View clinical trials related to Type 2 Diabetes.
Filter by:This is a randomized, double-blind, placebo-controlled Phase Ib/IIa clinical study in Chinese patients with type 2 diabetes mellitus (T2DM) inadequately controlled with diet and exercise and/or treated with irregular use of antidiabetic drugs to evaluate the safety, tolerability, pharmacokinetics and efficacy of GZR18 injection in adult subjects with T2DM. This study is divided into Part A and Part B, which are to be conducted simultaneously.
Females treated with antipsychotics have higher rates of comorbid metabolic syndrome than males. Despite this, females have historically been excluded from many mechanistic studies due to confounding effects of menstrual cycles. Recent evidence suggests that brain insulin resistance may be an underlying mechanism through which antipsychotics may exert their metabolic side effects. This study seeks to investigate how brain insulin action differs in females according to their menstrual cycle phase, and how a high metabolic liability agent such as olanzapine might interrupt these differential insulin effects. Young healthy females will be given olanzapine and intranasal insulin to test how these treatment combinations change brain processes. Participants will be tested during both the first half of their menstrual cycle (follicular phase) and the second half of their cycle (luteal phase). We predict that intranasal insulin will change MRI-based measures in females, in a comparable way to males, in the follicular phase only. Adding olanzapine will block these effects of insulin in females in the follicular phase. This investigation has the potential to generate new knowledge in an area of significant unmet need. Demonstrating that antipsychotics disrupt brain insulin action, evidenced by inhibition of recognized effects of insulin on neuroimaging measures, will provide novel insights into currently poorly understood mechanisms.
Type 2 Diabetes Mellitus (T2DM) is the most common chronic lifestyle-related disorder with a significant impact on quality and healthcare expenditures. Insufficient glycemic control and low fitness level prior to a surgical intervention results in more postoperative complications which leads to a longer hospitalization, higher costs and mortality. A prehabilitation intervention in persons with T2DM prior to surgery should be aimed to improve glucose regulation and translate into better outcomes. However, the classic interventions such as Combined Lifestyle Intervention are labor-intensive and require a high degree of organization and therefore are not used as standard care. The use of biofeedback can provide a solution to this. Biofeedback with a continuous glucose sensor in combination with lifestyle monitoring by activity trackers and coaching prior to surgery is a promising but unexplored prehabilitation strategy. The Nursing Prehabilitation Intervention Supported with Technology for vascular Surgery in People with Type 2 Diabetes (VITAAAL) intervention is a form of blended care. It focuses on improving vitality and glycemic control before surgery with the Diameter application, using intermittently scanned glucose monitoring, nutrition habits and physical activity blended with coaching from a nurse practitioner (NP) diabetes. Because VITAAAL is a novel intervention, the aim of this pilot study is to investigate its usability and feasibility. The pilot study consists of three phases. After the first phase, a specific prehabilitation module will be designed and programmed in the Diameter app. This module will be based on the results and experiences in phase one. In phase two and three the patients will use the adjusted version of the Diameter app that contains implemented findings of the previous phase.
The purpose of this study is to assess how fast HRS9531 gets into the blood stream and how long it takes the body to remove it in participants with impaired kidney function compared to healthy participants.
The aim of this study is to evaluate the effect of glucagon-like peptide-1 (GLP-1) receptor agonist semaglutide on disordered eating behaviour in patients with overweight and type 2 diabetes. The investigators will also evaluate serum concentrations of incretin hormones GLP-1 and glucose-dependent insulinotropic polypeptide (GIP), as well as glucose variability using continuous glucose monitoring (CGM) devices before and after semaglutide, and determine his influence on eating disorders. In this prospective study the investigators aim to recruit 60 patients with type 2 diabetes and randomize them based on the presence of a disordered eating behaviour diagnosed by a validated questionnaire (1:1). Patients with a disordered eating behaviour will further be randomized (1:1) to receive semaglutide. At baseline and after 12 weeks of semaglutide therapy, the investigators will reevaluate glucose variability over 14 days using a continuous glucose monitoring device (CGM). With this study the investigators will determine the impact of GLP-1 receptor agonist semaglutide on disordered eating behaviour in patients with overweight and type 2 diabetes. This study will contribute to the knowledge about the role of incretin hormones and glucose variability in eating disorders in this population of patients.
The goal of the present clinical descriptive study is to characterize and quantify the potential hormonal chronobiological differences between individuals with type 2 diabetes (T2D) and healthy age and weight-matched controls as either circadian aligned or misaligned. The investigators hypothesize that individuals with T2D have a misaligned and different circadian rhythmicity of circadian biomarkers (melatonin and cortisol) than controls, and that this difference in turn is related to 24h hormonal fluctuations, behaviour, and metabolic-, cardiac-, and cognitive parameters. Participants will be asked to: - fill-out a diary on eating and sleeping habits for 30 days - wear an actigraphy and continuous glucose monitor for 10-14 days - stay overnight at the research facility, including continuous blood sampling and polysomnography
Eating healthy foods can help people manage health problems, like Type 2 diabetes and heart disease. Many people want to eat healthier, but changing eating behaviors is hard. Patients don't always know what foods to eat for their health problems and are hesitant to try foods that may be unfamiliar. These challenges are made more difficult when families have lower incomes, which makes accessing healthy foods difficult and trying new foods riskier when on a budget. Food is Medicine programs connect people to healthy foods that help them manage health problems. One example is a medically tailored grocery program. This program provides a patient with free groceries selected to help their medical condition. For example, a patient receives fruits, vegetables, whole grains, and low-salt, low-sugar foods if they have high blood pressure. Food resource coaching is another strategy for eating healthy food. This approach provides a coach that supports learning healthy eating habits when facing financial challenges by using available food resources. Among other strategies, a coach may teach the participant how to meal plan and shop at nearby stores to increase healthy and delicious eating patterns. In our study, the investigators will ask lower-income patients with at least one chronic health problem at a safety-net clinic if they want to participate in a Food is Medicine program. Patients that want to participate will be randomly placed in one of two groups. One group will get medically tailored groceries and food resource coaching from a free food market for four months. The other group will get free food from the same market for four months, but food will not be medically tailored, and they will not meet with a coach. Participants will have the option to continue getting food from the market at the end of the study if they want to. This study will help us learn what patients think about Food is Medicine programs and how to best carry out these programs in the future. The study will also help us determine if providing medically tailored groceries and food resource coaching helps patients improve their diet. The investigators will use what is learned in this study to create a larger and longer program that can be provided in safety-net clinics throughout Dallas-Fort Worth. Our main goal is to build a sustainable and helpful program for patients that may not otherwise have access to healthy foods and eating habits that set the foundation for better health.
As alternative flame retardants (FRs), novel brominated flame retardants (NBFRs) and organophosphate flame retardants (OPFRs) are ubiquitous in environment and may cause endocrine disruption effects. The associations between traditional endocrine-disrupting chemicals (EDCs) and type 2 diabetes have been extensively reported in epidemiological studies. To date, however, human-based evidence on the effects of NBFRs and OPFRs is lacking. The investigators conducted a case-control study of 344 participants aged 25-80 years from Shandong Province, East China, to assess potential associations between serum NBFR and OPFR concentrations and etiology of type 2 diabetes for the first time.
The overall objective of this study is to compare the effectiveness of adding a glucagon-like peptide-1 receptor agonist compared with adding basal insulin for patients with type 2 diabetes and chronic kidney disease, already treated with an sodium-glucose cotransporter-2 inhibitor and not currently reaching target glycemic control. All sociodemographic information and clinical variables will be retrieved from the LMC Diabetes Registry.
The purpose of this study is to see if the GEM intervention is acceptable and helpful to Black young adults with type 2 diabetes. The GEM intervention (coaching to reduce carbohydrate intake and increase physical activity after meals, with feedback from a continuous glucose monitor, CGM) might improve blood glucose levels, reduce diabetes distress, and increase empowerment and confidence in managing diabetes.