View clinical trials related to Insulin Resistance.
Filter by:The aim of this study is to describe the metabolic changes during pregnancy in women with type 2 diabetes or gestational diabetes in order to detect the pathophysiological mechanisms behind severe insulin resistance during pregnancy as well as the short- and long term consequences for mother and child. Included pathophysiological mechanisms potentially associated with severe insulin resistance are: Maternal hormonal, inflammatory and metabolic markers in the blood, as well as the level, content and bioactivity of exosomes and genetic variants associated with overweight and diabetes. In addition to the analysis on maternal blood, the same analysis will be performed on umbilical cord blood in order to determine the correlation between markers associated with insulin sensitivity in maternal and umbilical blood. Furthermore, fetal metabolic changes influence on fetal growth and development will be evaluated. Postpartum, the breast milk will also be examined for metabolic active substances that could influence the newborns growth and metabolism. Investigating one potential short-term consequence of diabetes during pregnancy, the association between insulin resistance and structural and functional changes in the placenta will be examined as well as the consequences of such changes on fetal growth and development. Investigating one potential long-term consequence of diabetes during pregnancy, the association between treatment with high doses of insulin during pregnancy and the future risk of developing cardiovascular diseases and heart failure will be examined.
The purpose of this study is to better understand the interactions between the innate immune system, in particular eosinophils (EOS), and adipose tissue (AT) in human health and in disease states such as obesity and insulin resistance.
The study will be carried out at the hospital of the medical school of sao paulo (HC-FMUSP) and the goal is to compare the effects of the administration of myo-inositol in relation to the effects of metformin in women with Polycystic Ovary Syndrome and insulin resistance or glucose intolerance. Menstrual cycle, hyperandrogenism, chronic inflammatory process, carbohydrate metabolism, hepatic steatosis will be evaluated. In total, 60 women in the reproductive period, with a variable age between 18 and 36 years old will be recruited and randomized in two groups: intervention- myo-inositol for 6 months, control group will use metformin also for 6 months.
It has been observed that subjects with obesity and insulin resistance have higher concentrations of branched chain amino acids in plasma or serum. However, this association has been established under fasting conditions, so they only give information about a metabolic state and do not reflect the dynamics and flexibility of the metabolism of these amino acids in the absence or presence of insulin resistance. The main aim of this study is to compare the catabolism of branched chain amino acids and their keto acids in subjects with and without insulin resistance, after the infusion of an amino acid solution with high concentration of the branched chain amino acids, leucine, valine, and isoleucine. The results of this project will allow the investigators to understand the dynamics of the branched chain amino acids and their derivatives, and its relationship with insulin resistance, which could eventually be used to design nutritional strategies to treat insulin resistance and thus, delay the development of type 2 diabetes.
Obesity, which has a prevalence at 15% in France, is a major public health concern. Altered glycemic control and irritable bowel syndrome (IBS) are frequently observed in obese patients and lead to reduce the quality of life. In the last decades, the role of gut microbiota and intestinal permeability has been underlined in obesity, glycemic control and IBS. Interestingly, experimental and clinical data show that glutamine, an amino acid, is able to maintain or restore intestinal permeability in different conditions. We thus hypothesize that oral glutamine supplementation may restore gut barrier function contributing to improve glycemic control and IBS-symptoms. Our project will thus aim to evaluate the effects of 8 weeks - oral glutamine supplementation on glycemic control and IBS symptoms in obese patients in a blinded randomized controlled trial. Placebo group will received protein powder. 55 obese patients will enrolled in each arm and will received oral glutamine supplementation or protein powder (10g t.i.d.) during 8 weeks. Blood and feces samples and intestinal permeability assays will be performed at baseline (w0), after 8 weeks of supplementation (w8) and then after 8 weeks of a wash-out period (w16).
There is an urgent need to engineer targeted physical activity interventions that are effective and scalable for obese adolescents and young adults (AYA) with type 2 diabetes (T2D), who often have very low levels of physical activity. The BEAM Trial is a proposed mobile health (mHealth) intervention that uses behavioral economic-informed financial incentives and text messaging to promote physical activity in AYA with T2D and prediabetes.
The study investigates the relationship between activation of AMP-activated protein kinase (AMPK) in human skeletal muscle and the subsequent improvement in muscle insulin sensitivity for the stimulation of glucose uptake. This will be investigated in young healthy lean male subjects.
Hyperglycemia is a major risk factor for the micro- and macro-vascular complications of diabetes . Lowering blood glucose levels has been shown to reduce the incidence of diabetes complications. Therefore, there is a need for a simple surrogate biochemical marker for glycemic variability. Glycated hemoglobin (HbA1c) is the standard clinical measurement used to monitor glycemic status and is recommended to assess control of diabetes over the preceding 2-3 months. However, being a measure of mean glucose, it does not reflect glucose variability. It is well known that insulin secretion defects of islet β cells and/or tissue insensitivity to insulin are common pathophysiological mechanisms of diabetes mellitus (DM) . The elevation in the blood glucose level usually represents the degree of glucose metabolism disorder, which is generally assessed by glycated hemoglobin A1c ( HbA1c) and indirectly reflects the extent of β-cell function damage . In the recent years, 1,5-anhydroglucitol (1,5-AG) has received attention as a short-term blood glucose index that reflects the average blood glucose level 1,5 AG reflects the average maximum blood glucose level during the past 1-2 weeks and is reported to be a more sensitive marker of glucose variability and postprandial hyperglycemia than HbA1c, even for patients with prediabetes and for those with well or moderately controlled diabetes . (1,5 AG ) is structurally similar to glucose . Due to this similarity, glucose inhibits renal reabsorption of 1,5 AG by competitive inhibition ,resulting in an inverse correlation of 1,5 AG with hyperglycemia . 1,5-AG levels are acting as an effective supplement to HbA1c. Additionally, previous study showed that 1,5-AG and HbA1c had opposite curves with increasing blood glucose levels; specifically, with the increase in HbA1c levels, 1,5-AG levels decreased significantly . Therefore, we speculate a ratio of 1,5- AG / HB A1C in relation to islet β-cell function and insulin resistance. The aim of our study was to evaluate the role of 1,5 anhydroglucitol and 1,5 anhydroglucitol / HbA1c ratio as a potential biomarker for islet β-cell function and insulin resistance among patients with type 2 diabetes .
In this study, we investigate the impact of insulin resistance on the acceleration of brain aging, and test whether increased neuron insulin resistance can be counteracted by utilization of alternate metabolic pathways (e.g., ketones rather than glucose). This study has three Arms, which together provide synergistic data. For all three Arms, subjects are tested in a within-subjects design that consists of 2-3 testing sessions, 1-14 days apart, and counter-balanced for order. During each session we measure the impact of fuel (glucose in one session, ketones in the other) on brain metabolism and associated functioning. For Arms 1-2, our primary experimental measure is functional magnetic resonance imaging (fMRI), which we will use to trace the self-organization of functional networks following changes in energy supply and demand. Arm 1 tests the impact of endogenous ketones produced by switching to a low carbohydrate diet, while Arm 2 tests the impact of exogenous ketones consumed as a nutritional supplement. For Arm 3, we use simultaneous magnetic resonance spectroscopy/positron-emission tomography (MR/PET) to quantify the impact of exogenous ketones on production of glutamate and GABA, key neurotransmitters. Subjects will be given the option to participate in more than one of the Arms, but doing so is not expected nor required. Prior to scans, subjects will receive a clinician-administered History and Physical (H&P), which includes vital signs, an oral glucose tolerance test (OGTT), and the comprehensive metabolic blood panel. These will be used to assess diabetes, kidney disease, and electrolytes. If subjects pass screening, they will be provided the option to participate in one or more Arms, which include neuroimaging. To provide a quantitative measure of time-varying metabolic activity throughout the scan, based upon quantitative models of glucose and ketone regulation, as well as to be able to implement safety stopping rules (see below), we will obtain pin-prick blood samples three times: prior to the scan, following consumption of the glucose or ketone drink, and following completion of the scan. To assess effects of increased metabolic demand, we measure brain response to cognitive load, transitioning from resting-state to spatial reasoning through a Tetris task. To assess effects of increased metabolic supply, we measure brain response to glucose or ketone bolus.
Insulin Resistance is one of the common complications that occur during pregnancy. Early intervention is essential to prevent the development of the diseaseThere is evidence that physical inactivity increases the risk of a lot of adverse health problems, including coronary heart disease, type 2 diabetes, breast and colon cancers. It also shortens life expectancy. Pregnancy is a period in the life of women that is often associated with decreased daily physical activity and decreased participation in sports and exercise . In the first few weeks of pregnancy, maternal carbohydrate metabolism is affected by a rise in maternal levels of estrogen and progesterone that stimulates pancreatic β-cell hyperplasia and insulin secretion. As pregnancy progress, pancreatic islet cell hypertrophy continues and there is an increased insulin response to glucose or meal stimulation.