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Find 301 clinical trials for diabetes near Massachusetts. Connect with research centers in your area.
Showing 241-260 of 301 trials
NCT01107886
The purpose of this study is to determine whether saxagliptin can reduce the risk of cardiovascular events when used alone or added to other diabetes medications
NCT01786408
This study will involve an investigational device, the Seventh Sense Biosystems TAP20-C. The TAP20-C device collects small amounts of blood from the forearm which can then be used for blood testing. The study will also involve collecting blood by fingerstick which is a common way of collecting blood. The SAFE-T-FILL Capillary Blood Collection system and the Terumo Capiject 1.5 mm Blade Safety Lancet will be used for this. The study will compare the concentrations of glucose, hemoglobin, and HbA1C in blood samples collected with the two different blood collection methods. Additional information will be collected about how the TAP20-C device performs.
NCT02045758
This study will compare blood collection from the forearm using an investigational device TAP20-C to blood collection from the fingertip.
NCT00784511
North American blacks tend to have low blood levels of vitamin D because pigmentation blocks vitamin D production in the skin. They also have higher rates of developing type 2 diabetes and higher rates of complications from the disease compared with whites. Although there is compelling evidence that adequate vitamin D may reduce the risk for type 2 diabetes in whites, recent evidence from a national survey demonstrated an association of vitamin D with diabetes in whites but not in blacks. However, the central hypothesis of this study is that providing enough supplemental vitamin D to blacks (raising their blood levels higher than that of most participants in the survey) will improve blood measures related to diabetes risk. The proposed study is a 12-week randomized, double-blind, placebo-controlled experiment designed to examine the effect of vitamin D supplementation (100 μg/d ) on insulin secretion, insulin sensitivity and glucose control in pre-diabetic black men and women aged 40 and older.
NCT01421355
Specific Aim: To establish the feasibility of studying the change in endothelial function caused by induced moderate hyperbilirubinemia in type 1 diabetes. Atazanavir, a drug that inhibits bilirubin conjugation, will be used to induce moderate hyperbilirubinemia. Endothelial function will be measured before and after atazanavir therapy. In addition, plasma markers of antioxidant capacity and oxidant stress will be measured as proof-of-concept that induced moderate hyperbilirubinemia has favorable effects on oxidative stress in type 1 diabetes.
NCT00825695
The purpose of the study is to learn whether or not cocoa has a beneficial effect on blood flow to the brain in older subjects with diabetes mellitus or hypertension (high blood pressure). We hypothesize that cocoa, which contains flavanols (a type of polyphenol), may help to promote blood flow to the brain in older people with diabetes or hypertension.
NCT01480804
The purpose of this research study is to identify barriers affecting self care in older patients with diabetes and to provide coping strategies for these barriers with help from a care manager (Geriatric Life Specialist) to improve clinical, economical, functional and psychosocial parameters.
NCT01555164
This is a randomized, double-blind, placebo-controlled, parallel-group, multicenter study to determine the effect of ranolazine when added to metformin on glycemic control in adults with type 2 diabetes mellitus (T2DM) who are inadequately controlled despite current treatment with stable metformin therapy in addition to diet and exercise.
NCT00996658
The objective of the current study is to investigate the efficacy, safety and tolerability of Linagliptin (5 mg once daily) compared to placebo given for 24 weeks as add on therapy to metformin in combination with pioglitazone in patients with type 2 diabetes mellitus with insufficient glycaemic control.
NCT01215955
Evidence regarding optimal methods of insulin dose adjustment is lacking in the literature. The purpose of this study is to evaluate the efficacy and safety of two approaches to escalate prandial insulin therapy in participants with type 2 diabetes mellitus not achieving adequate glycemic control on basal insulin.
NCT00309244
The purpose of this 13 month study (12 month treatment period and 1 month follow-up period) is to determine whether inhaled insulin is safe and effective in the treatment of type 2 diabetes.
NCT01425359
This study will evaluate the effect of ranolazine compared to placebo on the average weekly angina frequency in subjects with chronic stable angina and coronary artery disease (CAD) who have a history of type 2 diabetes mellitus (T2DM), and whether ranolazine can reduce the frequency of angina (chest pain) attacks, compared to a placebo. Subjects will be asked to record their daily angina episodes in a diary at the end of each study day. Ranolazine is approved for the treatment of chronic angina, and is not approved for the treatment of T2DM.
NCT01248143
Type 2 diabetes is common in ethnic and, minority groups in developing and developed countries such as Africans, African Americans, Asians, Native Americans, Hispano-Latinos and Alaskan indians. A randomized controlled study to assess the efficacy of fermented papaya preparation and green tea infusates in latent diabetes (individuals newly diagnosed as diabetics) is proposed. Glycation products from excess glucose autooxidation can chemically modify DNA causing mutations and cause complex DNA rearrangements. Advanced glycation end-products which play a role as proinflammatory mediators in gestational diabetes can accelerate vascular occlusion by quenching the vasodilating agent nitric oxide. Interaction with high-affinity receptors located on monocytes and macrophages can enhance the production of free radicals and reactive oxygen/nitrogen species, the secretion of tumor necrosis factor-α, interleukin-1 and insulin-like growth factor I which can proliferate endothelial, mesangial and smooth muscle cells and hence contribute significantly to the pathogenesis of cardiovascular complications. The clinical markers include C-reactive proteins (inflammation indicators), protein C (markers of reno vascular injury), uric acid, natriuretic peptides, and the integrity of isolated adipocytes, glucose levels, lipid indices (triglycerides, total cholesterol, VLDL, HDL and LDL). Given that decreased functional activity of activated protein C affects the permeability of the glomerular capillary wall and enhances apoptosis of glomerular endothelial cells and adipodocytes, this has relevance to the pathophysiology of diabetic nephropathy. A second phase of the study is expected to commence after the first 16 weeks in order to assess the ability of the dietary factors to modulate atheroma formation and the integrity of drug therapy (upon commencement of treatment)on the prognosis of diabetes. This will be expected to last up to 3 years.
NCT01472185
This is a randomized, double-blind, placebo-controlled, parallel-group, multi-center study to determine the effect of ranolazine when given as monotherapy on glycemic control in subjects with type 2 diabetes mellitus (T2DM) who were inadequately controlled with diet and exercise alone and who are treatment naive to antihyperglycemic therapy or have not received antihyperglycemic therapy in the 90 days (or thiazolidinediones \[TZDs\] for at least 24 weeks) prior to screening, and to characterize the relationship between HbA1c reduction and other glycemic parameters in subjects with T2DM.
NCT00256646
OBJECTIVES: Vascular Disease is the leading cause of complications and death in patients with diabetes. Risk markers and underlying mechanisms have not been fully elucidated, and may differ from those in non-diabetic individuals. The unifying theme for the Program Project is that hyperglycemia and insulin resistance alter a number of biological processes which interact in vicious cycles to accelerate atherogenesis and are consequently major underlying risk factors for vascular disease. The overall objectives are to define these unique processes and to elucidate underlying biochemical, metabolic, and genetic determinants of vascular disease complications in diabetes. RESEARCH PLAN: Over the past 4 years, we have collaborated with the DCCT/EDIC Study Group, and have made novel observations regarding vascular disease pathogenesis in Type 1 Diabetes. This work has focused our studies on specific pathogenic processes. We will now study a Type 2 Diabetes cohort from the VA Cooperative Study, "Glycemic Control and the Complications of Diabetes, Type 2", with high vascular disease event rates. These collaborations provide a unique opportunity to address the pathogenesis of accelerated atherogenesis in the two main types of diabetes, and will greatly augment the scientific knowledge that will be gained in the conduct of these world-class prospective trials. METHODS: The Program Project has 4 projects and 3 cores. Project 1 will assess lipoproteins, glycoxidative stress, and inflammation as risk factors in studies involving Type 2 Diabetes patients and cultured cell systems. Based on preliminary data from our initial studies Type 1 patients, changes in the NMR lipoprotein subclass profile will be emphasized. Project 2 will elucidate interactions between inflammation, modifications of lipoproteins, and autoimmunity in vascular disease risk. These novel concepts are also based upon exciting preliminary data pertaining to LDL-antibody complexes. Project 3 will pursue interesting preliminary data and define the role of the kallikrein-kinin system in vascular disease complications, with effects on mitogenesis and matrix production. Project 4 will assess the role of the Insulin Resistance Syndrome and novel factors secreted from adipocytes in the pathophysiology of biochemical risk factors and cardiovascular complications. Cores include an Administrative Core, a Biostatistics and Epidemiology Core which will link with the trials data coordinating centers, and Molecular and Statistical Genetics Core. Investigators will work in close collaboration with the VA Executive Committee, Study Centers, the Hines Coordinating Center, and some of the other ancillary studies. All data analysis involving clinical outcomes will be performed at the Hines Coordinating Center. There is true synergism among the projects at both scientific and logistical levels. The Program Project design allows for interactions among multidisciplinary investigators studying the same cohort, which will define how multiple pathological processes interact at the level of the arterial wall to promote atherosclerosis.
NCT00700622
The objective of this study is to demonstrate that TI® Inhalation Powder combined with Lantus® is as effective as Humalog® combined with Lantus® on HbA1c.
NCT00881530
The objective of the current study is to investigate the safety and efficacy of BI 10773 in 2 different doses compared to Metformin or to Sitagliptin given for 78 weeks in different modalities of treatment in patients with type 2 diabetes mellitus.
NCT00984867
This study aims to investigate how dapagliflozin can control blood sugar in patients with type 2 diabetes when added to existing treatments (sitagliptin alone or in combination with metformin). The effect of dapagliflozin on weight and blood pressure will also be studied.
NCT00299871
To evaluate the dose-response relationship of AVE0010 administered once daily and twice daily with chronic dosing in metformin-treated subjects with type 2 diabetes
NCT00791479
This is a study to demonstrate that different doses of once-weekly LY2189265 injected subcutaneously will have dose proportional effect on hemoglobin A1c (HbA1c) at 12 weeks in participants with type 2 diabetes mellitus.
