View clinical trials related to Type 2 Diabetes Mellitus.
Filter by:There are recent advances in therapies for the treatment of Type 2 Diabetes Mellitus (T2DM) which include the GLP1 analogues and the DPP IV inhibitors. Both of these therapies target the incretin system using different methods to elevate/maintain circulating levels of GLP1 to subsequently achieve improved blood sugar control. Interestingly, GLP1 analogues have been reported not only to improve blood sugar control but to additionally induce weight-loss and emerging experimental evidence has shown it may have beneficial effects on the heart's structure and function. Due to the profile of this condition being a lot worse and younger patients having greater CVD risk, a therapy offering multiple positive effects, in particular the potential cardiometabolic effects, make this line of therapy attractive in this patient population. The aim of this research is to investigate the cardiometabolic effects of Liraglutide (GLP1 analogue) compared to that of its clinically relevant comparator Sitagliptin (DPP IV inhibitor).
This is a safety and efficacy study of ertugliflozin (MK-8835/PF-04971729) in the treatment of participants with type 2 diabetes mellitus who have inadequate glycemic control on metformin and sitagliptin. The primary objective of the trial is to assess the hemoglobin A1C (A1C)-lowering efficacy of the addition of ertugliflozin compared to the addition of placebo with an underlying hypothesis that addition of treatment with ertugliflozin provides greater reduction in A1C compared with the addition of placebo; the primary objective will be tested for both 5-mg and 15-mg doses of ertugliflozin.
This is an efficacy and safety study of ertugliflozin in participants with type 2 diabetes mellitus (T2DM) and inadequate glycemic control on metformin monotherapy. The primary study hypothesis is that at Week 26, the mean reduction from baseline in hemoglobin A1c (HbA1c) for ertugliflozin is greater than that for placebo.
This study will evaluate whether bile acids are able to increase insulin sensitivity and enhance glycemic control in T2DM patients, as well as exploring the mechanisms that enhance glycemic control. These observations will provide the preliminary data for proposing future therapeutic as well as further mechanistic studies of the role of bile acids in the control of glycemia in T2DM.
Impaired uptake of glucose by skeletal muscle is a key feature of type 2 diabetes mellitus. It is unclear to what extent impaired insulin uptake from capillaries into skeletal muscle interstitium plays a role in this process. We hypothesize that impaired uptake of insulin from capillaries into skeletal muscle interstitium is involved in impaired glucose uptake by skeletal muscle in type 2 diabetes mellitus.
Oral hypoglycemic agents, along with dietary modification and exercise encompass the mainstay of treatment in early stages of T2DM. Biguanides and thiazolidinediones are two major groups of hypoglycemic medications that while function via different pathways, mare both effective in short- and long-term glucose control. These medications diminish or delay long term micro- and macrovascular complications associated with T2DM although at different rates. Excessive insulin resistance accounts for a sustained increase in cardiovascular incidents in T2DM subjects. Given the shared pathway of insulin resistance/fetuin-A/OPG in atherosclerosis formation, it is conceivable that insulin sensitizing anti-diabetes medications are able to modify successive CAD risk via direct and indirect amelioration of insulin resistance/fetuin-A/OPG. The present study is therefore designed to investigate the effects of metformin and pioglitazone monotherapy on serum concentrations of fetuin-A and OPG in a group of Iranian adults with newly diagnosed T2DM.
Type 2 diabetes patients have been proved to have decreased of glucagon-like peptide-1 (GLP-1) levels. Incretin based therapy is associated with improved glycemic control by boosting GLP-1 levels . Nevertheless, the clinical effects are in great diversity for poorly controlled Type 2 diabetes patients. This study is designed to understand the pharmacological effects and genetic variation of incretin based therapy on type 2 diabetes.
The purpose of this study is to investigate the safety and efficacy of long-term use of pioglitazone/metformin hydrochloride combination tablets in the routine clinical setting in patients with type 2 diabetes mellitus for whom therapy with pioglitazone hydrochlorie combined with metformin hydrochloride is considered suitable.
Diabetes is associated with an increased risk for developing premature macrovascular complications. The process of irreversible subclinical damage to the vasculature already starts during its preceding stages. Dipeptidyl peptidase (DPP)-4 inhibitors have been shown to attenuate vascular damage in preclinical studies. Off-target effects on adipose tissue inflammation, liver steatosis and atherosclerotic plaques have been extensively documented in animal studies. Based on these considerations the investigators hypothesize that early therapy with the DPP4 inhibitor linagliptin in subjects with treatment naive type 2 diabetes will lead to beneficial effects on arterial stiffness as measured by pulse wave velocity.
This is a study to assess the pharmacokinetics, safety, and tolerability of sequential single oral doses of MK-8093 10 mg, 40 mg, 200 mg, or placebo to MK-8093 (Part 1) depending on treatment assignment in young healthy male participants. In Part 2 of this study, sequential single oral doses of MK-8093 200 mg, 1000 mg or placebo to MK-8093 depending on treatment assignment will be evaluated. The primary hypothesis of the study is that at least one dose of MK-0893 will produce greater reduction of glucagon-induced glycemia as compared to placebo following the infusion of glucagon, Sandostatine®, and basal insulin.