View clinical trials related to Insulin Resistance.
Filter by:The purpose of this study is to better understand the risk factors and causes of diabetes in people who received radiation to the abdomen as children. The investigators hope this information will allow them to improve how they screen people at risk for diabetes and how they treat patients in the future.
The primary purpose of the study is to evaluate, in obese and hypogonadal patients eligible for bariatric surgery, the effect of testosterone replacement therapy in improving lower urinary tract symptoms (LUTS) assessed using the IPSS (International Prostate Symptom Score) questionnaire, compared to hypogonadal untreated subjects and eugonadal subjects.
This study investigated any potential associations between two isocaloric diets with different meal frequency (3 meals versus 6 meals) and glycemic control in people at high diabetes risk (lean and overweight/obese women with PCOS, individuals with hyperinsulinemia, individuals with impaired glucose tolerance) and diagnosed with diabetes.
This research will investigate the effect of resveratrol on inflammatory mediators in type 2 diabetic patients in vivo. The investigators will also investigate the hypothesis that resveratrol has an antioxidant activity, improves insulin sensitivity and lipid pattern, down-regulates bone-turnover.
Obesity is a common problem in the Veteran population as at least 1 in 3 Veterans are obese. When obese people eat food they have less response in areas of the brain that sense pleasure (reward). Decreased pleasure response to food predicts future weight gain. It is not known if this poor brain response is reversible or why obese people's brains respond this way. Insulin in the brain regulates the brain's sensing of pleasure. As people gain weight the function of insulin becomes impaired. The investigators will study if impaired function of insulin is related to a poor brain response to food and if this brain response predicts voluntary intake of food and response to a diet. The investigators will also study if improving the function of insulin with weight loss improves the brain response. These studies will improve the understanding as to why weight loss is difficult and inform us if improving insulin signaling is a potential way to treat obesity.
BACKGROUND: The relation between gut microbiota and obesity originates from animal studies, showing that the change of gut microbiota can induce changes in both insulin resistance and body composition. In addition, these studies have shown changes in gut permeability inducing a pro-inflammatory state, changes in adipose tissue function and inflammation, effects on energy harvesting and metabolism, skeletal muscle fatty acid partitioning and fat oxidation. Human data is lacking, although several studies suggested that the composition of the gut microbiota differs between lean and obese, and between diabetic and non-diabetic individuals. OBJECTIVE: To provide insight in the physiological significance and underlying mechanisms involved in the relation between gut microbiota, energy balance and insulin sensitivity in overweight men with impaired glucose homeostasis.
In this study, consecutive patients with cryptogenic cirrhosis (NASH-related cirrhosis), coming to ILBS (Institute of Liver & Biliary Sciences) OPD (Out patient Department) or getting admitted in the ward will be enrolled on fulfillment of inclusion/exclusion criteria and consent of the patient. These patients will be randomised to either metformin arm or conventional treatment arm. After enrollment these subjects will be monitored every three monthly for total of 12 months or till the primary endpoint is achieved. At the end of the study, outcome will be measured appropriately.
The purpose of this study is to provide information regarding potential factors underlying metabolic dysfunction, insulin resistance, and loss of muscle mass in aging muscle.
The investigators will study the influence of fat cell size/number and adipose function on weight development over very long time periods (years). By comparing fat biopsies obtained at baseline and after >7 years, the investigators will determine the association between adipose morphology/function and changes in weight or development of cardiometabolic complications (e.g. insulin resistance, type 2 diabetes, dyslipidemia and hypertension).
Thickening of the heart muscle (left ventricle) known medically as Left Ventricular Hypertrophy (LVH) is very common in patients with heart disease. This increases risk of cerebrovascular/cardiovascular event. LVH is asymptomatic and managed by the use of medication to control blood pressure, however LVH may be seen in normotensive patients where factors such as obesity and insulin resistance are present. Insulin resistance is a condition where although the body produces insulin it is unable to utilize it effectively. Metformin, a drug used to treat diabetes, can reduce insulin resistance and cause weight loss, it may therefore improve LVH. This study will investigate the ability of metformin to reduce LVH in patients with heart disease, this may be a novel way forward in the risk reduction of cerebrovascular/cardiovascular events. Participants will be identified throughout NHS Tayside, those eligible will be randomly allocated to either metformin or a dummy medication (placebo) and will receive one year of treatment. At the beginning of the study, the thickness of the heart muscle will be measured by ultrasound scan and cardiac Magnetic Resonance Imaging (cMRI). We will also perform non-invasive tests to measure blood vessel function. These tests will be repeated after one year. At the end of the study, we will investigate the difference between placebo treatment and metformin treatment. This study is funded by the British Heart Foundation.