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The effect of isoflavone supplementation on cardiovascular disease parameters in men undergoing 80% VO₂pk exerciseHart, Vanessa Lynn Rogowsky 24 June 2002 (has links)
Atherosclerosis, one of the major causative factors of cardiovascular diseases (CVD), is thought to be initiated by oxidative stress. Particular attention has been paid to the atherogenic effects of oxidative damage on low density lipoproteins (LDL). Current research shows that dietary antioxidant supplementation protects against oxidative stress, and therefore may present preventative measures and treatments for patients with diseases influenced by oxidative stress. Isoflavones found in soy, such as genistein and daidzein are reported to have potent antioxidant properties and have been shown to inhibit LDL oxidation in vitro. Although there is a strong base of data that supports the correlation between soy consumption, cholesterol reduction and cardiovascular protection, it remains to be elucidated whether it is the soy protein, the isoflavone, or a combination of both that confers benefits. This study investigated the effect of isoflavone supplementation on the following parameters: plasma genestein levels, oxidized LDL levels, plasma cholesterol, vitamin E, and C-reactive protein. Elevated serum cholesterol and C-reactive protein (CRP) have been identified as risk factors for cardiovascular disease. In a randomized, double-blind, placebo-controlled study, 150 mg/d isoflavone was supplemented for four weeks by 30 healthy, yet sedentary male subjects who underwent 30 minute exercise sessions at 80% VO2pk before and after a 28 day period of supplementation. The purpose of the exercise was to induce oxidative stress. The average plasma genistein and daidzein concentrations increased significantly after isoflavone supplementation from 0 ng/ml to 561.6 ± 39.3 and 466.3 ± 35.5 ng/ ml (SE) respectively (P < 0.0001), compared to 0 ng/ml in the placebo group throughout the study. There was no significant beneficial effect of isoflavone supplementation on oxidized LDL, plasma vitamin E concentrations, total cholesterol, LDL, HDL, or triglycerides. Isoflavone supplementation resulted in an average increase in CRP levels by 44% (P = 0.014), which was opposite from expectations. This study supports the theory that it may not be soy isoflavones alone that benefit lipid profiles, or offer protection from oxidative stress. / Master of Science
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HDL functionality and LDL quality : the influence of obesity, obstructive sleep apnoea and pharmacological interventionYadav, Rahul January 2013 (has links)
Aims: LDL oxidation plays an important role in the initiation and progression of atherosclerosis. HDL impedes oxidation, glycation and glycoxidation in vitro and there is evidence to suggest paraoxonase-1 (PON1) plays an important role in this. 1. In patients with dyslipidaemia treated with statins, I assessed the relationship of serum PON1 activity with in vitro HDL antioxidant capacity, susceptibility of LDL to oxidation and the protection offered by HDL. 2. I studied the effect of the presence and severity of obstructive sleep apnoea (OSA) in morbidly obese patients on HDL anti-oxidant and anti-inflammatory functions. 3. I investigated the influence of extended release niacin/ laropiprant (ERN/LRP) versus placebo in patients who had persistent dyslipidaemia despite receiving high doses of potent statins. I assessed the effect of ERN/LRP on mediators of vascular inflammation and HDL's in vitro anti-oxidant function. Methods: 1. LDL isolated from dyslipidemic patients was incubated with and without HDL, in the presence of Cu2+. Similarly isolated HDL was incubated alone. Lipid peroxides (LPO) generated over 3 hours were measured. Patients were divided into 2 groups based on median serum PON1 activity. 2. 41 morbidly obese patients were divided into two groups based on the presence or absence of OSA ("OSA" and "no OSA" group) or on severity of OSA (high or low apnoea-hypoapnoea index (AHI) groups). I studied HDL's ability to protect itself from in vitro oxidation and measured serum PON1 activity, tumor necrosis factor alpha (TNFalpha) and intercellular adhesion molecule 1 (ICAM1). 3. This was a randomised double blind cross over trial, where I studied the effect of ERN/LRP compared to placebo in 27 patients who had high LDL-C inspite of maximum tolerated doses of statins. I measured lipid profile, apolipoproteins, cholesteryl ester transport protein (CETP) activity, paraoxonase 1 activity (PON1), oxidised LDL (oxLDL) and related mediators of vascular inflammation. I also examined the capacity of HDL to protect LDL from in vitro oxidation. Results and conclusion: 1. In statin treated dyslipidemic patients the capacity of HDL to protect itself and LDL from oxidation in vitro is significantly better in individuals with higher serum PON1 activity. 2. The capacity of HDL to protect itself from in vitro oxidation in morbidly obese patients is reduced with onset and severity of OSA. The differences in TNFalpha and ICAM1 levels may suggest endothelial dysfunction due to OSA. Oxidative damage of PON1 attributable to OSA could be a mechanism for HDL and endothelial dysfunction. 3. Treatment with ERN/LRP resulted in a significant improvement in HDL-C but did not affect HDL's in vitro anti-oxidant function in patients who had persistent dyslipidaemia despite high doses of potent statins. For the first time I have shown that ERN/LRP reduces mediators of vascular inflammation.
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The Role of Chlamydia pneumoniae-induced Platelet Activation in Cardiovascular Disease : In vitro and In vivo studiesKälvegren, Hanna January 2007 (has links)
The common risk factors for atherosclerosis, such as obesity, high cholesterol levels, sedentary lifestyle, diabetes and high alcohol intake, only explain approximately 50% of cardiovascular disease events. It is thereby important to identify new mechanisms that can stimulate the process of atherosclerosis. During the past decades, a wide range of investigations have demonstrated connections between infections by the respiratory bacterium Chlamydia pneumoniae and atherosclerosis. Earlier studies have focused on the interaction between C. pneumoniae and monocytes/macrophages, T-lymphocytes, smooth muscle cells and endothelial cells, which are present in the atherosclerotic plaque. However, another important player in atherosclerosis and which is also present in the plaques is the platelet. Activation of platelets can stimulate both initiation and progression of atherosclerosis and thrombosis, which is the ultimate endpoint of the disease. The aim of the present thesis was to investigate the capacity of C. pneumoniae to activate platelets and its role in atherosclerosis. The results show that C. pneumoniae at low concentrations binds to platelets and stimulates platelet aggregation, secretion, reactive oxygen species (ROS) production and oxidation of low-density lipoproteins (LDL), and that these effects are mediated by lipopolysaccharide (LPS). Activation of protein kinase C, nitric oxide synthase and 12-lipoxygenase (12-LOX) was required for platelet ROS production, whereas platelet aggregation was dependent on activation of GpIIb/IIIa. Pharmacological studies showed that the C. pneumoniae-induced platelet activation is prevented by inhibitors against 12-LOX, platelet activating factor (PAF) and the purinergic P2Y1 and P2Y12 receptors, but not against cyclooxygenase (COX). These findings were completely opposite to the effects of these inhibitors on collagen-stimulated platelets. We also present data from a clinical study indicating that percutaneous coronary intervention (PCI or balloon dilatation) leads to release of C. pneumoniae into the circulation, which causes platelet activation and LDL oxidation. In conclusion, these data support a role for C. pneumoniae-induced platelet activation in the process of atherosclerosis. Stimulation of platelets by C. pneumoniae leads to release of growth factors and cytokines, oxidation of LDL and platelet aggregation, which are processes that can stimulate both atherosclerosis and thrombosis. Development of novel drugs that prevent C. pneumoniae-platelet interaction by inhibiting 12-LOX and/or PAF, may be important in the future treatment of cardiovascular disease.
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