First Human Dose Trial of NNC0195-0092 (Somapacitan) in Healthy Subjects
Growth Hormone DisorderAdult Growth Hormone Deficiency2 moreThis trial is conducted in Europe. The aim of this trial is to assess safety, tolerability, pharmacokinetics (the exposure of the trial drug in the body) and pharmacodynamics (the effect of the investigated drug on the body) of NNC0195-0092 (somapacitan) compared to placebo in healthy male subjects.
A Safety, Tolerability and Efficacy Study of TransCon hGH in Children With Growth Hormone Deficiency...
Growth Hormone DeficiencyPediatric3 moreA 26 week trial of TransCon hGH, a long-acting growth hormone product, administered once-a-week. Approximately 150 children (males and females) with growth hormone deficiency (GHD) will be included. All study participants will receive TransCon hGH. This is a global trial that will be conducted in, but not limited to, the United States, Canada, Australia, and New Zealand.
A Trial to Evaluate the Safety of Once Weekly Dosing of Somapacitan (NNC0195-0092) and Daily Norditropin®...
Growth Hormone DisorderAdult Growth Hormone DeficiencyThis trial is conducted in Asia. The aim of this trial is to evaluate the safety of once weekly dosing of somapacitan (NNC0195-0092) and daily Norditropin® FlexPro® for 52 weeks in previously human growth hormone treated Japanese adults with growth hormone deficiency.
A Study to Evaluating the Efficacy and Safety of Recombinant Long-acting Human Growth Hormone (TJ101)...
Pediatric Growth Hormone DeficiencyA Phase III, Randomized, open-label, positive-drug parallel control, Study to Evaluate the Efficacy and Safety of TJ101 in Child subject with growth hormone deficieney.
Growing up With the Young Endocrine Support System (YESS!)
Congenital Adrenal HyperplasiaHypogonadotropic Hypogonadism7 moreTransition from paediatric to adult endocrinology is a challenge for adolescents, families and doctors. Up to 25% of young adults with chronic endocrine disorders are lost to follow-up ('drop-out') once the young adult moves out of paediatric care. Non-attendance and sub-optimal medical self-management can lead to serious and expensive medical complications. In a pilot study, adolescents suggested the use of e-technology to become more involved in the transition process. The investigators have designed and developed the YESS! game, a tool to help improve medical self-management in adolescents with chronic endocrine disorders. The hypothesis is that adolescents playing the YESS! game will show a larger increase in self-management score during the first year of transition and will have a lower drop-out rate at the adult endocrine outpatient clinic (OPC), compared to adolescents who do not play the game.
Mifepristone Effects on Glucose Intolerance in Obese/Overweight Adults
Endocrine DiseaseDiabetesBackground: 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.
Safety, Tolerability and PK/PD Study in Young Adult Patients With Childhood Onset Growth Hormone...
Growth Hormone DeficiencyStudy to find the optimal dose of Growth Hormone Replacement in young adult patients suffering from childhood onset growth hormone deficiency (GHD).
Growth Hormone Deficiency in Adults (GHDA)
Growth Hormone DisorderAdult Growth Hormone DeficiencyThis trial is conducted in Japan. The aim of this trial is to demonstrate superiority of the effect of NN-220 compared with that of placebo as assessed by the change in percent in truncal fat (kg) from baseline to 24 weeks' treatment (end of treatment) in patients with Growth Hormone Deficiency in Adults (GHDA).
Treatment of Adults With Growth Hormone Deficiency
Pituitary DisordersAdult Growth Hormone DeficiencyThe objective of this rollover study is to evaluate the long term (1 year) safety of a new weekly administered growth hormone preparation in adults with growth hormone deficiency who were treated with the same experimental preparation in study BPLG-005. In addition, further change in efficacy endpoints of BPLG-005 by prolonged treatment will be evaluated. Additional efficacy and safety data of the experimental preparation will be obtained from the switch-over patients.
Consequence of Lifetime Isolated Growth Hormone Deficiency
Growth Hormone DeficiencyGrowth hormone (GH) deficiency (GHD) in adulthood has been associated with changes in body composition (e.g. increased abdominal obesity, and reduced muscle mass), in organ functions (e.g. reduced cardiac systolic function), in metabolic parameters linked to increased risk of cardiovascular disease (e.g. increased serum total and LDL cholesterol, C reactive protein, and plasma fibrinogen), and with reduced bone density. These observations have been used to define the "adult GHD syndrome" and to advocate GH replacement therapy in GHD adults. However, most of the studies have been performed in patients who have had hypothalamic or pituitary diseases, and/or have undergone brain irradiation. Such patients are often chronically sick, and commonly lack other pituitary hormones, whose replacement therapies may not fully restore the physiological functions of the under-active glands. Reliable data on the existence of the AGHD syndrome and its response to GH therapy can be only obtained by studying patients that are otherwise healthy. However, isolated GH deficiency (IGHD) is a rare disease. In addition, up to 50% of patients who have been diagnosed with IGHD in childhood are no longer GH deficient as adults, making such study difficult to perform due to the scarcity of patients population. We have identified a very large homogeneous population of patients who have IGHD due to a homozygous mutation in the GHRH-receptor (GHRHR) gene that resides in a rural area of Brazil. None of the adult dwarf patients has ever been treated with hGH replacement. This population represents a unique model to study the effect of isolated lifetime lack of GH. We propose studies of physiological and metabolic parameters in subjects who are homozygous for this mutation and compare them with normal subjects residing in the same community. The primary goal of this proposal is to determine the consequences of life-long lack of GH on body composition, muscle strength, cardiovascular status, cardiovascular risk factors, thyroid status and bone density and metabolism, and to test which of these parameters are reversed by a 6-month course of GH replacement therapy. In addition, we want to test the hypothesis that heterozygosity for this GHRHR mutation causes a phenotype that may be intermediate between the one present in homozygous normal subjects and in homozygous affected GHD patients. This is relevant because inactivating mutations in the GHRHR are being described with increasing frequency in populations of different genetic background, suggesting that individuals with faulty single GHRHR alleles may be present in significant numbers in the general population.