View clinical trials related to Insulin Resistance.
Filter by:The NOURISH-OK Study will identify how food insecurity contributes to insulin resistance, an important surrogate marker of many co-morbidities in HIV disease, using an integrated framework to identify key leverage points for insulin resistance. Drawing from these pathways, this study will adapt and evaluate a community-driven, science-informed "food as medicine" intervention designed to lower insulin resistance through healthy food access, food utilization skills, and other self-care behaviors. Knowledge gained from this study can benefit those living with HIV through the prevention and more effective management of pre-diabetes, diabetes, obesity, and non-alcoholic fatty liver disease.
This study plans to learn more about differences in heart disease risk after gender-affirming orchiectomy (i.e., testes removal) in older transgender (trans) women compared to younger trans women.
This 12-week controlled diet and weight intervention study seeks to define the molecular pathways that link excess body weight to the development of insulin resistance (IR). Blood, adipose and stool are sampled at three timepoints; baseline, peak weight (4 weeks) and post weight loss to monitor changes in cellular processes. Additionally, direct insulin sensitivity testing, and radiological measurement of visceral fat and intrahepatic fat content is measured at three timepoints to correlate clinical indices with cellular changes.
The purpose of this project is to examine the impact of increases in brain insulin on sympathetic nervous system activity, as well as peripheral and cerebral blood flow in humans.
Insulin resistance (IR) is an important pathological feature of polycystic ovary syndrome (PCOS), with an incidence rate of up to 85%, which seriously affects the patient's fertility, quality of life, and offspring health, but the mechanism is unknown. The adaptor protein LNK is closely related to metabolic diseases. Our exome sequencing has found that the mutation rate of LNK gene in patients with PCOS and IR is high. Studies have found that LNK can affect adipose inflammation and impair glucose tolerance. Whether LNK is related to fat metabolism is worth further study. Our previous research found that: LNK expression was significantly increased in adipose tissue of patients with PCOS and IR. Knockout of LNK in PCOS IR model mice can reduce serum triglycerides, free fatty acids, high-sensitivity C-reactive protein levels and reduce fatty liver occurrence, which indicates that LNK has a mitigating effect on IR. Mechanism studies have shown that LNK knockout can upregulate the glucose transporter Glut4, also LNK and insulin receptor substrate IRS-1 can form protein complexes. Based on the above research basis, we propose the following scientific hypothesis: LNK in adipose tissue can regulate insulin signaling pathway by binding to IRS-1, downregulate Glut4, and participate in PCOS IR occurrence. This project intends to clarify the specific mechanism by which LNK regulates glucose transport and participate in IR in combination with clinical specimens, animal models and cell experiments, and provide scientific basis for LNK as a potential therapeutic target for PCOS IR.
Polycystic ovarian syndrome (PCOS) is associated with metabolic symptoms such as hyperinsulinemia. Time-restricted eating may reduce serum insulin and improve insulin resistance in patients with PCOS. Currently, there are few studies investigating time-restricted eating in patients with PCOS. The investigators plan to test the feasibility of time-restricted eating in the management of PCOS by means of a real-world clinical intervention. The investigators will determine if an 18:6 eating protocol reduces insulin levels by means of a randomised controlled crossover trial.
Diabetic kidney disease and cardiovascular disease remain the leading causes of morbidity and mortality in people with type 1 diabetes and are exacerbated with longer duration of diabetes and time outside goal glycemic range. Yet, type 1 diabetes is a complex disease with pathophysiology that extends beyond beta-cell injury and insulin deficiency to include insulin resistance and renal vascular resistance, factors that accelerate cardiovascular disease risk. We have shown that metformin improved peripheral insulin sensitivity and vascular stiffness in youth with type 1 diabetes on multiple daily insulin injections or standard insulin pumps. However, metformin's effect on kidney and endothelial outcomes, and the effects of type 1 diabetes technologies, with or without metformin, on any cardiovascular or kidney outcome, remains unknown. Automated insulin delivery systems combine an insulin pump, continuous glucose monitor, and control algorithm to modulate background insulin delivery and decrease peripheral insulin exposure while improving time in target range and reducing hypoglycemia. We hypothesize that automated insulin delivery systems, particularly when combined with metformin, may modulate renal vascular resistance and insulin sensitivity, thereby impacting cardiometabolic function. MANATEE-T1D is a randomized, double-blind, placebo-controlled trial of 4 months of metformin 2,000 mg daily in 40 youth aged 12-21 years with type 1 diabetes on automated insulin delivery systems vs. 20 control youth with type 1 diabetes on multiple daily injections plus a continuous glucose monitor or an insulin pump in manual mode plus a continuous glucose monitor which will assess for changes in calculated renal vascular resistance and gold standard measures of whole-body and adipose insulin sensitivity, arterial stiffness, and endothelial function.
The aim of the prospective observational DISTEMI-Study in people with and without Diabetes mellitus (DI) after new onset of ST-Segment Elevation Myocardial Infarction (STEMI) aged 18-80 years at inclusion into the study is to characterize in detail the clinical, metabolical, immunological and vascular phenotype, investigate the interplay between myocardial remodelling and the metabolic phenotype, monitor the progression of the disease and compare the phenotype of STEMI people with diabetes mellitus to people with prediabetes and glucose tolerant people.
High rates of de novo lipogenesis (DNL) and high saturated fatty acid (SFA) fraction in the liver both have been associated with poor metabolic health and hepatic insulin resistance. Interestingly, the end product of DNL is mainly SFA. So far it is unknown whether it is the process of DNL or the accumulation of SFA per se that leads to hepatic insulin resistance. Therefore, it is of interest to compare the effect of a diet that modifies directly hepatic SFA content (4-week high SFA diet) and a diet that changes SFA indirectly by modifying rates of DNL (4-week high fructose diet). To this end, 18 overweight/obese, but otherwise healthy, males and females will take part in the randomized dietary interventions. The primary outcome is hepatic insulin sensitivity (suppression of EGP during clamp) upon a 4-week high SFA diet versus a 4-week fructose diet.
Background: About 40 percent of adults and 20 percent of adolescents in the U.S. have a body mass index over 30 kg/m2. Being overweight may lead to a state of low-level inflammation. This may cause health problems. Researchers want to see if an anti-inflammatory medicine can help. Objective: To learn if colchicine can improve metabolism in people who have high body weight, increased inflammation, and high insulin in the blood but who have not yet developed high blood sugar. Eligibility: People aged 12 and older with high body weight who may have increased inflammation and high insulin in the blood. Healthy adult volunteers are also needed. Design: Participants will be screened with the following: Medical history Physical exam Fasting blood tests Urine tests Electrocardiogram Dual energy x-ray absorptiometry (They will lie on a table while a camera passes over their body.) Stool sample and 24-hour food diary (optional) Participants will have 3 study visits and 3 phone check-ins. At visits, they will repeat some screening tests. Healthy volunteers will have the baseline visit only. They will not get the study drug. At the baseline visit, participants will have an Oral Glucose Tolerance Test (OGTT). For this, they will drink a sweet liquid and then give blood samples. They will get a 12-week supply of the study drug or placebo to take daily by mouth. Participants will have study visits 6 weeks and 12 weeks after they started taking the study drug. At the 12-week visit, they will repeat the OGTT. Participation will last for 3 (Omega) to 4 months. ...