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156 active trials for Insulin Resistance

Lactobacillus Rhamnosus and PCOS Treatment

The effect of Lactobacillus rhamnosus supplementation on body weight, hyperandrogenism and insulin resistance in overweight and obesity women with Polycystic Ovary Syndrome will be analysed.

Start: April 2018

Role of Sympathetic Vasoconstriction on Insulin-Mediated Microvascular Recruitment and Glucose Uptake in Obesity

The purpose of this study is to better understand the contribution of sympathetic vasoconstriction to impaired insulin-mediated vasodilation and subsequently insulin-mediated glucose uptake. The investigators will test the hypothesis that removal of sympathetic vasoconstriction can result in improvement in insulin-mediated vasodilation and subsequently sensitivity to insulin-mediated glucose uptake.

Start: October 2017

Autonomic Blockade and Endogenous Glucose Production

The investigators will test the null hypothesis that there will be no changes in the insulin-mediated suppression of endogenous glucose production (EGP) in response to autonomic blockade. To test this hypothesis, the investigators propose to determine the role of the autonomic nervous system in hepatic insulin resistance.

Start: April 2017

Human Milk Oligossaccharide and Acetate Production in Vivo

The study investigators hypothesize (1) that the SCFA/acetate metabolism differs between metabolic phenotypes and (2) that using a mixture of fibres that differ in degree of polymerization and branching namely a resistant starch and a human-like milk oligosaccharide enhance the acetate availability in the distal colon and systemic circulation, consequently leading to its metabolic effects. To study this, the investigators will supplement lean, normoglycaemic vs. overweight/obese, prediabetic men with the fibre mixture the day before the clinical investigation day (CID) and study during the CID its effects on fasting and postprandial substrate and energy metabolism.

Start: February 2020

Effects of Hepatic Ultrasound on Metabolic Homeostasis

The purpose of this study is to define the effect of ultrasound exposure of the liver in the region of the porta hepatis on glucose homeostasis and insulin resistance in healthy subjects.

Start: January 2021

Dynamics of Muscle Mitochondria in Type 2 Diabetes (DYNAMMO T2D)

Insulin promotes the clearance of sugars from the blood into skeletal muscle and fat cells for use as energy; it also promotes storage of excess nutrients as fat. Type 2 diabetes occurs when the cells of the body become resistant to the effects of insulin, and this causes high blood sugar and contributes to a build-up of fat in muscle, pancreas, liver, and the heart. Understanding how insulin resistance occurs will pave the way for new therapies aimed at preventing and treating type 2 diabetes. Mitochondria are cellular structures that are responsible for turning nutrients from food, into the energy that our cells run on. As a result, mitochondria are known as "the powerhouse of the cell." Mitochondria are dynamic organelles that can move within a cell to the areas where they are needed, and can fuse together to form large, string-like, tubular networks or divide into small spherical structures. The name of this process is "mitochondrial dynamics" and the process keeps the cells healthy. However, when more food is consumed compared to the amount of energy burned, mitochondria may become overloaded and dysfunctional resulting in a leak of partially metabolized nutrients that can interfere with the ability of insulin to communicate within the cell. This may be a way for the cells to prevent further uptake of nutrients until the current supply has been exhausted. However, long term overload of the mitochondria may cause blood sugar levels to rise and lead to the development of type 2 diabetes. This study will provide information about the relationship between mitochondrial dynamics, insulin resistance and type 2 diabetes.

Start: July 2016

Insulin and Muscle Fat Metabolism

Our objective in this study is to identify the extent to which insulin drives the accumulation of lipids in skeletal muscle of humans. We will test the hypothesis that 4-hours of mild hyperinsulinemia will result in significant muscle lipid accumulation and that such effects will be similar in lean and overweight/obese humans.

Start: February 2021

Skeletal Muscle Dysfunction in Rheumatoid Arthritis (RA)

Muscle strength helps determine a person's quality of life and functional independence. Patients with rheumatoid arthritis often suffer from muscle weakness and a pre-diabetic condition called insulin resistance. By doing this study, the investigators hope to learn why patients with rheumatoid arthritis (RA) suffer from muscle weakness.

Start: September 2015

Effect of Aging on Bariatric Surgery-induced Changes in Metabolism and Cognition

The investigators hypothesize that the improvements in insulin sensitivity, beta (β)-cell function, and inflammation will be greater, and the improvement in sarcopenic obesity will be less, in younger versus older individuals after substantial weight loss induced by sleeve gastrectomy bariatric surgery.

Start: April 2014

Investigating the Possible Link Between Habitual Diet, Physical Activity, Sleeping Patterns, Obesity Status and Age With Gut Bacterial Composition, Gut Barrier Function, Metabolic Endotoxemia, Systemic Inflammation and Glycaemic Control.

In the UK, 25% of the adults are affected by metabolic syndrome (NHS, 2016). Metabolic syndrome is a cluster of different conditions including: hyperglycaemia, insulin resistance hypertriglyceridemia, dyslipidaemia and hypertension. Such individuals also have increased risk of developing type 2 diabetes and cardiovascular disease. The factors contributing to the development of metabolic syndrome are potentially numerous and understudied in humans, with much of what we think we know coming from animal research. Recent animal studies have pointed towards gut health playing a role in metabolic health. More specifically it has been suggested that changes in the composition of the gut microbiota may drive insulin resistance and type 2 diabetes through a mechanism that is linked to increased gut permeability and the development of metabolic endotoxemia and inflammation. Yet, this link has not been confirmed in humans. This research will look at the relationship between diet, physical activity, sleeping patterns, obesity status and age etc. and measures of gut bacterial composition, gut barrier function and metabolic health. Findings will provide us with new insights on the effect of different physiological and behavioural/ lifestyle variables on gut health and metabolic function.

Start: March 2019

The Influence of Overfeeding Different Macronutrients on Whole-body Insulin Sensitivity

This study will investigate the effect of high-carbohydrate vs. high-fat overfeeding (130% of energy requirements) on whole body insulin sensitivity. Following habitual diet, participants will be randomly allocated to either a high-carbohydrate or a high-fat diet intervention for 14-days. On days 0, 7 and 14 participants will undergo anthropometric and metabolic testing (primarily an oral glucose tolerance test [OGTT]).

Start: May 2019

Demonstration of the Prebiotic-like Effects of Camu-camu Consumption Against Obesity-related Disorders in Humans

Previous work of the investigators demonstrated the anti-obesity and anti-steatosis potential of the Amazonian fruit camu-camu (CC) in a mouse model of diet-induced obesity [1]. It was demonstrated that the prebiotic role of CC was directly linked to higher energy expenditure stimulated by the fruit since fecal transplantation from CC-treated mice to germ-free mice was sufficient to reproduce the effects. The full protection against hepatic steatosis observed in CC-treated mice is of particular importance since nonalcoholic fatty liver disease (NAFLD) is one of the most common causes of chronic liver disease. Thirty percent of adults in developed countries have excess fat accumulation in the liver, and this figure can be as high as 80% in obese subjects. NAFLD is an umbrella term encompassing simple steatosis, as well as non-alcoholic steatohepatitis which can lead to cirrhosis and hepatocellular carcinoma in up to 20% of cases. Up to now, except for lifestyle changes, no effective drug treatment are available. Previous work has suggested that CC possesses anti-inflammatory properties and could acutely reduce blood pressure and glycemia after a single intake. While CC could represent a promising treatment for obesity and fatty liver, no studies have thoroughly tested this potential in humans. Therefore, a robust clinical proof of concept study is needed to provide convincing evidence for a microbiome-based therapeutic strategy to counteract obesity and its associated metabolic disorders. The mechanism of action of CC could involve bile acid (BA) metabolism. BA are produced in the liver and metabolized in the intestine by the gut microbiota. Conversely, they can modulate gut microbial composition. BA and particularly, primary BA, are powerful regulators of metabolism. Indeed, mice treated orally with the primary BA ?, ? muricholic (?MCA, ?MCA) and cholic acids (CA) were protected from diet-induced obesity and hepatic lipid accumulation. Interestingly, the investigators reported that administration of CC to mice increased the levels of ?MCA, ?MCA and CA. Primary BA are predominantly secreted conjugated to amino acids and that deconjugation rely on the microbial enzymatic machinery of gut commensals. The increased presence of the deconjugated primary BA in CC-treated mice indicate that a cluster of microbes selected by CC influence the BA pool composition. These data therefore point to an Interplay between BA and gut microbiota mediating the health effects of CC. Polyphenols and in particular procyanidins and ellagitannins in CC can also be responsible for the modulation of BA that can impact on the gut microbiota. Indeed, it has been reported that ellagitannins containing food like walnuts modulate secondary BA in humans whereas procyanidins can interact with farnesoid X receptors and alter BA recirculation to reduce hypertriglyceridemia. These effects are likely mediated by the remodeling of the microbiota by the polyphenols. In accordance with the hypothesis that the ultimate effect of CC is directly linked to a modification of the microbiota, fecal transplantation from CC-treated mice to germ-free mice was sufficient to recapitulate the lower weight gain and the higher energy expenditure seen in donor mice.

Start: October 2020

Pulmonary Arterial Hypertension Improvement With Nutrition and Exercise (PHINE)

The purpose of this study is to investigate the extent to which diet and exercise may improve PAH through the modulation of insulin sensitivity. The central hypothesis is that dysregulated glucose metabolism elicits a response in PAH patients that can be modified by exercise and diet, thereby leading to improvements in pulmonary vascular disease.

Start: September 2017

Effects of Maple Syrup on Gut Microbiota Diversity and Metabolic Syndrome

It has been suggested that the actual obesity epidemy is related to chronic overconsumption of added or free sugars. The increasing popularity of artificial sweeteners attest the population willingness to reduce added sugars intake and to use alternatives to alleviate health impact of free sugar overconsumption. However, recent findings suggest that artificial sweeteners may rather contribute to obesity epidemy and its associated adverse health effects, potentially via a negative impact on gut microbiota. It has been shown in various studies that, for the same amount of sucrose, unrefined sugars (such as maple syrup) are associated with favorable metabolic effects. The polyphenols contained in maple syrup, especially lignans, could contribute to these positive effects. Indeed, the strong impact of those biomolecules on the modulation of gut microbiota and on gastro-intestinal and metabolic health has been demonstrated in several studies. It is therefore highly relevant to test the hypothesis that the substitution of refined sugar by an equivalent amount of maple syrup (5% of daily energy intake) result in a lesser metabolic deterioration, by the modulation of maple syrup on gut microbiota, than the one observed with refined sugar.

Start: September 2019

Genetic Pathways Leading to Fatty Liver and Atherogenic Dyslipidemia

The aims of the study are: To investigate if carriers of apolipoprotein (apo) CIII loss-of-function (LOF) mutations produce less apo-CIII that results in reduction of large very low-density lipoprotein (VLDL) particle secretion as compared to non-carriers of these variants and compare the results with carriers of apo-CIII gain-of-function (GOF) to elucidate the role of apo-CIII in hepatic lipid metabolism. To study if carriers of the TM6SF2 E167K and PNLPLA3 I148M mutations produce less large VLDL particles to transport fat out of the liver as compared to non-carriers. To test whether the specific mutations in the apo-CIII, TM6SF2 and PNLPLA3 genes are reflected in changes of liver de novo lipogenesis (DNL), liver fat, Homeostatic Model Assessment for Insulin Resistance (HOMA-IR), plasma lipid and apolipoprotein kinetics and fasting concentrations in carriers of the TM6SF2 E167K and PNLPLA3 I148M mutations as compared to non-carriers. To study the effects of APOE, angiopoietin (ANGPTL3 and ANGPTL8) or endothelial lipase (LIPG) genotypes on liver fat metabolism, lipid and apolipoprotein metabolism and lipid phenotypes.

Start: December 2019

Mitochondrial Remodeling After Exercise

Regulation of mitochondrial health in overweight and obese individuals may be impaired. The purpose of this study is to identify impairments in regulation of mitochondrial health within skeletal muscle and to determine if short-term exercise training (2-weeks) can reverse such impairments. The investigator's hypothesis is that pathways that serve to degrade poorly functioning mitochondria in overweight and obese individuals are down-regulated, but that short-term exercise training can restore these pathways to improve skeletal muscle mitochondrial function.

Start: August 2019

eIMPACT-DM Pilot Trial: Depression Treatment to Reduce Diabetes Risk

This pilot randomized controlled trial seeks: (1) to determine the preliminary efficacy of our modernized collaborative care intervention for depression in improving the diabetes risk markers of hemoglobin A1c and insulin resistance and (2) to explore whether somatic depressive symptoms - i.e., hyperphagia (increased appetite/weight) and/or hypersomnia (increased sleep) - moderate the effect of the eIMPACT-DM intervention on diabetes risk markers.

Start: October 2020

Fiber and Insulin Sensitivity

Based on previous research of the investigators group, the investigators hypothesize that slowly fermentable fibers with a high degree of polymerization that increase SCFA specifically in the distal colon are expected to have higher potential for influencing host metabolism and metabolic health by improving adipose tissue function, preventing lipid overflow and hepatic as well as skeletal muscle fat accumulation thereby improving insulin sensitivity. The objective of this randomized clinical trial is to test, whether the a dietary fiber product containing different physiological acting fibers reverses peripheral and hepatic insulin resistance in overweight/obese insulin resistant participants.

Start: February 2021

The Effect of Curcumin on the Development of Prednisolone-induced Hepatic Insulin Resistance

The aim of this study is to investigate whether ingestion of curcumin will prevent hepatic insulin resistance (assessed by homeostatic model assessment of insulin resistance (HOMA-IR)) induced by short-term oral glucocorticoid (prednisolone) administration in overweight and obese participants. As a secondary endpoint it will be investigated if prednisolone administration induce or worsen the degree of NAFLD in overweight or obese participants using magnetic resonance (MR) spectroscopy (MRS), and if curcumin can ameliorate this effect. Also, the possible anti-inflammatory effect of curcumin will be elucidated as a range of inflammatory markers before and after intervention will be measured. Thus, prednisolone treatment is used as a model of development of pre-diabetes.

Start: December 2019

Physiologic and Functional Adaptations of Insulin Sensitive Tissues

The long-term goal is to understand the mechanisms of intestinal nutrient sensing and signal relays to insulin sensitive tissues (adipose, skeletal muscle, liver) in humans. The investigators hypothesize that human tissue biopsies (from obese surgery and non-surgery subjects as well as lean controls) can be used to understand the molecular mechanisms underlying intestinal nutrient sensing and signal relay in humans. The investigator will obtain tissue specimens from patients during scheduled upper endoscopies, colonoscopies and scheduled metabolic and bariatric surgeries or liver transplantation. A blood sample (4mL) will be obtained concurrent with these procedures. From metabolic and bariatric surgery subjects blood and tissues (liver, adipose, small intestine, omentum, skeletal muscle) can be collected at the time of surgery. From liver transplantation patients, excised liver tissue will be collected. Stool can be obtained preoperatively and at various time points after surgery. Some bariatric surgery subjects will participate in a mixed-meal tolerance test at their pre-operative visit and several post-operative visits to compare the whole-body metabolic alterations following bariatric procedures.

Start: February 2018