665 Clinical Trials for Various Conditions
The investigators are conducting this research to study the effect of Liraglutide on blood pressure. Several studies have shown increased cardiovascular complications and deaths in diabetics with hypertension. The importance of blood pressure control in diabetes has been shown in many clinical trials. No drug already approved for treating Type 2 Diabetes Mellitus is known to reduce blood pressure along with improving diabetes. However, prior research studies with liraglutide have suggested that treatment with liraglutide improves blood pressure. This effect is seen very quickly and even prior to any weight loss. The mechanism behind this effect is yet to be determined.
The primary objective of the study is to contrast the pharmacokinetic profiles of metformin and EPA delivered separately as co-administered products (metformin hydrochloride or Glucophage and icosapent ethyl or Vascepa) and together as the solid dose form (metformin eicosapentaenoate or TP-101) under fasted and fed conditions. A secondary objective is to evaluate the safety and tolerability of single and repeat single doses of TP-101.
The primary objective of the trial is to collect SCOUT DS, random capillary glucose and Hemoglobin A1c measurements from subject 18 years of age or older.
The primary objective of the trial is to collect SCOUT DS and Hemoglobin A1c measurements of subjects who have been diagnosed with Type 2 diabetes.
The objectives of this study are: * To develop a comprehensive culturally tailored model of diabetes management that integrates the work of community-based peer counselors and clinical specialists into a multi-disciplinary health care team serving the Latino community. * To implement an intervention that provides education and support to Latino adults diagnosed with Type 2 diabetes in both clinical and home settings. * To evaluate this intervention for its impact on program adherence, and improved outcomes sustained over time as reflected by metabolic, clinical, cognitive and behavioral measures.
BMS-820132 is an investigational new drug being developed by BMS for treating Type 2 diabetes. The purpose of this study is to test the safety/tolerability (potential side effects) of single doses of the investigational new drug, as well as the amount of study drug in the blood, in subjects with type 2 diabetes.
Administration of the incretin hormone, Glucagon-Like-Peptide-1 (GLP-1), has been shown to enhance insulin secretion and suppress glucagon secretion in response to meal ingestion. In addition, GLP-1 also delays gastric emptying and has been shown to enhance gastric accommodation. These characteristics make GLP-1 an ideal therapy for type 2 diabetes (T2D). However, because of its rapid breakdown by dipeptidylpeptidase IV (DPP IV), GLP-1 has to be administered by continuous intravenous infusion. This would be a drawback in clinical usage. LAF237 is a synthetic inhibitor of DPP IV which has been shown to raise GLP-1 levels and potentiate meal-induced insulin secretion and glucagon suppression. However, the effects of LAF237 on gastric emptying and satiety are at present unknown. The investigators propose to study the effects of LAF237 on gastric emptying, gastric volume and satiety in patients with T2D in addition to examining the direct and indirect (mediated via insulin and glucagon) of this compound on postprandial glucose metabolism.
Insulin is a chemical that the body needs in order to use or store sugar. It is made by a type of cell called a beta cell which resides in an organ known as the pancreas. Type 2 diabetes is a disease where the beta cells are unable to meet a person's insulin needs. Sugar levels rise in the blood as a result. INGAP-Peptide is being tested to attempt to create new beta cells in the pancreas, and to improve the ability to produce insulin in type 2 diabetic patients.
The purpose of this study is to determine if an investigational drug is safe and efficacious for poorly controlled type 2 diabetes mellitus.
This is a randomized, single-blind, placebo-controlled, crossover study to examine the effect of pramlintide on the pharmacokinetics of an orally administered medication
The purpose of this clinical research study is to support earlier observations that Glucovance controls glucose levels after a mean, and improves overall glucose control better than metformin or glyburide therapy alone in adults with type 2 diabetes.
The purpose of this clinical research study is to see if Glucovance, a medication currently approved for use in adults with type 2 diabetes, can control type 2 diabetes safely and effectively in children 9 to 16 years of age.
The purpose of this research study is to investigate the mechanism of action of a new investigational medication (drug), NNC 90-1170, which is being developed for the treatment of type 2 diabetes (adult onset type of diabetes. NNC 90-1170 is a modified form of a hormone, Glucagon-Like Peptide 1 (or GLP-1), which is important for controlling insulin levels. Insulin, another hormone, is also important for controlling blood glucose levels, which are higher than normal in people who have type 2 diabetes. This study will measure the effect of NNC 90-1170, active investigational drug, to cause insulin to be released from the pancreas in response to increasing blood glucose concentrations. These results will be compared to that of a group of healthy volunteers of similar age and body weight who do not have diabetes. Also, various other hormones and substances that are known to control blood sugar will be measured in blood samples that will be drawn. One dose of NNC 90-1170 will be given to subjects with type 2 diabetes only in this study, and the effects of this dose will be compared to a placebo (inactive substance that looks like the active drug). This is a crossover study, which means that subjects will be treated both with NNC 90-1170 and with placebo. The order in which subjects will receive the treatments will be determined by chance (randomly). The study will be conducted as a so-called "double-blind" study, meaning that neither subjects nor study doctors will know the order in which subjects will be given each treatment until the study is over. The study will include approximately 15 healthy volunteers and 15 volunteers with type 2 diabetes, and it will be conducted at 1 clinic (the University of Michigan Health System) in the United States.
There is some consensus that high fat diets can contribute to the development of obesity and type 2 diabetes in humans and animals. An increase in dietary fat has been shown to produce obesity and diabetes in mice; such diet-induced diabetes can be reversed by reducing the fat in the diet. In humans, there is some evidence that low-fat diets can produce acute improvements in blood sugar control in type 2 diabetes-even in the absence of weight loss. In most human studies, however, dietary fat reduction has been accompanied by a reduction in total calorie intake. It is thus not possible to separate the effects of these 2 metabolic changes. The purpose of this study is to gather preliminary information on the effect of a very-low-fat diet on blood metabolism in persons with type 2 diabetes. The design incorporates controlled feeding procedures, and 30 men and women with type 2 diabetes will be given all foods for 4 weeks--a 2-week diet standardization period (diet composition: 35% fat, 15% protein, 50% carbohydrate), followed by a 2-week experimental diet period. The experimental diet conditions are A) continuation of the moderately-high-fat standardization diet, or B) a very-low-fat diet composed of 10% fat, 15% protein, 75% carbohydrate. Outcomes will be measured after the standardization and the experimental periods. The primary outcome variable is fasting plasma glucose; secondary outcomes are fasting insulin, carbohydrate (meal) tolerance, insulin secretion and blood lipids. In addition, we will gather descriptive data on the potential acceptability and utility of a very-low-fat diet constructed using the fat substitute, olestra (sucrose polyester). There are no results yet.
The purpose of this ongoing work in Starr County, located on the Texas-Mexico border, is to conduct clinical studies to determine the effectiveness of diabetes self-management programs designed specifically for Mexican Americans. The programs meet national standards for diabetes self-management education. They are provided in community settings with the primary purpose of improving the health of Mexican Americans with diabetes and their family members, who either have diabetes or are at risk for developing diabetes. The diabetes self-management programs are provided in Spanish and are directed by bilingual Hispanic clinical nurse specialists, dietitians, and community health workers. Key elements of the programs include instruction on nutrition, self-monitoring of blood glucose, exercise, and other diabetes self-management topics, as well as group support to promote behavioral changes. In the original study (1994-1998), 256 Mexican American adults diagnosed with type 2 diabetes and 256 family members or other support persons were enrolled. For one year, the people with diabetes, along with their family members, attended small group sessions held in churches, community health clinics, adult day care centers, and schools. Information on the effectiveness of the program was collected at 3, 6, and 12 months; and annually thereafter. Findings of the original study suggested that the program had a positive impact on diabetes metabolic control. Levels of diabetes knowledge and rates of glucose self-monitoring and attendance suggested that a shorter program - one that incorporated critical elements of the previous successful strategy - might result in similar improvements. Thus, the goal of the new study, funded in June 1999, was to shorten the original program and to compare it to the previous successful program in terms of short- and long-term health outcomes. To identify key components of the previous program, we are exploring differences between subjects who successfully integrated self-care components of the program and who experienced significant improvements in metabolic control and those who were not as successful. The program is being revised and shortened, based on this information. Beginning in April 2000, we will start recruiting participants for the clinical trial of the revised program.
Diabetes is a disease characterized by decreased sensitivity to the action on insulin to promote sugar (glucose) use and blood vessel relaxation (vasodilation) in muscle. Insulin's ability to cause blood vessel relaxation is controlled, in part, by nitric oxide (NO). Nitric oxide is a substance produced by the cells lining blood vessel walls (endothelium). Increased blood flow to the muscle accounts for increased sugar (glucose) to areas of the body. Therefore, if the cells of blood vessel walls (endothelium) are not functioning properly it may contribute to insulin resistance. Injections of Vitamin C directly into the arteries have been shown to improve blood vessel reaction to nitric oxide in diabetic patients. Researchers believe this may be due to Vitamin C's ability to increase the levels of nitric oxide in blood vessels. The goal of this study is to determine the effects of vitamin C on both insulin sensitivity and endothelium function of patients with type 2 diabetes. An additional goal of the study is to determine the effects of vitamin C on patients with vitamin C deficiency. Patients participating in this study will undergo a series of testes to determine insulin sensitivity and blood vessel reactivity. Patients will be divided into two groups. One group will receive doses of oral vitamin C. The other group will receive doses of a placebo (inactive pill not containing vitamin C). Patients will receive the medications for four weeks and then be tested again for insulin sensitivity and blood vessel reactivity. Researchers believe that doses of vitamin C in diabetics or patients with vitamin C deficiency will improve insulin sensitivity and function of endothelium. Results gathered form this study may provide information about vitamin C levels in diabetics and may lead to the development of new therapies to treat insulin resistance and endothelium dysfunction.
This study is being carried out to determine the effect of dapagliflozin on cardiovacular outcomes when added to current background therapy in patients with type 2 diabetes with either established cardiovacular disease or cardiovascular risk factors.
The primary objectives of the ORIGIN study were: * To determine whether insulin glargine-mediated normoglycemia can reduce cardiovascular morbidity and/or mortality in people at high risk for vascular disease with either Impaired Fasting Glucose (IFG), Impaired Glucose Tolerance (IGT) or early type 2 diabetes; * To determine whether omega-3 fatty acids can reduce cardiovascular mortality in people with IFG, IGT or early type 2 diabetes. The secondary objectives of the insulin glargine study were to determine if insulin glargine-mediated normoglycemia can reduce: * total mortality (all causes); * the risk of diabetic microvascular outcomes; * the rate of progression of IGT or IFG to type 2 diabetes.
The purpose of this study is to assess the efficacy and safety of Amaryl when added to Metformin and Thiazolidinedione (TZD) in non-insulin dependent diabetes mellitus (NIDDM) patients.
The Diabetes Prevention Program is a nationwide clinical study to answer the question: Can Type 2 diabetes (also called noninsulin-dependent or adult-onset diabetes) be prevented or delayed? The study has recruited volunteers, who are at high risk of developing diabetes, at twenty-five medical centers in the United States. It is sponsored by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health, and other Institute and corporate sponsors. Researchers will evaluate the efficacy of a lifestyle intervention and a pharmacological intervention in preventing or delaying Type 2 diabetes in persons with impaired glucose tolerance (IGT). Each person in the study will be followed for 3 to 6 years.
To assess the effect on weight loss and weight maintenance over a period of one year when prescribed with a hypocaloric diet in obese patients with Type 2 Diabetes
This study is for women who have already decided to undergo liposuction at Georgetown University Medical Center in Washington, D.C. To take part in this study, a woman must first meet with the plastic surgeons there, and be accepted by them to have liposuction. This study will investigate whether large volume liposuction improves risk factors for heart disease in overweight women with type 2 (adult onset) diabetes, impaired glucose tolerance, or elevated blood insulin levels. Large volume liposuction is the surgical removal of at least 10 pounds (4.5 kg) of body fat, usually from the abdomen, hips or chest. Risk factors for heart disease include high blood pressure and elevated levels of blood lipids (cholesterol and triglycerides), blood glucose (sugar), and blood insulin. Subjects who participate in all parts of this study will receive a total of $930.00. Overweight women 18 years or older with high blood insulin levels, impaired glucose tolerance, or type 2 diabetes, who are planning to have large volume liposuction performed at Georgetown University Medical Center in Washington, D.C., may be eligible for this study. For a subject to be accepted into this study, she must first meet with the plastic surgeons at Georgetown University Medical Center, and they have to agree to perform large volume liposuction. The decision that someone is suitable for liposuction is not under the control of the NIH or of any NIH investigator. Those enrolled will undergo the following procedures at four separate times - before undergoing liposuction, 4 weeks after surgery, 4 months after surgery and 1 year after surgery: * Body measurements - taken with calipers to measure several skinfold thicknesses (the width of a fat fold) and with a tape measure to measure the circumference of parts of the body. * Urine sample and 6-hour urine collection - to test for pregnancy and to evaluate kidney function. * Glucose tolerance test - measures insulin sensitivity and how the body uses sugar, how well insulin works, and insulin sensitivity. The procedure involves placement of two catheters (thin, flexible tubes) through a needle into a vein in each arm. Sugar water is infused into one catheter and 20 minutes into the test a small amount of insulin is injected. Blood samples are drawn from the other catheter at frequent intervals for a total of 5 hours. * Electrocardiogram (ECG) and echocardiography - measure the heart's electrical activity and function. * Abdominal computerized tomography (CT) scan - produces images for measuring body fat in the abdomen. (not done at the 4-week visit). Takes about half an hour to complete. * DXA X-ray - measures body fat, muscle and bone mineral content. Takes about half an hour to complete. * Bod Pod - capsule-like device used to determine the proportion of body weight composed of fat and non-fat tissue. Takes less than 10 minutes * Bioelectric impedance analysis device - measures the proportions of body fat based on electrical conduction of a small electric current. Takes 2-3 minutes. * 24-hour blood pressure monitoring - a device attached to a blood pressure cuff strapped to the arm measures blood pressure every 15 to 30 minutes continuously for 24 hours. * Vascular reactivity tests - a blood pressure cuff is inflated for about 4 minutes before deflating, providing information on the function of the small blood vessels in the skin, as well as an idea of the function level of small blood vessels elsewhere in the body. Takes half an hour. * Blood samples - collected to evaluate kidney and liver function and to measure body lipids, such as cholesterol, minerals, and other substances.
Type 2 diabetes mellitus (DM2) is a growing social health problem world-wide, in particular with respect to its contribution to cardiovascular disease. The progressive increase in prevalence of DM2 has reached epidemic proportion and is a major cause of morbidity and mortality in all populations around the world. Conventional stepwise treatment of DM2 generally focuses on controlling blood glucose concentration. However, the risk for side-effects associated with the use of pharmacological intervention often delays initiation of therapy, with the potential implication on worsening morbidity and mortality from complications. On the other hand, non-pharmacological intervention in the form of dietary restrictions, exercise and weight loss, is safe but often difficult to accomplish. The availability of nutrients that affect glucose and lipid metabolism would provide an important practical tool to establish early intervention in newly diagnosed DM2 and perhaps even in patients who are only "at risk" for DM2. The investigators have recently obtained preliminary data on beneficial effects of combined supplementation of lycopene and isoflavones on glucose metabolism of normoglycemic volunteers with insulin resistance. This clinical trial will explore the role of isoflavones and lycopene dietary supplementation in the improvement of glucose metabolism of patients at increased risk or with established but mild DM2. The overall hypothesis is that supplementation of laflavon, provided as a new formulation that increases bioavailability of the individual components (Laflavon CamMedica contains 7 mg of Lycopene and 50 mg of Soy Isoflavones), determines improvement in glucose tolerance and insulin resistance of patients with the metabolic syndrome and also reduces HbA1c in patients with mild DM2.
The purpose of this protocol is to determine if an investigational drug known as LY333531 is effective in treating nerve malfunction in diabetes.
The purpose of this protocol is to determine if an investigational drug is effective in treating nerve malfunction in diabetes.
The object of this study is to determine if Reiki will improve glycemic control and cardiac autonomic function diabetic patients with painful neuropathy.
To better understand the excess cardiovascular disease associated with diabetes mellitus.
Patients with high blood pressure, diabetes, and who are overweight are known to have defects in the way their body responds to insulin. The purpose of this study is to develop better methods for measuring the way body tissue responds to insulin and sugar (glucose). Researchers are planning to study four groups of patients. 1. Normal volunteers 2. Patients who have mild to moderate high blood pressure 3. Patients who are overweight 4. Patients who have mild to moderate diabetes controlled with oral medication In this study patients and volunteers will undergo two separate tests designed to determine how well insulin is working in the body. The first test is called a glucose clamp test. Patients will have two needles placed in the veins of their arms. One needle will be used to take blood samples, the other needle will be used to inject doses of sugar (glucose) and insulin. The second test is called the frequently sample intravenous glucose tolerance test. In this test patients will have sugar (glucose) injected into their veins followed by a slow injected dose (infusion) of insulin. Researchers will periodically take blood samples during the test. Patients participating in the study will not directly benefit from it. However, the information gained from this study may be useful for improving the diagnosis and therapy of diseases such as diabetes, obesity, and high blood pressure (hypertension).
Comparison of 2 methods of delivery health education for African-American women with Type 2 Diabetes. The two methods are: face to face education in small groups, as compared to delivering the same curriculum in the virtual world, Second Life.
Using the Libre during the TOC with persons with T2D will improve patient glucose monitoring and satisfaction, which can potentially lead to an improvement in glycemic control and hospital utilization. This study aims to assess this with inpatients using insulin.