because of the evolving nature of knowledge about COVID-19, updates on recommendations for safe return to play for athletes of all ages will continue to be made, senior author Aaron L. Baggish, MD, director of the cardiovascular performance program at Massachusetts General Hospital, Boston, said.

“The recommendations we released in May were entirely based on our experience taking care of hospitalized patients with COVID-19; we had no athletes in this population. We used a lot of conservative guesswork around how this would apply to otherwise healthy athletes,” Dr. Baggish said in an interview.

“But as sports started to open up, and we started to see large numbers of first professional and then college athletes come back into training, we realized that we needed to stop and ask whether the recommendations we put forward back in May were still appropriate,” Dr. Baggish said.

“Once we started to actually get into the trenches with these athletes, literally hundreds of them, and applying the testing strategies that we had initially recommended in everybody, we realized that we probably had some room for improvement, and that’s why we reconvened, to make these revisions,” he said.

Essentially, the recommendations now urge less cardiac testing. “Cardiac injury is not as common as we may have originally thought,” said Dr. Baggish.

“In the early days of COVID, people who were hospitalized had evidence of heart injury, and so we wondered if that prevalence would also be applicable to otherwise young, healthy people who got COVID. If that had been the case, we would have been in big trouble with respect to getting people back into sports. So this is why we started with a conservative screening approach and a lot of testing in order to not miss a huge burden of disease,” he said.

“But what we’ve learned over the past few months is that young people who get either asymptomatic or mild infection appear to have very, very low risk of having associated heart injury, so the need for testing in that population, when people who have infections recover fully, is almost certainly not going to be high yield,” Dr. Baggish said.
 

First iteration of the recommendations

Published in May in the early weeks of the pandemic, the first recommendations for safe return to play said that all athletes should stop training for at least 2 weeks after their symptoms resolve, then undergo “careful, clinical cardiovascular evaluation in combination with cardiac biomarkers and imaging.”

Additional testing with cardiac MRI, exercise testing, or ambulatory rhythm monitoring was to be done “based on the clinical course and initial testing.”

But experts caution that monitoring on such a scale in everyone is unnecessary and could even be counterproductive.

“Sending young athletes for extensive testing is not warranted and could send them to unnecessary testing, cardiac imaging, and so on,” Dr. Baggish said.

Only those athletes who continue to have symptoms or whose symptoms return when they get back to their athletic activities should go on for more screening.

“There, in essence, is the single main change from May, and that is a move away from screening with testing everyone, [and instead] confining that to the people who had moderate or greater severity disease,” he said.

Both iterations of the recommendations end with the same message.

“We are at the beginning of our knowledge about the cardiotoxic effects of COVID-19 but we are gathering evidence every day,” said Dr. Baggish. “Just as they did earlier, we acknowledge that our approaches are subject to change when we learn more about how COVID affects the heart, and specifically the hearts of athletes. This will be an ongoing process.”
 

Something to lean on

The recommendations are welcome, said James E. Udelson, MD, chief of the division of cardiology at Tufts Medical Center, Boston, coauthor of an accompanying editorial.

“It was a bit of the wild west out there, because each university, each college, all with good intentions, had been all struggling to figure out what to do, and how much to do. Probably the most important message from this new paper is the fact that now there is something out there that all coaches, athletes, families, schools, trainers can get some guidance from,” Dr. Udelson said in an interview.

Refining the cardiac screening criteria was a necessary step, Dr. Udelson said.

“How much cardiac imaging do you do? That is a matter of controversy,” said Dr. Udelson, who coauthored the commentary with Tufts cardiologist Ethan Rowin, MD, and Michael A. Curtis, MEd, a certified strength and conditioning specialist at the University of Virginia, Charlottesville. “The problem is that if you use a very sensitive imaging test on a lot of people, sometimes you find things that you really didn’t need to know about. They’re really not important. And now, the athlete is told he or she cannot play for 3 months because they might have myocarditis.

“Should we be too sensitive, meaning do we want to pick up anything no matter whether it’s important or not?” he added. “There will be a lot of false positives, and we are going to disqualify a lot of people. Or do you tune it a different way?”

Dr. Udelson said he would like to see commercial sports donate money to support research into the potential cardiotoxicity of COVID-19.

“If the organizations that benefit from these athletes, like the National Collegiate Athletic Association and professional sports leagues, can fund some of this research, that would be a huge help,” Dr. Udelson said.

“These are the top sports cardiologists in the country, and they have to start somewhere, and these are all based on what we know right now, as well as their own extensive experience. We all know that we are just at the beginning of our knowledge of this. But we have to have something to guide this huge community out there that is really thirsty for help.”

Dr. Baggish reports receiving research funding for the study of athletes in competitive sports from the National Heart, Lung, and Blood Institute; the National Football League Players Association; and the American Heart Association and receiving compensation for his role as team cardiologist from the US Olympic Committee/US Olympic Training Centers, US Soccer, US Rowing, the New England Patriots, the Boston Bruins, the New England Revolution, and Harvard University. Dr. Udelson has disclosed no relevant financial relationships.
 

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

The latest recommendations from sports cardiologists on getting athletes with COVID-19 back on the playing field safely emphasize a more judicious approach to screening for cardiac injury.

The new recommendations, made by the American College of Cardiology’s Sports and Exercise Cardiology Section, are for adult athletes in competitive sports and also for two important groups: younger athletes taking part in competitive high school sports and older athletes aged 35 and older, the Masters athletes, who continue to be active throughout their lives. The document was published online in JAMA Cardiology.

Because of the evolving nature of knowledge about COVID-19, updates on recommendations for safe return to play for athletes of all ages will continue to be made, senior author Aaron L. Baggish, MD, director of the cardiovascular performance program at Massachusetts General Hospital, Boston, said.

“The recommendations we released in May were entirely based on our experience taking care of hospitalized patients with COVID-19; we had no athletes in this population. We used a lot of conservative guesswork around how this would apply to otherwise healthy athletes,” Dr. Baggish said in an interview.

“But as sports started to open up, and we started to see large numbers of first professional and then college athletes come back into training, we realized that we needed to stop and ask whether the recommendations we put forward back in May were still appropriate,” Dr. Baggish said.

“Once we started to actually get into the trenches with these athletes, literally hundreds of them, and applying the testing strategies that we had initially recommended in everybody, we realized that we probably had some room for improvement, and that’s why we reconvened, to make these revisions,” he said.

Essentially, the recommendations now urge less cardiac testing. “Cardiac injury is not as common as we may have originally thought,” said Dr. Baggish.

“In the early days of COVID, people who were hospitalized had evidence of heart injury, and so we wondered if that prevalence would also be applicable to otherwise young, healthy people who got COVID. If that had been the case, we would have been in big trouble with respect to getting people back into sports. So this is why we started with a conservative screening approach and a lot of testing in order to not miss a huge burden of disease,” he said.

“But what we’ve learned over the past few months is that young people who get either asymptomatic or mild infection appear to have very, very low risk of having associated heart injury, so the need for testing in that population, when people who have infections recover fully, is almost certainly not going to be high yield,” Dr. Baggish said.
 

First iteration of the recommendations

Published in May in the early weeks of the pandemic, the first recommendations for safe return to play said that all athletes should stop training for at least 2 weeks after their symptoms resolve, then undergo “careful, clinical cardiovascular evaluation in combination with cardiac biomarkers and imaging.”

Additional testing with cardiac MRI, exercise testing, or ambulatory rhythm monitoring was to be done “based on the clinical course and initial testing.”

But experts caution that monitoring on such a scale in everyone is unnecessary and could even be counterproductive.

“Sending young athletes for extensive testing is not warranted and could send them to unnecessary testing, cardiac imaging, and so on,” Dr. Baggish said.

Only those athletes who continue to have symptoms or whose symptoms return when they get back to their athletic activities should go on for more screening.

“There, in essence, is the single main change from May, and that is a move away from screening with testing everyone, [and instead] confining that to the people who had moderate or greater severity disease,” he said.

Both iterations of the recommendations end with the same message.

“We are at the beginning of our knowledge about the cardiotoxic effects of COVID-19 but we are gathering evidence every day,” said Dr. Baggish. “Just as they did earlier, we acknowledge that our approaches are subject to change when we learn more about how COVID affects the heart, and specifically the hearts of athletes. This will be an ongoing process.”
 

Something to lean on

The recommendations are welcome, said James E. Udelson, MD, chief of the division of cardiology at Tufts Medical Center, Boston, coauthor of an accompanying editorial.

“It was a bit of the wild west out there, because each university, each college, all with good intentions, had been all struggling to figure out what to do, and how much to do. Probably the most important message from this new paper is the fact that now there is something out there that all coaches, athletes, families, schools, trainers can get some guidance from,” Dr. Udelson said in an interview.

Refining the cardiac screening criteria was a necessary step, Dr. Udelson said.

“How much cardiac imaging do you do? That is a matter of controversy,” said Dr. Udelson, who coauthored the commentary with Tufts cardiologist Ethan Rowin, MD, and Michael A. Curtis, MEd, a certified strength and conditioning specialist at the University of Virginia, Charlottesville. “The problem is that if you use a very sensitive imaging test on a lot of people, sometimes you find things that you really didn’t need to know about. They’re really not important. And now, the athlete is told he or she cannot play for 3 months because they might have myocarditis.

“Should we be too sensitive, meaning do we want to pick up anything no matter whether it’s important or not?” he added. “There will be a lot of false positives, and we are going to disqualify a lot of people. Or do you tune it a different way?”

Dr. Udelson said he would like to see commercial sports donate money to support research into the potential cardiotoxicity of COVID-19.

“If the organizations that benefit from these athletes, like the National Collegiate Athletic Association and professional sports leagues, can fund some of this research, that would be a huge help,” Dr. Udelson said.

“These are the top sports cardiologists in the country, and they have to start somewhere, and these are all based on what we know right now, as well as their own extensive experience. We all know that we are just at the beginning of our knowledge of this. But we have to have something to guide this huge community out there that is really thirsty for help.”

Dr. Baggish reports receiving research funding for the study of athletes in competitive sports from the National Heart, Lung, and Blood Institute; the National Football League Players Association; and the American Heart Association and receiving compensation for his role as team cardiologist from the US Olympic Committee/US Olympic Training Centers, US Soccer, US Rowing, the New England Patriots, the Boston Bruins, the New England Revolution, and Harvard University. Dr. Udelson has disclosed no relevant financial relationships.
 

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

The latest recommendations from sports cardiologists on getting athletes with COVID-19 back on the playing field safely emphasize a more judicious approach to screening for cardiac injury.

The new recommendations, made by the American College of Cardiology’s Sports and Exercise Cardiology Section, are for adult athletes in competitive sports and also for two important groups: younger athletes taking part in competitive high school sports and older athletes aged 35 and older, the Masters athletes, who continue to be active throughout their lives. The document was published online in JAMA Cardiology.

Because of the evolving nature of knowledge about COVID-19, updates on recommendations for safe return to play for athletes of all ages will continue to be made, senior author Aaron L. Baggish, MD, director of the cardiovascular performance program at Massachusetts General Hospital, Boston, said.

“The recommendations we released in May were entirely based on our experience taking care of hospitalized patients with COVID-19; we had no athletes in this population. We used a lot of conservative guesswork around how this would apply to otherwise healthy athletes,” Dr. Baggish said in an interview.

“But as sports started to open up, and we started to see large numbers of first professional and then college athletes come back into training, we realized that we needed to stop and ask whether the recommendations we put forward back in May were still appropriate,” Dr. Baggish said.

“Once we started to actually get into the trenches with these athletes, literally hundreds of them, and applying the testing strategies that we had initially recommended in everybody, we realized that we probably had some room for improvement, and that’s why we reconvened, to make these revisions,” he said.

Essentially, the recommendations now urge less cardiac testing. “Cardiac injury is not as common as we may have originally thought,” said Dr. Baggish.

“In the early days of COVID, people who were hospitalized had evidence of heart injury, and so we wondered if that prevalence would also be applicable to otherwise young, healthy people who got COVID. If that had been the case, we would have been in big trouble with respect to getting people back into sports. So this is why we started with a conservative screening approach and a lot of testing in order to not miss a huge burden of disease,” he said.

“But what we’ve learned over the past few months is that young people who get either asymptomatic or mild infection appear to have very, very low risk of having associated heart injury, so the need for testing in that population, when people who have infections recover fully, is almost certainly not going to be high yield,” Dr. Baggish said.
 

First iteration of the recommendations

Published in May in the early weeks of the pandemic, the first recommendations for safe return to play said that all athletes should stop training for at least 2 weeks after their symptoms resolve, then undergo “careful, clinical cardiovascular evaluation in combination with cardiac biomarkers and imaging.”

Additional testing with cardiac MRI, exercise testing, or ambulatory rhythm monitoring was to be done “based on the clinical course and initial testing.”

But experts caution that monitoring on such a scale in everyone is unnecessary and could even be counterproductive.

“Sending young athletes for extensive testing is not warranted and could send them to unnecessary testing, cardiac imaging, and so on,” Dr. Baggish said.

Only those athletes who continue to have symptoms or whose symptoms return when they get back to their athletic activities should go on for more screening.

“There, in essence, is the single main change from May, and that is a move away from screening with testing everyone, [and instead] confining that to the people who had moderate or greater severity disease,” he said.

Both iterations of the recommendations end with the same message.

“We are at the beginning of our knowledge about the cardiotoxic effects of COVID-19 but we are gathering evidence every day,” said Dr. Baggish. “Just as they did earlier, we acknowledge that our approaches are subject to change when we learn more about how COVID affects the heart, and specifically the hearts of athletes. This will be an ongoing process.”
 

Something to lean on

The recommendations are welcome, said James E. Udelson, MD, chief of the division of cardiology at Tufts Medical Center, Boston, coauthor of an accompanying editorial.

“It was a bit of the wild west out there, because each university, each college, all with good intentions, had been all struggling to figure out what to do, and how much to do. Probably the most important message from this new paper is the fact that now there is something out there that all coaches, athletes, families, schools, trainers can get some guidance from,” Dr. Udelson said in an interview.

Refining the cardiac screening criteria was a necessary step, Dr. Udelson said.

“How much cardiac imaging do you do? That is a matter of controversy,” said Dr. Udelson, who coauthored the commentary with Tufts cardiologist Ethan Rowin, MD, and Michael A. Curtis, MEd, a certified strength and conditioning specialist at the University of Virginia, Charlottesville. “The problem is that if you use a very sensitive imaging test on a lot of people, sometimes you find things that you really didn’t need to know about. They’re really not important. And now, the athlete is told he or she cannot play for 3 months because they might have myocarditis.

“Should we be too sensitive, meaning do we want to pick up anything no matter whether it’s important or not?” he added. “There will be a lot of false positives, and we are going to disqualify a lot of people. Or do you tune it a different way?”

Dr. Udelson said he would like to see commercial sports donate money to support research into the potential cardiotoxicity of COVID-19.

“If the organizations that benefit from these athletes, like the National Collegiate Athletic Association and professional sports leagues, can fund some of this research, that would be a huge help,” Dr. Udelson said.

“These are the top sports cardiologists in the country, and they have to start somewhere, and these are all based on what we know right now, as well as their own extensive experience. We all know that we are just at the beginning of our knowledge of this. But we have to have something to guide this huge community out there that is really thirsty for help.”

Dr. Baggish reports receiving research funding for the study of athletes in competitive sports from the National Heart, Lung, and Blood Institute; the National Football League Players Association; and the American Heart Association and receiving compensation for his role as team cardiologist from the US Olympic Committee/US Olympic Training Centers, US Soccer, US Rowing, the New England Patriots, the Boston Bruins, the New England Revolution, and Harvard University. Dr. Udelson has disclosed no relevant financial relationships.
 

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

Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.

Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.

The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.

These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.

The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.

The LBBB connection

In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.

The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).

The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.

The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
 

CRT-D ‘is mysterious,’ especially for non-LBBB patients

“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.

“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”

The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.

A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.

Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”

MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.

[email protected]

SOURCE: Thomas S et al. HFSA 2020, Abstract 019.

Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.

Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.

The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.

These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.

The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.

The LBBB connection

In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.

The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).

The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.

The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
 

CRT-D ‘is mysterious,’ especially for non-LBBB patients

“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.

“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”

The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.

A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.

Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”

MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.

[email protected]

SOURCE: Thomas S et al. HFSA 2020, Abstract 019.

Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.

Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.

The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.

These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.

The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.

The LBBB connection

In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.

The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).

The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.

The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
 

CRT-D ‘is mysterious,’ especially for non-LBBB patients

“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.

“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”

The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.

A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.

Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”

MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.

[email protected]

SOURCE: Thomas S et al. HFSA 2020, Abstract 019.

Safety measures for lab monitoring of mineralocorticoid receptor agonist therapy, performance measures for sacubitril/valsartan, cardiac resynchronization therapy and titration of medications, and quality measures based on patient-reported outcomes are among the updates the joint task force of the American College of Cardiology and the American Heart Association have made to performance and quality measures for managing adults with heart failure.

The revisions, published online Nov. 2 in the Journal of the American College of Cardiology, update the 2011 ACC/AHA heart failure measure set, writing committee vice chair Gregg C. Fonarow, MD, said in an interview. The 2011 measure set predates the 2015 approval of the angiotensin receptor neprilysin inhibitor (ARNI) sacubitril/valsartan for heart failure in adults.
 

Measures stress dosages, strength of evidence

“For the first time the heart failure performance measure sets also focus on not just the use of guideline-recommended medication at any dose, but on utilizing the doses that are evidence-based and guideline recommended so long as they are well tolerated,” said Dr. Fonarow, interim chief of cardiology at the University of California, Los Angeles. “The measure set now includes assessment of patients being treated with doses of medications at 50% or greater of target dose in the absence of contraindications or documented intolerance.”

The update includes seven new performance measures, two quality measures, and one structural measure. The performance measures come from the strongest recommendations – that is, a class of recommendation of 1 (strong) or 3 (no benefit or harmful, process to be avoided) – in the 2017 ACC/AHA/Heart Failure Society of American heart failure guideline update published in Circulation.

In addition to the 2017 update, the writing committee also reviewed existing performance measures. “Those management strategies, diagnostic testing, medications, and devices with the strongest evidence and highest level of guideline recommendations were further considered for inclusion in the performance measure set,” Dr. Fonarow said. “The measures went through extensive review by peer reviewers and approval from the organizations represented.”

Specifically, the update includes measures for monitoring serum potassium after starting mineralocorticoid receptor antagonists therapy, and cardiac resynchronization therapy for patients with heart failure with reduced ejection fraction already on guideline-directed therapy. “This therapy can significantly improve functional capacity and outcomes in appropriately selected patients,” Dr. Fonarow said.
 

New and retired measures

The update adds two performance measures for titration of medications based on dose, either reaching 50% of the recommended dose for a variety of medications, including ARNI, or documenting that the dose wasn’t tolerated for other reason for not using the dose.

The new structural measure calls for facility participation in a heart failure registry. The revised measure set now consists of 18 measures in all.

The update retired one measure from the 2011 set: left ventricular ejection fraction assessment for inpatients. The committee cited its use above 97% as the reason, but LVEF in outpatients remains a measure.

The following tree measures have been revised:

• Patient self-care education has moved from performance measure to quality measure because of concerns about the accuracy of self-care education documentation and limited evidence of improved outcomes with better documentation.
• ACE inhibitor or angiotensin receptor blocker therapy for left ventricular systolic dysfunction adds ARNI therapy to align with the 2017 ACC/AHA/HFSA update.
• Postdischarge appointments shifts from performance to quality measure and include a 7-day limit.

Measures future research should focus on, noted Dr. Fonarow, include the use of sodium glucose cotransporter 2 (SGLT2) inhibitors for heart failure, including in patients without diabetes. “Since the ACC/AHA heart failure guidelines had not yet been updated to recommend these therapies they could not be included in this performance measure set,” he said.

He also said “an urgent need” exists for further research into treatments for heart failure with preserved ejection fraction along with optimal implementation strategies.  

“If these ACC/AHA heart failure performance measures were applied in all settings in which patients with heart failure in the United States are being cared for, and optimal and equitable conformity with each of these measures were achieved, over 100,000 lives a year of patients with heart failure could be saved,” he said. “There’s in an urgent need to measure and improve heart failure care quality.”

Dr. Fonarow reported financial relationships with Abbott, Amgen, AstraZeneca, CHF Solutions, Janssen, Medtronic, Merck, and Novartis.

SOURCE: American College of Cardiology/American Heart Association Task Force on Performance Measures. J Am Coll Cardiol. 2020 Nov 2;76:2527-64.

Safety measures for lab monitoring of mineralocorticoid receptor agonist therapy, performance measures for sacubitril/valsartan, cardiac resynchronization therapy and titration of medications, and quality measures based on patient-reported outcomes are among the updates the joint task force of the American College of Cardiology and the American Heart Association have made to performance and quality measures for managing adults with heart failure.

The revisions, published online Nov. 2 in the Journal of the American College of Cardiology, update the 2011 ACC/AHA heart failure measure set, writing committee vice chair Gregg C. Fonarow, MD, said in an interview. The 2011 measure set predates the 2015 approval of the angiotensin receptor neprilysin inhibitor (ARNI) sacubitril/valsartan for heart failure in adults.
 

Measures stress dosages, strength of evidence

“For the first time the heart failure performance measure sets also focus on not just the use of guideline-recommended medication at any dose, but on utilizing the doses that are evidence-based and guideline recommended so long as they are well tolerated,” said Dr. Fonarow, interim chief of cardiology at the University of California, Los Angeles. “The measure set now includes assessment of patients being treated with doses of medications at 50% or greater of target dose in the absence of contraindications or documented intolerance.”

The update includes seven new performance measures, two quality measures, and one structural measure. The performance measures come from the strongest recommendations – that is, a class of recommendation of 1 (strong) or 3 (no benefit or harmful, process to be avoided) – in the 2017 ACC/AHA/Heart Failure Society of American heart failure guideline update published in Circulation.

In addition to the 2017 update, the writing committee also reviewed existing performance measures. “Those management strategies, diagnostic testing, medications, and devices with the strongest evidence and highest level of guideline recommendations were further considered for inclusion in the performance measure set,” Dr. Fonarow said. “The measures went through extensive review by peer reviewers and approval from the organizations represented.”

Specifically, the update includes measures for monitoring serum potassium after starting mineralocorticoid receptor antagonists therapy, and cardiac resynchronization therapy for patients with heart failure with reduced ejection fraction already on guideline-directed therapy. “This therapy can significantly improve functional capacity and outcomes in appropriately selected patients,” Dr. Fonarow said.
 

New and retired measures

The update adds two performance measures for titration of medications based on dose, either reaching 50% of the recommended dose for a variety of medications, including ARNI, or documenting that the dose wasn’t tolerated for other reason for not using the dose.

The new structural measure calls for facility participation in a heart failure registry. The revised measure set now consists of 18 measures in all.

The update retired one measure from the 2011 set: left ventricular ejection fraction assessment for inpatients. The committee cited its use above 97% as the reason, but LVEF in outpatients remains a measure.

The following tree measures have been revised:

• Patient self-care education has moved from performance measure to quality measure because of concerns about the accuracy of self-care education documentation and limited evidence of improved outcomes with better documentation.
• ACE inhibitor or angiotensin receptor blocker therapy for left ventricular systolic dysfunction adds ARNI therapy to align with the 2017 ACC/AHA/HFSA update.
• Postdischarge appointments shifts from performance to quality measure and include a 7-day limit.

Measures future research should focus on, noted Dr. Fonarow, include the use of sodium glucose cotransporter 2 (SGLT2) inhibitors for heart failure, including in patients without diabetes. “Since the ACC/AHA heart failure guidelines had not yet been updated to recommend these therapies they could not be included in this performance measure set,” he said.

He also said “an urgent need” exists for further research into treatments for heart failure with preserved ejection fraction along with optimal implementation strategies.  

“If these ACC/AHA heart failure performance measures were applied in all settings in which patients with heart failure in the United States are being cared for, and optimal and equitable conformity with each of these measures were achieved, over 100,000 lives a year of patients with heart failure could be saved,” he said. “There’s in an urgent need to measure and improve heart failure care quality.”

Dr. Fonarow reported financial relationships with Abbott, Amgen, AstraZeneca, CHF Solutions, Janssen, Medtronic, Merck, and Novartis.

SOURCE: American College of Cardiology/American Heart Association Task Force on Performance Measures. J Am Coll Cardiol. 2020 Nov 2;76:2527-64.

Safety measures for lab monitoring of mineralocorticoid receptor agonist therapy, performance measures for sacubitril/valsartan, cardiac resynchronization therapy and titration of medications, and quality measures based on patient-reported outcomes are among the updates the joint task force of the American College of Cardiology and the American Heart Association have made to performance and quality measures for managing adults with heart failure.

The revisions, published online Nov. 2 in the Journal of the American College of Cardiology, update the 2011 ACC/AHA heart failure measure set, writing committee vice chair Gregg C. Fonarow, MD, said in an interview. The 2011 measure set predates the 2015 approval of the angiotensin receptor neprilysin inhibitor (ARNI) sacubitril/valsartan for heart failure in adults.
 

Measures stress dosages, strength of evidence

“For the first time the heart failure performance measure sets also focus on not just the use of guideline-recommended medication at any dose, but on utilizing the doses that are evidence-based and guideline recommended so long as they are well tolerated,” said Dr. Fonarow, interim chief of cardiology at the University of California, Los Angeles. “The measure set now includes assessment of patients being treated with doses of medications at 50% or greater of target dose in the absence of contraindications or documented intolerance.”

The update includes seven new performance measures, two quality measures, and one structural measure. The performance measures come from the strongest recommendations – that is, a class of recommendation of 1 (strong) or 3 (no benefit or harmful, process to be avoided) – in the 2017 ACC/AHA/Heart Failure Society of American heart failure guideline update published in Circulation.

In addition to the 2017 update, the writing committee also reviewed existing performance measures. “Those management strategies, diagnostic testing, medications, and devices with the strongest evidence and highest level of guideline recommendations were further considered for inclusion in the performance measure set,” Dr. Fonarow said. “The measures went through extensive review by peer reviewers and approval from the organizations represented.”

Specifically, the update includes measures for monitoring serum potassium after starting mineralocorticoid receptor antagonists therapy, and cardiac resynchronization therapy for patients with heart failure with reduced ejection fraction already on guideline-directed therapy. “This therapy can significantly improve functional capacity and outcomes in appropriately selected patients,” Dr. Fonarow said.
 

New and retired measures

The update adds two performance measures for titration of medications based on dose, either reaching 50% of the recommended dose for a variety of medications, including ARNI, or documenting that the dose wasn’t tolerated for other reason for not using the dose.

The new structural measure calls for facility participation in a heart failure registry. The revised measure set now consists of 18 measures in all.

The update retired one measure from the 2011 set: left ventricular ejection fraction assessment for inpatients. The committee cited its use above 97% as the reason, but LVEF in outpatients remains a measure.

The following tree measures have been revised:

• Patient self-care education has moved from performance measure to quality measure because of concerns about the accuracy of self-care education documentation and limited evidence of improved outcomes with better documentation.
• ACE inhibitor or angiotensin receptor blocker therapy for left ventricular systolic dysfunction adds ARNI therapy to align with the 2017 ACC/AHA/HFSA update.
• Postdischarge appointments shifts from performance to quality measure and include a 7-day limit.

Measures future research should focus on, noted Dr. Fonarow, include the use of sodium glucose cotransporter 2 (SGLT2) inhibitors for heart failure, including in patients without diabetes. “Since the ACC/AHA heart failure guidelines had not yet been updated to recommend these therapies they could not be included in this performance measure set,” he said.

He also said “an urgent need” exists for further research into treatments for heart failure with preserved ejection fraction along with optimal implementation strategies.  

“If these ACC/AHA heart failure performance measures were applied in all settings in which patients with heart failure in the United States are being cared for, and optimal and equitable conformity with each of these measures were achieved, over 100,000 lives a year of patients with heart failure could be saved,” he said. “There’s in an urgent need to measure and improve heart failure care quality.”

Dr. Fonarow reported financial relationships with Abbott, Amgen, AstraZeneca, CHF Solutions, Janssen, Medtronic, Merck, and Novartis.

SOURCE: American College of Cardiology/American Heart Association Task Force on Performance Measures. J Am Coll Cardiol. 2020 Nov 2;76:2527-64.