View clinical trials related to Insulin Resistance.
Filter by:The purpose of this study is to find out if giving certain amino acids to critically injured patients can improve their condition or recovery, and lower their blood sugar and insulin needs. Amino acids are the 'building blocks' of proteins. The amino acid compound used in this study is called alanyl-glutamine dipeptide, also known as Dipeptiven® or glutamine. Glutamine is investigational, meaning not approved by the Food and Drug Administration (FDA) for intravenous use. However, it is approved by many countries in Europe, Asia and South America. Several studies suggest that giving glutamine has certain benefits in patients who need intensive care. In a study done at Emory University Medical Center using the same dose of glutamine, the number of hospital infections was lower in patients who had had cardiac, blood vessel or intestinal surgery compared to similar patients who received standard feedings without glutamine. No side effects were thought to be due to giving glutamine in that small study. This study is only being done at Vanderbilt University. The investigators plan to enroll 24 patients in the Trauma ICU over the next 12 months.
The Health Influences of Puberty (HIP) Study is designed to explore the relationships between puberty and the onset of type 2 diabetes in adolescents. The results of this study will help us better understand how to prevent type 2 diabetes in these youth. Children go through many changes during puberty, including important hormonal and behavioral alterations. Among these changes, it has long been known that, during puberty, insulin does not work as well as it does before and after puberty. This is called physiologic insulin resistance. In healthy children, this does not cause diabetes or affect blood sugar in any way because the body is able to compensate by making more insulin. Indeed, this is thought to be an important part of the adolescent growth spurt. However, in some children with increased risk for developing type 2 diabetes due to obesity and genetics, the worsening insulin resistance of puberty cannot be compensated for and these youth get diabetes early. The investigators believe this is because type 2 diabetes is rarely, if ever, seen before puberty begins, and the peak of diabetes onset in adolescents occurs at the time of the worst insulin resistance. This specific research project has two goals: 1. To examine effects of obesity on how well the body's insulin works during puberty, and 2. To see if treatment of obese children during this critical period of puberty with a medication that improves insulin resistance (metformin) will help prevent early onset type 2 diabetes.
The overall objective of this ancillary study is to obtain skeletal muscle and subcutaneous adipose tissue biopsies from women with polycystic ovary syndrome enrolled in the PULSE Study (NCT01482286).
The purpose of this study is to determine whether preload of carbohydrate or water before elective hip replacement improve insulin sensitivity and or beta cell function in human.
This study will examine whether hesperidin, a major component of citrus fruits, affects how the body responds to insulin in healthy and obese people. Laboratory studies suggest that hesperidin treatment lowers blood pressure, lowers blood sugar and increases blood flow. This study will see if hesperidin improves insulin resistance or insulin's effects on blood flow in people with insulin resistance. Healthy normal weight or overweight people between 21 and 65 years of age may be eligible for this study. Participants are randomly assigned to take hesperidin or a placebo (inactive dummy pill ) for a 4-week treatment phase.
This study is being done to find out if participants with insulin resistance and hepatitis C virus genotype 1 (HCV GT1) infections who failed dual therapy with peginterferon alfa (PegIFN) + ribavirin (RBV) will benefit from the addition of boceprevir to PegIFN + RBV (triple therapy).
The aim of this study is to examine whether periodic fasting improves markers of diabetes risk and cardiovascular health, and will compare this to the effects observed with daily dieting by energy restriction, and also with no change in energy intake. It is hypothesized that periodic fasting, with or without weight loss, will be as effective as daily energy restriction to improve markers of metabolic health and energy metabolism.
The purpose of this study is to measure the beneficial effects of an optimized berries extracts on diabetes and cardiovascular diseases prevention. Our hypothesis is that including a polyphenol rich berries extract in daily feeding will improve insulin sensitivity, glucose tolerance, pancreatic β-cells function, lipids and inflammatory profile, and oxidative stress markers.
The objective of our study is to determine the effects of fish protein on insulin sensitivity in PCOS women with insulin resistance, and its mechanism of action on glucose and endocrine metabolism. Our working hypothesis is that dietary fish protein improves insulin sensitivity, glucose tolerance, and related plasma endocrine and lipid abnormalities in PCOS women by restoring secretory β-cell function and insulin signaling to the PI 3-kinase activity/Akt pathway. We further hypothesize that fish protein will improve cycle regularity and ovarian function.
Pre-diabetes, a condition characterized by hyperglycaemia, is associated with increased cardiovascular risk and reduced life expectancy, as compared to the general population. AMP-activated protein kinase (AMPK) is an enzyme that plays a key role in cellular energy homeostasis and metabolism, and recently it has been demonstrated that AMPK regulates aging pathways, as well. AMPK is susceptible to modulation through pharmacologic (e.g. metformin) and non-pharmacologic (e.g. physical exercise) interventions. This clinical trial aims to describe the effects of the AMPK pathway on longevity genes and inflammation in the setting of pre-diabetes in vivo and in vitro. To this end, the investigators will compare treatment with metformin (500 mg t.i.d) for 2 months, versus placebo in pre-diabetic subjects. The investigators will assess expression of longevity genes SIRT1, p66Shc, p53 and mTOR in peripheral blood mononuclear cells (PBMCs) ex vivo. The investigators will evaluate monocyte polarization by flow cytometry, according to the expression of surface antigens (CD68, CCR2, CD163, CD206, CX3CR1) to determine the prevalence of pro- or anti-inflammatory cells. Inflammatory cytokines (TNF-alpha, MCP-1, IL-1, IL-6, IL-10, CCL12) will also be determined. In the in vitro study the investigators will evaluate the effects of AMPK activation or inhibition on longevity gene and protein expression.