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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The independent effects of purified EPA and DHA supplementation on cardiovascular risk in treated-hypertensive type 2 diabetic individuals

Woodman, Richard John January 2003 (has links)
[Formulae and special characters can only be approximated here. Please see the pdf version of the Abtract for an accurate reproduction.] Type 2 diabetes at least doubles the risk of cardiovascular disease. This can partly be explained by the increased prevalence of risk factors such as hypertension, dyslipidaemia and obesity. However, the underlying abnormality of insulin resistance and the presence of more recently identified risk factors including endothelial dysfunction, increased inflammation, and increased oxidative stress might also contribute towards the heightened cardiovascular risk. Fish oil, which contains eicosapentaenoic acid (EPA, 20:5 n-3), has wide-ranging beneficial effects on these and other abnormalities, and has reduced cardiovascular mortality in secondary prevention studies. Animal and human studies have recently established that in addition to EPA, docosahexaenoic acid (DHA, 22:6 n-3) also has beneficial effects, and furthermore, may have less detrimental effects than EPA on glycaemic control which has worsened in some fish and fish oil studies involving Type 2 diabetic subjects. Study 1 : This intervention study aimed to determine the independent effects of EPA and DHA on cardiovascular risk factors and glycaemic control in individuals with Type 2 diabetes receiving treatment for hypertension. In a double-blind placebo-controlled trial of parallel design, 59 subjects in good to moderate glycaemic control (HbA1c < 9%) were recruited from media advertising and randomised to 4 g/day of EPA, DHA or olive oil (placebo) for 6 weeks. Thirty-nine men and 12 post-menopausal women aged 61.2±1.2 yrs completed the study. Relative to placebo, and with Bonferroni adjustments for multiple comparisons, serum triglycerides fell by 19% (p=0.022) and 15% (p=0.022) in the EPA and DHA groups respectively. There were no changes in serum total cholesterol, or LDL- and HDL-cholesterol, although HDL2-cholesterol increased 16% with EPA (p=0.026) and 12% with DHA (p=0.05). HDL3-cholesterol fell by 11% (p=0.026) with EPA supplementation and LDL particle size increased by 0.26±0.10 nm (p=0.02) with DHA. Urinary F2-isoprostanes, an in-vivo marker of oxidative stress was reduced by 19% following EPA (p=0.034) and by 20% following DHA. DHA but not EPA supplementation reduced collagen-stimulated platelet aggregation (16.9%, p=0.05) and thromboxane release (18.8%, p=0.03), but there were no significant changes in PAF-stimulated platelet aggregation. Fasting glucose rose by 1.40±0.29 mmol/l (p=0.002) following EPA and 0.98±0.29 mmol/l (p=0.002) following DHA. Neither EPA nor DHA had any significant effect on HbA1c, fasting serum insulin or C-peptide, insulin sensitivity, stimulated insulin secretion, 24-hr ambulatory blood pressure and heart rate, markers of inflammation, and fibrinolytic or vascular function. Study 2 : This study aimed to examine the influence and causes of increased inflammation on vascular function in subjects recruited for Study 1. Compared with healthy controls (n=17), the diabetic subjects (n=29) had impaired flow-mediated dilatation (FMD) (3.9±3.0% vs 5.5±2.4%, p=0.07) and glyceryl-trinitrate mediated dilatation (GTNMD) (11.4±4.8% vs 15.4±7.1%, p=0.04) of the brachial artery. They also had higher levels of the inflammatory markers C-reactive protein (2.7±2.6 mg/l vs 1.4±1.1 mg/l, p=0.03), fibrinogen (3.4±0.7 g/l vs 2.7±0.3 g/l, p<0.001) and tumor necrosis factor-alpha (20.9±13.4 pg/l vs 2.5±1.7 pg/l, p<0.001). In diabetic subjects, after adjustment for age and gender, leukocyte count was an independent predictor of FMD (p=0.02), accounting for 17% of total variance. Similarly, leukocyte count accounted for 23% (p<0.001) and IL-6 for 12% (p=0.03) of variance in GTNMD. Von Willebrand factor, a marker of endothelial cell activation was correlated with leukocyte count (r=0.38, p=0.04), FMD (r=-0.35, p=0.06) and GTNMD (r=-0.47, p=0.009), whilst P-selectin, a marker of platelet activation was correlated with fibrinogen (r=0.58, p=0.001). Conclusion : EPA and DHA have similar beneficial effects on triglycerides, HDL2 cholesterol and oxidative stress in individuals with Type 2 diabetes and hypertension. However, DHA also increases LDL particle size and reduces collagen-stimulated platelet aggregation and thromboxane release, thus offering more potential than EPA as an anti-thrombotic agent. The beneficial effects of both oils were potentially offset by deterioration in glycaemic control. Neither oil affected blood pressure or vascular function. Longer-term studies with major morbidity and mortality as the primary outcome measures are required to assess the overall benefits and risks of EPA and DHA. The cross-sectional observations from Study 2 are consistent with the hypothesis that impaired vascular function in individuals with Type 2 diabetes and hypertension is at least in part secondary to increased inflammation, with associated endothelial and platelet activation.

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