Professor, Department of Human Biology and Nutritional Sciences, University of Guelph, Guelph, Ont. ON N1G 2W1

During the past few years, there has been an increase in both scientific and public interest in the role of omega-3 fatty acids found in fish and fish oils in the prevention and management of cardiovascular disease.

The omega-3 fatty acids that are of particular interest for cardiovascular care include EPA (eicosapentaenoic acid) and DHA (docosahexaenoic acid), which are found predominantly in fish and fish oils.1,2,3 The basis of this heightened interest in dietary intakes of EPA and DHA comes partly from epidemiological and population studies4 indicating that increased consumption of fish as a source of omega-3 fatty acids is often associated with decreased mortality (as well as morbidity) from cardiovascular disease.

Controlled-intervention trials in humans have indicated a favorable modifying effect of dietary fish oils on various risk factors for cardiovascular disease independent of their lowering of blood cholesterol.1,2,3

Dietary supplementation with encapsulated omega-3 fish oil concentrates has shown the potential to reduce both the progression of cardiovascular disease and related mortality, including sudden cardiac death.5,6

What Are Omega-3 Fatty Acids?

Omega-3 fatty acids are long-chain polyunsaturated fatty acids (18-22 carbon atoms in chain length) with the first of many double bonds beginning with the third carbon atom (when counting from the methyl end of the fatty acid molecule).

The fish-based and fish-oil-based omega-3 polyunsaturated fatty acids (also referred to as n-3 PUFA) consist of EPA (20 carbon atoms, 5 double bonds) and DHA (22 carbon atoms, 6 double bonds).

Whereas plant foods and vegetable oils lack EPA and DHA, some do contain varying amounts of the n-3 PUFA alpha-linolenic acid (ALA), which has 18 carbon atoms and 3 double bonds. Many vegetable oils are greatly enriched in omega-6 fatty acids (mainly as linoleic acid in corn, safflower, sunflower and soybean oils), but canola oil (nonhydrogenated), ground flaxseed and walnuts are rich sources of ALA.

The typical North American diet provides about 1-3 g of ALA per day but only 0.10-0.15 g of EPA plus DHA per day.7,8 The very high intake of n-6 PUFA, mostly as linoleic acid (LA) in our diet (12-15 g/day) from common vegetable oils (corn, safflower, soybean) and other sources.

Although high intakes of LA can provide some modest blood cholesterol lowering, experimental studies in animals have raised concerns regarding the enhancing effect of these high intakes on certain cancers.10 This association has not been established in human studies.11

Epidemiological Evidence For The Cardioprotective Effects Of EPA And DHA

It has long been recognized 12 that disease patterns for the Greenland Inuit, when compared with those for the population of Denmark, exhibit a significantly lower rate of death from acute myocardial infarction despite only moderate differences in blood cholesterol levels.

The high-fat traditional Inuit diet provides up to several grams of omega-3 fatty acid (EPA and DHA) daily in the form of marine mammals (seal, whale), wildfowl (seabirds) and various fish.12,13

Furthermore, the higher fish intakes of the Japanese population relative to that of North America have been associated with considerably lower rates of acute myocardial infarctions, other ischemic heart disease and atherosclerosis despite only moderately lower blood cholesterol levels in the Japanese population.1,14

Various studies have also indicated that long-term consumption of fish (up to 2-3 servings per week) appears to be associated with lower primary and secondary heart attack rates and death from cardiovascular disease.4,15,16

Fatty acid analyses of serum and plasma phospholipid, a biomarker for EPA and DHA intake and physiological status, have indicated that omega-3 fatty acids in general and DHA levels in particular are inversely correlated with coronary heart disease in men.17 Among the Inuit of Nunavik, progressive increases in levels of EPA and DHA in plasma phospholipid have been found both to reflect dietary intakes of these fatty acids and to be beneficially associated with key risk factors for cardiovascular disease.18

Possible Biochemical And Physiological Mechanisms Of Action For EPA And DHA

Increasing the intake of EPA and DHA results in a corresponding increase of these omega-3 fatty acids in tissue or cellular lipids and circulatory lipids1,18 along with a simultaneous reduction in the omega-6 fatty acids such as LA and arachidonic acid (AA).

The fatty acid shifts are particularly pronounced in the cell membrane-bound phospholipid components. These changed profiles alter the physicochemical properties of:

• Cell membranes and their functioning and
  
• Modify cell signaling,
  
• Gene expression and biosynthetic processes, and
  
• Eicosanoid formations

The eicosanoids formed via oxygenase enzymes acting on AA and EPA include prostaglandins, leukotrienes and thromboxanes.

The beneficial effects of omega-3 fatty acids on cardiovascular disease are mediated by both eicosanoid-dependent and eicosanoid-independent processes. For example, the reduced blood platelet reactivity (antithrombotic effect) observed with increased EPA and DHA intakes involves the reduced formation of the proaggregatory eicosanoid known as thromboxane A2 (TxA2).

Intervention Studies And Risk Factor Modification Using EPA And DHA

Intervention studies using fish oil concentrates that provide EPA and DHA at intakes of up to 2-4g/day over a few weeks1,2,3 have shown that these fatty acids can favorably lower various risk factors for cardiovascular disease (independent of any blood cholesterol-lowering effect). These effects include an antithrombotic effect, lipid (triglyceride) lowering, reduced blood and plasma viscosity, and improvements in endothelial dysfunction.1,2,3,19

Omega-3 fatty acids accumulate to a considerable extent in various sites including circulating blood platelets, the heart and serum phospholipid. The accumulation of EPA and DHA in platelets is associated with decreased platelet adhesiveness and aggregation and an overall reduction in thrombogenicity. Antiatherogenic effects of omega-3 fatty acids have also been shown in animal studies.

Lower Triglycerides

Human studies have revealed the potent ability of EPA and DHA to significantly reduce circulating levels of blood triglyceride,20 which is of interest because only moderate elevations in triglyceride have been associated with a progressively increased risk of ischemic heart disease.21

Within 2-3 weeks of EPA and DHA supplementation, significantly reduced blood triglyceride levels with an approximate reduction of 6%-8% (or more) per gram of EPA and DHA consumed are routinely observed. In a placebo-controlled, double-blind trial,22 a 26% lowering in fasting triglyceride levels in postmenopausal women receiving 4 g omega-3 (EPA and DHA) daily over 28 days was recently demonstrated.

Supplementation with omega-3 (EPA and DHA), as given in addition to statin therapy in patients with combined hyperlipidemia,23 was found to reduce levels of atherogenic lipoproteins while more effectively reducing the hemostatic risk profile.

The antiarrhythmic potential of EPA and DHA (upon accumulation in cardiac tissue) has been considered to be yet another important mechanism24 by which consumption of these fatty acids can reduce mortality related to cardiovascular disease (particularly sudden cardiac death). This last effect is considered to be exhibited at even lower intakes of omega-3 (EPA and DHA combined) of about 1 g/day.4

Because it appears that lower heart rate variability may be used to predict an increased risk of coronary heart disease,25 mortality and arrhythmic events, evidence that 4 g/day of EPA and DHA (about 1.5% of daily energy intake) may increase heart rate variability in survivors of myocardial infarction is of interest.26

Heart rate variability, a noninvasive marker of autonomic nervous system function, is reduced with sympathetic predominance and other factors (including reduced baroflex sensitivity) that may be favourably modified by omega-3 fatty acids. Dietary supplementation with fish oil enriched with EPA and DHA (up to 3-4 g omega-3/day) has also been reported to enhance systemic large-artery endothelial function as measured in male subjects with hyperlipidemia by ultrasonic vessel wall tracking.19

Consumption of EPA and DHA at levels approaching 2 g/day is similar to that seen in large sectors of the Japanese population and well below the intakes of the Greenland Inuit.

Intakes of about 3-4 g of EPA and DHA per day have resulted in a moderate increase in bleeding times that are generally lower than those seen with ASA therapy. Particular attention should be given to hemostatic factors in patients on high-dose EPA and DHA who are also receiving therapy that affects blood coagulation and thrombogenic factors. On rare occasions, mild bouts of diarrhea or other minor gastrointestinal disturbances are sometimes seen with the use of encapsulated fish oil supplementation.

What about ALA?

For those who do not consume fish, the omega-3 fatty acid known as ALA can be a dietary source of some metabolically derived EPA and DHA. Desaturation plus elongation reactions occur in the liver and elsewhere in the body and provide for the conversion of dietary ALA to EPA and DHA.

The conversion of ALA to EPA and DHA occurs to a low extent (about 10%-15% efficiency) in the adult human body.27 Nonetheless, there is evidence28 that the benefits of the Mediterranean-type diet after myocardial infarction may be partly caused by the higher intake of ALA (commonly found in nonhydrogenated canola oil, ground flaxseed and other selected ALA-enriched foods).

A prospective cohort study (Nurses Health Study) revealed an inverse relation between ALA intakes and the risk of fatal ischemic heart disease among women.29 However, the Zutphen Elderly Study30 did not observe a beneficial effect of dietary ALA on the 10-year risk of coronary artery disease.

The metabolic conversion of ALA to the longer chain omega-3 fatty acids (EPA and DHA) is thought to mediate any possible cardioprotective effects of dietary ALA. In contrast to the well-recognized serum triglyceride-lowering effect of EPA and DHA, most human intervention studies with ALA (e.g., using flaxseed oil) have not exhibited any lipid-lowering effects.

Whereas ALA (from flaxseed oil) at a relatively high dose has been found to improve arterial compliance,31 considerably lower supplementation levels of EPA and DHA improved arterial and endothelial functioning in subjects with hypercholesterolemia19 and subjects with type 2 diabetes mellitus.32

Clinical Trials With Fish Oil Supplements And "Hard" End Points

Recent studies have focused upon the potential for fish oil supplements (enriched with EPA and DHA) to modify clinical end points in patients with respect to coronary atherosclerosis and myocardial infarctions.

A European study of the effect of dietary omega-3 fatty acids on coronary atherosclerosis (measured via coronary angiography) in patients with cardiovascular disease using a randomized, double-blind, placebo-controlled trial has been reported.33 This study revealed that patients with coronary artery disease given omega-3 (EPA and DHA) therapy (at levels of about 1.5 g/day) over 2 years had moderately less progression and more regression of coronary artery disease (discernible, modest mitigation of atherosclerosis) than did patients on placebo.

Fewer clinical cardiovascular events (fatal and nonfatal myocardial infarctions, stroke) were noted in the omega-3 group. The omega-3 supplementation was considered safe and well tolerated.

Very recently, the 1999 GISSI-Prevenzione trial results have been reported from Italy.6 In this study, 11 324 patients who had experienced a myocardial infarction were assigned to supplemental interventions following the introduction of a Mediterranean-type diet (which included moderate fish consumption), as well as aggressive treatment with various pharmaceutical agents for cardiovascular care.

About half the patients received an encapsulated omega-3 fish oil supplementation (providing 850-882 mg/day EPA plus DHA). Over the subsequent interval (3.5 years), the individuals who received omega-3 supplements were found to exhibit a significant reduction in overall cardiovascular deaths and a reduction in sudden cardiac death of about 45%.

Vitamin E (-tocopherol) supplementation, which was also studied in this trial, was without significant effect in this regard. These findings support the concept that, independent of blood cholesterol lowering, EPA and DHA intakes (including supplementation) can favorably influence mortality related to cardiovascular disease (particularly sudden cardiac death) via various mechanisms including antiarrhythmic effects (Table 2).

Target Intakes Of EPA And DHA For Cardiovascular Health

The mean current daily intake of EPA and DHA combined in a typical North American diet (which includes about one fish serving every 10 days) approaches 130 mg/day, which is about 0.15% of total dietary fat intake.8

Most dietary EPA and DHA is consumed in the form of fish or seafood.

This dietary intake is markedly lower than Japanese intakes and only a small fraction of the EPA and DHA consumed by the Greenland and Nunavik Inuit. Fish consumed 2.5-3 times per week would provide a combined intake of about 500 mg EPA and DHA per day.

This intake is about 4 times that of current North American consumption rates. Epidemiological data from the Multiple Risk Factor Intervention Trial in the United States have indicated that progressively higher intakes of the fish-derived omega-3 fatty acids (up to about 665 mg/day) over 10.5 years were associated with a progressive reduction in mortality related to coronary heart disease, as well as total mortality with no associated increase in total cancer-related mortality.34

A recent review of the existing evidence indicated that an increase in the consumption of fish may contribute to lower colorectal cancer and breast cancer risks.35

In summary, there is evidence for the beneficial effect of regular fish consumption (up to 2-3 times/week) both in healthy subjects and in those at considerable risk for coronary artery disease or with established coronary artery disease.

Fried or processed fish containing partially hydrogenated fats ("trans" fatty acids) and salted or pickled fish, should be avoided. A National Institutes of Health workshop held in 1999 resulted in the recommendation of a combined average EPA and DHA intake of 650 mg/day for healthy adults.36

The newly released American Heart Association guidelines37 included the following recommendations with respect to omega-3 fatty acid supplements: "Consumption of 1 fatty fish meal per day (or alternatively, a fish oil supplement) could result in an omega-3 fatty acid intake (ie, EPA and DHA) of ~900mg/d, an amount shown to beneficially affect coronary heart disease mortality rates in patients with coronary disease." Current mean intakes (adults) of EPA and DHA (combined) are about 130 mg/d or 14%-20% of these target intakes of 650 mg/d and 900 mg/d.

Future Perspectives In Cardiovascular Care

Future nutrition labeling and health claims should provide both listings for the omega-3 fatty acids of interest (ALA, EPA and DHA) and evidence-based health claims for EPA and DHA related to lowering of blood triglyceride levels, heart health and so on.

Omega-3-enriched supplements (nutraceuticals) and functional foods (e.g., EPA- and DHA-enriched eggs and other food products) with effective quantities of EPA and DHA in various forms will become increasingly available as complementary options to fish.

Significant blood triglyceride lowering has been recently reported38 in subjects fed 1000 kJ/day (240 kcal/day, that is about 10% of total daily energy intake) of a commercial liquid scrambled egg-type product containing EPA and DHA. These and other such products will offer the possibility of an overall increase in the daily consumption of EPA and DHA, which are currently consumed only in moderate quantities in the form of fish and fish oil, thereby narrowing the current nutritional gap.

Clinicians and other health professionals will need to become fully educated about the evidence-based use of omega-3 fatty acids from fish oils (dose, duration, expected benefits, monitoring and so on) in the management of cardiovascular care. "Omega-3 therapeutics" will offer alternative as well as complementary options and strategies for the informed practitioner.

Treatment For The Patient

Returning to the case, the physician learns that the patient rarely eats fish. It would be reasonable to suggest to the patient that he increase his intake of fish to 3 servings per week. He should also be advised to consume fish that is broiled or baked, while avoiding breaded fish products or fish sticks, fish and chips, and heavily salted or pickled fish.

Depending upon the patient's preference, fish oil supplements (taken with meals) or functional food sources (e.g., liquid egg enriched in omega-3 PUFA) can serve as alternative dietary sources of the target 650-900 mg combined EPA and DHA average daily intake.

Canadian Medical Association Journal March 5, 2002 166:608-615

References

DR. MERCOLA'S COMMENT:

Omega three fats are essential to your health. You can certainly get them from cod liver oil or fish oil.

Please remember that nearly all fish are contaminated with mercury and should ideally be avoided. You will want to identify a clean source of fish oil.

If you already have significant sun exposure then you should not take cod liver oil as you will run the risk of overdosing on vitamin D.

You should then take fish oil capsules. The standard fish oil capsule is 180 mg of EPA and 120 mg of DHA. You should take approximately one capsule for every ten pounds of body weight, preferably in two divided doses.

So if you weigh 160 pounds you would take 8 capsules twice a day. If you have problems with belching them up, you will want to consider taking them on an empty stomach.

Cod liver oil has the benefit of providing you with vitamin D and A. A reasonable dose for cod liver oil is one teaspoon for every 30-40 pounds of body weight. If you use cod liver oil during your summer you will need to be careful of vitamin D toxicity and I suggest you review the information on vitamin D testing.

When you take fish oil supplements or cod liver oil in the doses I recommend please be sure and take an one vitamin E 400 unit supplement per day as this will help serve to protect the fat from oxidation. This is less of an issue with the cod liver oil as the vitamin D itself is a very potent anti-oxidant.

You will also need extra amounts of the "fourth and unforgotten" oil soluble vitamin, vitamin K. If you are juicing plenty of green vegetables and taking the cod liver oil or fish oil with the juice you should absorb the vitamin K in the vegetable juice. However, if you have osteoporosis or osteopenia, you will want to consider adding an extra 1000 mcg ( 1 mg ) of vitamin K per day.

Generally our diet contains far to much omega 6 fats. Experts looking at the dietary ratio of omega-6 to omega-3 fatty acids suggest that in early human history the ratio was about 1:1. Currently most Americans eat a dietary ratio that falls between 20:1 and 50:1. The optimal ratio is most likely closer to the original ratio of 1:1. For most of us this means greatly reducing the omega-6 fatty acids we consume and increasing the amount of omega-3 fatty acids.

Please recognize that we get ALL the omega-6 and omega-9 fat we need from food. We do NOT need to take any supplements for these fats. Many of the omega fat supplements you see in health food stores will only serve to worsen your health, not improve it as they contain omega 6 fats which will worsen your omega-6 to omega-3 ratio.

I strongly recommend avoiding sunflower, corn, soy, safflower, canola, or products that contain these oils. That is no hydrogenated or partially hydrogenated fats, no margarine, no vegetable oil, no shortening. These oils are chock full of omega-6 fats and will only worsen your omega 6:omega 3 ratio.

Acceptable oils will be a high quality extra virgin olive oil, coconut oil, avocados, and organic butter, or better yet grass-fed organic butter.

Another way to improve your omega 6:3 ratio is to change the type of meat you are eating. You could consume more game meat like venison, or other game animals that are raised exclusively on grass type foods. However, these are hard to find and generally more expensive than beef.

Since nearly all cattle are grain fed before slaughter, if you eat most traditionally raised beef, it will typically worsen you omega 6:omega 3 ratio.

Normally a good ratio for omega 6:3 in fish is 2 or 3 to 1. The lower the better. Grassfed beef from Grassfed Organics is much higher in Omega 3 than fish, with a 6:3 ratio of 0.16 to 1. This information is from a study done at Iowa State University in August 2001.

To get the necessary Omega-3 fatty acids, you should consider eating meat that is allowed to "free-range", or in the case of cattle, to be grass-fed. Unfortunately, you cannot buy this grass-fed beef at your local grocery store.

You must also be careful as many stores will advertise grass-fed beef but it really isn't. They do this as ALL cattle are grass fed, but the key is what they are fed the months prior to being processed.

Most all cattle are shipped to giant feed lots and fed corn to fatten them up. You will need to call the person who actually grew the beef, NOT the store manager, to find out the truth.

The least expensive way to obtain authentic grass fed beef would be to find a farmer who is growing the beef who you can trust and buy a half a side of beef from him. This way you save the shipping and also receive a reduced rate on the meat.

An inexpensive, yet effective way to determine if the meat is really from a grass fed animal is to purchase the ground beef. Slowly cook the beef till done and drain and collect all the fat. Grass fed beef is very high in omega-3 fats and will be relatively thin compared to traditionally prepared ground beef.

It will also be a liquid at room temperature as it has very few saturated fats which are mostly solid at room temperature.

However, most of us live in large urban areas and do not have the time for this process. Just as it would be ideal to have an organic garden and grow your own vegetables, most of us elect not to do that for time or space reasons.

I used to have an organic garden, but my schedule just would not allow me to have that luxury anymore. So, if you are convinced, like I am, that grass-fed beef is better for you and you would like the convenience of being able to order it over the Net, you can buy grass-fed beef online, shipped overnight to your door, at Grassfed Organics.

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