View clinical trials related to Insulin Resistance.
Filter by:The purpose of this study is to determine whether the investigational drug INCB013739 has an effect on systemic and adipose tissue 11-HSD1 activity in obese, insulin resistant subjects.
Visceral obesity is strongly associated with dyslipidaemia (hypertriglyceridaemia, low HDL-cholesterol and mildly elevated LDL-cholesterol) and insulin resistance, key characteristics of metabolic syndrome (MetS). Recent evidence has clearly established that the risk of CVD is increased in subjects with the MetS. The precise reason for this remains unclear, but appears to be closely related with dyslipidaemia. Effective management of dyslipidaemia is important to reduce the risk of CVD in these subjects. Hypothesis: Inhibition of hepatic cholesterol synthesis by statins and triglyceride synthesis by fish oils improve lipoprotein metabolism in visceral obese men.
The purpose of this study is to evaluate the metabolic and anti-inflammatory effects of eccentric endurance exercise and to compare them with those of concentric exercise in healthy sedentary individuals.
Background: 18B Glycyrrhetinic acid (active compound of Licorice) decreases serum potassium via enhanced renal potassium loss in healthy individuals and thereby inducing renal sodium retention and arterial hypertension.In dialysis patients this mechanism is disturbed and compensatory intestinal potassium secretion is enhanced. 18B Glycyrrhetinic acid is an inhibitor of 11B Hydroxysteroid dehydrogenase type 1 (11b HSD1). Inhibition of 11 b HSD1 offers a novel potential therapy to lower intracellular cortisol concentrations and thereby enhance insulin sensitivity. Hypothesis: Glycyrrhetinic acid decreases serum potassium by enhanced intestinal excretion in dialysis patients and increases insulin sensivity by inhibition of 11b HSD Methods: double blind, 6 month cross over trial comparing oral 18b Glycyrrhetinic acid with placebo in 24 nondiabetic dialysis patients. Endpoints: predialytic serum potassium levels, insuline sensitivity assessed by fasting glucose and fasting insulin concentrations
To better understand the mechanisms leading to lymphedema development in breast cancer survivors, and the implications for potential innovative approaches to the screening, prevention and treatment of this condition.
We hypothesize that Asian Americans compared to Caucasians, will be at higher risk of developing a pro-inflammatory state that may contribute to the development of heart disease and diabetes when they change from a traditional Asian diet to a typical Western diet. These inflammatory responses will be reflected by the activation of monocytes as measured by protein kinase C (PKC), a known activator of monocytes. We also hypothesize that the changes of these inflammatory responses in the gingival crevicular fluid (GCF) will reflect similar changes of these markers in the plasma and monocytes. Specific aims: 1. To compare the inflammatory responses (primarily PKC activation in monocytes), between Far-East Asian Americans and Caucasian Americans, when they change from a traditional Asian diet to a typical American diet. 2. To correlate the biochemical changes of inflammatory responses in the plasma and monocytes with those in the gingival crevicular fluid (GCF).
The aim of this study is to find out whether the hypoglycemic and improving insulin resistance effect will appear or not, when EA applying on specific acupoints of NIDDM patients.
A. HYPOTHESES: In older men low testosterone levels, abdominal obesity and elevated fasting insulin who are at risk for the cardiovascular complications such as heart attack and stroke. 1. Supplemental testosterone will decrease abdominal adipose tissue and hepatic fat) and appendicular fat and intramyocellular lipid in peripheral muscles (IMCL). 2. Supplemental testosterone will improve insulin sensitivity by: 1. Decreasing hepatic glucose output (HGO), a measure of central insulin resistance 2. increasing peipheral glucose disposal (Rd), a measure of periperal insuln sensiivity 3. . Improving peripheral glucose disposal (Rd) by reducing IMCL 4. Increasing appendicular skeletal muscle mass B. OBJECTIVES: 1. Primary Objective: To determine the effects of supplemental testosterone to achieve testosterone levels in the upper normal physiologic range on central adipose tissue (abdominal and hepatic fat) and peripheral skeletal muscle fat (appendicular fat and IMCL). 2. Secondary Objectives: To determine the effects of supplemental testosterone to achieve testosterone levels in the upper normal physiologic range:on central insulin sensitivity ( hepatic glucose output ([HGO]) and peripheral insulin sensitivity (glucose disposal (Rd) Results of this study will provide greater understanding whether androgen therapy enhances insulin sensitivity by decreasing HGO, improving peripheral Rd and if these desired effects are achieved, whether they are due to reductions in abdominal fat or liver lipid, IMCL or effects of augmenting muscle mass per se. Results will generate hypotheses to investigate cellular and molecular mechanisms of androgen effects in persons at risk for the Metabolic Syndrome.
The metabolic syndrome is a collection of health risks that includes obesity, high blood pressure, high triglycerides, high blood sugar, low good cholesterol, and resistance to insulin. The purpose of this study is to find out if the medication, rosiglitazone, influences levels of fat cell proteins and alters insulin resistance in nondiabetic persons with the metabolic syndrome. This is an early step to see if a medication, such as rosiglitazone, will be beneficial in people who have the metabolic syndrome.
Medications like olanzapine have been associated with the development of weight gain and diabetes in some patients. It is not known if the increased risk of developing diabetes is a direct effect on insulin or simply related to weight gain. We hope to learn in this study whether or not olanzapine directly slows down insulin secretion from the pancreas, thereby increasing the risk of developing diabetes.