View clinical trials related to Insulin Resistance.
Filter by:The purpose of this study is to learn more about what is the effect of uric acid on oxidative stress and on the way the body metabolizes sugar in obese people. Understanding this may lead to better diseases such as diabetes.
It is well established that the resistance to the effects of insulin on glucose metabolism develops with a lot of stress hormone release after surgical trauma. This condition is known as insulin resistance (IR) characterized by hyperglycemia, hyperinsulinemia and lactic acidosis. Surgical IR not only affect glucose metabolism but also influence protein synthesis, then further exacerbate the depletion of the carbohydrate, fat and protein. Postoperative pain is a challenging task for patients and surgeons, and it is part of the stress response to trauma and surgery, while the fear of pain can exacerbate the stress response. The main aim of this study was to invest whether effective postoperative analgesia can reduce the stress response and insulin resistance.
Diabetes is a major public health problem. Hispanics/Latinos are known to be at higher risk for type 2 diabetes. The function of the endothelium has played a key role in the understanding of vascular complications in people with diabetes. Endothelial function and vascular reactivity are impaired not only in white adults with type 2 diabetes but also in those at risk for the disease by virtue of having impaired glucose tolerance or parental history of type 2 diabetes. Whether this finding is applicable to hispanics is not known. The investigators plan to assess the endothelial function and vascular reactivity in young Hispanic adults at risk of developing type 2 diabetes by virtue of being obese and belonging to a minority population.
Type 2 diabetes is now more frequent in children/adolescents, especially in those from minority populations, including Hispanic Americans (HA). Diabetes and the pre-diabetes state markedly increase the risk of cardiovascular disease. Endothelial dysfunction is seen in the earliest stages of atherogenesis, which ultimately leads to cardiovascular disease. The main aim of this study is to evaluate the endothelial function in HA children/adolescents who are at risk for developing type 2 diabetes (obese children/adolescents from the Hispanic population). The investigators' hypothesis is that endothelial dysfunction is present in this population and that it is associated with metabolic abnormalities linked to the insulin resistance syndrome. The investigators will study 2 groups of 15 individuals each, age 10-18 years. Group 1 will consist of obese (body mass index greater than 85th percentile for age and sex) Hispanic American children/adolescents and group 2 will consist of healthy, non-overweight (body mass index between the 25th and 50 th percentile for age and sex) Hispanic American children/adolescents. The study will be carried out at the Joslin Diabetes Center. During the first day, participants will have a medical history and full physical examination, a standard OGTT and measurement of blood cell count, plasma glucose, insulin, lipids, HbA1c, BUN, creatinine, electrolytes, estradiol, testosterone, free fatty acids, CRP, endothelial markers, urinary microalbumin and hCG, if appropriate. An OGTT will be performed in order to rule out IGT or Diabetes. Estimations of insulin secretion and insulin sensitivity will be assessed using the homeostasis model assessment (HOMA). In the second day, the body composition and the brachial artery vasodilatory response to hyperemia will be assessed. Those found with diabetes will be tested for GAD-65 and IA2. The investigators' hypothesis is that Hispanic American children/adolescents at risk for type 2 diabetes have impaired endothelial function and vascular reactivity that are associated with the degree of insulin resistance and its metabolic abnormalities.
Physical activity is a powerful lifestyle factor that on average reduces risk for development of diabetes and cardiovascular disease. Nevertheless, investigators have demonstrated that following supervised endurance exercise training, 20% of subjects show no change in fitness and 30% demonstrate no improvement in insulin sensitivity. Our concept is that by using molecular profiling of blood/muscle samples investigators will develop personalised lifestyle intervention tools. Further, revealing the biological basis for a variable metabolic or cardiovascular response to exercise will enable us to propose new targets and biomarkers for drug discovery efforts directly in humans. Using our established OMICS approaches (RNA, DNA and Metabo-) investigators will generate classifiers that predict the responses to exercise-therapy (fitness and insulin sensitivity). Classifier generation is a statistical strategy for diagnosis or prognosis. Critically, investigators have a large human tissue biobank, including subjects with insulin-resistance; young to elderly males and females, as well as twins. Our SME partner has significant intellectual property and capacity in the field of bio-prediction, with a proven track-record of collaboration with the team and product development. Investigators will add to the diversity of our biobank by carrying-out an exercise intervention study using a novel time-efficient strategy that investigators have recently proven to be effective in reducing insulin resistance in sedentary young people and in middle aged obese subjects. A time-efficient protocol is a critical as lack-of-time is a key reason for not maintaining physical activity levels. Finally, investigators have a novel out-bred rodent model that replicates high and low exercise training responses and investigators will establish its suitability for future drug screening purposes. Because of these substantial pre-existing resources investigators believe that our project has a very high probability of delivering on its goals of improving the healthcare of European citizens.
It has been shown that asymptomatic obese adolescents can demonstrate abnormal regional myocardial contraction, with preserved global cardiac function. Metformin has been shown to decrease cardiovascular mortality in patients with type 2 diabetes and insulin resistance, but the mechanism of cardiovascular protection is unknown. The purpose of this study is to evaluate the reversibility of subclinical cardiovascular abnormalities in obese adolescents with insulin resistance after a six-month course of Metformin. The investigators hypothesized that the beneficial effects of Metformin will be progressive and sustained after six months of therapy.
The purpose of this study is to investigate the changes in subcutaneous adipocyte size, number and gene expression after weight loss and to assess whether those changes contribute to decreases in ectopic fat accumulation and insulin resistance in women between ages of 16-32.
Guided imagery, a mind-body complementary/alternative treatment modality, offers promise to reduce stress and promote lifestyle behavior change to reduce diabetes and heart disease risk in obese Latino adolescents. The overall purpose of this study was to determine whether guided imagery, could reduce diabetes risk in obese Latino adolescents undergoing a lifestyle intervention. The specific objectives were: 1) To pilot test a new 12-week lifestyle intervention in obese Latino adolescents, in order to determine the effects of the mind-body technique of Interactive Guided ImagerySM, over and above those of healthy lifestyle education, on eating and physical activity behaviors, stress and stress biomarkers, and hormonal markers of diabetes risk; and 2) To explore the way that changes in stress produced by the intervention were associated with changes in hormonal markers of diabetes risk, particularly insulin resistance. The investigators hypothesized that participants who received guided imagery program in addition to the healthy lifestyle education would show greater improvements in insulin resistance, physical activity, dietary intake, and stress, than those receiving the healthy lifestyle education without the guided imagery. The investigators further hypothesized that reductions in stress due to the intervention would be associated with improvements in insulin resistance, a major hormonal marker of diabetes risk. For this study, obese, Latino adolescents (age 14-17) were randomized to receive either 12 weekly sessions of the lifestyle education plus guided imagery program, or lifestyle education plus a digital storytelling computer program (as a control). Outcome measures were assessed before and after the 12-week intervention, comparing the differences between the intervention groups behavioral (eating and physical activity behaviors), biological (insulin resistance and stress hormones), and psychological (stress) outcomes.
The purpose of this pilot study is to find out what eating meals in a short time period early in the day (time-restricted feeding) versus eating meals spread out during the day (grazing) does to the body's ability to control blood sugar and to the health of its blood vessels. The investigators hypothesize that time-restricted feeding will be more effective at improving glucose tolerance and vascular condition (inflammation and micro- and macro-vascular function) than grazing.
Insulin resistance is a state where the body does not respond as it should to the insulin it produces. Individuals who are insulin resistant are at increased risk of both heart disease and type 2 diabetesÍž importantly, diabetes more than doubles the risk of heart disease, independent of other recognised risk factors. Interventions that prevent or reverse insulin resistance may help to attenuate risk of heart disease and diabetes. A number of randomised controlled trials provide proof of concept evidence regarding a beneficial effect of vitamin D on insulin resistance and other cardiovascular risk markers but experts have stated that further studies are required. Importantly, these studies should use appropriate endpoints, provide a high enough dose of vitamin D to optimise vitamin D status, and they should be conducted in clearly defined populations, The vitamin D trial we propose addresses these issues and aims to evaluate a potentially straightforward and low cost health care intervention for populations at highrisk of heart disease and diabetes. Specifically, this study would provide clinically relevant information on the metabolic effects of optimising vitamin D status in these high risk patients. This has clear economic and social implications given the current, and projected, burden of heart disease and diabetes. This study will investigate the effect of vitamin D3 supplementation on insulin resistance and cardiovascular risk factors in people at high risk of type 2 diabetes and cardiovascular disease using the gold standard euglycaemic hyperinsulinaemic clamp method.