View clinical trials related to Metabolic Syndrome.
Filter by:Recent studies have found that up to 45 % of patients with type 1 diabetes have metabolic syndrome, a cluster of conditions (abdominal obesity, hypertension, dyslipidemia, insulin resistance) that increase the cardiovascular risk. The investigators have observed in previous studies a strong association between the adherence to a Mediterranean diet and the prevalence of metabolic syndrome on patients with metabolic syndrome. However, no intervention has been realized on this population and the current recommendations (low fat diet) differ from the Mediterranean diet. A nutritional intervention on the principles of the Mediterranean diet could therefore play a role in the treatment of the metabolic syndrome in Type 1 diabetes patients. The main objective of this study is to examine the impact of a nutritional intervention on the waist circumference after 6 months of an intervention group (Mediterranean diet) versus a control group (low fat diet).
The purpose of this pilot study is to assess the beneficial effect of a spirulina water extract (product named Spirulysat®) compared to a placebo in the blood level ratio of oxidized LDL / total LDL cholesterol in subjects with metabolic syndrome after 12 weeks of consumption
Healthy lifestyle, based on healthy diet and exercise, is a key factor to prevent the most common menopausal disorders and chronic diseases to which women are more exposed during this life stage. Therefore, menopausal women may represent a target for evaluating the effectiveness of nutritional intervention studies based on protective diets against the common metabolic diseases, such as metabolic syndrome, obesity and hepatic steatosis. Lipidomics aims to study the lipid molecules in a "dynamic" way and allows to define not only structure and functions of a set of lipid species present in an organism, but also the changes that occur during cell metabolism under physiological and pathological conditions in order to understand their role as part of the complex functional balance of a living organism. Quantitative and qualitative determination of fatty acids profiles in cell membranes allows to follow their molecular changes occurring for intrinsic and extrinsic metabolic causes, such as inflammation, stress, nutrition. Scientific evidence has shown that, for nutritional studies, the most representative cell is the erythrocyte, which is a biomarker of an individual's general state of health. In fact, the evaluation of the fatty acid composition contained in the membrane of red blood cell, which has an half-life of four months, allows to follow the nutritional status of a subject and to acquire information about his eating habits, with special reference to fat consumption. The higher intake of omega-3 fatty acids is associated with a decreased inflammatory state which is often altered in patients with metabolic diseases, hepatic steatosis and obesity. Overweight or obese women in menopause for at least 12 months, aged between 45 and 68 years, will be submitted at baseline to blood samples for lipidomic profile, blood tests, medical examination with blood pressure and anthropometric measurements (weight, height, waist and hip circumferences), indirect calorimetry and bioimpedentiometry. Participants will be randomly assigned to diet with extra virgin olive oil (LoVE DIET) or to diet riched in omega-3 fatty acids (LωVE DIET) for four months. During the treatment period, women enrolled will undergo medical examination and dietary control to assess the adherence to the dietary pattern, collecting anthropometric measurements, indirect calorimetry and bioimpedentiometry after 4 and 16 weeks as well as blood samples after 16 weeks. The results will be analyzed using appropriate statistical tests. All patients will be made to sign an informed consent.
Coronary flow reserve (CFR, calculated as the ratio of hyperemic over rest myocardial blood flow) is emerging as a powerful quantitative prognostic imaging marker of clinical cardiovascular risk. CFR provides a robust and reproducible clinical measure of the integrated hemodynamic effects of epicardial coronary artery disease (CAD), diffuse atherosclerosis, and microvascular dysfunction on myocardial tissue perfusion. Inflammation is a key mediator of this constellation of abnormalities, affecting the entire coronary vasculature, but no clinical trial to date has shown that directly reducing inflammation lowers cardiovascular event rates. As such, the recently launched Cardiovascular Inflammation Reduction Trial (CIRT) provides a unique opportunity for mechanistic investigation of the impact of anti-inflammatory therapy on changes in CFR as a reflection of coronary vascular dysfunction, which may precede clinical outcomes, particularly in patients at high-risk of events. The investigators are ideally positioned to examine the impact of inflammation on CFR, having extensive experience in both the quantitation of CFR using clinically-integrated dynamic positron emission tomography (PET) and the ability to assess its association with cardiovascular outcomes. The central hypothesis of this ancillary proposal, CIRT-CFR, is that reducing systemic inflammation using low-dose methotrexate (LDM) will, compared to placebo, quantitatively improve myocardial blood flow and coronary flow reserve as measured by PET over one year, in stable CAD patients with type 2 diabetes or metabolic syndrome enrolled in CIRT. In so doing, improvement in coronary vasoreactivity, endothelial function, and tissue perfusion may have beneficial effects on myocardial mechanics, left ventricular deformation and function and, ultimately, symptoms and prognosis.
Type 2 diabetes mellitus, insulin resistance, visceral obesity and disorders of lipid metabolism, especially triglyceride and hypertension are metabolic disorders that play a central role in pathophysiology of metabolic syndrome, and ultimately, the cardiovascular morbidity and mortality associated with atherosclerosis, such as myocardial infarction, cerebral vascular events, vascular dementia, heart failure and end stage renal disease. Recently other complications related with hyperinsulinemia like the prostate benign hypertrophy (BPH). Metformin is the treatment of choice in patients with metabolic syndrome, given its low cost and comparable pharmacological effects to the tiazolinedionas (eg pioglitazone), decreasing hyperinsulinemia, insulin resistance, concentration of free fatty acids and triglycerides, also it produces moderate weight loss, improving the metabolic profile triglcerides atherogenic lipid and carbohydrate and delaying the onset of diabetes mellitus in individuals with impaired fasting glucose. A second option for risk reduction would be the addition of inulin fiber type as it has been demonstrated some metabolic effects on benefices lipid metabolism and carbohydrate. It is expected that combination of metformin with inulin produce a beneficial effect through farmacological synergism and the impact on fisiopatological changes of metabolic syndrome that potentially is considered as an important risk factor for prostate growth.
Despite advances in the prevention and treatment of type 2 diabetes, its prevalence continues to rise worldwide. There is a need for new modalities to improve metabolic control in individuals with type 2 diabetes and those who are overweight or obese and at risk for type 2 diabetes. Contrary to the concerns raised about the adverse role of fructose in metabolic health, various lines of evidence suggest that fructose and its epimers may improve the metabolic handling of glucose through inducing glycogen synthesis. Recent small trials in humans suggest that catalytic doses (=<10g/meal) of fructose and its epimers (allulose, tagatose, and sorbose) may reduce postprandial glycemic responses to carbohydrate loads (i.e., oral glucose tolerance test or a starch load) in people with and without type 2 diabetes. There is also limited evidence that these acute effects may manifest as longer term improvements in glycemic control. There is an urgent need to synthesize the evidence of the effects of fructose and its epimers on postprandial carbohydrate metabolism.
The present study is designed to examine the effect of changes in body weight and related parameters associated with a commercially-available, low-carbohydrate diet plan. A parameter proposed to be studied here is the impact of fructose restriction and weight loss on serum uric acid concentrations and arterial stiffness.
Presence of metabolic syndrome (MetS) and its relation with insulin resistance, obesity, dyslipidemia, systemic inflammation and cardiovascular disease is of great concern. The study of certain adipokines such as adiponectin has demonstrated an inverse association with insulin resistance, especially in Latin population lower levels of adiponectin have been observed compared to other ethnic groups. It appears to be an important molecule that is involved in limiting the pathogenesis of obesity-linked disorders and may have potential benefits as a marker to evaluate the effect of possible interventions on the MetS components and its complications. Metformin is treatment of choice in patients with MetS, due to its low cost and pharmacological comparable effects with thiazolidinediones (pioglitazone), it decreases hyperinsulinemia, insulin resistance, free fatty acids and triglycerides, it produces as well, a moderate weight loss, improves lipid profile and delays the appearance of diabetes mellitus in subjects with an abnormal fasting glucose. A second choice to lower the risks would be the addition of a fiber like inulin, a prebiotic, since it has demonstrated metabolic benefits on lipid and carbohydrates metabolism by several mechanisms proposed such as induction of lipogenic enzymes by glucose, production of short-chained fatty acids, glucose-dependent insulinotropic peptide (GIP) and glucagon-like peptide-1 (GLP-1), and growth of Bifidobacterium. A good natural source of inulin is the agave. It is expected that the combination of metformin plus agave inulin will produce a beneficial impact through pharmacological synergism and that will produce changes in the pathophysiology of MetS.
The Metabolic Syndrome is a high prevalence disease worldwide. About a quarter of the adult population suffers the disease. Banaba has shown evidence that has on metabolic syndrome, insulin sensitivity and insulin secretion. The investigators hypothesis was that the the administration of resveratrol modifies the metabolic syndrome, insulin sensitivity and insulin secretion.
Metabolic syndrome (Mets) is an assemblage of risk factors which can increase the risk of developing type 2 diabetes mellitus and cardiovascular disease. Green coffee extract (GCE) is derived from unroasted coffee beans and has substantial amounts of polyphenols primarily chlorogenic acids (CGA). It has been shown that GCE and CGA can exert a positive influence over Mets components including blood pressure, blood glucose, inflammation, oxidative stress, insulin resistance and blood lipids. Up to our knowledge no study has been conducted on humans in the field of GCA influences on Mets patients. Therefore, this study is planned to evaluate GCA supplementation effects on anthropometric measurements, glycemic control, blood pressure, lipid profile in patients with metabolic syndrome.