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Active clinical trials for "Hyperinsulinism"

Results 51-60 of 89

The Effects of Interrupting Prolonged Sitting With Intermittent Exercise on Postprandial Lipemia...

Metabolic Syndrome XAtherosclerosis8 more

The purpose of this study is to investigate the effect of interrupting prolong sedentary behavior with interval exercise on postprandial metabolism following a high fat glucose tolerance test.

Completed6 enrollment criteria

18F-DOPA PET Imaging: an Evaluation of Biodistribution and Safety

Congenital HyperinsulinismNeuroblastoma3 more

Single centre prospective cohort phase III study of 18F-DOPA PET/CT imaging in specific patient populations: Pediatric patients with congenital hyperinsulinism Pediatric patients with neuroblastoma Pediatric or Adult patients with suspected extra-pancreatic neuroendocrine tumor Adult patients with a clinical suspicion of Parkinson's disease Pediatric or Adult patients with primary brain tumors This study will evaluate the biodistribution and safety of 18F-DOPA produced at the Edmonton PET Centre.

Completed11 enrollment criteria

Impact of Meal Order on Postprandial Cardiometabolic Risk Markers

Metabolic Syndrome XInsulin Resistance3 more

The order in which the different components of a meal are eaten may have impact on the postprandial metabolic responses to carbohydrates, fat and proteins. This study will compare blood lipids and glycemia regulation following lunches of identical composition but varying the order of intake of the different meal components.

Completed6 enrollment criteria

Sirolimus for the Treatment of Hyperinsulinism

Hyperinsulinism

The purpose of this pilot study is to generate data to assess feasibility of study design/procedures and for formal sample size estimation for a larger multicenter study of the efficacy and safety of sirolimus in infants with medically-unresponsive congenital hyperinsulinism (HI) due to inactivating mutations of adenosine triphosphate-sensitive potassium (KATP) channels.

Withdrawn29 enrollment criteria

Clinical and Molecular Characteristics of Primary Aldosteronism in Blacks

Adrenal Gland NeoplasmHypertension4 more

Background: The adrenal gland makes the hormone aldosterone. This helps regulate blood pressure. An adrenal gland tumor that makes too much aldosterone can cause high blood pressure and low potassium. The cause of these tumors is unknown, but sometimes they are inherited. Objective: To study the genes that may cause primary aldosteronism in Black individuals. Eligibility: People ages 18-70 who: Are Black, African American, or of Caribbean descent And have difficult to control blood pressure or primary aldosteronism Relatives of people with primary aldosteronism Design: Participants who are relatives of people with primary aldosteronism will have only 1 visit, with medical history and blood tests. Participants with primary aldosteronism or difficult to control blood pressure (suspected to possibly have primary aldosteronism) will be screened with a 1-2 hour visit. If they qualify, they will return for a hospital stay for 7-10 days. Tests may include: Medical history Physical exam Blood tests: Participants will have a small tube (IV catheter) inserted in a vein in the arm. They may drink a glucose-containing liquid or get a salt solution. If medically indicated, they may have invasive blood tests with a separate consent. Urine tests: Some require a high-salt diet for 3 days. Heart tests Scans: Participants lie in a machine that takes pictures of the body. A dye may be injected through a vein. Small hair sample taken from near the scalp. Kidney ultrasound Bone density scan: Participants lie on a table while a camera passes over the body. If the doctors feel it is medically necessary, they will offer participants treatment depending on their results. These treatments may cure the patient of their disease and may include: Having one adrenal gland removed by the Endocrine surgeon under anesthesia. Patients will have follow-up visits 2-4 weeks after surgery. Taking drugs to block the effects of aldosterone Participants may return about 1 year later to repeat testing.

Suspended15 enrollment criteria

Phase II Safety and Efficacy Study of 18FDOPA PET-CT in Children With Hyperinsulinemic Hypoglycemia...

Congenital Hyperinsulinism (CHI)Persistent Hyperinsulinemic Hypoglycemia of Infancy (PHHI)

Children with congenital hyperinsulinism (CHI) have low blood sugar, and some of these children may require surgery to remove part or all of their pancreas. In this study, researchers will test how well a radioactive drug, 18-labeled L-fluorodeoxyphenylalanine (called F-DOPA) can detect a form of hyperinsulinism (focal HI) that may be cured by surgery. Eligible participants in this study will have positron emission tomography/computerized tomography (PET/CT) scans with F-DOPA prior to surgery.

Completed3 enrollment criteria

Vitamin E Efficacy in HI/HA

Hyperinsulinism-Hyperammonemia Syndrome

Congenital hyperinsulinism (HI) is a rare disorder of pancreatic beta cell insulin secretion that causes persistent and severe hypoglycemia starting at birth. Hyperinsulinism/hyperammonemia (HI/HA) syndrome is the second most common type of congenital HI and is caused by activating mutations in glutamate dehydrogenase (GDH). Patients with HI/HA exhibit fasting hyperinsulinemic hypoglycemia, protein-induced hypoglycemia, hyperammonemia, seizures, and intellectual disability independent of hypoglycemia. These effects result from abnormal GDH activity in the beta cells, liver and kidney cells, neurons, and astrocytes. The only available treatment for HI/HA syndrome is diazoxide, which acts on the beta cells to decrease insulin secretion but has no effect on GDH activity itself or on other cell types. Thus, there remains a significant unmet need for improved therapies for this disorder. Pre-clinical data show that vitamin E inhibits GDH activity in human cell lines and improves fasting hypoglycemia in a GDH HI mouse model. Pilot study data show that vitamin E supplementation with a moderate dose is well-tolerated in children and adults with HI/HA syndrome, while continuing diazoxide treatment. However, most subjects continued to exhibit protein-induced hyperinsulinemic hypoglycemia. We hypothesize that a higher vitamin E dose will inhibit GDH over-activity in subjects with HI/HA syndrome, resulting in improved hyperinsulinemic hypoglycemia, reduced blood ammonia concentration, and decreased seizure activity.

Withdrawn21 enrollment criteria

To Compare the Effects of Non-nutritive Sweeteners Intake in Woman With Insulin Resistance

Insulin ResistanceHyperinsulinism

ABSTRACT Introduction: There is no current data about the effects of non-nutritive sweeteners (NNS) about important factors, such as the energy intake, appetite and its relationship in people with insulin resistance when tasting sweet. It is highly relevant to compare the effects of NNS intake, such as, stevia (steviol glycosides) and D-tagatose, previous to a 75-gram oral glucose tolerance test (OGTT) on glycaemic and C-peptide responses in women with insulin resistance. Objective: To compare the effects of non-nutritive sweeteners intake: stevia (steviol glyco-sides) and sucralose previous to OGTT on appetite, glycemia and C-peptide plasmatic concentrations in women with insulin resistance. Methods: Thirty-three women with T2DM were studied in 3 different moments and they received 3 treatments: pre-load of water or D-tagatose or stevia and then offered to consume a 75-gram oral glucose tolerance test. Blood samples were obtained to measure the dependent variables, glycemic at times -10, 0, 30, 60, 90, 120 and 180 minutes and C-peptide at times -10, 30, 90, 120 and 180 minutes. The analogue visual scale questionnaires (VAS) was conducted every 30 minutes in order to obtain the results of the depend variables: appetite and wish of specific type of food in a subjective way; appetite, satiety, relax, wish to eat any food, craving for something sweet, craving for something salty, something tasty, something fatty. Through food provided ad libi-tum (objective appetite), were obtained the results of: energy, carbohydrates, proteins and lipid intakes. The statistical analysis applied included the Shapiro-Wilk's Normality test, repeated measures ANOVA to assess differences among treatments, Friedman's test followed by Wilcoxon test corrected by Bonferroni as needed. The degree of association between variables was conducted using the Pearson's or Spearman's correlation coefficient tests, as requested. A probability value p <0.05 was considered significant.

Completed11 enrollment criteria

Pasireotide in Hyperinsulinemic Hypoglycemia

Congenital HyperinsulinismInsulinoma1 more

This is a small controlled pilot study to assess the effect of subcutaneous pasireotide on preventing hypoglycemia due to hyperinsulinism, including congenital hyperinsulinism and insulinoma.

Withdrawn34 enrollment criteria

CSI-Glucagon for Prevention of Hypoglycemia in Children With Congenital Hyperinsulinism

Congenital Hyperinsulinism

This is a Phase 2, multi-center, randomized, placebo-controlled, double-blind trial with open-label follow-up designed to assess the efficacy of Xeris Glucagon delivered as a continuous subcutaneous infusion to prevent hypoglycemia with lower intravenous glucose infusion rates in children < 1 year of age with congenital hyperinsulinism.

Completed17 enrollment criteria
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