View clinical trials related to Insulin Resistance.
Filter by:Based on our hypothesis that orally administered GOS will be fermented into a SCFA pattern high in acetate and that this will lead to beneficial effects on human substrate and energy metabolism, we aim to address the following primary objective: To investigate the effects of a 12-week supplementation of GOS on peripheral insulin sensitivity and body weight control in obese adults with impaired glucose homeostasis.
The goal of the proposed research is to identify effective patient-centered strategies to prevent diabetes in high-risk populations in real world settings. The investigators will accomplish this by conducting a randomized controlled trial comparing an enhanced Diabetes Prevention Program addressing psychosocial stressors to a standard version in a high-risk population of urban American Indian and Alaska Native people within a primary care setting.
This study evaluates the existence of a day-night rhythm in skeletal muscle energy metabolism in healthy lean subjects. Subjects will stay at the research facility for 44 hours with a standardized living protocol during which several measurements of skeletal muscle and whole body energy metabolism will be performed.
BACKGROUND: Surgical injury and inflammation provoke a stereotypical stress response. Insulin resistance plays an intriguing role in these metabolic alterations and depends on the intensity of injury. Metabolic derangements resulting from peripheral insulin resistance are unambiguously related to adverse outcomes and higher perioperative complication rates. Therefore, insulin resistance offers to act as a marker for stress and is potentially relevant in predicting clinical outcome. Plasma-glycosylated hemoglobin A (HbA1c) is an established indicator for blood glucose control and has a prognostic value regarding outcomes after major surgical interventions. Adipose tissue holds a key function in endocrine metabolism by releasing multiple substances, so-called adipose-derived secreted factors or adipokines. Recent studies have linked several adipokines to overall insulin sensitivity in metabolic syndrome-related conditions as well as in critical illness. Irisin, a recently identified myokine acts on white adipose tissue and plays a role in the prevention of insulin resistance. AIMS OF THE STUDY: The aim of this study is to assess the level and the effects of perioperative insulin resistance on clinical outcome in cardiac surgery patients. Based on previous studies suggesting glucose homeostasis and insulin resistance are associated with severity of illness and outcome in critically ill patients,it is proposed that patients with marked insulin resistance suffer from worse clinical outcome. This study protocol evaluates the ability of homeostasis model assessment (HOMA), quantitative insulin sensitivity check index (QUICKI), HbA1c, the adipokines Angiopoietin-like protein 2 (ANGPTL2), C-X-C motif chemokine 5 (CXCL5), and visfatin, and the myokine irisin to indicate perioperative insulin resistance and explores for correlation with adverse clinical outcomes after 30 days. MATERIAL & METHODS: 325 patients admitted to the surgical intensive care unit after elective on-pump cardiac surgery will be consecutively enrolled. Baseline characteristics and routine blood samples will be assessed the day before surgery. Study blood samples will be drawn preoperatively in the induction bay of anesthesia to measure the insulin resistance indices HOMA and QUICKI, HbA1c, ANGPTL2, CXCL5, visfatin, and irisin. Blood glucose, irisin, adipokines, and routine biochemical tests will be assessed upon admission to the intensive care unit and on postoperative days 1 and 3. Adverse outcomes will be assessed 30 days after surgery. Sample size is set to ensure at least 80% power at a significance level of 0.05.
The purpose of this study is to study the effects of sleep restriction on the production of two hormones, cortisol and testosterone. The investigators aim to show that changing these hormones leads to insulin resistance, which is an important cause of type 2 diabetes mellitus. The investigators may also study the effect of sleep restriction on your food intake and cravings, mood, inflammation, metabolism (including bone), and other hormones. Inflammation is your body's response to stress and injury. Bone metabolism is a process of how your body regenerates (renews) new bone cells and removes old bone cells. Hormones are natural substances (materials) that are produced in the body and that influences (effects) the way the body grows or develops.
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.