View clinical trials related to Endocrine System Diseases.
Filter by:To evaluate the safety and efficacy of PEG Somatropin Injection in the treatment of children with growth hormone deficiency, as well as to study the feasibility of extending the dosing intervals (once per two weeks) of PEG Somatropin Injection.
To evaluate the safety and efficacy of PEG Somatropin Injection (Jintrolong®) in the treatment of short stature due to endogenous growth hormone deficiency (GHD) in the broad of population of children.
Background: There are many endocrine and metabolic-related conditions. Two well-known disorders include diabetes and thyroid disease. Some of these diseases are caused by a change in genes. Researchers want to identify the genes involved in these disorders. They hope this will help them learn more about these diseases. Objectives: To learn more about conditions that affect the hormone-secreting glands (endocrine glands) in adults. To train doctors to diagnose and treat people with endocrine or metabolic conditions. Eligibility: Adults age 18 years and older with a known or suspected endocrine disorder. Relatives ages 18 years and older. Doctors will review all requests and available medical records to determine final eligibility for the protocol. Design: Participants will have a medical history and physical exam. Most participants will have 1 visit, and may have follow up visits if necessary. They may have tests, surgery, or other procedures to help diagnose or treat their condition. These could include: - Blood, urine, and saliva tests - Imaging tests. These may include X-ray, ultrasound, or scans. - Sleep study - Medical photographs - Visits with other specialists at NIH Participants will provide blood, urine, saliva, or tissue samples. Some of these samples may be stored in the freezer for future studies. Participants may be asked to participate in genetic testing. They will give a blood or saliva sample for this.
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.
This trial is conducted globally. The aim of the trial is to investigate efficacy and safety of once-weekly NNC0195-0092 (somapacitan) treatment compared to daily growth hormone treatment (Norditropin® FlexPro®) in growth hormone treatment naïve pre-pubertal children with growth hormone deficiency. The trial consists of a 26 week main trial period, followed by a 26 week extension trial period, a 104 week safety extension period, a 208 week longterm safety extension trial period and a 30 day follow up period. Participants receive NNC0195-0092 (somapacitan) (0.04 mg/kg/week) during the main trial and the extension period and thereafter NNC0195-0092 (somapacitan) (0.16 mg/kg/week) during the safety extension and the long-term safety extension periods. Two additional age groups, cohort II (age below 2 years and 26 weeks at screening) and cohort III (above 9 years (girls)/ above 10 years (boys) and equal to or below 17 years at screening) are included in the 208 week long-term safety extension trial period only.
This observation will look at patient care decisions of the primary healthcare provider utilizing the results of the DNA testing of patients' metabolic pathways using 2C19, 2C9, 2D6, 3A4, Factor II, Factor V and MTHFR and VKORC1. Findings of the data collection will be published to optimize the benefits of pharmacogenomics testing and publish health outcomes.
This study evaluates the safety and efficiency of Pegylated Somatropin (PEG Somatropin) Injection in the treatment of endogenous growth hormone deficiency (GHD) in the broad of population of children.
This study will recruit healthy controls (who have normal GH production and growth hormone levels) and patients identified as having GHD, who are deemed eligible for GH replacement therapy according to NICE guidelines. The patients recruited will have been identified as starting on GH by their referring clinicians and a decision made on their replacement therapy prior to their potential enrollment in the study. The study, or its research team, will have no influence on the decision as to whether a patient will start on GH, or on which of the many GH formulations that the patients receives. The proposed study is an observational study to determine how GH affects the plasma levels of Fibroblast growth factor 21 (FGF21) in response to treatment; and whether the change in FGF21 mirrors the improvement in body composition/fat deposition. FGF21 is a metabolic regulator that acts on multiple tissues to coordinate carbohydrate and lipid metabolism and regulate energy balance. We hypothesize that FGF-21 is expressed and secreted from liver and skeletal muscle in humans in response to growth hormone administration and that levels may be reduced in patients with GHD compared with healthy controls. Furthermore, we believe that the beneficial effects of long-term GH replacement on body composition (reduction in visceral adipose tissue, subcutaneous adipose tissue and liver fat), on improvement in lipid profiles and on skeletal muscle mitochondrial function involve GH-induced release of FGF21.
The aim of this study is to evaluate the effects of subantimicrobial dose doxycycline (50 mg/d), administered for 12 weeks, on patients with mild Thyroid-Associated Ophthalmopathy (TAO).
This study aims at evaluating the myocardial triglyceride content and cardiac structure and function, using 1H magnetic resonance spectroscopy and cardiac magnetic resonance imaging, in patients with Cushing's syndrome before and after treatment and in age-, sex- and BMI-matched healthy volunteers. The investigators make the hypothesis that Cushing's syndrome patients compared to healthy subjects present with excess lipid storage in cardiac myocytes, reversible upon correction of hypercortisolism.