View clinical trials related to Glucose Metabolism Disorders.
Filter by:The purpose of this research study is to determine how gastric bypass surgery effects metabolism in obesity and Type 2 Diabetes. One mechanism that has been investigated in animal models is change to the biology of the small intestine (Roux limb) and how glucose and other fuels are metabolized (or how the body digests and uses sugar and other fuels). This study will evaluate the role of the intestine in the beneficial metabolic effects of gastric bypass surgery. It specifically will examine whether the intestine increases its metabolism and its activity, and whether this results in an increase in fuel utilization. Thirty two (32) subjects will be recruited (18 with and 14 without Type 2 Diabetes). At the time of gastric bypass surgery, a small piece of intestine that is usually discarded will be collected. At three time points over the first year after surgery, intestinal samples will be obtained by endoscopy or insertion of a lighted flexible tube through the mouth. Blood samples will be taken at all time points, as well. All samples will undergo comprehensive metabolic analyses. Comparisons will be made between the two groups to understand the metabolic changes over time and if there are differences between the two groups.
The present study aimed to investigate whether a daily intake of lupin protein and a neuromuscular electrical stimulation training twice a day can improve local glucose uptake into m. soleus during a 60 day unloading phase with a special unloading device, the HEPHAISTOS orthosis (HEP).
Branched chain amino acids (BCAA) are known to exert insulinogenic effect. Whether this effect is mediated by incretins (GLP-1, GIP) is not known. The aim of the study was to show incretin effect of BCAA, i.e. whether the oral administration of BCAA elicits higher insulin and incretin response when compared with IV route of the same dose of BCAA. Eighteen healthy, male subjects participated in three tests: IV application of BCAA solution (30.7±1.1 g of BCAA, IV BCAA) second was oral ingestion of BCAA capsules in the same dose (ORAL BCAA) and third experiment was oral placebo (PLACEBO). Glucose, insulin, GLP-1, GIP, valine, leucine and isoleucine levels were measured at time interval for up to 4 h.
Metabolic problems represent one of the major health concerns which are attractive for being addressed by nutritional interventions, as these are directly connected to dietary habits.Anthocyans possess cardiovascular disease prevention, obesity control, and diabetes alleviation properties, but association between anthocyans and prediabetes need to be more firmly understood and established from robust clinical data. However, there is little human research that has reported on the efficacy of increased anthocyans bioactive consumption on insulin sensitivity in pre-diabetes.
Type 1 diabetes mellitus (T1DM) is a chronic, autoimmune condition that involves the progressive destruction of pancreatic β-cells, eventually resulting in the loss of insulin production and secretion. Hence, an effective treatment for T1DM should focus on controlling anti-β-cell autoimmunity, combined with regeneration of lost pancreatic β-cell populations, with minimal risk to the patient. This is a phase I and II clinical trial for treatment of patient with confirmed diagnosis of T1DM for at least 12 months prior to enrolment in this trial. This study aims to determine the combined effects of autologous stem cell transplantation and immunomodulation, on regeneration of lost β-cells and halting the immune attack on the pancreatic β-cells, respectively.
Overweight and obesity have reached worldwide epidemic level. Both overweight and obesity are characterized by comorbidities such as cardio-metabolic risk factors (i.e., insulin resistance, type 2 diabetes, hypertension, dyslipidemia, low-grade inflammation) representing a major public health problem. Therefore, it is urgent to find a therapeutic solution to target all these metabolic disorders. Among the environmental factors able to influence the individual susceptibility to gain weight and to develop metabolic disorders associated with obesity, more and more evidence show that the trillions of bacteria housed in our gastro-intestinal tract (i.e, gut microbiota) influence host metabolism. The investigators recently discovered a putative interesting microbial candidate, namely Akkermansia muciniphila (Akk). More exactly, we found that the administration of Akkermansia muciniphila reduced body weight gain, fat mass gain, glycemia and inflammatory markers in diet-induced obese mice. Moreover, in overweight/obese patients with cardiovascular risk factors subjected to a calorie restriction diet (calorie restriction diet for 6 weeks and an additional 6 weeks of weight maintenance), a higher abundance of Akkermansia muciniphila was associated with a better cardio-metabolic status in these patients. The investigators also discovered that patients having more Akkermansia muciniphila in their gut before the calorie restriction exhibited a greater improvement in glucose homoeostasis, blood lipids and body composition after calorie restriction. These observations suggested that the administration of Akkermansia muciniphila in overweight or obese people could be a very interesting therapeutic solution. Currently, no human study has investigated the beneficial effects of Akkermansia muciniphila administration on obesity and metabolic disorders. The overall objective of this study is to evaluate the effects associated with the administration of live or heat-killed Akkermansia muciniphila on the metabolic disorders (insulin-resistance, type-2 diabetes, dyslipidemia, inflammation) related to overweight and obesity in humans.
In this study the effects of sucralose on insulin sensitivity, beta-cell response and appetite regulating hormones will be evaluated.
This project investigated how glucose metabolism differs due to sleep deprivation for three consecutive nights as compared to sufficient sleep for three nights by examining concentrations of glucose, insulin, and other factors involved in glucose metabolism.
Introduction This study evaluates the effect on glucose, lipid and bone metabolism following knee orthopedic procedures in healthy and physically active individuals. The sedentary rehabilitation period following these procedures may impact negatively on glucose, lipid and bone metabolic pathways, whereas the more physically active rehabilitation period instituted 6 weeks after surgery is hypothesized to impact positively. Perspective This study will establish whether the well-known effects on glucose, lipid and bone metabolism of a sedentary lifestyle can be observed already following 6 weeks of physical inactivity in otherwise healthy and physically fit young and middle aged individuals. Investigators will thereby add knowledge to previous findings following strict bed-rest in healthy individuals on glucose, lipid and bone metabolism. In a clinical perspective it is important to examine the extent to which healthy individuals deteriorate in various metabolic pathways to better understand the pathophysiology behind these defects both in healthy individuals and in patients, who undergo bed rest or an equal reduction in physical activity as part of their rehabilitation. Study design 16 physical active non-diabetic individuals of age 18 - 50 years who are undergoing knee surgical procedures at the Arthroscopic Center at Amager/Hvidovre Hospitals are recruited as cases for this case-control study. 10 non-diabetic control subjects matched for age, gender and physical activity are recruited to establish a reference level. - The individuals will bring in morning spot urine for measurement of soluble urokinase plasminogen activating receptor (suPAR), creatinine, albumin and orosomucoid. Weight and height and waist and hip circumference will be measured. - Oral glucose tolerance test (OGTT) with ingestion of 75 g glucose during 5 min from baseline (0 min). Plasma for glucose, insulin, C-peptide, non-esterified fatty acid (NEFA) will be drawn - Before OGTT blood will be drawn for measurement of HbA1c, total cholesterol, LDL, HDL, triglyceride, Na, K, creatinine, hemoglobin (HgB), C-reactive protein (CRP), leukocytes, alanintransaminase (ALAT), alkaline phosphatase, Ca++, D vitamin, TSH, bone turnover markers (BTM), suPAR, interleukin 6 (IL6), TNFa, high-sensitivity C-reactive protein (hsCRP), lipid density profiling and lipid particle size. - Dual energy X-ray absorptiometry (DXA) of hip, lumbar columna, visceral and subcutaneous fat is measured by Hologic Discovery scanner.
The main study objective is to determine whether day and night automated closed loop glucose control combined with pump suspend feature will improve glucose control and reduce the burden of hypoglycaemia compared to sensor augmented insulin pump therapy alone. This is an open-label, multi-centre, multi-national, single-period, randomised, parallel group design study, involving a three-month period of home study during which day and night glucose levels will be controlled either by a closed loop system combined with pump suspend feature (intervention group) or by sensor augmented insulin pump therapy (control group). It is expected that up to 100 subjects, aiming for 84 randomised subjects [42 youth (6 to 21 years), and 42 adults (22 years and older)], with type 1 diabetes will be recruited through paediatric and adult outpatient diabetes clinics in each of the investigation centres. Subjects who drop out within the first four weeks of the intervention may be replaced. Participants will all be on subcutaneous insulin pump therapy and will have proven competencies both in the use of the study insulin pump and the study CGM device. Subjects in the intervention group will receive appropriate training in the safe use of closed loop insulin delivery system and pump suspend feature. All subjects will have regular contact with the study team during the home study phase including 24/7 telephone support. The primary outcome is between group differences in the time spent in the target glucose range from 3.9 to 10.0 mmol/l (70 to 180mg/dl) based on CGM glucose levels during the 12 week free living phase. Secondary outcomes are HbA1 at the end of treatment period, the time spent with glucose levels above and below target, as recorded by CGM, and other CGM-based metrics. Safety evaluation comprises assessment of the frequency of severe hypoglycaemic episodes.