View clinical trials related to Insulin Resistance.
Filter by:Obesity is a serious medical condition, the adverse consequences of which include increased risk of cardiovascular disease, diabetes mellitus, reduced fertility and cancer. The economic cost of obesity was placed at $58 billion dollars in Australia in 2008 [1]. Studies in mice and non-human primates have shown that moderate caloric restriction (CR) increases lifespan and reduces the incidence of cardiovascular disease, cancer, and type 2 diabetes [2]. Reduced risk of chronic diseases is also observed in humans following CR [3]. However, daily CR is difficult to maintain long term, since the body defends against weight loss by inducing "metabolic adaptation"[3] and altering the hormonal appetite response [4]. An emerging number of studies are examining the effects of limiting food intake to prescribed time periods per day, or every other day. Time restricted feeding (TRF) describes a dieting approach where food is available ad libitum, however only for a limited period of time (i.e. 3-12 hours). This pilot study will examine the effects of restricting daily food intake to within a 10 hour period on glycaemic control, body weight and biomarkers of metabolic health for 6-weeks. This study will build on the existing knowledge base in humans as to whether meal timing, rather than caloric restriction per se, is important to provide the stimulus required to improve metabolic health and reduce risk of chronic disease.
The investigators are doing this research study to look at the relationship between testosterone (the main sex hormone in men) and insulin (the hormone that controls blood sugar levels) in men with Idiopathic Hypogonadotropic Hypogonadism (IHH). The investigators hypothesize that normalizing testosterone levels in men with IHH enhances insulin sensitivity, reduces visceral fat, increases lean body mass, and improves the lipid profile.
Randomized, double blind, placebo-controlled clinical trial examining the efficacy and safety of mifepristone 600 mg daily in male subjects with type 2 diabetes mellitus, not associated with Cushing's syndrome
The purpose of this study is to help researchers learn about how the brain responds to rewards. This study is interested in seeing how these responses differ between people who are more and less responsive to insulin in their body, and people with and without depression.
Approximately 20 million people in the United States have some form of kidney failure. People with kidney failure have an increased chance of having low levels of high density lipid (HDL), so called "good cholesterol." Patients who are overweight or obese also have low levels of HDL. The investigators are trying to find out whether causes of low HDL are the same in people who are overweight and in patients with kidney failure so that in the future doctors can better treat low HDL cholesterol levels. People with low levels of HDL are more likely to have heart attacks and strokes and are more likely to lose kidney function. This study hope to learn more about how kidney failure causes low HDL cholesterol levels.
Insulin resistant subjects and type 2 diabetic patients are characterized by a decreased metabolic flexibility: a reduced capability to switch from fat oxidation in the basal state to carbohydrate oxidation in the insulin-stimulated state. This metabolic inflexibility is an early hallmark in the development of diabetes. Recent evidence suggests that a low carnitine availability may limit acetylcarnitine formation, thereby reducing metabolic flexibility. Thus, when substrate flux in the muscle is high, acetyl-CoA concentrations increase, leading to inhibition of pyruvate dehydrogenase (PDH) and thereby reducing glucose oxidation. The conversion of acetyl-CoA to acetylcarnitine relieves this acetyl-CoA pressure on PDH. To provide more direct insight into the effect of carnitine in preventing metabolic inflexibility and insulin resistance and to further explore the mechanism of action is the focus of this research. Here, we hypothesize that the capacity to form acetylcarnitine may rescue lipid-induced insulin resistance. To this end, insulin resistance will be induced by lipid infusion in healthy volunteers and it will be tested whether carnitine co-infusion can alleviate insulin resistance.
The purpose of this study is to investigate the effects of dietary exposure to artificial sweeteners on taste sensitivity, preference and brain response in adolescents using fMRI, psychophysical measures, and questionnaires. The investigators hypothesize that dietary exposure to artificial sweeteners (sucralose) will decrease sensitivity to taste, shift preference of sweet and savory taste to a higher dose, and reduce brain response in amygdala to sweet taste compared to sucrose.
Dementia (Alzheimer's Disease) is sometimes called "Type 3 Diabetes" because of the strong connection between Type 2 diabetes (a function of insulin resistance) with Dementia. The investigators therefore hypothesize that Reducing Insulin Resistance using Intensive Lifestyle Intervention (Exercise and Weight loss) + Metformin Treatment in Prediabetic & diet-control-only Diabetic overweight and mildly cognitively impaired individuals 55 years or older would lead to better Cognitive Function (compared to standard care) after 2 years. Subjects will be monitored and assessed using a battery of Cognitive and psychological tests and PET scans to demonstrate glucose utilization in the relevant areas of the brain. This 3-year open-label study aims to recruit 360 subjects with 50% (180 subjects) randomized to receiving Intensive lifestyle intervention with Metformin (if diabetic) vs the other 50% who would receive only the usual standard level of care in the primary care setting.
Major surgery results in a stress- induced catabolic response, marked by post-operative insulin resistance, hyperglycemia and loss of body protein, which is associated with increased morbidity, mortality and adverse outcomes. There has been a great deal of research on different approaches to optimize post-operative insulin sensitivity including hormonal and nutritional interventions, minimally invasive surgical techniques and epidural anesthesia. However, the correlation between insulin resistance and body protein loss is not well understood. Metformin is the most widely used insulin sensitizing and blood glucose-lowering drug in treatment of type 2 diabetic patients. This study will: 1) estimate the correlation between insulin resistance and body protein loss in pre-diabetic lung/colorectal resection patients; 2) investigate whether the post-operative metabolic state can be improved by the pre-operative administration of metformin; and assess the impact of metformin on surgical complications and hospital length of stay. The results of this study will provide insight into the relationship between insulin resistance and post-operative adverse events and potentially suggest a novel approach to improve outcomes using Metformin, a drug already in wide clinical use.
This study aims at assessing the effect of today's standard of hydrocortisone dosage versus previous hydrocortisone dosage on flexibility and partitioning of ectopic lipid depots (IMCL and IHCL) after a standardised fat load followed by a short-term aerobic exercise in patients with corticotropic pituitary insufficiency.