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Find 661 clinical trials for diabetes near Baltimore, Maryland. Connect with research centers in your area.
Showing 361-380 of 661 trials
NCT00279045
The study will compare and evaluate the effects of long-term treatment of monotherapy with rosiglitazone, metformin and glyburide/glibenclamide on the improvement and maintenance of glycemic control in patients with recently diagnosed type 2 diabetes mellitus.
NCT00451321
The purpose of this study is to optimize several multi-dose regimens of otelixizumab, determine the highest biologically active dose, evaluate biomarkers and surrogates of efficacy, and to evaluate the effects of each multi-dose regimen of otelixizumab against standard safety and efficacy parameters.
NCT02202161
This study is being conducted to evaluate the safety, tolerability, pharmacokinetics, and pharmacodynamics of GSK2330672 compared to sitagliptin when administered with metformin for 14 days to subjects with type 2 diabetes mellitus (T2DM). Approximately 72 male and female subjects aged 30-64 years with T2DM and currently taking metformin will be recruited for this study. Eligible subjects will begin a run-in period of 13-15 days to stabilize on metformin 850 milligram (mg) twice a day (BID). Subjects will then be randomized to GSK2330672 10 mg, 20 mg, 30 mg, 90 mg, matching placebo or open-label sitagliptin 50 mg for 14 days BID. Subjects will return for a follow-up visit 7-10 days after discharge.
NCT00770679
Cholesterol-lowering drugs called statins improve the functioning of the endothelium, and help prevent heart disease. The investigators are testing whether statins improve endothelial function more in the arteries that have worse endothelium to begin with. One of the functions of the endothelium is to help control how blood vessels dilate (expand) or contract (narrow) in different situations. This affects how blood flows through those vessels. Magnetic resonance imaging (MRI) can be used to evaluate endothelial function in the arms and legs noninvasively.
NCT01607385
A single blind, randomized, placebo-controlled, dose escalating study to evaluate the safety, tolerability, pharmacokinetic and pharmacodynamic parameters of repeat doses of GSK2330672 in healthy volunteers, given alone and with a single day of dosing with GSK1614235
NCT00791076
The goal of this research is to see if pancreatic polypeptide (PP), a hormone that is naturally produced by the pancreas and that works to control the amount of glucose that the liver makes, will reduce the amount of insulin required for people who must take insulin to maintain their normal blood glucose level.
NCT00799643
Growing evidence over recent years supports a potential role for low grade chronic inflammation in the pathogenesis of insulin resistance and type 2 diabetes. In this study we will determine whether salsalate, a member of the commonly used Non-Steroidal Anti-Inflammatory Drug (NSAID) class, is effective in lowering sugars in patients with type 2 diabetes. The study will determine whether salicylates represent a new pharmacological option for diabetes management. The study is conducted in two stages. Enrollment in the first stage is complete. The primary objective of the first stage was to select a dose of salsalate that is both well-tolerated and demonstrates a trend toward improvement in glycemic control. The primary objective of Stage 2 of the study is to evaluate the effects of salsalate on blood sugar control in diabetes; the tolerability of salsalate use in patients with type 2 diabetes (T2D); and the effects of salsalate on measures of inflammation, the metabolic syndrome, and cardiac risk.
NCT00382564
This study will determine the usefulness of magnetic resonance imaging (MRI) for examining the heart or blood vessels. MRI uses a magnetic field and radio waves to produce images of body tissues and organs. The subject lies on a table that can slide in and out of the scanner (a metal cylinder), wearing earplugs to muffle loud noises that occur during the scanning process. MRI of the heart and blood vessels, called magnetic resonance angiography (MRA), is a developing diagnostic method that permits evaluation of arteries and veins without the use of x-rays or invasive catheterization required by conventional angiography. People 18 years of age and older with known or suspected atherosclerotic disease may be eligible for this study. Participants have blood tests and MRA scanning. The MRA takes about 1.5 to 2 hours. During part of the scan, a contrast agent may be injected into a vein to brighten the images of the heart and blood vessels. Subjects are monitored with an electrocardiogram and are asked to hold their breath for about 5 to 20 seconds intermittently during the procedure. A CT scan may be done to confirm the MRA findings. CT uses x-rays to produce pictures of the heart and blood vessels. The subject lies on a bed during the scan and is given a contrast agent through a catheter inserted into a vein. Subjects are asked to hold their breath intermittently for about 5 to 20 seconds. A medicine called a beta blocker may be administered to slow the heart rate.
NCT00833846
Type II diabetes mellitus is rapidly becoming a global pandemic with a deleterious impact on cardiovascular morbidity and mortality. Understanding its pathophysiology is important for the development of future therapeutic interventions. Emerging evidence suggests interplay between mitochondrial dysfunction and the development of insulin resistance. Interestingly, mitochondrial dysfunction in skeletal muscle and adipose tissue are early events in the development of type II diabetes mellitus and are proposed to play a role in exacerbating insulin resistance. Although it has been demonstrated that skeletal muscle of insulin-resistant individuals has reduced mitochondria and mitochondrial dysfunction, whether this disruption of mitochondrial function is more widespread has not been explored. We hypothesize that this disruption of mitochondrial function is more systemic and thereby may contribute to the development of peripheral insulin resistance and possibly promote the myriad of complications associated with diabetes. To test these assumptions, we propose an initial proof of concept study to evaluate mitochondrial biology in human platelets in normal volunteers, pre-diabetic and diabetic subjects to assess whether mitochondrial disruption/dysfunction evolves with the progression to type II diabetes. In parallel, proteomic analysis will be performed to evaluate whether the development of insulin resistance and diabetes confers a specific modulation in the biological signature of human platelets with disease progression. To delineate these concepts, we will evaluate study subject's glucose tolerance and insulin sensitivity and draw blood in parallel to study their platelets. Biological readouts will include: 1) the quantification of the mitochondrial proteome and electron transfer chain content; 2) the evaluation of platelet mitochondrial respiratory function and 3) to determine the mitochondrial reactive oxygen species capacity and defenses. If this hypothesis is validated, this study will show that the mitochondrial disruption/dysfunction is a more generalized finding in type II diabetes. Additionally, it would propose the use of platelets as potential biomarkers for early detection of mitochondrial function and assessment of disease. Finally, this would establish a peripheral blood readout of the modification of mitochondrial function as a novel approach to monitor the prevention and/or reversal of insulin resistance and diabetes in response to therapeutic strategies.
NCT00094796
This study will examine whether the anti-diabetes medicine rosiglitazone can safely and effectively reverse the early problems of type 2 diabetes and delay the onset of disease in people with pre-diabetes. The underlying problem in people with diabetes or pre-diabetes is insulin resistance (lowered sensitivity to insulin) resulting in poor glucose (sugar) regulation. Rosiglitazone improves the body's sensitivity to insulin. Patients 21 years of age and older who have type 2 diabetes or who are pre-diabetic (glucose intolerant/insulin resistant) may be eligible for this study. Candidates are screened with a medical history, physical examination, blood tests, echocardiography (heart ultrasound), exercise test, brachial artery reactivity test (see below), and possibly a muscle biopsy. Participants take one rosiglitazone tablet daily by mouth for 2 weeks. The dose is then increased to two tablets daily for another 2 weeks and then to 4 tablets daily for the remainder of the 12-week treatment period. In addition to treatment, patients undergo the following tests and procedures: * Resting and exercise metabolic testing: The amount of oxygen taken in and carbon dioxide exhaled during breathing is measured while the patient rests in a chair and then while he or she exercises on a stationary bicycle or treadmill. Both at rest and during exercise, the patient wears a facemask that measures the amount of oxygen used. During exercise, heart rate is monitored with electrodes on the chest, arms, and thighs. The exercise test is repeated three times, once to become familiar with the test, again the next day to measure exercise capacity, and again 3 days later. The third test is less strenuous and is optional. * Muscle biopsy (optional): A small area of skin over a calf muscle is numbed with a local anesthetic and a 1-inch incision is made over the muscle. A small amount of muscle tissue is taken and the incision is closed with stitches. * Brachial reactivity study: This ultrasound study tests how well the patient's arteries widen. The subject rests on a bed for 30 minutes. An ultrasound measuring device is placed over the artery just above the elbow. The size of the artery and blood flow through it are measured before and after inflating a pressure cuff around the forearm. The pressure cuff stops the flow of blood to the arm for a few minutes. After a 15-minute rest, a nitroglycerin tablet (medicine that causes blood vessels to relax) is placed under the patient's tongue. Before and 3 minutes after the nitroglycerin is given, the size of the artery and blood flow through it are measured again. * Blood samples: Blood samples are collected at the beginning and end of the study and at study visits in between. * Study visits: Patients come to the Clinical Center biweekly or monthly for a follow-up history, physical examination, and blood tests. At the end of the3-month treatment period, they receive recommendations about possible treatment modifications to best maintain glucose tolerance. Their physicians are informed of how their blood sugar was controlled. Six months after completing the study, patients undergo a final study evaluation and blood tests, and are then invited to return for yearly checkups after that.
NCT00911833
Background: * Genetic research has implications for drug development and marketing. Race-based medicine may be able to provide specific treatment for populations with increased disease-specific morbidity and mortality. However, contemporary genetic research refutes the idea that races are genetically distinct populations, even as drugs designed for use in specific races are being promoted. * Studies have shown high levels of public suspicion for race-based and personalized genetic medicine. Concerns related to not only the potential performance of race-based drugs, but also the motives of those offering these drugs. Many participants have suggested conspiracy theories in which race-based medicine was disguising an attempt to provide inferior medications or deliberately harm certain populations. Concerns about personalized medicine often have to do with privacy and other personal concerns. * Public suspicions of race-based medicine, and to a lesser extent, personalized genetic medicine, make it important to examine and understand the theoretical and empirical literature on trust and health care. Objective: \- To describe the perspective of participants evaluating the medicine offer. Eligibility: * Males and females ages 18 and older who are visiting the John Hopkins clinics (primarily the adult care clinics). * Participants must be able to take a literacy screen and respond to a short survey. Design: * Participants will be asked to take a researcher-administrated literacy screen, read one of three randomly assigned vignettes, and fill out a survey. The first page of the survey will provide information about the study. * Participants will respond to initial questions about demographics, experiences with discrimination, and trust in the medical profession and institutions. * Each participant will receive a random vignette in which he/she will imagine him/herself being diagnosed with a common, chronic condition and offered a conventional drug, a race-based drug, or a genetically personalized drug. * After being presented with the vignette, participants will be asked to respond to a survey that asks about their levels of trust in the vignette doctor, perceived respect given to the patient by the vignette physician, emotional response to the vignette, their belief in the effectiveness and safety of the drug prescribed in the vignette, information sufficiency, and their hypothetical behavioral intention to take the drug. * Participants will be debriefed after completing the survey, and will be offered a small amount of compensation for participating.
NCT00500331
This is a dose-ranging study that will evaluate the efficacy, safety and tolerability of a range of doses of investigational product and pioglitazone, compared to placebo, administered as monotherapy over 12 weeks in treatment naive patients with T2DM
NCT00495469
This is a dose-ranging study to evaluate the efficacy, safety and tolerability of a range of doses of GSK189075 (an SGLT2 inhibitor) compared to placebo, administered over 12 weeks in treatment-naive subjects with type 2 diabetes mellitus
NCT01369082
The purpose of this study is to provide patients who have received at least one islet transplant as a previous participant in a Clinical Islet Transplantation Consortium (CIT) clinical trial with maintenance immunosuppressive medications and to collect information about the safety of the medications and islet function.
NCT00774124
Our objective is to test an innovative approach to improve outcomes among underserved women with gestational diabetes. We ill utilize a multi-lingual, Interactive Voice Response (IVR) -enabled telephone system to facilitate diabetes control and thereby improve pregnancy outcomes. Our hypothesis is that Telemonitoring will improve maternal glycemia, thereby reducing infant birth weights and leading to improved pregnancy outcomes.
NCT02785445
The objectives of the Healthy.io Method Comparison and User Performance Study are: 1. To evaluate the performance of Dip.io Device in comparison to the ACON U500 Mission® U500 Urine Analyzer. 2. To evaluate the user performance of Dip.io Device under actual use conditions (home environment) based on a user questionnaire and rating scale.
NCT01875783
The purpose of this protocol is to determine whether point of care optical coherence tomography (OCT) imaging combined with an OCT-guided retinal referral algorithm at primary diabetes care visits increases rates of retina specialist eye care for patients with diabetic macular edema. The hypothesis is that OCT imaging with an automated OCT-guided referral algorithm will enable identification of patients at risk for vision loss from diabetic macular edema and facilitate direct referral to retina specialists for more timely evaluation and treatment.
NCT03232437
A three site study to evaluate the reproducibility of the Aina HbA1c Monitoring System in quantitative determination of glycosylated hemoglobin (HbA1c) took place at the following sites: 1. Forsyth Institute in Cambridge, MA 2. Orange County Research Center in Tustin, CA 3. ActivMed Practices \& Research in Methuen, MA
NCT01376323
The aim of this combined, two part study is to evaluate the safety and glucose lowering effects of GSK256073 when administered to diabetic subjects for 12 weeks.
NCT00519480
This study will assess safety and tolerability of metformin plus GSK189075 in people with Type 2 Diabetes. About 48 people will participate in this study. Volunteers will not know if they are receiving GSK189075 or a placebo. Participation will last about 5 weeks including a run-in period of up to 2 weeks if necessary to increase metformin up to 2000mg daily, a 13-day treatment period, and a follow-up visit about 1 week after the treatment period. Volunteers will remain in the research clinic beginning 2 days before they receive the first dose of GSK189075 until after the morning dose on the fourth day and from the afternoon of the 12th day of dosing until the morning after the last dose. They will have clinic visits on dosing Days 6, 8, and 10. Volunteers will be given equipment and instructions for measuring their blood sugar at home and will be asked to keep a study diary. Blood pressure, heart rate, laboratory tests on blood and urine, physical examinations, reports of drug side effects and ECGs will be obtained during the clinic visits to assess safety.
