View clinical trials related to Type 2 Diabetes Mellitus.
Filter by:102 late- life adults at risk for developing type 2 diabetes mellitus, will be randomized to one of three interventions designed to improve insulin sensitivity thereby potentially preventing future progression of type 2 diabetes. The investigators predict that insulin sensitivity will improve equally following either weight loss or exercise, while there will be additive effects from combined intervention. The investigators hypothesize that weight loss will decrease intermuscular adipose tissue, intramyocellular lipid, and visceral abdominal adipose tissue.
The purpose of the study is to learn how blood vessel function is altered by diabetes. We are studying an investigational drug, Ebselen, to see if it can improve the ability of blood vessels to relax (widen).
The purpose of this study is to identify and characterize specific chemicals and metabolic pathways that change with forearm ischemia. These changes will be compared with forearm blood flow and flow-mediated vasodilation of the brachial artery.
Ruboxistaurin is being tested to see if it is effective in treating certain diabetic complications, such as diseases of the blood vessels.
The purpose of this study is to determine if MSDC-0160 is effective in the treatment of Type 2 diabetes.
Background: Genetic risk-markers associated with T2DM are thoroughly studied. So far, only a few genetic variants, also termed single nucleotide polymorphisms (SNP's), have been replicated in several studies and each of them gives only limited explanation for the growing incidence of T2DM. The hypothesis of the present study is that determination of combinations of genetic variants by SNP-chip technology may improve the prediction of T2DM, complications and efficacy of treatment compared to the methods previously used including genome wide association (GWA) studies. The SNP-chip/ DNA microarray makes it possible to study several SNP's association with T2DM, one by one but also in combination. Aims: To study whether specific genetic variants, and combinations of these, 1) are present with higher prevalence in patients with T2DM than in the normal population, 2) are associated with specific diabetes-related complications and 3) the effect of the anti-diabetic treatment. Methods: During the next three years 1000 patients with T2DM and 1000 healthy, non-diabetic persons will be included in the study, and examined by blood samples, a questionnaire and clinical evaluation, all in one visit. Initially, we will perform DNA analyses on blood samples from 372 patients included in another clinical study from our department. Description of genetics will be done by a DNA-chip with approximately 70 SNP's, which have previously been reported to be associated with T2DM. Results and conclusions: It is expected that the result of this project can help us predicting T2DM, diabetes-related complications and individualizing treatment to the individual patient with T2DM.
This study will assess the safety, tolerability, pharmacokinetics, and pharmacodynamics of single doses of MK1006
Background: The investigators know that exercise helps children develop strong bones and muscles and generally stay healthy. What is unclear however, is how much exercise a child needs to lower their risk of developing type 2 diabetes. Objective: The investigators will try to find out whether high-intensity exercise for a short-period of time is better than moderately intense exercise for improving the diabetes risk profile in teens who are at risk for type 2 diabetes. The working hypothesis is that exercise-mediated improvements in insulin sensitivity (a risk factor for diabetes) will be greater following vigorous intermittent physical activity than following low intensity physical activity in overweight adolescents 13-18 yrs at risk for T2DM. Brief Description of Research Project: Teenagers between the ages of 13 and 18 yrs, who are at risk for type 2 diabetes (either by their family history or an abnormal response to sugar) will be randomly assigned to one of two activity groups or a control group. The activity groups will have supervised exercise sessions 3 to 5 days per week for 6 months. One group will do high-intensity exercise, and the other will do lower-intensity exercise. We will measure how sensitive their body is to insulin and the amount of fat in their muscle and liver tissue at the beginning and end of the exercise intervention.
Safety Follow-Up Trial to PDC-INS-0008 and MKC-TI-005
Compared to human insulins analogue insulins offer the option of optimizing metabolism also in type 2 diabetes. Especially, fast acting insulin analogues lower postprandial glucose levels more effectively than human regular insulin. However, it is not known whether therapy with analogue insulins can also improve the subclinically impaired myocardial function in type 2 diabetes. This prospective, randomized, open long term study compared the effects of a basal-bolus insulin therapy with analogue insulins versus human insulins on metabolic control and systolic and diastolic myocardial function, testing the hypothesis that optimized postprandial glucose control improves cardiac function and cardiovascular risk.