View clinical trials related to Metabolic Syndrome.
Filter by:The purpose of this study is to examine the effects of a blueberry powder on insulin sensitivity, blood pressure, and vascular reactivity in subjects with metabolic syndrome.
Type 2 diabetes mellitus (DM2) is a growing social health problem world-wide, in particular with respect to its contribution to cardiovascular disease. The progressive increase in prevalence of DM2 has reached epidemic proportion and is a major cause of morbidity and mortality in all populations around the world. Conventional stepwise treatment of DM2 generally focuses on controlling blood glucose concentration. However, the risk for side-effects associated with the use of pharmacological intervention often delays initiation of therapy, with the potential implication on worsening morbidity and mortality from complications. On the other hand, non-pharmacological intervention in the form of dietary restrictions, exercise and weight loss, is safe but often difficult to accomplish. The availability of nutrients that affect glucose and lipid metabolism would provide an important practical tool to establish early intervention in newly diagnosed DM2 and perhaps even in patients who are only "at risk" for DM2. The investigators have recently obtained preliminary data on beneficial effects of combined supplementation of lycopene and isoflavones on glucose metabolism of normoglycemic volunteers with insulin resistance. This clinical trial will explore the role of isoflavones and lycopene dietary supplementation in the improvement of glucose metabolism of patients at increased risk or with established but mild DM2. The overall hypothesis is that supplementation of laflavon, provided as a new formulation that increases bioavailability of the individual components (Laflavon CamMedica contains 7 mg of Lycopene and 50 mg of Soy Isoflavones), determines improvement in glucose tolerance and insulin resistance of patients with the metabolic syndrome and also reduces HbA1c in patients with mild DM2.
Protandim will decrease markers of oxidative stress/inflammation in subjects with metabolic syndrome and proteomics will identify protein profiles that correlate with markers or/changes in oxidative stress.
The purpose of this study is to characterise beta cell function in subjects who despite taking part in a diabetes prevention program (life style intervention with diet and exercise) exhibit impaired glucose tolerance and beta cell dysfunction.
The purpose of this research study is to investigate the genetic causes of diabetes. Specifically, we are interested in the mitochondrial genome and how variants in the mitochondrial genome influence a person's risk to develop diabetes and metabolic syndrome.
The investigators aim to examine how medical conditions that indicate high cardiometabolic risk, such as increased body weight, high cholesterol levels and high blood pressure, affect heart structure and function among individuals with known HF. Furthermore, this study is being undertaken to identify potential differences in these effects between non-Hispanics whites and Mexican Americans.
Traditionally, obesity is considered an indirect cause of heart disease. Obese individuals typically present with a number of traditional Framingham risk factors (hypertension, dyslipidemia, and type 2 diabetes), predisposing them to heart attacks and subsequent heart failure. However, an emerging body of basic research revisits a hypothesis that fat is a direct cardiotoxin. Under healthy conditions, most triglyceride is stored in fatty tissue (adipocytes) while the amount of triglyceride stored in non-adipocyte tissues (such as the pancreas, the liver, skeletal muscle, and heart) is minimal and very tightly regulated. When this regulation is disrupted, intracellular triglyceride accumulates excessively in these organs ("steatosis") and has been implicated in activating adverse pathways which culminate in irreversible cell death ("lipotoxicity"), leading to several well-recognized clinical syndromes. These include non-alcoholic steatohepatitis (NASH), pancreatic beta-cell failure in type 2 diabetes, and dilated cardiomyopathy. It has been recently observed that angiotensin II receptor blockers (ARBs) in addition to lowering blood pressure improve insulin sensitivity and decrease the risk for type 2 diabetes. This study will test the above theory in two study groups: Valsartan vs. Hydrochlorothiazide. We hypothesize that in obese humans with elevated myocardial triglycerides, blockade of the renin-angiotensin system (Valsartan group) will reduce myocardial fat with improvement of insulin sensitivity and heart function.
Study hypothesis: Low dose growth hormone (GH), through its generation of free 'bioavailable' insulin-like growth factor (IGF)-I, can improve insulin sensitivity and the metabolic profile of subjects with metabolic syndrome. Study aims: The purpose of this study is to determine the mechanism of how low dose GH treatment affects the body's sensitivity to insulin actions and whether this low GH dose can affect the body's handling of steroid hormone levels (cortisol clearance) and fat deposition in subjects with metabolic syndrome. Study design: Subjects that satisfy the criteria of metabolic syndrome (central obesity, treated or untreated high blood pressure, high cholesterol and impaired fasting glucose levels) will be invited to participate in this study. The subjects will be assessed at the initial visit to ascertain their suitability before further participation in the study. If eligible, an equal number of men and women will be randomized (like a flip of a coin) to receive either daily low dose GH or placebo injections first for 12 weeks, before exchanging over for another 12 weeks of treatment after a 4-week washout period. Before, during and after treatment, the subjects will be assessed at frequently with blood tests, scans and fat biopsies. During the study, the subjects will be studied 4 times at the Oregon Clinical and Translational Research Institute (OCTRI). At the first, second and final visit, testing will include scans to measure the amount of whole body fat and fat in the stomach area, muscle, and liver; blood tests to measure levels of cortisol, and fat tissue (taken from a biopsy) analysis to measure the density of insulin-like growth factor-I (a hormone stimulated by growth hormone in the body) in fat; whereas blood tests to examine how well insulin works in the body (insulin sensitivity) will be collected at all visits of the study.
The purpose of this study is to determine how a decline in physical activity acutely leads to a decrease in insulin sensitivity in skeletal muscle. The hypothesis is that the loss of insulin sensitivity following physical inactivity is caused by a rapid reduction in skeletal muscle mitochondrial oxidative capacity.
The metabolic syndrome is a medical condition defined by high levels of cholesterol in the blood, high blood pressure, central obesity (gain in fat around the region of the stomach), and insulin resistance (body responds less well to insulin). This state of impaired insulin resistance can lead to type 2 diabetes mellitus, which is one of the most common metabolic disorders in the U.S. Numerous studies have shown an inverse relationship between insulin resistance and testosterone levels in men, however, causality has not been established. This protocol investigates the role of testosterone in modulating insulin sensitivity in insulin resistant states such as the metabolic syndrome. The hypothesis is that testosterone administration will improve insulin sensitivity.