Omega-3 Supplements Are Safe

Why Do Clinical Studies Disagree? 

Author: Dr. Stephen Chaney 

Pendulum
Pendulum

Six weeks ago, the title of my “Health Tips From the Professor” article was, Are Omega-3 Supplements Safe?” That’s because I was reviewing a study that claimed long-term use of omega-3 supplements increased the risk of atrial fibrillation and stroke. And it had led to headlines like, “Omega-3 Supplements May Increase the Risk of Heart Disease” and “Fish Oil Supplements May Increase The Risk of Stroke and Heart Conditions”.

This week, the title of my article is, “Omega-3 Supplements Are Safe”. I did not choose this title to express my opinion, although I am in general agreement with the statement. I chose that title because the omega-3 pendulum has swung again. The article (M Javaid et al, Journal of The American Heart Association, Volume 13, Number 10: e032390, 2024) I am reviewing today came to the conclusion that omega-3 supplements don’t increase the risk of stroke.

I understand your confusion. You are wondering how scientists can tell you one thing today and the total opposite tomorrow. It is conflicting results like this that cause the public to lose faith in science. And when people lose faith in science they are easily influenced by “snake oil” charlatans on the internet.

So, after I describe this study, I will discuss why scientific studies come up with conflicting results and compare these two studies in detail. That is probably the most important part of this article.

How Was This Study Done?

clinical studyScientists from Freeman Hospital and Newcastle University in the UK conducted a meta-analysis combining the data from 120,643 patients enrolled in 11 clinical trials that evaluated the effects of omega-3 supplementation. The inclusion criteria for this meta-analysis were as follows:

  • The studies were randomized trials that compared omega-3 supplements with placebo or standard treatment. Half the patients received the omega-3 supplement.
  • The patients were either previously diagnosed with heart disease or were at high risk of developing heart disease.
  • The studies reported the incidence of bleeding events.

The study asked whether omega-3 supplementation increased the risk of bleeding events (defined as hemorrhagic stroke, intracranial bleeding, or gastrointestinal bleeding) compared to a placebo or standard treatment.

Omega-3 Supplements Are Safe

Omega-3s And Heart DiseaseThe results were reassuring for omega-3 supplement users. When compared to a placebo or standard treatment, omega-3 supplements.

  • Did not increase the risk of overall bleeding events.
  • Did not increase the risk of hemorrhagic stroke, intracranial bleeding, or gastrointestinal bleeding.
  • Did not increase the risk of bleeding in patients who were also taking blood thinners (Blood thinners reduce the ability of blood to clot and can lead to bleeding events. This study found that adding omega-3 supplements to these drugs did not increase bleeding risk.

But here is where it gets interesting. One of the 11 studies included in the meta-analysis used a high dose (4 grams/day) of Vascepa, a highly purified ethyl ester of EPA produced by the pharmaceutical company Amarin. When the authors analyzed the data from this study alone, they found that Vascepa:

  • Increased the relative risk of bleeding by 50% compared to the control group.
    • While this sounds scary, the absolute risk of bleeding was only increased by 0.6% compared to the control group.
    • I will explain the difference between relative risk and absolute risk below. But for now, you can think of absolute risk as a much more accurate estimate of your actual risk.

The authors of the meta-analysis speculated that the increased bleeding risk associated with the use of Vascepa could be due to the:

  • High dose of EPA (4 gm/day) or…
  • Lack of DHA and other naturally occurring omega-3s in the formulation. The authors said:
    • The effect of DHA on the endothelial lining is weaker than that of EPA (EPA makes the endothelial lining “less sticky” which reduces its ability to trigger blood clot formation. This is one of the mechanisms by which EPA is thought to decrease blood clot formation.)
    • The ability of DHA to inhibit oxidation of Apo-B-containing particles was less sustained than that of EPA (Oxidized Apo-B-containing particles increase the risk of blood clot formation. Inhibition of that oxidation by EPA is another of the mechanisms by which EPA is thought to decrease blood clot formation.)

The authors concluded, “Omega-3 PUFAs [polyunsaturated fatty acids] were not associated with increased bleeding risk. Patients receiving high-dose purified EPA [Vascepa] may incur additional bleeding risk, although its clinical significance is very modest.”

What Is The Difference Between Relative And Absolute Risk?

Question MarkRelative risk is best defined as the percentage increase or decrease in risk compared to the risk found in a control group. Absolute risk, on the other hand, is the actual increase or decrease in risk in the group receiving the intervention.

Relative risk is an excellent tool for identifying risks. However, it magnifies the extent of the risk, so it can be misleading. For example,

  • If the absolute risk of some event occurring in the general population was 40%, a 50% increase in relative risk would increase the absolute risk by 20% (40% X 0.5 = 20%) to give a total risk of 60% (40% + 20%). In this case, both the relative and absolute risk are significantly large numbers.
  • However, if the absolute risk in the general population was 1%, a 50% increase in relative risk would only increase the absolute risk to 1.5%, a 0.5% increase in absolute risk. In this case, the increase in relative risk appears significant, but it is misleading because the absolute increase in risk is a modest 0.5%.
  • The latter resembles the situation in this study when the authors compared bleeding events in patients receiving Vascepa to those receiving a placebo. The absolute risk of bleeding events in the control group was 1.2%. The risk of bleeding events in the Vascepa group was 1.8%. That is a 50% increase in relative risk but only a 0.6% increase in absolute risk.

Why Do Clinical Studies Disagree?

Confusion Clinical StudiesAs I have said many times before, there is no perfect clinical study. Every study has its strengths and its flaws. So, it is perhaps instructive to compare this study and the previous study I reviewed 6 weeks ago. Here are some of the questions I ask when evaluating the strengths and weaknesses of clinical studies.

#1: What kind of study is it?

  • The previous study was an association study. It can only report on associations. It cannot determine cause and effect. Outcomes like atrial fibrillation and strokes could have been caused by unrelated variables in the population studied.
  • The current study was a meta-analysis of 11 randomized controlled clinical trials. Because the only difference between the two groups is that one received omega-3 supplements, it can determine cause and effect.

#2: How many people were in the study?

  • Both studies were very large, so this was not a factor.

#3: How long was the study?

  • The previous study lasted 12 years. The clinical trials within this meta-analysis lasted one to five years. This is a slight advantage for the previous study because it might be better able to detect risks of chronic use of omega-3 supplements.

#4: How were participants selected?

  • Participants in the previous study had no previous diagnosis of heart disease while participants in the current study either had a previous diagnosis of heart disease or were at high risk of developing heart disease.

This difference would be relevant if both studies were looking at the benefits of omega-3 supplements. However, the current study was only looking at the side effects of omega-3 supplements, so this is not an important consideration.

Doctor With Patient#5: How was omega-3 intake monitored?

  • This was a significant flaw of the previous study. Use of omega-3 supplements was determined by a questionnaire administered when the subjects entered the study. No effort was made to determine whether the amount of omega-3s consumed remained constant during the 12-year study.
  • The clinical studies within the current meta-analysis were comparing intake of omega-3 supplements to placebo and monitored the use of the omega-3 supplements throughout the study.

#6: What is the dose-response?

  • This was another serious flaw of the previous study. There was no dose-response data.
  • The current study provided limited dose-response data. From the data they presented it appeared that the risk of bleeding events was only slightly dose-dependent except for the clinical study with the high dose (4 gm/day) EPA-only Vascepa drug. It was a clear outlier, which is why they analyzed the data from that study independently from the other studies.

#7: What outcomes were measured?

  • The only common outcome measured in the two studies was hemorrhagic stroke.
  • The previous study reported that omega-3 supplementation increased the risk of stroke by 5% in the general population. However:
    • That result just barely reached statistical significance.
    • It was a 5% increase in relative risk. The authors did not report absolute risk.
    • It was an association study, so it could not determine cause and effect.
  • The current study found omega-3 supplementation had no effect on the risk of stroke in a population that either had heart disease or were at high risk of heart disease.
    • The exception, of course, was the group taking the high dose Vascepa drug (see below).

Heart Disease Study#8: Was the risk clinically significant?

  • As I said above, the previous study only reported relative risk, which can be misleading. However, absolute risk can be calculated from their data. For example,
    • The risk of developing atrial fibrillation in the group taking omega-3 supplements was 4.4% (calculated from Table 2 of the manuscript). The authors said that represented a 13% increase in relative risk compared to the group not taking omega-3 supplements. This means the absolute (actual) increase in risk is about 0.6%.
    • The risk of stroke in the group taking omega-3 supplements was 1.5% (calculated from Table 2 of the manuscript). The authors said that represented a 5% increase in relative risk compared to the group not taking omega-3 supplements. This means the absolute (actual) increase in risk is about 0.08%.
  • In the current study the increased risk of stroke in the group taking the high-dose (4 gm/day) EPA-only Vascepa drug was 50% for relative risk, but only 0.6% for absolute risk.
    • The authors of the current study argued that, based on absolute risk, the risk of stroke for people taking Vascepa was “clinically insignificant”. I would argue the same is true for the results reported in the previous study and the headlines they generated.

#9: Who sponsored the study? 

  • The previous study was supported by the Bill and Melinda Gates Foundation, an organization that has no obvious interest in the outcome of the study.
  • The current study is sponsored by Amarin, the pharmaceutical company that manufactures and markets Vascepa.
    • However, to their credit, the authors made no effort to hide the negative data about Vascepa.
      • In fact, they highlighted the negative data, noted that the increased bleeding risk with Vascepa was different from the omega-3 supplements studied, and offered possible explanations for why a high potency, EPA-only supplement might increase the risk of bleeding more than a lower potency omega-3 supplement containing both EPA and DHA.
    • They did, however, choose to emphasize the 0.6% absolute increase in bleeding risk rather than the 50% relative increase in bleeding risk. However, as I noted above absolute risk is a more accurate way to report risk, especially when the risk in the control group is only 1.2%.

Perspective On This Comparison:

You may be tempted to conclude that the previous study was garbage. Before you do, let me provide some perspective.

  • The data for that study came from the UK Biobank, which is a long-term collection of data by the British government from over 500,000 residents in the United Kingdom. The data are made available to any researcher who wants to study links between genetic and environmental exposure to the development of disease. However, the data were not collected with any particular study in mind.

This is why omega-3 intake was only determined at the beginning of the study and there was no dose-response information included. The experimental design would have been different if the study were specifically designed to measure the influence of omega-3 supplementation on health outcomes. However, because of cost, the sample size would have been much smaller, which would have made it difficult to show any statistically significant results.

  • Relative risk rather than absolute risk is almost universally used to describe the results of clinical studies because it is a larger number and draws more attention. However, as I described above, relative risk can be misleading. In my opinion, both relative and absolute risk should be listed in every publication.

What Does This Study Mean For You?

ConfusionScientists know that every study has their flaws, so we don’t base our recommendations on one or two studies. Instead, we look at the totality of data before making recommendations. When looking at the totality of data two things stand out.

  • The bleeding risk with Vascepa is not unique. There are some studies suggesting that high dose (3-4 gm/day) omega-3 supplements containing both EPA and DHA may increase bleeding risk, although probably not to the same extent as Vascepa.
  • An optimal Omega-3 Index of 8% is associated with a decreased risk of heart disease and does not appear to increase the risk of atrial fibrillation or bleeding events such as hemorrhagic stroke. And for most people, an 8% Omega-3 Index can be achieved with only 1-2 gm/day of omega-3s.

So, my recommendations are the same as they were 6 weeks ago.

  • Be aware that high-dose (3-4 gm/day) of omega-3 supplements may cause an increased risk of atrial fibrillation and stroke, but the risk is extremely small.
  • Omega-3 supplementation in the 1-2 gm/day range appears to be both safe and effective.
  • I recommend getting your Omega-3 Index determined, and if it is low, increasing your omega-3 intake to get it into the 8% range.

The Bottom Line

A recent meta-analysis concluded that omega-3 supplementation does not increase the risk of bleeding events, including hemorrhagic stroke, intracranial bleeding, and gastrointestinal bleeding.

The exception was the high-dose (4 gm/day), EPA-only drug Vascepa, which increases bleeding risk from 1.2% to 1.8%, a 0.6% increase in absolute risk.

This study contradicts a previous study I shared with you only six weeks ago, so I made a detailed comparison of the strengths and weaknesses of each study.

For more details on these studies and what they mean for you, read the article above.

These statements have not been evaluated by the Food and Drug Administration. This information is not intended to diagnose, treat, cure or prevent any disease.

_____________________________________________________________________________

My posts and “Health Tips From the Professor” articles carefully avoid claims about any brand of supplement or manufacturer of supplements. However, I am often asked by representatives of supplement companies if they can share them with their customers.

My answer is, “Yes, as long as you share only the article without any additions or alterations. In particular, you should avoid adding any mention of your company or your company’s products. If you were to do that, you could be making what the FTC and FDA consider a “misleading health claim” that could result in legal action against you and the company you represent.

For more detail about FTC regulations for health claims, see this link.

https://www.ftc.gov/business-guidance/resources/health-products-compliance-guidance

_______________________________________________________________________

About The Author 

Dr. Chaney has a BS in Chemistry from Duke University and a PhD in Biochemistry from UCLA. He is Professor Emeritus from the University of North Carolina where he taught biochemistry and nutrition to medical and dental students for 40 years.

Dr. Chaney won numerous teaching awards at UNC, including the Academy of Educators “Excellence in Teaching Lifetime Achievement Award”.

Dr Chaney also ran an active cancer research program at UNC and published over 100 scientific articles and reviews in peer-reviewed scientific journals. In addition, he authored two chapters on nutrition in one of the leading biochemistry text books for medical students.

Since retiring from the University of North Carolina, he has been writing a weekly health blog called “Health Tips From the Professor”. He has also written two best-selling books, “Slaying the Food Myths” and “Slaying the Supplement Myths”. And most recently he has created an online lifestyle change course, “Create Your Personal Health Zone”. For more information visit https://chaneyhealth.com.

For the past 45 years Dr. Chaney and his wife Suzanne have been helping people improve their health holistically through a combination of good diet, exercise, weight control and appropriate supplementation.

Are Omega-3 Supplements Safe?

The Flaws And Blind Spots In This Study

Author: Dr. Stephen Chaney

Pendulum
Pendulum

Has the omega-3 pendulum swung again? The recent headlines are downright scary. For example:

  • “Fish Oil May Increase the Risk of Stroke and Heart Conditions.”
  • “Fish Oil Supplements May Cause Harm, Study Finds. Is It Time to Ditch Them?”
  • “Fish Oil Supplements May Lead to Heart Problems”.
  • “Regular Use of Fish Oil Supplements Might Increase, Rather Than Lessen, The Risk of First Time Heart Disease and Stroke Among Those in Good Cardiovascular Health.”

Yikes! That sounds bad. Should we be thinking about giving up our omega-3 supplements?

But wait. Just a few weeks earlier we were reading headlines about the benefits and lack of side effects from omega-3 supplements. That’s confusing. Which headlines are correct?

To answer these questions:

  • I will point out the flaws and blind spots in the study.
  • I will strip away the hyperbole and put the headlines into perspective.

How Was The Study Done?

clinical studyThe investigators made use of data from the UK Biobank Study. The UK Biobank Study is a large, long-term study in the United Kingdom which was designed to investigate the contributions of genetic predisposition and environmental exposure [including diet and supplementation] to the development of disease.

The UK Biobank Study enrolled 502,461 participants, aged 40-69 years, between January 1st, 2006 and December 31st, 2010. Participants were followed from entry into the program until March 31st 2021, an average of 11.9 years.

The current study excluded any participants who had a diagnosis of atrial fibrillation, heart failure, heart attack, stroke, or cancer at entry into the study, leaving 415,737 participants.

The participants were:

  • 55% women.
  • Average age of 56 years, with 83.4% of them below 65 years old at entry into the study.
  • 94.5% white.

The study was designed in a unique manner, in that it was designed to test the effect of omega-3 supplements on 6 specific transitions:

  • Primary prevention. This measured the transition of healthy (no diagnosed heart disease) people to either atrial fibrillation, major cardiovascular events, or death.
  • Secondary prevention. This measured the transition from atrial fibrillation to either major cardiovascular events or death.
  • Tertiary prevention. This measured the transition from major cardiovascular events to death.
  • Major cardiovascular events were further broken down to heart attacks, stroke and heart failure.

Participants were asked whether they used fish oil supplements when they entered the study and were categorized as either regular users or non-users. [Note: The users were not asked the dose or brand of fish oil supplements they used.]

Deaths were obtained from the national death registry and disease diagnosis from the National Health Service.

Are Omega-3 Supplements Safe?

omega-3 fish oil supplementHere is what the study found.

Primary Prevention – For healthy individuals (defined as having no diagnosed heart disease) using omega-3 supplements for an average of 11.9 years:

  • Increased the risk of atrial fibrillation by 13%.
  • Did not affect the risk of major cardiovascular events and death were unaffected by omega-3 supplementation.
  • When major cardiovascular events were broken down to their component parts, omega-3 supplementation:
    • Decreased the risk of heart failure by 8%.
    • Increased the risk of stroke by 5% (this was just barely statistically significance).
    • Did not affect the risk of heart attack.

Secondary Prevention – For individuals with atrial fibrillation omega-3 supplementation:

  • Decreased the risk of major cardiovascular events by 9%.
  • Decreased the risk of death by 8%.
  • When major cardiovascular events were broken down into their component parts, omega-3 supplementation:
  • Decreased the risk of heart attacks by 15%.
  • Had no effect on the risk of stroke or heart failure.

Tertiary Prevention – For people who suffered major cardiovascular events during the study omega-3 thumbs upsupplementation:

  • Decreased the risk of death by 8%.

Since this is a very complex set of data, I have coded positive results in green and negative results in red.

And as if these complexities were not enough, when the investigators broke these effects down by population groups:

  • Omega-3 supplementation decreased the transition from healthy to death for men (7% decrease) and participants older than 65 (9% decrease).

I will discuss the significance of these observations below.

The authors concluded, “Regular use of fish oil supplements might be a risk factor for atrial fibrillation and stroke among the general population but could be beneficial for [reducing] progression of cardiovascular disease from atrial fibrillation to major adverse cardiovascular events, and from atrial fibrillation to death.”

In short, they were suggesting that omega-3 supplements should be avoided by the general population because they have no positive benefits and might increase the risk of atrial fibrillation and stroke. But omega-3 supplements may be useful for those who already have heart disease.

Some of the articles you may have read about the study repeated this message. Others just emphasized the negative aspects of the study.

But is this message accurate? Let me start by discussing the flaws, blind spots, and hidden data in this study. Then I will summarize the 3 key findings of the study and tell you what they mean for you.

The Flaws, Blind Spots, And Hidden Data In This Study

flawsFlaws: As I said above, there were two major flaws in the study.

Flaw #1: The study did not identify the dose of supplement used. This is important because the increased risk of atrial fibrillation and stroke is primarily seen in clinical trials using high dose omega-3 supplements.

Flaw #2: This was an association study which cannot prove cause and effect. However, the authors of this study reported it as showing that omega-3 supplement use caused atrial fibrillation and stroke – and all the news reports on the study have repeated that claim.

Flaw #3: Other experts have pointed out that the authors inflated the risks associated with omega-3 supplementation by reporting relative risk rather than absolute risk. Let me try to simplify the distinction.

The risk of atrial fibrillation was 4.24% in the non-supplement users and 4.80% in the omega-3 supplement users. That is an absolute increase in risk of 0.56% (4.80% – 4.24%). This is the increase in risk you actually experience. In contrast, 4.80% is 13% greater than 4.24%, which is how relative risk is calculated.

In response to the questions you are probably thinking:

  • Yes, this is a perfect example of the Mark Twain quote, “There are lies. There are damn lies. And then there are statistics.”
  • Yes, all the percentages reported in this study are based on relative risk and are, therefore, inflated. However, I do not have access to their data, so I cannot tell you the absolute risk associated with their other observations.

Blind Spots: In their paper the investigators recommended against the use of omega-3 supplements to prevent heart disease because their data showed:

  • No benefit of omega-3 supplementation for preventing major cardiovascular events and deaths in a healthy population.
  • But did suggest an increased risk of atrial fibrillation and stroke in that same population.

However, their blind spot was in underestimating the difficulty of showing the benefit of any intervention in a healthy population. The example I always use is statin drugs. Statin Drugs:

  • Dramatically reduce the risk of a second heart attack and/or death in people who have already had a heart attack.
  • Reduce the risk of heart attacks in people who are at high risk of heart attacks.
  • Cannot be shown to reduce the risk of heart attacks in a healthy population.

This study suggests that omega-3 supplements are no different. In this study, omega-3 supplements:

  • Reduced the risk of death in people who had already experienced a major cardiovascular event like a heart attack or stroke.
  • Reduced the risk of major cardiovascular events and death in people with atrial fibrillation, which puts them at high risk for a heart attack or stroke.
  • Could not be shown to reduce the risk of major cardiovascular events or deaths in a healthy population.

Hidden Data: There are some important data that were buried in the text and supplemental figures but were Skepticignored in the concluding remarks of this study and all the articles written about it. For example:

  • The original study and all articles written about the study reported that omega-3 supplementation increased the risk of stroke in otherwise healthy individuals but ignored the observation that omega-3 supplementation decreased the risk of heart failure in that same group.

The second example of hidden data likely represents another blind spot of the authors. They concluded that omega-3 supplementation had no benefit for healthy individuals without asking whether omega-3 supplements might benefit higher-risk subpopulations within this group. To help you understand this statement let me start by giving you some perspective.

As I said above, statin drugs cannot be shown to reduce the risk of heart attacks in a healthy population. But when you include people at high risk of heart disease with healthy people in the dataset, you start to see a reduced risk of heart attacks.

Similarly, with supplements you often see no benefits with the general population, which is what is usually reported in the media. But when you look at higher risk groups within that population, the benefits of supplementation emerge.

This study is no different:

  • For healthy individuals, omega-3 supplementation had no effect on deaths during the 12-year follow-up period.
  • However, omega-3 supplementation reduced the risk of death by 9% for both men and people ≥ 65. These represent two groups with elevated risk of heart disease within the otherwise healthy population.
  • Once again, these data were completely ignored.

What Does This Study Mean For You?

This study made 3 major points:

Point #1: Let me start with the one you’ve heard the most about. The risk of atrial fibrillation and stroke associated with omega-3 supplementation is real. We should not ignore it.

But what this study and most of the reports on the study didn’t tell you is that the risk is dose dependent. The risk is primarily seen with high doses of omega-3s. While no one has done a comprehensive dose response analysis, I can tell you that these side effects are:

  • Seldom reported in clinical studies at doses of 1 gm/day or less.
  • Sometimes reported in clinical studies at doses of ≥2 gm/day.
  • Frequently reported in clinical studies at doses of ≥4 gm/day.

However, atrial fibrillation and stroke occur in a very small percentage of omega-3 users, even at 4 gm/day. At this point we have no idea why some people are susceptible to these side effects and others are not. More research in this area is clearly needed.

Until we know more about who is at risk, my recommendation for people who are trying to reduce the risk of heart disease is to rely on something called the Omega-3 Index to determine your individual omega-3 needs rather than using high-dose omega-3 supplements.

  • The Omega-3 Index measures the amount of omega-3 fatty acids in your tissues. It is determined by the amount of omega-3s you consume and how you metabolize them, so it is individualized to you.
  • An Omega-3 Index of 4% is associated with a high risk of heart disease, while an Omega-3 Index of 8% is associated with a low risk of heart disease. There is no evidence that more than 8% provides additional benefit.
  • Most importantly, it only takes 1-1.6 gm/day of omega-3s to raise your Omega-3 Index from 4% to 8%. At these doses your risk of atrial fibrillation and stroke is extremely small.

For example, a recent meta-analysis of 29 studies with a total of 183,292 participants reported that people with an 8% Omega-3 Index had:

  • Decreased risk of ischemic stroke (stroke due to blood clots) with no detectable increased risk of hemorrhagic stroke (stroke due to bleeding), and…
  • No detectable increased risk of atrial fibrillation.

I recommend getting your Omega-3 Index determined, and if it is low, increasing your omega-3 intake to get it into the 8% range. Some people go from 4% to 8% more rapidly than others, so you may need to repeat the test several times to optimize your Omega-3 Index.

If your health professional doesn’t have access to the Omega-3 Index test, you can order it from https://omegaquant.com (I have no financial stake in this company, but I know it as a reputable source of the Omega-3 Index test).

Does The Professor Plan To Reduce His Intake Of Omega-3 Fatty Acids? Three weeks ago, I shared thatprofessor owl my wife and I have been taking around 3 gm/day of omega-3 supplements for the past 40 years. Now that the association of atrial fibrillation and stroke with high dose omega-3 intake has been firmly established, some of you may be wondering whether we plan to decrease our intake of omega-3 supplements.

The answer is, “No”. Remember that the increased risk of atrial fibrillation and stroke is only seen for a small subset of people taking high-dose omega-3 supplements. If we were part of that subset, we would likely have experienced one of those side effects by now.

However, if you are considering omega-3 supplementation for the first time, you don’t know whether you are part of that subset or not. So, my advice remains the same. Rely on optimizing your Omega-3 Index rather than high-dose omega-3 supplementation.

Point #2: Healthy individuals (those with no symptoms of heart disease) do not benefit from omega-3 supplementation. As I pointed out above, this ignores data from their study, namely.

  • Omega-3 supplementation reduced the risk of heart failure in healthy subjects.
  • Omega-3 supplementation reduced the risk of death in higher risk groups within the healthy population (namely men and people 65 and older).

Confusion Clinical StudiesAs I discussed above, this is a pattern seen with statin drugs and most nutritional supplements. Simply put, you can’t show any benefit of statin drugs or most nutritional supplements in a “healthy” population, but you can show benefit when you focus on higher risk individuals within the “healthy” population.

The problem, of course, is that most of us don’t really know whether we are “healthy” or not. For millions of Americans the first indication that they are at risk from heart disease is sudden death from a heart attack or stroke.

With that in mind, I will leave the decision about whether you want to supplement with omega-3s up to you. But if you decide to supplement, I recommend you optimize your Omega-3 Index rather than using a high dose omega-3 supplement.

Point #3: People with heart disease benefit from omega-3 supplementation. This recommendation is becoming non-controversial, so I won’t comment further other than to say high dose omega-3 supplements are probably not needed unless prescribed by your health professional.

The Bottom Line

You have been asking me about recent headlines saying that omega-3 supplements may increase rather than decrease the risk of heart disease. So, I analyzed the study behind the headlines. The study makes 3 claims:

  • Omega-3 supplements increase the risk of atrial fibrillation and stroke when taken by healthy people.
  • Omega-3 supplements are of no benefit for healthy individuals.
  • Omega-3 supplements are beneficial for people who have heart disease.

In the article above I review the flaws, blind spots, and hidden data in the article and discuss what it means for you.

For more details about this study and what it means for you read the article above.

These statements have not been evaluated by the Food and Drug Administration. This information is not intended to diagnose, treat, cure, or prevent any disease.

 ______________________________________________________________________________

My posts and “Health Tips From the Professor” articles carefully avoid claims about any brand of supplement or manufacturer of supplements. However, I am often asked by representatives of supplement companies if they can share them with their customers.

My answer is, “Yes, as long as you share only the article without any additions or alterations. In particular, you should avoid adding any mention of your company or your company’s products. If you were to do that, you could be making what the FTC and FDA consider a “misleading health claim” that could result in legal action against you and the company you represent.

For more detail about FTC regulations for health claims, see this link.

https://www.ftc.gov/business-guidance/resources/health-products-compliance-guidance

 _______________________________________________________________________

About The Author 

Dr. Chaney has a BS in Chemistry from Duke University and a PhD in Biochemistry from UCLA. He is Professor Emeritus from the University of North Carolina where he taught biochemistry and nutrition to medical and dental students for 40 years.  Dr. Chaney won numerous teaching awards at UNC, including the Academy of Educators “Excellence in Teaching Lifetime Achievement Award”. Dr Chaney also ran an active cancer research program at UNC and published over 100 scientific articles and reviews in peer-reviewed scientific journals. In addition, he authored two chapters on nutrition in one of the leading biochemistry text books for medical students.

Since retiring from the University of North Carolina, he has been writing a weekly health blog called “Health Tips From the Professor”. He has also written two best-selling books, “Slaying the Food Myths” and “Slaying the Supplement Myths”. And most recently he has created an online lifestyle change course, “Create Your Personal Health Zone”. For more information visit https://chaneyhealth.com.

For the past 45 years Dr. Chaney and his wife Suzanne have been helping people improve their health holistically through a combination of good diet, exercise, weight control and appropriate supplementation.

Health Tips From The Professor