300,000+ clinical trials. Find the right one.

156 active trials for Insulin Resistance

A Novel Treatment Intervention for Improving Metabolism

Once written consent is obtained, the participant will be provided with an accelerometer to be worn for 7 days to assess current physical activity levels. Subjects will be provided with a standardized diet (55/15/30% CHO/PRO/FAT) prior to collection of pre-intervention data of insulin sensitivity. Individuals will then participate in an 8-week electrical stimulation intervention (30min/day, 3x/week) and randomized into placebo/control, NMES, resistance training combined with NMES (RT +NMES), or resistance training (RT) group (n=15 per group), followed by collection of post-intervention data. The control group will receive electrical stimulation up to sensory level, the NMES group will receive stimulation up to tolerable intensity to induce visible muscle contraction, the RT+ NMES will receive stimulation up to tolerable intensity during resistance training, and the RT group will only receive exercise training. Pre-and post-intervention data includes measurements for body composition, resting metabolic rate, VO2max, insulin sensitivity, and comprehensive blood work.

Start: October 2018

Fructose: Substrate, Stimulus, or Both?

This objective of this study is to use sensitive methodology under controlled conditions to investigate the mechanisms by which fructose consumption contributes to excess fatty acid synthesis and elevations in blood glucose levels following consumption of meals containing fructose.

Start: September 2019

Insulin Resistance and Accelerated Cognitive Aging

Premature and accelerated brain aging trajectories have been observed among people with metabolic dysfunction, but mechanisms of these altered trajectories are not understood. Insulin resistance (IR) is known to change with age and affect cognition in older and elderly adults as well as in patients with mood disorders. The main purpose of the study is to describe the developmental trajectory of cognitive and neural biomarkers across the spectrum of metabolic dysfunction in overweight/obese adults younger than 50 years of age. The innovative study design will allow the investigators to examine cognitive outcome development over a 25-year span without an investment into the longitudinal observation of changes in cognition and neural function.

Start: January 2017

Mechanisms of Inflammation, Immunity, Islet Cell and Intestinal Hormone Changes in Youth at Risk for Diabetes

This study intends to assess the role of inflammation in insulin resistant conditions (i.e., obesity and pre-diabetes) and the subsequent development of disease, such as type 2 diabetes (T2D) and cardiovascular disease (CVD), in the adolescent population.

Start: May 2017

The S.L.I.M.M.S. Procedure for Severe Clinical Obesity

Assessment of Gastric Bypass combined with Vertical Sleeve Gastrectomy as primary treatment for patients with severe clinical obesity. Average percentage of total weight loss and percentage excess weight loss will be computed at 6 months, one year and then annually. Comorbid conditions, quality of life measures, appetite and satiety measures and adverse events will be tracked.

Start: October 2020

Effects of Carnitine Supplementation on Liver and Muscle

It will be evaluated whether carnitine, a dietary supplement, reduces liver fat and improves metabolism in individuals who have a high concentration of fat within their liver. Participants will be given either Carnitine or placebo, together with a meal replacement milkshake twice daily for 6 months.

Start: April 2018

Effects of Obesity and Intensity of Exercise on Ghrelin Levels

This study is investigating the effect of different intensities of exercise on levels of the hormone, ghrelin. In addition, we will be examining the relationship between any exercise induced changes in ghrelin and insulin sensitivity, obesity, and vascular function.

Start: September 2020

Precision Nutrition and Metabolic Function

The purposes of this study are: 1) to determine the mechanisms responsible for the development of cardiometabolic complications in some, but not all people with obesity; 2) determine the best dietary approach for cardiometabolic health; and 3) understand why some people have a stable metabolic phenotype over time whereas cardiometabolic health improves or worsens in others.

Start: October 2019

Acupuncture or Metformin for Insulin Resistance in Women With PCOS

The hypothesis is that acupuncture is equally effective as metformin (both treatments combined with lifestyle management) in improving whole body glucose homeostasis in insulin resistant women with polycystic ovary syndrome (PCOS), and that both are superior to lifestyle management alone. The investigators hypothesize that acupuncture and metformin induce ovulation and improve hyperandrogenism, as well as health related quality of life (HRQoL) and symptoms of anxiety and depression. Although equally effective (acupuncture and metformin), the investigators hypothesize that acupuncture is associated with less negative side-effects. The investigators also hypothesize that these treatments have the potential to restore epigenetic and molecular alterations in target tissues (endometrial-, adipose-, and skeletal muscle tissue) and thus have the potential to prevent the development of type 2 diabetes (T2D).

Start: December 2015

Fiber and Metformin Combination Therapy in Adolescents With Severe Obesity and Insulin Resistance

This is a 12-month, single center, three-arm parallel design, double-blind, randomized clinical trial, to compare the effects of supplemental dietary fiber and metformin (MET) alone and in combination over 12 months on glucose metabolism (insulin resistance [IR]), inflammation and BMI in adolescents with obesity and IR, and to assess the relationship between therapeutic intervention(s) and changes in gut microbiome composition and function. Since MET and FIBER have been shown to reduce weight and increase insulin sensitivity through distinct but overlapping mechanisms of action, our central hypothesis is that the combination of FIBER + MET will have a synergistic effect and be more effective than FIBER or MET alone in improving metabolic function (IR) and reducing BMI and inflammation in adolescents with obesity, IR and family history (FM) of T2DM. .

Start: October 2020

Effects of a Calorie Restricted, Very Low Fat Plant-based Diet and Multi-component Exercise Program on Metabolic Health

The purpose of this study is to understand how weight loss by a very low fat plant-based diet with an exercise program affects metabolic and cardiovascular health in overweight adults at high risk for disease. Outcome measures will include assessment of insulin sensitivity, ?-cell function, body fat distribution, skeletal muscle and adipose tissue biology, cardiovascular function, cardiorespiratory fitness, muscular strength, immune function, and the gut microbiome.

Start: March 2016

Iron and Insulin Resistance in Overweight and Obese Humans

Determine the effects of reducing whole-body iron stores in overweight/obese subjects (via one-time blood donation) on adipose tissue iron content, factors regulating iron homeostasis and lipolytic rate in adipose tissue, as well as measures of adipose tissue and whole-body insulin resistance. After a screening visit to determine eligibility, subjects will undergo a battery of tests for the determination of primary outcome measures at baseline. They will then donate 1 unit (~500 mL) of blood (at a local blood donation center) and return for a follow-up testing 4 weeks after blood donation. During the 4-week period between study trials, subjects will be required to maintain a stable body mass and not alter their dietary or physical activity habits.

Start: September 2018

Effect of Lifestyle and/or Metformin Intervention on Pregnancy Outcome, A Pilot Randomized Controlled Trial

The purpose of pilot trial is to compare the efficacy of lifestyle intervention, metformin intervention, lifestyle combined with metformin intervention in improving assisted reproductive technology in non-polycystic ovary syndrome(pcos) patients with overweight/obesity and insulin resistance compared with conventional clinical education. Subjects who meet the inclusion criteria will be randomized to four groups: lifestyle intervention group, metformin intervention group, lifestyle combined with metformin intervention group, and routine clinical education group. Subjects of above three intervention group will start ovulation stimulation treatment after reach the aim or duration of intervention and routine clinical education group has no intervention. All subjects are treated with the same procedures, including a long ovarian stimulation regimen, oocyte retrieval, and fertilization, followed by a planned transfer of two day-3 embryos. The primary outcome is ongoing pregnancy rate.

Start: June 2019

Mitochondrial Dysfunction and Insulin Resistance in Skeletal Muscle

The purpose of the study is to evaluate the link between insulin resistance and alterations in skeletal muscle mitochondrial redox homeostasis

Start: September 2020

Effect of Cranberry and Agaves Extract on Microbiota and Intestinal Health

The growing prevalence of obesity and type 2 diabetes (T2D) is a major public health problem. Recent studies have clearly established that the gut microbiota plays a key role in the investigator's propensity to develop obesity and associated metabolic health disorders. The gut microbiota compositions plays a decisive role in glucose metabolism and the chronic inflammatory state associated with insulin resistance. Consuming prebiotic rich diet, including polyphenol and inulin rich food could help modulate favorably the gut microbiota which could lead to a reduction of endotoxemia and beneficial metabolic health effects.

Start: November 2018

Saliva Insulin Responses to a Standardized Meal Tolerance Test in Humans

Recent evidence suggests that hyperinsulinemia (i.e., elevated insulin levels) is the primary causative factor in obesity. Insulin promotes fat storage and prevents fat breakdown, suggesting that weight loss would be optimized if insulin levels are managed and kept low. Understanding how different foods impact insulin levels could therefore aid in personalized weight loss (or weight maintenance) advice. It has been shown that salivary insulin can track plasma insulin following different meals and can delineate between lean and obese people. Thus, it was suggested that salivary insulin could be a potential surrogate for plasma insulin. The purpose of this study is to measure fasting saliva insulin, and salivary insulin responses to a standardized meal tolerance test in individuals with different body mass index (BMI).

Start: January 2019

Hypoxic Exercise and Glucose Metabolism

The obesity epidemic calls for new therapeutic opportunities to prevent and treat obesity and its comorbidities amongst which are insulin resistance and cardiovascular diseases. Recent evidence suggests that tissue oxygenation plays an important role in cardiometabolic health. Remarkably, individuals residing at high altitude (hypobaric hypoxia) are less prone to develop type 2 diabetes mellitus as compared to individuals living at sea-level (normobaric normoxia). Furthermore, there is evidence to suggest that normobaric hypoxia exposure may improve glucose homeostasis and insulin sensitivity in both rodents and humans. The level of physical activity is an important determinant of insulin sensitivity and glucose homeostasis. It is well established that performing physical activity improves glucose uptake in the short term, and glycemic control in the long term. Interestingly, recent studies have demonstrated that an acute bout of exercise under hypoxic conditions (inhalation of air containing less oxygen) may lead to a more pronounced improvement in plasma glucose concentrations and/or insulin sensitivity as compared to normoxic exercise. However, the effects of repeated hypoxic exercise bouts on glucose profile throughout the day (i.e. 24h continuous glucose monitoring) remain elusive. In the present randomized, placebo-controlled, single-blind, cross-over study study, the investigators will investigate the effects of exercise under mild normobaric hypoxic conditions (FiO2, 15%) for 4 consecutive days (2 x 30-min cycling session at 50% WMAX) on postprandial substrate metabolism and 24h-glucose level in overweight/obese subjects with impaired glucose tolerance. The investigators hypothesize that 4 consecutive days of exposure to mild hypoxia while performing moderate intensity exercise improves glucose homeostasis in overweight and obese individuals with impaired glucose homeostasis.

Start: July 2019

The Effects of Water-only Fasting and Refeeding on Body Composition

This observational pilot study will assess the effects of water-only fasting on body composition and insulin resistance

Start: August 2020

Effect of Neuromuscular Electrostimulation on Sympathetic Nerve Activity in Patients With Type 2 Diabetes (ELECTROSYMP2)

Physical activity (PA) is recommended for the treatment of subjects with type 2 diabetes to increase insulin sensitivity and improve metabolic control. However, adherence to PA is often poor, due to a lack of motivation or due to disabling complications or comorbidities. Neuromuscular electrostimulation (NMES) is a physical treatment commonly used to improve muscle strength and volume in several situations: after stroke, after limb trauma or during chest rehabilitation in deconditioned patients. The investigators have already shown in a first pilot study (manuscript in preparation) that NMES improves insulin sensitivity : in the study ELECTRODIAB (No. ID-RCB: 2011-A00930-41), the investigators showed a 25% insulin sensitivity improvement after a week of daily 25-min bi-quadricipital NMES session, in a population of patients with orally-treated type 2 diabetes. Insulin sensitivity increased up to 50% in the most deconditioned subjects. Discrepancy between this result and the very low energy expenditure measured during sessions suggests that the metabolic effect was not solely mediated by muscle contractions. The investigators hypothesize the involvement of neurological pathways. Indeed, it is demonstrated that the autonomic nervous system is an important regulator of glucose metabolism with pancreatic action, a key role in energy metabolism and a complex relationship with insulin resistance. Muscle activity, whether static (isometric) or dynamic causes changes in sympathetic nerve activity in healthy subjects but its effect in type 2 diabetic subjects is not known. The investigators hypothesize that, in type 2 diabetic subjects, the modulation of sympathetic nerve activity by NMES could be involved in the improvement of insulin sensitivity. To address this question, the investigators propose to assess sympathetic nerve activity with the gold standard method of microneurography before and after a single bi-quadricipital NMES session. The impact of neuro-electro-stimulation (NES) (a sensitive stimulation under muscular threshold) and the impact of voluntary isometric muscle contractions (VC) will also be evaluated. These procedures will also be applied in healthy control subjects.

Start: August 2020

Bariatric Surgery And Adipose Inflammation Dysfunction and Type 2 Diabetes Mellitus

The focus of this proposal is to define the mechanism by which bariatric surgery acutely improves insulin sensitivity. Our central hypothesis is that drastically reduced caloric intake early after Bariatric surgery improves the pro-inflammatory profile of macrophages, which in turn improves insulin sensitivity and glucose homeostasis.

Start: November 2011