Metabolic Syndrome Clinical Trial
Official title:
Metabolic Actions of Omega-3 Fatty Acids on Inflammation and Adipocyte Lipolysis in the Metabolic Syndrome
The metabolic syndrome raises the risk of heart disease and is currently at epidemic proportions in the U.S. It consists of 3 of the following components: central obesity, high triglycerides, low HDL, abnormal blood pressure and impaired fasting glucose levels. Previous studies have suggested that omega-3 fish oil may influence some of these components but the mechanisms involved are not well understood. Therefore, this proposal will investigate how omega-3 fish oils affect inflammation, lipids and fat breakdown by comparing it to placebo. Favorable outcomes from this study could translate into a new approach to improve heart disease risk in men and women with the metabolic syndrome.
Metabolic Actions of Omega-3 Fatty Acids on Inflammation and Adipocyte Lipolysis in the
Metabolic Syndrome
Epidemiological studies identify metabolic syndrome (MetS) as a biomarker of cardiovascular
disease (CVD) risk, and recent AHA scientific statements recommend intensive lifestyle diet
and exercise measures to reduce risk. Marine-derived omega-3 polyunsaturated fatty acids such
as, eicosapentanoic acid (EPA) improve many constituents of the metabolic syndrome such as
lowering fasting TG and glucose levels, inflammation, insulin resistance and blood pressure.
These improvements may be mediated by increased fat cell storage and metabolism and lipids,
reducing inflammation and ectopic fat deposition in visceral abdominal tissue, muscle and
liver that results in excessive pro-inflammatory intra-abdominal fat (IAF), insulin
resistance and reduced levels of HDL cholesterol, hallmark characteristics of the MetS. The
anti-inflammatory actions of EPA lower acute phase reactants (APRs) and proinflammatory
mediators are mechanisms for their lipid lowering and insulin sensitizing effects to reduce
CVD risk. The systematic investigation of marine-derived omega-3 PUFAs on these inflammatory,
metabolic and physiological parameters will provide new mechanistic insights for the
therapeutic use of a potentially beneficial, safe nutraceutical, EPA in patients with MetS.
Thus, it is our hypothesis that supplementation of marine-derived omega-3 PUFAs, will reduce
constituents of MetS as well as systemic and tissue inflammation, insulin resistance
(HOMA-IR), adipocyte lipolysis and cytokine release from AT to enhance TG storage capacity of
subcutaneous AT. The reduction in inflammation and increase in insulin sensitivity will
remodel adipose tissue to function more efficiently in TG uptake and storage; thus, reducing
circulating FFAs and cytokines. We postulate that these metabolic effects may decrease
ectopic fat deposition in viscera (IAF and muscle), an intriguing, novel outcome that
provides rationale for the 9 month treatment.
The Specific Aims are to conduct a pilot 9 month randomized trial in adults with high Tg and
at least one other component of the MetS to compare the effects of EPA vs. placebo on:
Aim 1: Metabolic (e.g., lipoproteins, inflammatory cytokines, acute phase reactants, glucose
tolerance/insulin resistance) and adipose tissue responses (basal and insulin suppression of
lipolysis (ED50), LPL activity, cytokine release and lipogenesis).
Aim 2: Regional fat distribution quantified anthropometrically as waist and hip
circumference, visceral and subcutaneous adipose volumes and muscle lipid accumulation by
CT-scan and body composition (total and regional fat mass) by dual energy absorptiometry
(DXA).
These outcomes have potentially intriguing therapeutic implications for marine derived
omega-3 PUFA supplementation as part of a lifestyle program for patients at increased
cardiometabolic risk.
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