View clinical trials related to Insulin Resistance.
Filter by:Preliminary research suggests that LIM-0705 improves insulin sensitivity with neutral effects on weight in obese and diabetic rodent models. Results from a Phase 1b clinical study, conducted in healthy volunteers, indicate that LIM-0705 and a major metabolite may be potential insulin sensitizers by OGTT.
Obesity is an epidemic in Western society and is the biggest risk factor for insulin resistance and type 2 diabetes. The investigators have preliminary evidence showing that hyperbaric oxygen therapy rapidly increases insulin sensitivity in humans. This requires confirmation in a larger population, and with this study the investigators will also test for mechanisms how this occurs. The investigators suspect that modulation of hypoxia and stress response proteins following changes in tissue oxygenation may contribute to these improvements. This study has the potential to yield new and important insights into the insulin resistance in obesity.
Resveratrol is a natural polyphenol (a compound containing a phenol functional group) that can be found in many plants. The purpose of this research is to study the effects of resveratrol on the action of insulin (a hormone produced in the body by the pancreas that regulates the amount of sugar in the blood), fat accumulation, and inflammation in the body.
The purpose of this research is to study the effects of Vitamin D supplementation on the body's response to insulin (a hormone that controls blood sugar), on inflammation, and on specific cells and processes in fat tissue.
Prolonged fasting may increase the organic response to trauma. Carbohydrate-based drinks have been tested and they may reduce insulin resistance. No study so far has aimed to examine the possible benefits of whey protein drink in the composition of preoperative drinks.
The aim of this study is primarily to investigate the ability of antioxidants found in orange juice (OJ) to improve the serum lipid profile. Overweight or mildly obese men, who are otherwise healthy, but with elevated serum total cholesterol concentration will be recruited. The time commitment for subjects is ~14wks. Subjects will attend the laboratory on 5 occasions after fasting from midnight. The 1st is a medical screening. Laboratory visits 2 & 5 will take ~90min and will be separated by 3 months, during which time subjects will consume 250ml of an orange drink (either OJ or an orange flavoured control drink) once a day. During visits 2 & 5, subjects will have a scan to assess their %body fat using a low-dose x-ray machine, a 20ml blood sample taken and a small sample of fat tissue (about the size of a haricot bean)taken from underneath the skin of the belly. Subjects will record their food intake for 3-days in weeks 3, 7 and 11 of consuming the drink, and come to the lab for visits 3&4 during weeks 4&8. Laboratory visits 3&4 repeat measurements taken in the 1st (screening) visit.
The purpose of this study is to determine the role of inflammation and the insulin regulating hormone GLP-1 during critical illness.
The biological basis for insulin resistance associated with obesity is unknown. By studying equally-overweight/obese individuals who are either insulin resistant or insulin sensitive, the investigators will compare characteristics of fat tissue to test several hypotheses: 1) impaired differentiation and fat storage in the subcutaneous fat depot characterize insulin resistant individuals, who have, as a result, fat in other tissues like liver and muscle, as well as more fat circulating in the blood; 2) inflammation is greater in visceral and/or subcutaneous adipose tissue depots in insulin resistant individuals as compared with insulin sensitive individuals.
The goal of the present research is to compare the effects of treatment with metformin and sitagliptin, alone or in association, in women with previous gestational diabetes to evaluate the impact of the two drugs on beta-cell function. The study results may contribute to give a rational approach for future investigations.
Obesity has a greater detrimental impact on the health of African American women than on any other racial or gender group. Nearly 80% of African American women are overweight or obese in the United States. Hypertension and insulin resistance are more prevalent among African American women as compared to men and Caucasians. These conditions put them at increased risk for the development of diabetes mellitus and cardiovascular disease. Recent studies have reported that a substance named Nitric Oxide (NO)may have some beneficial effect on how the body handles blood sugar and blood pressure. Of interest,some studies have shown that African Americans have decreased function of NO in their blood vessels. In this study proposal the investigators will test if increasing NO function with a PDE-5 inhibitor (sildenafil citrate) will improve pre-diabetes and the health of the inner layer of the blood vessels in obese African American women.