High-Dose Marine Omega-3s Raise Risk for Atrial Fibrillation

High-Dose Marine Omega-3s Raise Risk for Atrial Fibrillation

Medscape
JoAnn E. Manson, MD, DrPH
November 17, 2021
This transcript has been edited for clarity.

omega-3

Hello. This is Dr JoAnn Manson, professor of medicine at Harvard Medical School and Brigham and Women’s Hospital.

I’d like to talk with you about a recent report in Circulation: a meta-analysis of randomized clinical trials of the marine omega-3 fatty acids and risk for atrial fibrillation (AF).

The report was led by Dr Baris Spencer from Geneva, Switzerland, and by Dr Christine Albert at Cedars-Sinai Medical Center.

I’d like to acknowledge that I was also a co-author of this report and that it included the vitamin D and omega-3 trial VITAL, of which I am a principal investigator, and Dr Christine Albert is the principal investigator of the ancillary study, Vital Rhythm, which included AF endpoints.

This meta-analysis included seven large-scale randomized clinical trials of the marine omega-3s and where they had ascertained AF endpoints. Four of the trials were testing relatively low doses of the marine omega-3s (< 1 g/day), and three of the trials tested high-dose omega-3s (> 1 g/day). In the lower-dose category were the VITAL trial, the GISSI heart failure trial, and the ASCEND trials. The higher-dose category included the REDUCE-IT and STRENGTH trials.

These seven trials, which included more than 81,000 participants, found that the risk for AF was elevated with the omega-3s, with a hazard ratio of 1.25. That was strongly statistically significant, but there was also evidence of a dose response.

The trials had tested lower doses (< 1 g/day) and, individually, they did not show a significant increase in AF. In aggregate, however, there was a 12% increase in AF risk.

In the high-dose (> 1 g/day) trials, there was a 49%-50% risk.

In a dose-response gradient analysis, for each 1 g increase in the dose of the omega 3s, there was an 11% increase in the risk for AF — a strongly significant interaction.

Overall, there was evidence that higher doses of omega-3s were associated with an increased risk for AF and that the omega-3s conferred elevated risk for AF.

It’s also true that meta-analyses suggest that the higher doses of omega-3s are associated with a lower risk for total cardiovascular events, and that there is a dose response there as well. A recent meta-analysis suggested that there is about a 9% reduction in risk for major cardiovascular events with every 1 g increase in the dose of omega-3s.

However, it’s interesting that the meta-analysis of the omega-3s have generally not suggested a benefit for stroke, except for the REDUCE-IT trial, which did show a substantial reduction in stroke. And the question arises as to whether this increased risk for AF with omega-3s may be contributing to the absence of stroke benefit because of the link between AF and stroke; this might be a particularly relevant issue for women who have a higher risk for stroke and stroke mortality related to AF.

These findings suggest that when patients are prescribed omega-3s, especially higher doses, there should be a discussion with the patient about the potential risk for AF, and it should be factored into the benefit-risk equation. Many patients will continue to be very good candidates for treatment, nonetheless.

About 8% of the general US population who are taking over-the-counter omega-3 fish oil supplements, and they should be informed about the potential relationship between high-dose omega-3s and risk for AF.

We need much more research on the association between the omega-3s and AF, how it might vary by formulation of omega-3s or dose, and how it fits into the overall benefit risk ratio of omega-3 supplementation.

Thank you so much for your attention. This is JoAnn Manson.