View clinical trials related to Metabolic Syndrome X.
Filter by:We, the investigators at National Taiwan University Hospital, want to compare patients' islet cell function, insulin sensitivity and risk of chronic complications with normal subjects. Moreover, we want to examine whether they are at a higher risk of having metabolic syndrome and to answer whether we should screen the phenotypes of metabolic syndrome in impaired fasting glucose (IFG) and impaired glucose tolerance (IGT) patients. Then, we want to examine the association between insulin sensitivity and islet functions.
Insulin resistance and disturbances in energy homeostasis are associated with body weight changes, such as diabetes, hypertension, hyperlipidemia, obesity, cancer cachexia, aging, and acute or chronic infectious diseases. Cytokines secreted by adipose tissue and inflammatory cells play important roles in the pathological conditions. Several novel cytokines were disclosed recently, but their functions have not been well known. Further investigation of these cytokines, resulting in insulin resistance and energy homeostasis, is very important to elucidate the mechanisms and develop new therapeutic strategies.
An abdominal distribution of fat is associated with the greatest heart disease risk, because commonly, several risk factors of metabolic origin (high blood pressure, unfavourable cholesterol profile, elevated blood sugar, impaired insulin action) cluster in these individuals. When this occurs the condition is called the 'metabolic syndrome' (MetS). The cause of the MetS is yet to be fully elucidated. Increased activity of the nervous system resulting in enhanced release of the stress hormone 'norepinephrine', may be one mechanism by which adverse cardiovascular and metabolic sequelae of the MetS might be mediated. Dietary weight loss, and exercise are first-line treatments for the MetS and provide an opportunity to prevent or delay the development of type 2 diabetes and heart disease in this high risk group. However, there is a paucity of data regarding the effects of these lifestyle factors on the nervous system. Furthermore, it is also unknown whether active weight loss ('negative energy balance') or a stable lower weight (weight loss maintenance) is more important in modifying MetS components and nervous system activity. The aims of the proposed project are: 1. To determine whether dietary weight loss in combination with aerobic exercise is more beneficial than dietary weight loss alone in reducing nervous system activity and improving metabolic and cardiovascular parameters in middle-aged men and women with abdominal obesity and the MetS. 2. To determine whether weight loss maintenance four months after active weight loss is associated with a preservation of clinical benefits. 3. To study biological determinants of successful weight loss and weight loss maintenance.