Fish Oil Containing Omega-3 Acids

Fish Oil Containing Omega-3 Acids Uses, Dosage, Side Effects, Food Interaction and all others data.

Fish Oil Containing Omega-3 Acids is a component of SMOFLIPID, which was FDA approved in July 2016. It is indicated in adults as a source of calories and essential fatty acids for parenteral nutrition when oral or enteral nutrition is not possible, insufficient, or contraindicated.

More commonly, fish oil refers to the omega-3-fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) . In general, dietary or pharmaceutical intake of these acids is primarily the only way to increase their levels in the human body where they are overall an essential element to dietary health as they have demonstrated abilities in minimizing or preventing hypertriglyceridemia when taken as an adjunct to a healthy diet .

Such fish oils are available in both non-prescription and prescription-only varieties at different concentrations. For many individuals, taking non-prescription fish oils as part of their multivitamin regimen is an effective way to supplement their diets with the healthy fatty acids. However, prescription-only fish oil products are sometimes prescribed for individuals who demonstrate severe (>= 500 mg/dL) hypertriglyceridemia .

Trade Name Fish Oil Containing Omega-3 Acids
Generic Fish oil
Fish oil Other Names Fish oil containing omega-3 acids, Fish oils, Omega-3 fish oil
Type
Protein binding

It has been observed that the majority of EPA present in plasma is bound to plasma protein .

Groups Approved, Nutraceutical
Therapeutic Class
Manufacturer
Available Country
Last Updated: September 19, 2023 at 7:00 am
Fish Oil Containing Omega-3 Acids
Fish Oil Containing Omega-3 Acids

Uses

Fish Oil Containing Omega-3 Acids is a source of essential fatty acids used as a source of calories in parenteral nutrition and as a dietary supplement.

Under FDA approval, fish oil pharmaceuticals are typically products consisting of a combination of the omega-3-fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) and are indicated primarily as an adjunct to diet to reduce triglyceride levels in adult patients with severe (>=500 mg/dL) hypertriglyceridemia .

Under EMA approval, such fish oil pharmaceuticals comprised of virtually the same fish and fish oil derived omega-3-fatty acids EPA and DHA are indicated specifically for (a) adjuvant treatment in secondary prevention after myocardial infarction, in addition to other standard therapy (ie. statins, antiplatelet medicinal products, beta blockers, ACE inhibitors), and (b) as a supplement to diet when dietary measures alone are insufficient to produce an adequate response, particularly with type IV hypertriglyceridemia in monotherapy or type IIb/III in combination with statins, when control of triglycerides is insufficient . In addition, prescribing information for EMA approved fish oil pharmaceuticals are also indicated as an adjunct to diet to reduce very high (>=500 mg/dL) triglyceride levels in adult patients, much like similar FDA approved indications .

Fish Oil Containing Omega-3 Acids is also used to associated treatment for these conditions: Dietary and Nutritional Therapies, Nutritional supplementation, Parenteral Nutrition

How Fish Oil Containing Omega-3 Acids works

The specific mechanism of action by which the fish oil EPA and DHA acids are capable of reducing serum triglyceride levels is not yet fully understood . Nevertheless, it is proposed that such omega-3-fatty acids may not be the preferred substrates of the enzyme diacylglycerol O-acyltransferase that participates in the generation of triglycerides; that they might interact with nuclear transcription factors that manage lipogenesis; or that their presence and increase in levels can cause cellular metabolism to subsequently shift toward a decrease in triglyceride synthesis and an increase in fatty acid oxidation . Moreover, the EPA and DHA acids are also believed to be able to promote apolipoprotein B degradation in the liver through the stimulation of an autophagic process . It may also be possible that these fish oil acids can accelerate the clearance of very-low-density lipoprotein (VLDL) particles and chylomicron . The combination of all these actions results in fewer VLDL particles being assembled and secreted, which is of considerable importance as VLDL particles are the major endogenous source of triglycerides .

Moreover, new paradigms of how inflammation is contained and dissipated involve various newly discovered chemical mediators, resolvins, and protectins . Such agents are believed to be directly involved in blocking neutrophil migration, infiltration, recruitment, as well as blocking T-cell migration and promoting T-cell apoptosis . Additionally, such protectins can also reduce tumor necrosis factor and interferon secretion . Of particular importance, however, is the fact that protectins and resolvins are exclusively derived from omega-3-fatty acids and that EPA is the substrate of the resolvins family and DHA can be converted to both resolvins and protectins . It is believed that these effects of such fish oil acids underlie the actions that fish oil have demonstrated on eliciting stability for vulnerable inflammatory plaques .

Finally, fish oil acids have demonstrated certain direct electrophysiological effects on the myocardium . In animal studies, it was shown that the ventricular fibrillation threshold could be increased in both animals fed or infused with omega-3-fatty acids . Further studies subsequently revealed that such fatty acids could reduce both sodium currents and L-type calcium currents on a cellular and ion channel level . It is consequently hypothesized that during ischemia, a reduction in the sodium ion current protects hyperexcitable tissue, and a reduction in the calcium ion current could reduce arrhythmogenic depolarizing currents - and that perhaps the use of EPA and DHA fish oil acids could facilitate such activity . For the time being, however, omega-3-fatty acids in pharmaceutical supplement form have not been shown to elicit such protection against heart conditions .

Toxicity

There have been some concerns that high doses of DHA and/or EPA (in the range of 900mg/day or EPA plus 600 mg/day of DHA or more for several weeks) could potentially reduce an individual's immune function due to the suppression of inflammatory responses . However, according to the European Food Safety Authority, long-term consumption of EPA and DHA supplements at combined doses of up to about 5 g/day appears to be safe .

Commonly reported side effects of omega-3 supplements are usually mild . These include unpleasant taste, bad breath, heartburn, nausea, gastrointestinal discomfort, diarrhea, headache, and odoriferous sweat .

Food Interaction

No interactions found.

Volume of Distribution

The volume of distribution of EPA is documented as being approximately 82 L .

Elimination Route

The absorption process of fish oil EPA and DHA acids have been documented as being very efficient, with an absorption rate of about 95%, which is similar to that of other ingested fats .

Half Life

The half-life of EPA is recorded to be about 37 hours while that of DHA is documented to be about 46 hours .

Clearance

The clearance of EPA is recorded to be about 548 ml/hr while that of DHA is documented to be about 518 ml/hr hours .

Elimination Route

Based on what is known about the elimination of EPA and DHA, it is understood that such fatty acids do not undergo renal excretion .

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