View clinical trials related to Diabetes Mellitus, Type 2.
Filter by:Around 10% has type 2 diabetes in Greenland, despite being a practically unknown disease only six decades ago. The drastic increase is of great concern, especially considering the transition that have occurred during the same decades going from a fisher-hunter lifestyle towards a more western lifestyle. Today, traditional marine foods are still increasingly being replaced by imported foods high in refined sugar (sucrose) and starch. Furthermore, recent studies discovered that the Greenlandic population harbors a different genetic architecture behind type 2 diabetes. Hence, obtaining more knowledge on interactions between lifestyle, genetics, and metabolism is therefore crucial in order to ameliorate the growing curve, or maybe even turn it around. Sucrose intolerance is in general rare; however, it is a common condition in Greenland and other Inuit populations. Here it is caused by a genetic variant in the sucrase-isomaltase (SI) gene, resulting in complete loss of enzyme function and hence an inability to digest sucrose and some of the glycosidic bonds in starch, both carbohydrates that are not part of the traditional Inuit diet. A recent, unpublished study found the variant to be associated with lower BMI, body fat percentage, bodyweight, and lipid levels independent of the lower intake of refined sugar. This might be explained by differences in the metabolism of carbohydrates and in the gut microbiota. The healthier phenotype was confirmed by a SI knockout mouse model, which furthermore interestingly indicated that the variant might alter food and taste preferences. It is anticipated that the drastic increase in type 2 diabetes in Greenland can be explained at least partly by the complex interaction between lifestyle and genetics. Therefore, the aim is to investigate if metabolic and microbial differences can explain the healthier phenotype of the homozygous carriers of the SI variant than wildtype individuals amd perform a 3-day cross-over dietary intervention using assigning subjects to a traditional Greenlandic diet and a Western diet. Moreover, the aim is to assess whether their food and taste preferences are different. The study will help us to understand the complex interactions between lifestyle, behavior, genetics, the microbiota and the host metabolism.
Diabetes affects over 37 million Americans and over 530 million people globally. Each diabetic patient needs at least one retinal exam per year starting immediately at the time of diagnosis if they have Type II diabetes (and starting at 5th year after disease onset if they have Type I diabetes). However, majority of diabetic patients do not get their eye exam due to multiple prohibitive factors such as cost, transportation, difficulty of taking time off from work, and inconvenience, amongst others. As a result, diabetes is the most common cause of visual impairment and blindness in working age adults in the United States and globally. Early detection via effective screening can prevent diabetes-related blindness. However, there are multiple barriers to screening. This prompted the development of RETINA-AI Galaxy™ v2.0, an automated Software as a Medical Device that screens for diabetic retinopathy in the primary care setting. This observational study was designed to validate the safety and efficacy of the RETINA-AI Galaxy™ Software-as-a-Medical-Device.
The study is conducted to assess potential effectiveness and feasibility of a comprehensive digital intervention for people with poorly-controlled Type 2 Diabetes Mellitus (T2DM), to explore the intervention effects of a combined online and offline management for people with T2DM and ultimately to improve the accessibility of lifestyle intervention among participants with T2DM.
The study aims to investigate the efficacy and safety of the early initiation of canagliflozin treatment in hospitalized heart failure patients with volume overload (warm-wet) who require the use of I.V loop diuretic during the hospitalization period.
The present study, characterized as a randomized clinical trial, aims to verify the effects of a remotely supervised exercise program, compared to a control group, on cardiometabolic, functional, and psychosocial outcomes in individuals with type 2 diabetes (DMT2). Males and females with T2DM from the city of Pelotas/RS who meet the study eligibility criteria will participate in the study. Participants will be randomized into the intervention group (IG) and control group (CG). The IG will perform a 12-week exercise program supervised remotely via video call, while GC will receive recommendations for physical activity. Participants will be evaluated at baseline (week 0) and after intervention (week 13). Initially, data for sample characterization, blood pressure, capillary blood glucose, and functional tests will collect during a home visit. In a second moment, participants will be invited to go to a specific laboratory for collecting glycated hemoglobin (HbA1c). Subsequently, a third date will be scheduled to apply self-administered questionnaires (online via GoogleDocs) related to the quality of life, sleep quality, depressive symptoms, emotional stress related to diabetes, level of physical activity, and eating habits. Additionally, acute glycemic responses will be evaluated before and immediately after an exercise session three times throughout the intervention. Capillary blood glucose will be collected in sessions performed in the initial period of mesocycles 1, 2, and 4. At week 13, reassessment will be realized by the same baseline assessors. Over the 12 weeks, a combined training will be carried out with remote supervision. Participants will perform strength exercises at usual and maximum execution speed and aerobic exercises at a rating of perceived effort between 11 and 15 on Borg's scale. The sessions will have a total duration between 37 and 57 min and a weekly frequency of two weekly sessions in the first six weeks and three weekly sessions in the remaining six weeks. Data will be expressed as mean and standard deviation. Data analysis between pre-and post-intervention moments, as well as between groups, will be performed by Generalized Estimated Equations, with Bonferroni post hoc, considering both per-protocol (including participants who meet 70% of frequency in the intervention) and intention to treat analysis (including all randomized participants), assuming an alpha level of 5%.
The purpose of this study is to determine the effect and safety of insulin efsitora alfa (LY3209590) compared to degludec in adult participants with type 2 diabetes who are starting basal insulin for the first time. Additional participants will continue to be enrolled in a maximum extended enrollment cohort.
The study aims to evaluate the effects of Insulin Degludec/Liraglutide on glycemic variability assessed by continuous glycemic monitoring with the function time in range, serum markers of inflammation, markers of endothelial dysfunction and a possible correlation with intra and extra-hospital mortality rates in a group of hospitalized diabetic patients compared to a control group of in-patient diabetic in treatment on insulin Basal-bolus.
This is a randomised, double-blind, placebo-controlled, parallel-group trial investigating the effect of 4 weeks bi-daily dosing of XEN-D0501 on blood glucose reduction as add-on to metformin in patients with diabetes mellitus type 2 where life style changes and treatment with metformin has failed to effectively reduce blood glucose concentrations.
This study will compare the new medicine IcoSema, which is a combination of insulin icodec and semaglutide, taken once a week, to insulin icodec taken once a week in people with type 2 diabetes. The study will look at how well IcoSema controls blood sugar level in people with type 2 diabetes compared to insulin icodec. Participants will either get IcoSema or insulin icodec. Which treatment participants get is decided by chance. IcoSema and insulin icodec are both new medicines that doctors cannot prescribe. Participants will get IcoSema or insulin icodec, which participants must inject once a week with a pen, which has a small needle, in a skin fold in the thigh, upper arm, or stomach. The study will last for about 1 year and 1 month. Participants will have 21 clinic visits, 31 phone/video calls with the study doctor, and 4 contacts with the site that can either be clinic visits or phone/video calls At 11 clinic visits participants will have blood samples taken. At 7 clinic visits participants cannot eat or drink (except for water) for 8 hours before the visit. Women cannot take part if pregnant, breast-feeding or plan to get pregnant during the study period. Not applicable for China: Participants will be asked to wear a sensor that measures their blood sugar level all the time during a 5 week period at the end of the study.
The objective of the study is to evaluate the feasibility and safety of administering a 4th or 5th intralymphatic booster dose of GAD-alum (Diamyd®) to T1D patients carrying HLA DR3-DQ2, who have earlier been treated with three or four intralymphatic doses of GAD-alum (Diamyd®) respectively.