Active clinical trials for "Insulin Resistance"

Background: Morbid obesity is associated with decreased brain µ-opioid receptor availability, possibly resulting in higher food intake needed to gain pleasure from eating. This decrease seems to normalize already 6 months after bariatric surgery, but the longer-term effects have not been studied. Obesity and insulin resistance result in significantly increased brain insulin-stimulated glucose uptake, whereas in every other tissue glucose uptake is lower. One possible explanation to this could be central inflammation and activation of brain glial cells, which has been shown to occur in animal models of obesity. Obesity has also been shown to associate with increased risk of Alzheimer's disease and cognitive decline in several studies. Aims: The first objective of this study is to both study the effects of bariatric surgery as well as compare the effects of gastric bypass and sleeve gastrectomy on food-associated pleasure, extending the follow-up period to 2 years postoperatively. The second aim is to investigate the effect of morbid obesity and weight loss on brain inflammation and gliosis and its association with increased brain insulin-stimulated glucose uptake. Furthermore, association of obesity, insulin resistance, central inflammation and neurocognitive dysfunction are evaluated.

50% of Arizonans are diabetic or pre-diabetic resulting in $6.4 billion in health care and productivity costs. The severity and incidence of Type 2 Diabetes Mellitus (T2DM) is directly related to the hepatic lipid concentration. The degree of hepatic lipid accumulation is communicated by the hepatic vagal afferent nerve (HVAN) to regulate pancreatic insulin secretion and whole body insulin sensitivity. We have shown that obesity enhances expression of GABA-Transaminase (GABA-T) decreasing hepatic release of the excitatory neurotransmitter, aspartate, and increasing release of the inhibitor neurotransmitter, GABA. This enhanced inhibitory tone decreases hepatic vagal afferent nerve activity, increasing pancreatic insulin release and decreasing skeletal muscle glucose clearance/insulin sensitivity. Pharmacological inhibition of GABA-T robustly improves glucose homeostasis in diet induced obese mice. We propose 2 clinical objectives that will test the effect of GABA-T inhibition on glucose tolerance and insulin sensitivity in obese, hyperglycemic, hyperinsulinemic patients.

Non diabetic patients on renal replacement therapy are prone to changes in body composition with an increase in visceral fat and muscle wasting all favoured by the insulin resistant state. Malnutrition is associated with a worst prognosis in these patients. Glitazones are the most powerful insulin sensitisers available in clinical practice which also have anti-inflammatory properties. Their use has been associated with significant and favourable changes in body fat distribution in type 2 diabetic subjects. Experimental studies suggest that glitazones may attenuate muscle wasting in renal failure. The goal of this study was to examine in non diabetic ESRD patients the effects of pioglitazone on inulin sensitivity and protein metabolism as determined by the hyperinsulinemic euglycemic clamp and on changes in body composition as determined by anthropometric measurements, dual energy X-ray absorptiometry (DEXA) and CT-scan determined changes in abdominal visceral and sub-cutaneous fat.

Substudy examining cardiovascular and metabolic risk factor change in children at high risk for future atherosclerosis who are enrolled in a pilot intervention using novel gaming and exercise activities to increase physical activity.

BACKGROUND The effects of ACE-inhibitors on fibrinolysis are well documented. Experimental and clinical studies have shown that ACE inhibitors induce a reduction in plasma PAI-1 levels in many cardiovascular diseases, like hypertension, coronary heart disease, and heart failure. Their effects on t-PA are more controversial, due to the fact that t-PA exists in several forms, including free and bound to PAI-1. Indeed an increase in t-PA activity has been observed in humans and it seems related to bradykinin increase which is known to stimulate endothelial t-PA synthesis. These favourable effects on fibrinolysis could be related not only to the Angiotensin II reduction and the bradykinin increase but also to the improvement in insulin sensitivity, as insulin has been suggested as one of the main regulators of fibrinolytic activity. To date conflicting results have been reported about the effects of ARBs on fibrinolysis. Some studies have reported small improvements, others no significant effect. These conflicting results may be due to possible methodological bias but a possible pathophysiological explanation might be that receptor subtypes other than AT1 mediate the effect of Angiotensin-II on endothelial PAI-1 expression, i.e. the AT4 receptors, and during AT1 receptor blockade there is an important increase not only of Angiotensin-II, but also of all its catabolites including Angiotensin IV. The dissimilar effects on of ACE Is and ARBs may also depend on their different action on the RAS and their different effect on insulin sensitivity: ACE-Is improve insulin sensitivity, while the majority of ARBs have been reported to have a neutral effect. Moreover, unlike ACE-Is, ARBs do not affect the metabolism of bradykinin, which is known to stimulate t-PA synthesis and release. AIM OF THE STUDY The aim of this study is to verify the effect of imidapril compared to candesartan on insulin sensitivity, evaluated through the euglycemic hyperinsulinemic clamp, and on fibrinolysis, evaluated through the plasma PAI-1 and t-PA activity, in mild to moderate hypertensive patients.

The purpose of this study is to evaluate the effect of blueberry powder on insulin sensitivity in obese, non-diabetic, and insulin resistant subjects. The investigators hypothesized that supplementation with blueberry powder will result in an increase in insulin sensitivity in obese subjects with insulin resistance.

Obesity and type 2 diabetes are occurring at epidemic rates in the United States and worldwide. The global burden of diabetes is estimated to double over the next 25 years. Obese children are at risk for the development of insulin resistance, relative insulin deficiency and type 2 diabetes mellitus (DM). The prevention of type 2 DM is hindered by the lack of a non-invasive predictive test, knowledge as to individual risk and effective preventative measures. There is increasing evidence that alterations in mitochondria contribute to the development of diabetes in humans. Therefore, it is important to explore mitochondrial dysfunction as a potential predictor of diabetes in children and a potential target for prevention. The aims of the proposed protocol are to determine whether an intensive exercise intervention can improve mitochondrial function in children identified as having mitochondrial dysfunction and insulin resistance. The use of a non-invasive imaging technique will allow for a functional in vivo assessment of mitochondrial activity. The investigators propose the investigation of an intensive exercise protocol designed to improve mitochondrial function in children who are insulin resistant and have documented mitochondrial dysfunction by magnetic resonance spectroscopy. The study is designed to investigate the plasticity of abnormal mitochondrial function in high risk children. In summary, the proposed projects will investigate mitochondrial function as a non-invasive predictive marker for the development of insulin resistance and type 2 diabetes mellitus in children and attempt to modify mitochondrial function with an intensive exercise intervention. The study of mitochondrial dysfunction in children may both identify those at risk for disease and provide a molecular therapeutic target for prevention and treatment. The investigators hypothesize that children with insulin resistance and mitochondrial dysfunction who are randomized to intensive exercise versus standard lifestyle advice will show improvement in mitochondrial function and insulin sensitivity.

A multicenter, open-label, single-arm study with regard to the efficacy and safety of empagliflozin in patients with refractory diabetes mellitus with insulin resistance

The effect of N-acetylcysteine supplementation on carbohydrate metabolism disorder and homocysteine concentrations in obese women will be analysed.

This study examine oral bisphenol A consumption on muscle insulin sensitivity and hepatic glucose suppression. Half of the participants will receive a diet plus BPA and the other half will receive a diet plus no bisphenol A.