View clinical trials related to Type 2 Diabetes Mellitus.
Filter by:This randomised controlled trial aims to investigate a resistance training program for improving glycemic control, muscle mass, strength and functional performance in older patients with Type II Diabetes (T2 DM). 60 subjects will be randomly allocated to either a muscle strengthening group or a no exercise control group. Muscle strengthening group will receive resistance training 3 times per week (1 hour/session). The control group will not receive any training but can continue usual medical care and daily activities. Primary outcomes: glycemic control and lipid profile Secondary outcomes: muscle mass and strength, and functional capacity Data will be collected at baseline (pre-test) and after a 4-month intervention (post-test).
This Phase 2, multi-center, double-blind, randomized, placebo-controlled, parallel group, add-on study of MLR 1023 in adults with uncontrolled T2DM on metformin anti diabetic monotherapy is designed to evaluate the efficacy and safety of MLR 1023 in combination with metformin in subjects with uncontrolled T2DM.
It is recommended that individuals perform a combination of resistance exercise (RE) and endurance exercise. Lack of time is often cited as a reason for being unable to meet current exercise guidelines. Therefore, combining both forms in one session may be beneficial. However, research continues to elucidate whether interference of adaptive outcomes occurs when RE and endurance exercise are performed concurrently. A proposed interference effect suggests that concurrent training may dampen RE-induced adaptations (e.g., muscle strength and growth) compared to RE only. The propose of this investigation is to determine the effects of concurrent RE and high-intensity interval training (HIIT), compared to RE only, on muscle health and cardiovascular risk in sedentary, middle-aged (40-65 years) who are overweight/obese with type 2 diabetes mellitus (T2DM). The investigators will measure the effects on muscle strength, muscle growth, cardiovascular fitness, glycaemic control and markers of cardiovascular risk before and after an 8-week training program. Data will be obtained through the analysis of skeletal muscle samples, blood samples, magnetic resonance imaging, questionnaires and exercise performance tests.It is hypothesized that concurrent RE + HIIT will amplify the exercise-induced muscle growth response, which will result in greater satellite cell content, compared to RE alone. As a result, this will lead to greater skeletal muscle mass and strength after RE + HIIT compared to RE in isolation. A finding that concurrent resistance training and HIIT does not impede muscle adaptations could offer future strategies to minimize exercise time commitment whilst still maximizing the physiological benefits of both resistance and endurance exercise through a single training session. This may therefore provide an effective exercise strategy in the prevention and/or treatment of T2DM.
The purpose of the present study is to assess the safety and efficacy of up to 2 injections of REACT given 6 months (+4 weeks) apart (maximum).
There has been a rise in type 2 diabetes (T2D) rates in adolescents, disproportionately in girls from disadvantaged racial/ethnic groups. This group of girls also is at heightened risk for depression, and depression and T2D are linked. Depressive symptoms are a risk factor for worsening of insulin sensitivity, one if the major precursors to T2D. In preliminary studies, the investigators found that a brief cognitive-behavioral therapy group decreased depressive symptoms and prevented worsening of insulin sensitivity in adolescent girls at-risk for T2D with moderate depressive symptoms. The aims of this study are: 1) to assess the efficacy of a cognitive-behavioral therapy depression group vs. a health education control group for improving insulin sensitivity and preserving insulin secretion in racially/ethnically diverse adolescent girls at-risk for T2D with moderate depressive symptoms over a 1-year follow-up; 2) to evaluate changes in eating, physical activity, and sleep as explanatory and 3) to test changes in cortisol factors as explanatory.
The purpose of this study is to evaluate the accuracy and efficacy of the Cambridge Medical Technologies, LLC LabPatch Continuous Glucose Monitoring (CGM) System compared to a laboratory glucose analyzer (YSI 2300 STAT Plus) and 2 commercial glucometers, OneTouch Verio and Freestyle Lite. The LabPatch system includes: 1. The LabPatch circuit chip which lies in the center of a circular push-button. The circuit is in the form of a small chip (approximately 15.7 mm [0.618"] x 15.7 mm [0.618"]) placed in contact with the skin. The chip has a telescopic micropipette which draws interstitial fluid to be analyzed for glucose levels. The chip is also able to measure skin temperature to ensure appropriate skin contact. 2. A Lab Patch holding device (blue box). 3. A wire that connects the chip to a laptop that continuously captures glucose data.
A 26-week, multicenter, parallel two-arm, randomized controlled trial of the glycemic outcomes of individualized treatment support in patients with type 2 diabetes. The primary objective of the trial is to confirm the superiority of standard of care with EASY DSS versus standard of care without EASY DSS in terms of glycemic control in patients with type 2 diabetes with ongoing treatment with any antidiabetic drug(s).
In this study the effects of the Inhibition of the Sodium-Glucose Linked Transporter 2 in the kidney with empagliflozin compared to hydrochlorothiazide on blood pressure and on central sympathic nervous activity will be examined.
The purpose of this study is to evaluate the efficacy and safety of the study drug ZGN-1061 in participants with type 2 diabetes.
Introduction and objective: The key to optimal diabetes management is tight glucose control. Hemoglobin A1c is the gold standard to assess glycemic control but in cases of unrecognized hypoglycemia, confusing nighttime events or in cases of large variations in blood glucose, a haemoglobin A1c can not detect specific movement of blood glucose. Continuous glucose monitoring (CGM) provides informations of glucose levels in a real-time format and may be helpful for making the personalized therapy decisions desired in the era of precision medicine. Our aim is to analyse the benefit of tracking patterns of glucose values by using continuous glucose monitoring (CGM) in patients with T2DM in family medicine office.