24 Clinical Trials for Various Conditions
The study team is inviting 13 healthy people to complete a study to explore how calcium affects hormones and bones after eating. Participants will be asked to complete two study visits within eight weeks. Before each visit, participants will be asked to not eat or drink (except water) for 9 hours. At each visit, participants will eat the same meal provided by the research team. Along with their meal, they will take a pill - in one session, this will be a calcium supplement, and in the other, a placebo (a pill with no calcium), but they won't know which one they are taking at which session. A phlebotomist will draw blood before the meal and pill, then again several times after eating. Blood draws will take place over three hours. During that time, participants will complete questionnaires about health, diet, and physical activity. Blood will be analyzed to check on various health indicators, like bone health markers and certain hormones, to see how they change after the meal. The difference in these health indicators between the calcium and placebo sessions will help the study team understand the impact of calcium on health after eating. This could help increase knowledge of the impact of calcium on hormones and bone health.
Data from previously analyzed clinical samples tested by Precision Analytical, Inc. will be mined to identify and select samples from patients reporting hormone supplement use. Patient demographics (BMI, for example), different therapies and expected changes in hormone levels will be analyzed and hormone metabolite patterns will be compared. Samples will be deidentified prior to analysis.
This study seeks to correlate microbiome sequencing data with information provided by patients and their medical records regarding obesity.
Rapid metabolic improvements seen with sleeve gastrectomy are likely a result of changes in gastric origin. The gastric mucosa is an endocrine organ that regulates satiation pathways and is a complex regulator of food intake as well as lipid and glucose metabolism. This study aims to assess the efficacy and safety of endoscopic selective gastric mucosal devitalization (GMD) for the management of obesity and its related comorbidities.
Rapid metabolic improvements seen with sleeve gastrectomy are likely a result of changes in gastric origin. The gastric mucosa is an endocrine organ that regulates satiation pathways and is a complex regulator of food intake as well as lipid and glucose metabolism. This study aims to assess the efficacy and safety of endoscopic selective gastric mucosal devitalization (GMD) for the management of obesity and its related comorbidities.
SWIFT-CORE-101 is a single site survey study designed to assess potential participants' eligibility to screen for industry-sponsored clinical trials. A physician will oversee the informed consent process, after which participants will be surveyed on demographics, medical history, comorbidities, and current symptoms. Site staff may collect vital signs, urine drug screens, blood draws, and urine pregnancy tests. A doctor will review medical history with the participant to determine study suitability via clinical interview. The doctor may reach out to the patient's current treating physicians and pharmacies to determine eligibility for clinical trials.
The investigators propose to conduct a cross-sectional study of 60 participants who are 18-30 years of age to undergo research PET/CT. The purpose of this study is to investigate the relationships between Brown Adipose Tissue (BAT), the adiponectin/leptin (A/L) ratio, and components of the metabolic syndrome in young adults.
The main purpose of this study is to learn more about the safety and efficacy of investigational tirzepatide doses in participants with Type 2 diabetes and obesity that are already taking metformin. The study will last for about 89 weeks.
GFB-024 is intended for use in patients with kidney disease such as diabetic nephropathy. This study is the first time GFB-024 has been used in humans. The first part of the study will assess the safety of a single dose of GFB-024 in healthy overweight and obese volunteers and the effect of GFB-024 on the body as compared to an inactive placebo medication. The second part of the study will assess the safety of repeated doses of GFB-024 in participants with Type 2 diabetes and the effect of GFB-024 on the body as compared to an inactive placebo medication.
This trial studies how well sleep and physical activity interventions work in increasing the physical activity of overweight or obese and sedentary African Americans. Sleep and physical activity interventions may help to increase physical activity among overweight and obese African American adults who do not get enough exercise.
The benzoic acid derivatives sodium and potassium benzoate are preservatives that are commonly added to food and beverages to inhibit microbial growth and prevent spoilage. In the US the major source of benzoate intake is beverages. Studies have shown that piglets or chicks fed low levels of benzoic acid have greater feed efficiency and gain more weight than control fed animals. It has also been shown that benzoic acid inhibits the release of a key metabolic hormone, leptin, from isolated adipocytes (fat cells). Inadequate leptin levels result in increased appetite, decreased metabolic rate, weight gain, insulin resistance and increased diabetes risk. The primary aim of the proposed research is to directly determine if benzoate consumption in human volunteers results in lower levels of leptin, decreased metabolic rate and increased insulin resistance. If so this would implicate benzoic acid as an obesogen and would help inform more effective approaches to obesity prevention and treatment. A secondary aim of the study is to establish a connection between benzoate exposure and biomarkers in urine that can be used to help treat obese patients.
Background: Endocrine glands give off hormones. Researchers want to learn more about the disorders that affect these glands in children. These disorders might be caused by changes in genes. Genes contain DNA, which is the blueprint of how a cell works. Researchers want to identify the genes involved in endocrine and metabolic disorders. This might help develop new ways to diagnose and treat the disorders. Objective: To study the inheritance of endocrine or metabolism disorders. Eligibility: Children ages 3month-18 with known or suspected endocrine or metabolism disorders. Family members ages 3months-100. They may participate in the DNA part of the study. Design: Participants will be screened with a review of their medical records. Their parents or guardians will allow the records to be released. Participants will have a clinic visit. This may include a physical exam and medical history. Parents or guardians will give their consent for the study. Participants may have tests, surgery, or other procedures to help diagnose or treat their condition. These could include: Blood, urine, and saliva tests Growth hormone test Pituitary and adrenal function tests Picture of chromosomes Imaging tests. These may include X-ray, ultrasound, scans, or a skeletal survey. Genetic tests Sleep study Medical photographs If surgery is done, a tissue sample will be taken. Participants may have follow-up visits for diagnosis and treatment. Participating relatives will have one visit. This will include medical history and blood and saliva tests. The blood and saliva will be used for DNA testing.
Early stage hormone receptor positive breast cancer is typically treated with adjuvant endocrine therapy in order to decrease risk of breast cancer recurrence and to improve overall survival from the disease. Typical agents used for treatment include tamoxifen and the aromatase inhibitors. In postmenopausal women, aromatase inhibitor therapy is increasingly common because it is associated with fewer long-term serious toxicities compared to tamoxifen. However, aromatase inhibitors cause arthralgias in 40-50% of patients, which can influence adherence to therapy and can lead to treatment discontinuation in a minority of cases. The mechanism underlying development of this toxicity remains unclear, and predictors of who will develop these symptoms remain undefined. Initial reports suggest that grip strength decreases during aromatase inhibitor therapy, and that body-mass index may influence development of this symptom. Therefore, this longitudinal study has been developed to determine change in grip strength over time in women treated with aromatase inhibitors and tamoxifen, as well as to identify potential associations between change in grip strength and BMI. Patient self-reported symptoms will also be collected. A total of 115 women with early stage breast cancer who are initiating therapy with either an aromatase inhibitor or tamoxifen will be enrolled.
The purpose of this study is to determine the effects of NB relative to placebo on major adverse cardiovascular events (MACE) such as cardiovascular death, non-fatal myocardial infarction, and non-fatal stroke in overweight and obese subjects who are at a higher risk of having these events because they have diabetes and/or other cardiovascular risk factors.
Background: * Metabolic syndrome is a name given to a group of factors that tend to occur together. These risk factors include central obesity (extra weight around the middle of the body) and high blood pressure and blood sugar levels. They also include low levels of HDL ("good cholesterol") and high triglyceride levels. A person is said to have metabolic syndrome if they have three or more of the above risk factors. People with metabolic syndrome are at increased risk for type 2 diabetes, stroke, and heart disease. * Cortisol, a hormone produced by the adrenal glands, is an important regulator of metabolism. People with central obesity and metabolic syndrome may have higher than normal cortisol levels that the body cannot regulate properly. Abnormal cortisol levels may play an important role in metabolic syndrome. Mifepristone is a drug that blocks cortisol. Researchers are interested in studying its effects on metabolic syndrome. Objectives: - To study the effects of short-term mifepristone treatment for metabolic syndrome. Eligibility: - Men and Women between 35 and 70 years of age are overweight or obese, and have abnormal glucose and triglyceride levels. Design: * Participants will be screened with a physical exam and medical history. They will also have blood and urine tests. * Participants will be admitted to the metabolic unit at the National Institutes of Health Clinical Center for the first 3 days of the study: * Day 1: Body measurements (height, weight, waist, hip, and neck) and blood pressure tests. Also, 24 hours of regular blood draws and 24-hour urine collection to monitor regular daily cortisol levels. * Day 2: Glucose/insulin infusion test to measure blood sugar levels. * Day 3: Infusion of cortisol-like compounds and then regular blood draws for about 3 hours to evaluate how cortisol is metabolized. * At the end of Day 3, participants will receive mifepristone or a look-alike capsule to take for 7 days at home. * After 7 days, participants will return to the metabolic unit to repeat the Day 1 and Day 2 study procedures. They will continue to take mifepristone. * One week after the second set of study tests, participants will return for a brief physical exam and blood tests. * The study procedures will be repeated after 6 to 8 weeks, with the other study drug.
This study will determine the prevalence of endocrine-related side effects in children who have been treated for cancer and establish a database and registry organized according to cancer diagnosis, treatments and endocrine side effects. In children, the endocrine system, which includes glands and hormones that help to control metabolism, growth, development and reproduction, is particularly vulnerable to long-term side effects associated with cancer and its treatments. The study will also serve to help train medical fellows, residents and students in identifying and managing endocrine abnormalities in children who have been diagnosed with and treated for cancer. Children between 2 and 24 years of age who have been treated for a childhood cancer and have been disease-free for at least 1 year may be eligible for this study. All participants undergo the following procedures: * Review of cancer treatment record * Review of medical and family history * Blood draw for DNA studies * Physical examination and body measurements (height, weight, waist, body proportions) * Completion of child health questionnaires * Individualized screening and counseling program * Review of the following endocrine systems: growth, pituitary and hypothalamic function, thyroid function, ovary and testicular function, bone health, risk of obesity and diabetes The following additional studies may be done, as clinically indicated: * Magnetic resonance imaging (MRI) of the brain * Thyroid, testicular or ovarian ultrasound * DEXA scan to measure bone density * Wrist x-ray to measure bone age * Blood tests * Urine pregnancy test for girls who are old enough to have menstrual periods * Stimulation testing (tests that involve giving medicine by mouth or in the vein and then measuring blood levels of substances afterwards, such as oral glucose tolerance test, arginine-clonidine growth hormone stimulation test, ACTH stimulation test, and gonadotropin-releasing hormone stimulation test) Children with endocrine abnormalities are offered standard treatments.
This study will evaluate patients with a variety of endocrine disorders in order to 1) learn more about conditions that affect the endocrine glands (glands that secrete hormones) and 2) to train physicians in endocrinology. Patients of all ages with endocrine-related conditions may be eligible for evaluation under this protocol. Those enrolled may be required to provide blood, saliva, urine or stool samples, and to undergo ultrasound examination of the thyroid gland, ovaries or testes, adrenal glands or other parts of the body. Laboratory or X-ray studies may be done for diagnostic or treatment purposes. In some cases, patients will receive medical or surgical treatment for their disorder. Patients and family members of patients with a hereditary disorder may be asked to provide a blood sample for genetic analysis.
Animal studies have found that vitamin K-dependent proteins matrix Gla protein and osteocalcin beneficially influence lipid and glucose metabolism, respectively. However, this concept has not been tested in humans at risk for dyslipidemia and diabetes risk. Vitamin K supplementation presents an opportunity to test the hypothesized link between the vitamin K-dependent proteins and markers of lipid and glucose metabolism. The investigators will conduct an 8-week vitamin K intervention (to manipulate carboxylation of matrix Gla protein and osteocalcin) and determine its effects on markers of dyslipidemia and diabetes risk. Sixty obese children will be randomly allocated to either the control group receiving placebo or the low-dose (45 mcg/d) or high-dose group (90 mcg/d) receiving vitamin K (menaquinone-7).
The purpose of this research study is to determine how gastric bypass surgery effects metabolism in obesity and Type 2 Diabetes. One mechanism that has been investigated in animal models is change to the biology of the small intestine (Roux limb) and how glucose and other fuels are metabolized (or how the body digests and uses sugar and other fuels). This study will evaluate the role of the intestine in the beneficial metabolic effects of gastric bypass surgery. It specifically will examine whether the intestine increases its metabolism and its activity, and whether this results in an increase in fuel utilization. Thirty two (32) subjects will be recruited (18 with and 14 without Type 2 Diabetes). At the time of gastric bypass surgery, a small piece of intestine that is usually discarded will be collected. At three time points over the first year after surgery, intestinal samples will be obtained by endoscopy or insertion of a lighted flexible tube through the mouth. Blood samples will be taken at all time points, as well. All samples will undergo comprehensive metabolic analyses. Comparisons will be made between the two groups to understand the metabolic changes over time and if there are differences between the two groups.
The aim of this study is to look at changes in diabetes-related risk factors in Black adolescent girls who are at risk for type 2 diabetes and their primary female caregiver after both participating in a 12-week in-person lifestyle program.
The purpose of this study is to test how soluble epoxide hydrolase (sEH) inhibition with GSK2256294 affects tissue sEH activity and insulin sensitivity.
The purpose of this study is to compare ways of giving advice and providing support to improve diet and physical activity in adult primary care patients with elevated body mass index and dysglycemia.
This single-arm study is designed to test the hypothesis that a six-month intermittent fasting (IF) intervention is feasible for patients to adhere to and improves health-related quality of life while subjects are on adjuvant endocrine therapy (AET).
This study will try to determine if intake of dietary fats or carbohydrates influences the tendency to gain weight or accumulate body fat. It will examine how the hormones that regulate weight may change with a shift from a balanced diet to one that is low in fat or carbohydrate, irrespective of caloric intake. Men and women between the ages of 18 and 40 years with a body mass index of 30 to 49 kg/m2 may be eligible for this study. Candidates will be screened with a history, physical examination, blood tests and questionnaires regarding activity, prior diets, and eating patterns. Participants will follow two separate diet regimens for 5 days each. The first will be a balanced diet, and the second will be either a low-fat/high-carbohydrate diet or a low-carbohydrate/high-fat diet. The diets are not designed to produce weight loss. Participants will receive all their meals and snacks for the two diets from the National Institutes of Health and, for the first 3 days of each diet, will be seen as outpatients. For days 4 and 5 of each diet, they will be admitted to the Clinical Center and will undergo the following procedures: * Blood tests - Blood samples will be collected every 30 minutes over a 24-hour period through an indwelling catheter in the arm. A total of about 15 tablespoons will be drawn for each of the two diets. * 24-hour urine collection - One 24 hour urine collection will be done at home the day before admission to the Clinical Center, and the other will be done during the hospital stay. * Urinalysis and pregnancy test - A small urine sample will be taken and women will provide an additional sample for a pregnancy test. * Body measurements - Height and weight will be measured using scales. Body fat will be measured by two methods: skin fold thickness, measured with calipers in 5 separate places; and body circumference measurements, in which body parts are measured with a tape measure. * Bod pod measurement - Proportions of fat and non-fat tissue in body weight are measured while the participant sits in a capsule-like device for 5 minutes. * Bioelectric impedance analysis - Proportions of body fat are measured based on conduction of a small electric current. * Total body water estimate -The proportion of body weight that is water is determined, using a method that involves drinking a cup of a special kind of "heavy" water (deuterium) and then measuring the amount of heavy water in a urine sample taken after 4 hours. * Exercise - Participants will maintain their usual exercise routine, as it was before beginning the study.