View clinical trials related to Type2 Diabetes Mellitus.
Filter by:This study aims to evaluate the possible nephroprotective effect of nicorandil in patients with type 2 diabetes mellitus .
The effect of polyethylene glycol Losenatide on body fat, insulin resistance, weight, blood sugar, blood lipid, stomach volume and other factors in patients with type 2 diabetes through 12 week follow-up, and explore the factors affecting the efficacy, so as to provide more evidence-based medical basis for drug treatment and benefit patients.
This study will investigate the impact of dietary protein intake on progressive muscle loss and functionality (sarcopenia) in older adults with type 2 diabetes mellitus. Sarcopenia is known to have a bidirectional interaction with type 2 diabetes mellitus. Therefore in order to address this bidirectional complication we suggest that an increased intake of dietary protein at 1.5 gr/kg/day (current official recommendation is 0.8 gr/kg/day) could help to treat the sarcopenia, which in turn will help to ameliorate the type 2 diabetes mellitus progression.
Nucleotide-binding oligomerization domain 2 (Nod2) signaling is critical for human health.To figure out the clinical relevance of NOD2 ligands, the investigators plan to evaluate the change of NOD2 ligands in inflammatory bowel diseases (IBD), CRC, atherosclerotic cardiovascular disease (ACVD), and type 2 diabetes mellitus (DM2 ).
There are an estimate 7 million people in the United Kingdom living with pre-diabetes. The increasing number of new cases of pre-diabetes presents a global health concern due to funding implications. The progression from pre-diabetes to overt type 2 diabetes is often characterised by a reduction in insulin secretion (or β-cell dysfunction). Whilst inflammation may contribute to β-cell dysfunction, a complete picture is still lacking. The proposed research will help develop a more complete understanding of the molecules that may trigger β-cell failure, a process that often connects pre-diabetes to overt diabetes. The aims of this project are; 1. Run large-scale proteomics and metabolomics analysis in pre-diabetic individuals to determine possible biomarker molecules. 2. Use measures and / or classifications of insulin resistance and diabetes (i.e. β-cell function and Disposition Index) to establish whether particular metabolic and / or proteomic signatures (aim 1) are associated with the development of pre-diabetes. 3. To determine if the possible metabolite or protein profile changes are associated with the progression or regression of pre-diabetes from baseline (0 month) to the end of the National Diabetes Prevention Programme (NDPP) (9 month).
Diabetes mobile technology is an emerging and rapidly expanding field that seeks to combine cutting edge behavioral insights with best practice in diabetes self management education to improve patient empowerment and deliver better patient outcomes.The question that arises is whether or not, diabetes mobile applications are effective in improving glycemic control, clinical outcomes, quality of life and overall patient satisfaction, in diabetic patients in Qatar. To answer this, we plan to enroll 90 diabetic patients into a custom-made diabetes app for Qatar (Droobi) (as intervention group) in comparison with 90 diabetic patients followed in the current standard care, matched in characteristics (as control group). We have the hypothesis that with utilization of the mobile application, patients will have improved glycemic control, improved self management and patient empowerment; together with improved patient-educator/doctor interaction.
The present study proposes to test the effectiveness of the Building a Healthy Temple: Diabetes Self-Management Support Program (BHT DSMS), a rendition of the Stanford DSMP in a spiritual context for the Hispanic faith community members. Using a holistic approach through integrating spiritual and physical health, BHT translates the Stanford DSMP in a way that may result in lasting behavior changes and improved diabetes outcomes for Hispanics with type 2 diabetes (T2D).
Our research team is proposing a study to investigate the effects of osteopathic manipulative treatment on the blood sugar levels of persons with Type 2 diabetes. The goal of this study is to determine if osteopathic manipulative treatment (OMT) can improve the blood sugar levels of individuals with Type 2 diabetes. Half of the participants will receive osteopathic manipulative treatment (OMT) and the other will receive OMT-sham treatment.
The purpose of the study is to evaluate the efficacy and safety of ketogenic diet (KD) complete meal replacement treatment of obesity-related Type 2 diabetes mellitus (T2DM) and of obesity in patients with obesity and T2DM. This will be an open-label single arm study evaluating glycemic control and weight loss in obese participants with type 2 diabetes treated for 6 months with 3:1 [fat]:[protein+carbohydrate] ratio, 1600 kcal/day diet.
In this study, using 18F-FDG and Gd-DTPA PET/MRI, we are aiming to perform a dynamic PET/MRI imaging using 18F-FDG and Me4FDG for a group of type 2 diabetic patients scheduled for Glifozine therapy due to the bad metabolic control to assess changes in renal function before and 1 to 2 weeks after initiating therapy with Gliflozine. Furthermore we aim to study the temporal behavior of 18F-FDG and Me4FDG activity in certain kidney regions of the diabetic participants to estimate basic kidney parameters using time activity curve. Further, we intend to find a kinetic model that describes the behavior of glucose in each part of the kidney can be acquired mathematically and to find out whether conclusions about the glucose reabsorption capability of the kidney in diabetes can be achieved in general. In addition, we aim to simultaneously determine renal lesions as well as obstructions with the fused, high definition, and three dimensional images of the kidney and estimate kidney function parameters from the dynamic Gd-DTPA MRI scan and compare them to the kidney function determined with the kinetic model.