View clinical trials related to Diabetes Mellitus, Type 2.
Filter by:The primary goal of this project is to determine how advanced glycation end-product (AGEs) accumulation and shoulder movement (humeral thoracic range of motion and "activity count") interact to contribute to shoulder limited joint mobility (LJM), pain and disability, and if an intervention consisting of a tailored dose of stretching and active shoulder movement can reduce these problems in people with diabetes mellitus (DM). The investigators will focus on the following measures that span health domains; Skin intrinsic fluorescence to measure AGEs; Ultrasound to measure supraspinatus tendon thickness; 3 dimensional joint range of motion and "activity counts" to measure shoulder movements; and the Disability of the Arm, Shoulder and Hand (DASH) questionnaire to measure patient reported pain and disability. The investigators will test the innovative hypothesis that metabolic and movement factors interact to cause severe shoulder problems in people with DM and that an optimized shoulder movement intervention can have an important impact on reducing the development of limited joint mobility, pain and disability in this population.
This trial is conducted in Asia. The aim of the trial is to investigate the pharmacokinetics (the exposure of the trial drug in the body), pharmacodynamics (the effect of the investigated drug on the body), safety and tolerability of oral semaglutide in healthy male Japanese and Caucasian subjects.
In previous studies, we tested the feasibility of a bi-hormonal closed loop system. This system for automated control of blood glucose in patients with type 1 diabetes was tested in the clinical research center as well as at the home of the patients. Glucose control with automated closed loop control was comparable to patient-managed open loop control. The closed loop system has been further developed and miniaturized (from backpack to smartphone size) in order to interfere as little as possible with daily patient life. The aim of this trial is to assess the efficacy of the new prototype at the home of the patient. It is hypothesized that the closed loop system provides better glucose control than standard open loop therapy.
Continuous glucose monitoring (CGM) is a tool used in the treatment of patients with type 1 diabetes. A continuous glucose monitor (CGM) is a subcutaneous tissue sensor, which provides a tissue fluid glucose measurement every 1 to 5 minutes. Since CGM measure the glucose level by a sensor in subcutaneous tissue, there is uncertainty in the estimation of blood glucose levels. The accuracy of a certain CGM system can be assessed by comparing the glucose levels estimated by CGM with measured glucose levels in plasma. In the current study, we will compare the accuracy of the 2 CGM systems available on the market for clinical use in patients with type 1 diabetes. The aim of the current study is to evaluate effectiveness, safety and treatment satisfaction with 2 different CGM systems among adult type 1 diabetic patients.
Regular physical activity improves physical and mental health and reduces the risk of heart disease, stroke, cancer, diabetes, obesity and premature death from any cause. Unfortunately the majority of adults are not active enough to reap these benefits. People who are inactive and at high risk of stroke, heart disease, diabetes and dementia, and who may benefit from increased activity can be identified in primary care by combining standard risk tools. These high risk patients can be offered physical activity programmes that are designed to increase longterm adherence. Aerobic dance is an activity that combines physical, social and cognitive stimulation and allows easily adjusted intensity levels to meet individual needs. Engagement in an activity program also provides opportunities to offer advice on healthy nutrition and associated meal preparation skills. Information technology can be used to increase activity participation. Video materials can be produced to guide activity participation at home, thereby increasing overall activity participation. The investigators propose a feasibility study of a multimodal dance-based physical activity and nutrition intervention aimed at patients at high risk of stroke, heart disease, diabetes and dementia, in primary care settings.
Hypothesis 1. To define whether stimulation of ATGL and suppression of G0/G1 switch gene occur in the initial phases of diabetic ketoacidosis and thus can be identified as the primary mechanisms behind this life threatening condition. 2. Make a human model for studying ketoacidosis. The investigators plan to reduce in their regular insulin over night. In the morning we administer endotoxin, which together with a relative lack of insulin will initiate ketogenesis - a state of ketoacidosis. On another occasion strict glycemic control is imposed by means of intravenous insulin. The testing is done two separate days with at least 3 weeks in between and patients are admitted to hospital the evening before the day of testing. The investigators use isotopic tracers to determine metabolic fluxes and analyse fat (ATGL, G0/G1 switch gene) and muscle biopsies.
To compare a comprehensive diabetes team care condition (IC) involving the diabetes team's use of a "diabetes dashboard" with a usual diabetes team care condition (UDC) that does not have access to the diabetes dashboard.
Two new glucose sensors (IR-Glucose Reader (Joanneum Research, Austria), IR-CGM (IMM, Germany)) will be investigated to determine the optimal calibration method in patients with type 1 diabetes
The purpose of this clinical investigation is to evaluate the accuracy of the Senseonics Continuous Glucose Monitoring System (Senseonics CGM System) measurements when compared with reference standard measurements (YSI glucose analyzer). The investigation will also evaluate safety of the Senseonics CGM System usage, while in the clinic and during home use.
The hypothesis of this study is that the daily consumption of 480 ml tart cherry juice for twelve weeks will improve blood pressure and arterial stiffness by improving endothelial-mediated vasodilation and vascular sympathetic activity and favorably altering biochemical markers associated with cardiovascular risk. 28 men and women between the ages of 20 and 40 who have three of the five features of metabolic syndrome as defined by the Adult Treatment Panel III will be included in the study. After a two-week run-in phase, eligible men and women will be randomly assigned to one of two treatment groups: 1) 480 ml tart cherry juice or 2) 480 ml control drink daily for twelve weeks. After an initial telephone screening, all participants will be requested to report to the study site for their first visit. On the first visit (screening), participants will be provided with verbal and written explanation of the project. They will then be asked to sign an informed consent form, followed by measuring waist circumference, resting brachial blood pressure, fasting serum triglycerides, high density lipoprotein cholesterol, and glucose levels to confirm metabolic syndrome. Baseline assessments will be performed for medical history, medication use, dietary intake, and physical activity. Qualified participants will be scheduled for their second visit two weeks later (actual baseline data collection) and randomly assigned to their treatment group. On the second (baseline) visit between the hours of 7-10 A.M., blood pressure and vascular function will be measured followed by blood draw. Anthropometrics will be measured. Participants will be provided with their assigned treatment and will receive standard instructions on how to fill out daily diaries for their treatment, and for food and physical activity records. Blood pressure, vascular function, blood draw, and anthropometric, body composition, diet, and physical activity assessments will be repeated at 6- (third visit), and 12-week (final visit) intervals. All cardiovascular measurements will be performed between 7:00 to 10:00 A.M., in a quiet temperature-controlled room in the supine position after an overnight fast and 12 hours after the abstinence of caffeine and/or 24 hours after the last bout of moderate to heavy physical activity.