BLOODSPOT™ FATTY ACID PROFILE
From a simple finger stick, this easy-to-use test measures key omega-3 and omega-6 fatty acids and calculates key indicators to establish your optimal balance. Trans fatty acids—the “bad” oils in processed foods—are also measured.
INCREASED CONSUMPTION OF FATTY ACID SUPPLEMENTS
Evidence of the adverse effects of fatty acid deficiencies has led to sharply increased consumption of essential fatty acid supplements. When incorporated into the cell membranes of the body, these omega-3 and omega-6 fatty acids function as precursors for eicosanoids that control a host of cellular functions and responses. The balance between the pro-inflammatory and anti-inflammatory eicosanoids is influenced in large part by the balance of fatty acids we consume. Since inflammation has now been shown to be integral to so many disease processes, nutrients which counteract inflammation can have profound health benefits. But your patients need an answer to a critical question about their fatty acid supplementation– are they taking too little to be effective or such an excess that they are causing other health problems?
ANTI-INFLAMMATORY AND PRO-INFLAMMATORY EICOSANOIDS
Cold water fish oils contain a high concentration of the omega-3 fatty acids EPA (eicosapentaenoic acid) and DHA (docosahexaenoic acid). EPA is the precursor for the Series 3 eicosanoids, which have potent anti-inflammatory effects. The oil from certain plant seeds, particularly borage, evening primrose, and black currant, have high concentrations of the omega-6 fatty acid GLA (gamma linolenic acid), the precursor to the anti-inflammatory Series 1 eicosanoids.
The omega-6 fatty acid AA (arachidonic acid) is found in high concentration in the fat of red meats. AA is converted to the pro-inflammatory Series 2 eicosanoids, increasing the risk for various disease and inflammatory processes in the body. The Bloodspot™ Fatty Acid Profile can guide patients to the right balance of FA intake.
STATINS NEGATIVELY IMPACT FATTY ACID BALANCE
Recent research has shown that HMG-CoA reductase inhibitors (“statins”) can increase the relative amounts of AA in the blood, resulting in an increase in the AA:EPA ratio.1 “High fish oil consumption is now recommended for individuals at high risk for heart disease, and our findings suggest that increased dietary n-3 FAs—LNA, EPA, and DHA—may result in a more favorable FA profile during statin treatment.” Routine monitoring of the AA:EPA ratio—an early marker of inflammation—would be particularly important for patients on these cholesterol-lowering drugs.
EXCESSIVE INTAKE OF PUFAS INDUCES FREE RADICAL PRODUCTION
The free radical pathology induced by excessive intake of polyunsaturated fatty acids (PUFAs) develops insidiously. Researchers found that PUFA-induced lipid peroxidation is common among patients who supplement high doses of fatty acids without adequate antioxidant protection.2 Clinical management of fatty acid and antioxidant supplementation is aided by testing for fatty acid balance and measuring markers of oxidant damage.
IMMUNOSUPPRESSIVE EFFECTS OF OMEGA-3 FATTY ACIDS
As a result of all of the positive research on the health benefits of fish oil and/or GLA rich oils, the nutrition industry has seen an explosive growth in consumption of these supplements. But taking too much and in the wrong balance is potentially dangerous, a fact not well appreciated or understood. The anti-inflammatory effects of omega-3 fatty acids can actually suppress immune function, leading to increased infections, poor wound healing, and possible tumor growth.3 The EPA:DGLA ratio in the Bloodspot™ Fatty Acid Profile can help fine tune intake of these Series-1 and -3 eicosanoid precursors.
1 Harris JI, Hibbeln JR, Mackey RH, Muldoon MF, Statin treatment alters serum n-3 and n-6 fatty acids in hypercholesterolemic patients. Prostaglandins, Leukotrienes and Essential Fatty Acids Volume 71, Issue 4, October 2004, Pages 263-269.
2 Lord, RS and Bralley, JA, Polyunsaturated Fatty Acid-Induced Anti-oxidant Insufficiency, Integrative Medicine Vol. 1, No. 1 Dec 2002/Jan 2003.
3 Rees D, Miles EA, Banerjee T, Wells SJ, Roynette CE, et al., Dose-related effects of eicosapentaenoic acid on innate immune function in healthy humans: a comparison of young and older men. AM J Clin Nutr, 83:331-42, 2006
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