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Find 312 clinical trials for diabetes near Baltimore, Maryland. Connect with research centers in your area.
Showing 101-120 of 312 trials
NCT00645268
To determine the effect on erectile function in a population of type 2 diabetic men with erectile dysfunction who have undergone the following treatment regimen: pre-treatment with a daily dose of double-blind sildenafil versus placebo for 4 weeks (Phase I) followed by an as-needed, flexible-dose, open-label treatment phase with sildenafil for 12 weeks (Phase II). To assess safety and tolerability of this dosing regimen and to investigate its effects on endothelial function and subject's responses to the Self-Esteem And Relationship (SEAR) questionnaire.
NCT02065791
The goal of this study is to assess whether canagliflozin has a renal and vascular protective effect in reducing the progression of renal impairment relative to placebo in participants with type 2 diabetes mellitus (T2DM), Stage 2 or 3 chronic kidney disease (CKD) and macroalbuminuria, who are receiving standard of care including a maximum tolerated labeled daily dose of an angiotensin-converting enzyme inhibitor (ACEi) or angiotensin receptor blocker (ARB).
NCT01864174
The purpose of this study is determine if Metformin XR monotherapy in subjects with type 2 diabetes is non-inferior to Metformin IR monotherapy
NCT03021187
This trial is conducted globally. The aim of the trial is to investigate the efficacy and safety of oral semaglutide versus placebo in subjects with Type 2 Diabetes Mellitus treated with insulin. All subjects should continue their pre-trial insulin therapy (basal, basal-bolus or premixed regimen including combinations of soluble insulins) throughout the trial. Subjects treated with metformin in addition to insulin treatment must continue their metformin treatment throughout the entire trial.
NCT02825251
This trial is conducted in Europe and the United States of America (USA). The aim of this trial is to investigate efficacy and safety of Continuous Subcutaneous Insulin Infusion of Faster-acting Insulin Aspart compared to NovoRapid® in Adults with Type 1 Diabetes.
NCT02457897
Background: \- Insulin receptor mutation causes high blood sugars and sometimes diabetes complications. Researchers want to see if thyroid hormone helps. Objectives: \- To see if thyroid hormone treatment changes how the body handles sugar in people with insulin receptor mutation and improves blood sugar in people with diabetes. Eligibility: \- People ages 12 65 with an insulin receptor mutation. Design: * Study part 1:19-day clinic stay. Participants will be monitored for 4 days. Then for 15 days they will take a thyroid hormone pill 3 times a day. Participants will have: * Blood tests. * Heart rate and skin temperature monitored. * All their food provided. * Two 5-hour sessions in a special room. They will wear special clothes and sometimes sit still. * Two small tubes inserted in veins. One will deliver tiny amounts of sugar and fat with a non-radioactive tracer. Participants will also drink water with a tracer. The other tube will collect blood. * A sweet drink. Participants may have finger stick blood sugar tests. * Glucose-monitoring device inserted into body fat for two 24-hour periods. * Adults may have samples of fat and muscle taken. * Heart ultrasound. * PET-CT scan in a machine. An intravenous catheter will be placed in an arm vein. A small amount of radioactive substance will be injected. * DEXA scan of body fat and bone density. * Participants with poorly controlled diabetes will then take thyroid hormone at home for 6 months. They will have blood drawn and sent to the study team monthly. * After about 3 months, they will have an overnight visit. After 6 months, they will have a 4-day visit.
NCT01781975
Type 1 diabetes mellitus (T1DM) results from the autoimmune destruction of insulin-producing ß cells. Although exogenous insulin is widely available, it is not possible for affected individuals to consistently achieve euglycemia with current technology, and thus they are at risk for devastating long-term complications. This phase II study is designed to evaluate the safety and efficacy of imatinib mesylate as a novel therapy for new-onset T1DM. Imatinib is a first-in-class tyrosine kinase inhibitor. This study will explore the potential role of short-term therapy with imatinib to induce tolerance and possibly lead to a durable long-term remission of T1DM.
NCT03563313
The objective of the study is to assess efficacy and safety of a closed loop system (t:slim X2 with Control-IQ Technology) in a large randomized controlled trial.
NCT02131766
The purpose of this study is to use the USS Virginia Closed-Loop system for overnight insulin delivery in adults with Type 1 Diabetes (T1DM) in an outpatient setting to evaluate the system's ability to significantly improve blood glucose levels. This protocol will test the feasibility of "bedside" closed-loop control - an approach comprised of standard sensor-augmented pump therapy during the day using off-the-shelf devices and overnight closed-loop control using experimental devices in an outpatient setting. The rationale for this study is as follows: we anticipate that closed-loop control may ultimately be adopted by patients with T1DM in a selective manner. Patient may choose to start using these systems for overnight control only, e.g. to alleviate the well documented fear of hypoglycemia while asleep. To test this paradigm of "bedside" closed-loop control, subjects will be studied with continuous glucose monitoring (CGM)-augmented usual pump therapy during the day followed by overnight use of USS Virginia Closed Loop Control.
NCT00419562
Type 1 diabetes (T1D) is an autoimmune disease. This means that the immune system (the part of the body which helps fight infections) mistakenly attacks and destroys the cells that produce insulin (islet cells found in the pancreas). As these cells are destroyed, the body's ability to produce insulin decreases. There is evidence suggesting that repeated oral administration of an autoantigen (the same protein that the immune system is reacting to) may introduce a protective immunity and cause the immune system to stop its attack. An earlier, large scale study was done to see if oral insulin could delay or prevent the development of Type 1 diabetes in relatives at risk for developing Type 1 diabetes. The overall results showed that for the entire study population, oral insulin did not delay or prevent Type 1 diabetes. However, an analysis that was done after the conclusion of the trial suggested a potential beneficial effect in a subgroup of participants. The participants who seemed to benefit from oral insulin had higher levels of insulin autoantibodies which are directed against insulin itself ( called mIAA). The Type 1 Diabetes TrialNet study group will further explore the potential role of oral insulin to delay or prevent Type 1 diabetes in a similar group of people. The study will also include a secondary group of individuals at different levels of risk than those in the primary cohort to gather information for future studies.
NCT00279305
Type 1 diabetes is an autoimmune disease in which the immune system mistakenly attacks the insulin-producing beta cells in the pancreas. Without these beta cells, the body cannot maintain proper blood glucose levels in response to daily activities such as eating or exercise. With fewer insulin producing cells blood glucose increases, causing hunger, thirst, and unexplained weight loss. By the time these symptoms develop, 80-90% of a person's beta cells have already been destroyed. However, this also means that between 10-20% of these cells remain that continue to produce insulin. Scientists have learned that two types of immune cells, B cells and T cells, are involved in causing type 1 diabetes. T cells are responsible for attacking and destroying the beta cells that make insulin. Although they don't attack insulin producing cells, B cells may be what trigger the T cells to attack. This study will investigate the use of rituximab to see if it can help lower the number of immune B cells thereby preventing the destruction of any remaining insulin producing beta cells that remain at diagnosis. Rituximab is approved by the Food and Drug Administration (FDA) for the treatment of a condition called B-lymphocyte lymphoma. Its effects on the immune system are well understood through its use in organ transplantation. Research has shown that rituximab might be helpful in treating other conditions caused by T cells and B cells, including type 1 diabetes. The goal of this study is to find out if rituximab can preserve residual insulin secretion and prevent further beta cell destruction in type 1 diabetes.
NCT03531905
12 week study to assess the LDL-C lowering efficacy, other lipid and glycemic measures, and safety of bempedoic acid/ezetimibe FDC compared to ezetimibe and placebo in patients with type 2 diabetes (T2D) and elevated LDL-C
NCT00658021
The primary objective of this study is to test the hypothesis that glycemic control, as measured by change in hemoglobin A1c (HbA1c) from baseline to endpoint, with exenatide is superior to that of placebo after 28 weeks of treatment in adolescent patients with type 2 diabetes who are naïve to antidiabetes agents, or patients who are being treated with metformin, an SU, or a combination of metformin and an SU
NCT04466501
The ACR LAB is a prescription-only, nurse- or clinician-conducted in vitro diagnostic (IVD) device. The test is for the qualitative and semi- quantitative detection of Albumin, Creatinine, and the Albumin-to- Creatinine Ratio. The device is composed of a kit and a smartphone application using an image recognition algorithm. The degree of agreement of the ACR \| LAB as compared to the comparator device will be tested. Urine samples will be tested by a separate professional user on each device.
NCT02691247
This clinical trial will explore the safety and effect of autologous ex vivo expanded polyclonal regulatory T-cells on beta cell function in patients, aged 8 to 17, with recent onset T1DM. Other measures of diabetes severity and the autoimmune response underlying T1DM will also be explored. Eligible subjects will receive a single infusion of CLBS03 (high or low dose) or placebo.
NCT02351466
The investigators have previously studied a group of young children with T1D using brain MRI, age-appropriate neurocognitive testing and continuous glucose monitoring, followed for 18 months. The investigators observed significant differences in gray matter volumes and white matter microstructure in the children with diabetes as compared to controls. These differences appeared to increase over time, with slower rates of brain growth in the T1D group (Mazelli, et al, Diabetes 2014; Barnea-Goraly, et al, Diabetes Care 2014; Mauras, et al, Diabetes 2015). In this new protocol the investigators will include the same children with T1D and healthy controls previously studied and recruit new similar subjects to replace those lost by attrition. The investigators will be using structural and functional brain MRI, neurocognitive testing and measures of glycemic control, to determine if changes in the brain persist or worsen over longitudinal follow up, and whether these changes are associated with measures of glycemic control and neurocognitive metrics as these children grow and progress through puberty.
NCT03717233
Study will evaluate the use of lower-limb assistive exo-skeletons worn on the ankle and foot. Participants will wear the exo-skeletons and walk in a safe environment. Measurements will be taken to determine how the exo-skeletons affect the pressure on the feet of people with diabetic foot ulcer and how they walk.
NCT03439072
This is a non-inferiority, multi-center, randomized, controlled, single-blind, two-way crossover efficacy and safety study in subjects with Type 1 diabetes mellitus. The study involves two daytime clinical research center (CRC) visits with random assignment to receive G-Pen™ glucagon 1 mg during one period and Lilly Glucagon 1 mg during the other. Each daytime visit is preceded by an overnight stay in the CRC. In the morning of the inpatient study visit, the subject is brought into a state of hypoglycemia through IV administration of regular insulin diluted in normal saline. After a hypoglycemic state with plasma glucose \< 50 mg/dL is verified, the subject is administered a dose of G-Pen or Lilly Glucagon via subcutaneous injection. Plasma glucose levels are monitored for up to 180 minutes post-dosing, with a value of \>70.0 mg/dL within 30 minutes of glucagon administration indicating a positive response. After 3 hours, the subject is given a meal and discharged when medically stable. After a wash-out period of 7 to 28 days, subjects return to the CRC, and the procedure are repeated with each subject crossed over to the other treatment. A follow-up visit as a safety check is conducted 2-7 days following administration of the final dose of study drug.
NCT03527667
This pilot study aims to test the feasibility of providing incentives to patients with T2D contingent on remote biochemical verification using a smartphone carbon monoxide (CO) monitor. The investigators will use an ecological momentary assessment (EMA) smartphone application and CO sensor to monitor urges to smoke, stressors, smoking behaviors, and to validate continuous abstinence throughout the intervention. Two different contingency management structures will be explored to investigate the length of time incentives need to be offered.
NCT03811288
The purpose of the study is to register the occurrence of cardiovascular disease among type 2 diabetes patients across ten countries across the world. Participants will be asked to give information about their health. Participants will continue their normal way of life and will not get any medication other than prescribed to them by their doctor. Participants' participation will be one day/one visit at their doctor. The study will last for about 6 months in total.
