View clinical trials related to Type 2 Diabetes.
Filter by:A single center, open-label, single sequence study was conducted to evaluate the potential drug interaction of CYP3A4 inducer rifampicin with SY-004 capsules in healthy subjects
A randomized, open, two cycle, double crossover, single center study was conducted to evaluate the effect of high-fat diet on the pharmacokinetics of SY-004 in healthy subjects
Evaluation of effect on diurnal glycaemia following consumption of MCT and whey protein in patients with type 2 diabetes
The goal of this study is to evaluate a digital chronic disease self-management program designed to provide virtual support and guidance for patients with type 2 diabetes.
Background and objective: Clozapine and olanzapine are some of the most effective antipsychotic drugs, but unfortunately, both drugs induce weight gain and conveys a high degree of metabolic disturbances. The antipsychotic-induced side-effects cause a major clinical problem among patients diagnosed with schizophrenia receiving antipsychotic treatment. Limited effects have been demonstrated for counteracting the side-effects by the switch of antipsychotic therapy, non-pharmacological/behavioural interventions or adjunct pharmacological treatments. Semaglutide, a glucagon-like peptide-1 receptor agonist (GLP-1RA,) is approved for the treatment of type 2 diabetes worldwide. The objective of the study is to investigate effects of semaglutide once-weekly vs. semaglutide placebo once-weekly on the metabolic state in prediabetic or diabetic patients with schizophrenia, who have initiated treatment with clozapine or olanzapine. Methods and analysis: Trial design, intervention and participants: The study is a 26-week, double-blinded, randomized, parallel-group, placebo-controlled, good clinical practice (GCP)-monitored, clinical trial. 104 prediabetic or diabetic patients diagnosed with a schizophrenia, age 18 years and 65 years, who have initiated of clozapine- or olanzapine-treatment within 5 years will be included in the study. The patients will be randomized to receive blinded treatment in one of the two study arms; semaglutide once-weekly vs. semaglutide placebo. The primary endpoint is the change from baseline in glycated haemoglobin A1c (HbA1c). Secondary endpoints include change in body weight, hip and waist circumference, vitals, and plasma levels of insulin, glucose, C-peptid, insulin sensitivity, beta cell function, glucagon, liver function, lipid profile, incretin hormones, lipid profile, bone makers, body composition, bone density and proteomic analyses. Additional endpoints include alcohol, tobacco and drug use, food preferences, psychopathology, activity and quality of life.
Coronary artery calcification (CAC) is a common complication of type 2 diabetes mellitus(T2DM), which can significantly increase all-cause mortality and the incidence of serious cardiovascular events, and increase the burden of the national economy. The epidemiological characteristics and the clinical progress of CAC are still not clear. Moreover, the pathogenesis of CAC has not yet been fully elucidated, and lack of specific diagnostic indicators. Arterial calcification is an active, reversible, and multifactorial biological process like bone formation. It is generally believed that early detection of calcification lesions and active targeted treatment may be the key to prevention and treatment of vascular calcification. In addition, statins are commonly used in patients with dyslipidemia and can stabilize CAC plaque. However, the timing, dosage and effect of statins are controversial. Moreover, our previous study found that the expression of miR-32 is significantly elevated in patients with CAC, and can promoting vascular calcification. Herein, this study is to conduct a prospective cohort study on T2DM patients with CAC in Hunan province through a multidisciplinary and multi-center cooperation model, the main research objectives include the following three parts: ① To identify the prevalence, incidence, and characteristics of CAC in T2DM patients in Hunan province, and to build a risk assessment model. ② To observe the effects of statins on the occurrence and development of CAC in patients with T2DM, and to provide clinical data for the improvement of medication guidelines; ③To observe the dynamic changes of serum miR-32 in the progression of CAC in patients with T2DM, and to explore its possibility as a serological diagnosis or prognostic bio-maker of CAC. The completion of this research project is expected to bring a new breakthrough in the field of early diagnosis, prognosis evaluation, and intervention treatment of patients with T2DM combined with CAC, and provide an important reference for the formulation of cardiovascular disease prevention and control strategy.
BT-001 is a software program intended to help patients with type 2 diabetes, under the guidance of their physician, improve glycemic control (i.e., levels of blood sugar). The BT-001 software delivers a type of behavioral therapy to patients via a mobile application that targets behaviors related to achieving glycemic control. The effectiveness of BT-001 will be measured by its ability to help patients reduce Hemoglobin A1c, or HbA1c (a marker in the blood that measures blood sugar) compared to standard medical care in patients with type 2 diabetes.
The majority of people with diabetes worldwide consist of type 2 diabetes mellitus. Typically, patients with type 2 diabetes are encouraged to manage their condition with weight loss; healthy eating; regular exercise; blood glucose monitoring; and in some cases, diabetes medication or insulin therapy. However, many struggle with their condition. Pulsed Electromagnetic Frequency (PEMF) devices, which follow similar principles as a TENS machine, emit electromagnetic fields and are proposed to provide a non-invasive, safe, and easy-to-use method for treatment and management of diabetes related symptoms such as pain, alongside existing treatments and interventions. There is a belief that such devices may promote health and wellbeing and as a result could improve outcomes of type 2 diabetes. The use of the PEMF device would not replace existing treatments, interventions, or any primary care that the participants are currently receiving. The purpose of this study is to evaluate the effectiveness of a PEMF device of this kind for reported symptoms such as pain, fatigue, and overall wellbeing in people with type 2 diabetes. The study also seeks to explore patients' experiences of using the PEMF device.
STARDUST is an open-label, two-arm randomized controlled trial, aimed at evaluating the effects of liraglutide on peripheral perfusion, as compared with the aggressive treatment of cardio-metabolic risk factors, in people with type 2 diabetes and peripheral artery disease. The potential benefits for participants in the study include the possibility of improving peripheral perfusion with drugs that have been evaluated as effective in controlling diabetes and safe and protective for cardiovascular health. The primary outcome of the study is the change of peripheral transcutaneous oxygen tension between groups at three and six months. Participants in the study will be followed for 6 months in order to evaluate the effects of liraglutide and the change of other secondary outcomes.
This study aims to determine the effects of communicating genetic risk for type 2 diabetes (T2D) alone or in combination with goal setting and prompts from a wearable device on objectively measured physical activity (PA) and sedentary behavior (SB) in East Asians. It is hypothesized that this combination will lead to significant favorable changes in objectively measured PA and SB, and that such changes will be more likely to be sustained over 6-month follow-up. This study aims to recruit 150 healthy East Asian adults in Hong Kong. At baseline, participants will be invited to visit the research laboratory for measurement of a series of variables including height, body weight, blood pressure and grip strength. Participants will also be invited to complete a set of questionnaires to assess their self-reported PA and SB, fruit and vegetable consumption, smoking status and psychological variables. Blood samples will be collected to analyze key diabetes and cardiovascular disease biochemical markers as well as their estimated genetic risk of T2D. Each individual's unique genetic risk for T2D will be estimated on the basis of established genetic variants associated with T2D specifically for East Asians. Each participant will be asked to wear a Fitbit Charge 4 tracker, an objective activity monitoring device, throughout the entire trial. Participants will be randomly allocated into 3 groups: 1 control and 2 intervention groups. A control group will receive an e-leaflet containing general lifestyle advice for prevention of T2D. An intervention group will receive an estimated genetic risk of T2D, in addition to the e-leaflet. The other intervention group will have a Fitbit step goal set 10% higher than their baseline step count and use prompt functions of the Fitbit tracker, in addition to the genetic risk estimate and e-leaflet. Activity data from the Fitbit will be collected at 4-week post-intervention; information about lifestyle and psychological variables will be assessed through the questionnaires at both immediate and 4-week post-intervention. To determine the longer-term effect of the intervention, participants will be asked to visit the research laboratory 6 months after the intervention to repeat the same set of assessments as baseline, except the blood samples collected at 6-month follow-up are used only to analyze cardiometabolic risk profiles (not genetic risk). Activity levels will also be objectively measured using the Fitbit for 4 weeks.