Higher levels of the omega-3 fatty acid eicosapentaenoic acid (EPA) found in the blood–and not a decrease in triglyceride levels as originally thought–appear to explain the striking reductions in cardiovascular events and deaths seen among people taking 4 grams daily of the prescription fish oil, icosapent ethyl, according to findings from a REDUCE-IT substudy presented at the American College of Cardiology’s Annual Scientific Session Together with World Congress of Cardiology (ACC.20/WCC).
“A major missing piece of the puzzle, and what many clinicians want to know, is how icosapent ethyl actually works to produce such dramatic cardiovascular risk lowering,” said Deepak L. Bhatt, MD, MPH, executive director of interventional cardiovascular programs at Brigham and Women’s Hospital, professor of medicine at Harvard Medical School and lead author of the current study. “On-treatment EPA levels achieved via the drug strongly correlated with lower rates of cardiovascular events, heart attack, stroke, coronary revascularization procedures, unstable angina, sudden cardiac arrest, new heart failure, or death for any reason.”
REDUCE-IT enrolled 8,179 patients at 473 sites in 11 countries who had elevated cardiovascular risk and were already being treated with statins. The trial found that taking a high dose of icosapent ethyl cut the combined rate of first and subsequent nonfatal heart attacks, strokes, cardiovascular deaths, procedures for coronary artery disease such as stenting, or hospitalizations for unstable angina by 25% and 30%, respectively, over a median of 4.9 years of follow-up. Most patients in the trial were already on antiplatelet therapy, ACE-inhibitors/ARBs, beta blockers, aspirin and statins, which, researchers said, provided reassurance that icosapent ethyl, by itself, offered separate and incremental benefit.
Prior to REDUCE-IT, icosapent ethyl was approved by the U.S. Food and Drug Administration (FDA) for people with triglycerides above 500 mg/dL, so Bhatt said many people understandably thought the study drug reduced cardiovascular events primarily by lowering triglycerides. However, Bhatt said the current study, which looked at the association between blood serum levels of EPA achieved on icosapent ethyl and cardiovascular outcomes, found the lion’s share of the drug’s remarkably large cardiovascular benefit is driven by achieved EPA levels.
“Changes in triglycerides levels and other cardiovascular risk markers, including LDL, HDL, apoB and CRP, appear to be responsible for a significantly lesser portion of the overall observed benefit,” he said. “I think this finding is going to usher in a whole new era of cardiovascular therapies. We are, in a sense, where we were with statins when the first one came out.”
As part of the analysis, Bhatt and his team first looked at EPA levels prior to randomization to determine whether the drug worked differently based on a person’s initial baseline EPA level, which may reflect a diet high in fish consumption or genetics. But they found that regardless of patients’ initial serum EPA levels, they derived a similar and large degree of cardiovascular benefit. Data on baseline EPA were missing for 14% patients, but the baseline characteristics and outcomes were similar between patients with and without missing data.
The researchers then examined achieved EPA levels on the drug compared with placebo, grouping patients into thirds, or tertiles, ranging from the lowest to highest levels of EPA and averaged across visits. Achieved EPA within the icosapent ethyl group was strongly associated with cardiovascular events, and each of the tertiles showed a significant relative risk reduction in cardiovascular events.
They examined on-treatment EPA levels from lowest to highest and found significant associations with all measured cardiovascular outcomes. “The higher the EPA level in their blood, the lower the rates of the different cardiovascular events, cardiovascular deaths and even total mortality,” Bhatt said.
Overall, the drug significantly increased serum EPA levels by 386% from baseline to one-year compared with placebo. Levels of docosahexaenoic acid (DHA), which is another omega-3 fatty acid also found in oily fish like salmon, decreased by 2.9%, which Bhatt said suggests the cardiovascular benefits are clearly from EPA and not DHA.
Researchers also examined the relationship between on-treatment EPA levels and several other cardiovascular outcomes, though analyses for bleeding and atrial fibrillation were not yet available. While there were no significant reductions in heart failure in REDUCE-IT, among patients with the highest on-treatment EPA levels, there was a significant reduction in hospitalizations for new heart failure with the drug versus placebo, which Bhatt said is quite remarkable. There were also significant associations between on-treatment EPA levels and lower risks of sudden cardiac death and cardiac arrest, further validating what was seen in the overall trial.
Experts don’t know why some people are able to achieve higher serum EPA levels and others are not. Bhatt and his team accounted for whether patients took the drug, but there may be other influencing factors, such as how someone metabolizes EPA, their body size or their genetics–this needs further study.
Bhatt said the EPA levels attained on the drug are well beyond what can be achieved with diet or dietary supplements. He said that the study drug is a unique prescription medicine and that the results do not apply to other omega-3 products or to dietary supplement formulations, which are not approved or strictly regulated by the FDA and which, per the FDA, have not demonstrated reliable or consistent cardiovascular risk reduction.
Based on the data from REDUCE-IT, the FDA in December 2019 expanded the icosapent ethyl label to be used as an add-on to maximally tolerated statin therapy to help reduce the risk of heart attack, stroke, coronary revascularization and unstable angina requiring hospitalization in adult patients with triglyceride levels ?150 mg/dL and either established cardiovascular disease or diabetes mellitus plus two or more additional risk factors for cardiovascular disease. Based on this, Bhatt said icosapent ethyl stands to benefit over 12 million patients in the U.S. alone.
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REDUCE-IT was sponsored by Amarin. Brigham and Women’s Hospital receives research funding from Amarin for the work Bhatt did as the trial chair and as the international principal investigator.
ACC.20/WCC will take place March 28-30, bringing together cardiologists and cardiovascular specialists from around the world to share the newest discoveries in treatment and prevention. Follow @ACCinTouch, @ACCMediaCenter and #ACC20/#WCCardio for the latest news from the meeting.
The American College of Cardiology envisions a world where innovation and knowledge optimize cardiovascular care and outcomes. As the professional home for the entire cardiovascular care team, the mission of the College and its 54,000 members is to transform cardiovascular care and to improve heart health. The ACC bestows credentials upon cardiovascular professionals who meet stringent qualifications and leads in the formation of health policy, standards and guidelines. The College also provides professional medical education, disseminates cardiovascular research through its world-renowned JACC Journals, operates national registries to measure and improve care and offers cardiovascular accreditation to hospitals and institutions. For more, visit acc.org.