View clinical trials related to Impaired Glucose Tolerance.
Filter by:The primary hypothesis of this study is that consumption of capsinoids increases brown adipose tissue activity, detectable by infrared thermal imaging. The secondary hypothesis is that consumption of capsinoids can affect an individual's glycaemic response.
In the circulation 25-hydroxyvitaminD (25(OH)D) is bound to the vitamin D binding protein (DBP) and albumin. According to the free hormone hypothesis, it is, however, the free fraction that is biologically active. Polymorphisms in DBP are related to the serum level of 25(OH)D. As these polymorphisms may also affect the binding affinities for 25(OH)D, the total serum 25(OH)D may not necessary reflect the free fraction. To test this hypothesis, we will calculate the free fraction of 25(OH)D by correction for DBP and albumin content, and also measure free 25(OH)D from equilibrium dialysis and ultra filtration. Furthermore, we will relate total serum 25(OH)D as well as the free and biologically active (free- albumin-bound) 25(OH)D to the well established vitamin D effect marker serum parathyroid hormone as well as to the RNA expression in peripheral blood to evaluate the biological importance of the free versus the total fraction of 25(OH)D. We will invite 300 subjects from an ongoing vitamin D supplementation study to participate in the study which will be one visit only and include collection of blood samples.
The purpose of this study was to assess whether pinitol improves hidrocarbonated metabolism parameters, and evaluate its effect on oxidative stress and endothelial function in diabetic, impaired and normal fasting glucose subjects. This was a 3-month randomised, controlled-placebo, parallel trial with a three-arm design. Patients were divided into three groups: diabetic (n=40), impaired fasting glucose (n=40) or normal fasting glucose subjects (n=40), receiving 4 g/day of pinitol/placebo.
This study will investigate whether real-time continuous glucose monitoring can be used as a tool for behavior change in people with pre-diabetes.
The study will evaluate the effects of resveratrol/leucine and resveratrol/HMB for their ability to control glucose levels in persons without diabetes but with impaired fasting glucose. Secondary assessments will examine the effect of these nutritional supplements versus placebo on inflammation, fasting lipids, HbA1C, and fructosamine, longer term metabolic markers of risk in diabetes.
The incidence of type 2 diabetes mellitus (T2DM) is rapidly growing. Patients with T2DM are at increased risk of developing long term micro- and macrovascular complications. Subjects with impaired glucose tolerance (IGT) show increased blood glucose levels after an oral glucose load. These subjects have a markedly increased risk of later T2DM development. T2DM development can be prevented or delayed by lifestyle modifications. To support lifestyle changes and reduce the risk of T2DM development, foods containing functional ingredients are being developed. An interesting functional ingredient is protein hydrolysate. An egg protein hydrolysate has been experimentally shown to improve endothelial function, to inhibit plasma angiotensin converting enzyme (ACE) and to reduce blood pressure in rats. Egg protein hydrolysate could thus be a interesting ingredient to treat the cardiovascular dysfunction associated with T2DM. In the present study, the effects of egg protein hydrolysate will be evaluated in subjects with overweight or moderate obesity and IGT or T2DM.
Glucose ACCES study will explore the acute and long term (12-week treatment) effects of saxagliptin in patients with impaired glucose tolerance during fasting and after a standardised breakfast. The investigations will be performed on: - glycemic parameters - on cardiovascular parameters
The investigators hypothesize that sitagliptin will significantly reduce impairments in insulin secretion and insulin resistance resulting from short-term oral glucocorticoid therapy.
Background: Type 2 diabetes is a chronic disease that puts individuals at risk for serious health problems like heart disease, kidney failure, vision problems, and stroke. A major way that type 2 diabetes occurs is through insulin resistance. Insulin resistance means that insulin (an important hormone in the body to keep blood sugar normal) isn t working as well as it should, which can lead to problems with high blood sugar. Insulin resistance has been linked to mood problems, stress, and depression, especially in women. To determine if group programs can help reduce the risk for type 2 diabetes, researchers want to look at teenage girls who are at risk for developing the disease. Objectives: To test whether a group program designed to improve mood also can help improve insulin resistance in teenage girls who are at risk for developing type 2 diabetes, or whether a group program that teaches healthy living skills is just as helpful. Eligibility: Teenage girls between 12 and 17 years of age who are at risk for developing type 2 diabetes. Design: - Participants will have two screening visits to find out if they are eligible to take part in the study. The first visit takes about 3 hours and will involve a physical exam, medical history, questionnaires and an interview about mood problems and possible depression. The second visit takes about 6 hours and will involve a full body scan to measure muscle and fat, blood draws and a glucose test to determine insulin resistance, questionnaires about general well-being and eating habits, eating meals and snacks, and an exercise test. - Participants will join one of two group programs at the National Institutes of Health. One group focuses on learning skills to help with bad moods and stress. The other group covers topics that are important for teens to lead a healthy life. The groups will meet for 1 hour once a week for 6 weeks during after-school hours. - At the end of the groups, participants will have three follow-up visits. The first visit will be 6 weeks later, the second will be 6 months after the start of the group program, and the third will be 1 year after the start of the group program. Each visit will take about 6 hours. These visits are similar to the second screening visit before the groups. - Some participants will have extra tests to study stress at the second screening visit and the 6-week, 6-month, and 12-month follow-up visits. Participants will give samples of DNA, saliva to measure stress hormones, and they will take part in a brief stress test. For more information, visit the study website at: http://mir.nichd.nih.gov or contact the research coordinators for the study at 301-594-3198.
An increasing proportion of Sweden's population comprises non-European immigrants, who constitute a high risk-population for T2D. Numbering almost 9,000 individuals, Iraqi citizens represent the largest immigrant group in Malmoe and are identified as a risk group for Type 2 Diabetes (T2D) in whom genetic and lifestyle factors probably play significant roles in the development of T2D. Several studies have shown that adoption of an active lifestyle by at-risk individuals dramatically reduces the risk of T2D. However, there are currently no established methods for providing support to high-risk individuals from different cultural and social backgrounds to help them adopt beneficial lasting lifestyle changes. Instead of just waiting for Iraqi high-risk individuals to develop T2D, this project will implement and assess lifestyle intervention programs aimed at reducing the risk of developing T2D and tailored to individuals with a different social and cultural background. The study thus seeks to optimize preventive action in health care and aims to facilitate the adoption of permanent changes in lifestyle in high-risk patients, taking account of cultural and social barriers. Since T2D is associated with a sedentary lifestyle and develops earlier in men than women and an average 10 years earlier in immigrants from the Middle East than in native Swedes, it is crucial to study pathogenic mechanisms triggering T2D development in relation to sex, lifestyle and ethnic background. The results will provide the basis for deciding how health care providers can actively work to prevent T2D and other lifestyle-associated diseases in this high-risk population that has not been studied before.