View clinical trials related to Diabetes Mellitus, Type 2.
Filter by:The purpose of this research project is to assess the glycaemic controlling effects of consuming BSG and bio-transformed BSG-containing biscuits and its underlying gut - related mechanism in adults with MetS using in-vivo setting.
The primary aim is to test the effectiveness of an innovative 24-month pragmatic and scalable weight-loss centric approach using a collaborative care model that connects patients with a non-Primary Care Practitioner (PCP) health coach who delivers care remotely to patients through the patient portal of an electronic medical record (EMR).
Therapeutic Confirmatory Study to Evaluate the Efficacy and Safety of DWP16001 in Combination with Metformin in Patients With Type 2 Diabetes Mellitus who Have Inadequate Glycemic Control on Metformin Alone.
The purpose of the study is to look at the change in blood sugar levels in participants with type 2 diabetes who start using oral semaglutide. Participants will get oral semaglutide as prescribed to them by the study doctor. The study will last for about 8-11 months (34-44 weeks). Participants will be asked to complete a questionnaire about how they take oral semaglutide tablets. Participants will complete this questionnaire during the normal scheduled visit with the doctor and will be asked questions about their health and their diabetes treatment and lab tests as part of their normal doctor's appointment.
Patients with diabetes have an increased risk of sudden cardiac death compared to the general population. Severe hypoglycemia is associated with an increased risk of cardiovascular (CV) disease (CVD) and events, including cardiac arrhythmias and sudden cardiac death; likewise, increased glycemic variability is associated with macrovascular complications and increased mortality. The physiological mechanisms linking hypoglycemia and glycemic variability to CVD and CV events remain unclear. Myocardial work and mechanical dyssynchrony will be measured by speckle tracking echocardiography during euglycemia, hypoglycemia and hyperglycemia in individuals with type 1 diabetes, type 2 diabetes, and without diabetes. Echocardiographic images from three experimental clamp studies - Hypo-Heart 1 (sub-study 1), Hypo-Heart 2 (sub-study 2) and Rapid-Heart - will be included in this study.
Chronic diseases are the leading cause of deaths in Singapore. The rising prevalence in chronic diseases with age and Singapore's rapidly aging population calls for new models of care to effectively prevent the onset and delay the progression of these diseases. Advancement in medical technology has offered new innovations that aid healthcare systems in coping with the rapid rising in healthcare needs. These include mobile applications, wearable technologies and machine learning-derived personalized behaviorial interventions. The overall goal of the project is to improve health outcomes in chronic disease patients through delivering targeted nudges via mobile application and wearable to sustain behavioral change. Our overall objective is to design, develop, and evaluate an adaptive intervention platform on wearable devices and shared decision-making during consultations for patients with diabetes and hypertension. Our aim for this study is to assess the clinical effectiveness of real-time personalized educational and behavioural interventions delivered through wearable (Fitbit) and an integrative mobile application in improving patient glycaemic control measured using HbA1c over 9 months. Secondary outcomes will include change in systolic blood pressure, quality of life (QoL), patient activation, medication adherence, physical activity level, diet, direct healthcare cost and indirect healthcare cost over 9 months. We will conduct a randomized controlled trial among patients with comorbid diabetes and hypertension. This proposal aims to develop sustainable and cost-effective behavioural change among patients with comorbid diabetes and hypertension through patient empowerment and targeted chronic disease care.
Ketones are a source of energy and signaling molecule that are produced by the body when not consuming any food or consistently eating a low-carbohydrate "keto" diet. Blood ketones can be used as a source of energy by the body, but they may also act as signals that impact how different cells in the body function. Recently, ketone supplements have been developed that can be consumed as a drink. These supplements can raise blood ketones without having to fast or eat a "keto" diet. Previous studies have shown that these supplement drinks can lower blood sugar without having to make any other dietary changes. Drinking these ketone supplements may therefore be an effective strategy to improve blood sugar control and influence how cells function. To find out if it is feasible for people with type 2 diabetes to drink these ketones supplements regularly over 90 days, we will compare between two groups in this study: one group that will be asked to drink ketone supplements, and one group that will be asked to drink a placebo supplement.
An exploratory comparison of changes in liver fibrosis through glycemic control within and between groups after administration of Pioglitazone and Evogliptin in chronic hepatitis B patients with type 2 diabetes and liver fibrosis
This is a pilot and feasibility study of a pragmatic cluster randomized trial that utilizes health information technology and practice facilitation to address referral barriers and increase clinician awareness and motivation to refer patients with diabetes to diabetes self-management education and services (DSMES).
This is a randomized, placebo-controlled trial that will test the efficacy of VPNP in reducing HbA1c. Participant recruitment will occur through direct-to-participant enrollment. No additional clinical sites will be used for recruitment.