17 Clinical Trials for Various Conditions
The purpose of the study is to understand the effect of rhGH therapy on hepatic drug metabolism in children with idiopathic growth hormone deficiency.
The purpose of this study is to assess the prevalence of GHD in patients who sustain a head injury or suffer a major traumatic event and to evaluate the efficacy of growth hormone (GH) therapy in the treatment of GHD caused by trauma or head injury
The primary objective is to evaluate the efficacy and safety of two different dose regimens of r-hGH (Saizen®) in subjects with childhood-onset growth hormone deficiency (COGHD) during the transition phase from childhood to adulthood.
The purpose of this study is to evaluate the pharmacokinetics of Syntropin (a human growth hormone) and to determine the serum concentration of IGF-1 after Syntropin injection.
This trial is conducted in the United States of America (USA). The purpose of the trial is to compare the effect of Norditropin® using different dosing regimens in children suspected of growth hormone deficiency.
This project is designed to answer the question: Is there an acute IGFBP-3 response in normal children? Our specific hypothesis states that under the influence of growth hormone secretagogues, intact IGFBP-3 molecule will undergo proteolysis and liberate IGFBP-3 fragments, along with other components of the ternary complex. This proteolysis will result in measurable rise in IGFBP-3, which will indicate the subject's growth hormone status. Short children with growth hormone deficiency will not show an IGFBP-3 response.
This study is a multicenter, open-label, observational, postmarketing surveillance study that will collect information on the use of Genentech GH preparations to treat GH-deficient subjects with optimal GH dosing during puberty.
The purpose of the study is to measure the functional effects of recombinant GH in skeletal muscle, in addition to growth promotion, in short prepubertal boys with either growth hormone deficiency or idiopathic short stature. Patients will be similarly short. The investigators will also compare these values in the short stature cohort to those obtained in testing performed in normally growing age-matched healthy control boys not on GH. The group on GH will be studied before and after 6 and 12 months of GH treatment.
Assessment of Genotropin patient and caregiver (Dyad) perception of convenience and preference of Genotropin injection pen. Patients already on genotropin will be asked to use a genotropin pen for 2 months. Patient and caregiver will be asked to complete a questionnaire at baseline and 2 months.
Objective: This study is designed to determine whether growth hormone treatment in children 8 to 18 years of age alters function of the lining of the arteries. This may play a role in increasing or decreasing the risk of heart disease. Methods. Twenty children, for whom growth hormone therapy will be otherwise provided, will be studied before and 3 months after starting growth hormone. Subjects can be on other hormonal replacements but no other medications. Each study will be done in the fasting state. The blood vessel function will be determined by measuring the change in forearm blood flow before and after blocking flow to the arm for 5 minutes. Blood will be drawn after the test to measure glucose, insulin and fats.
Serum insulin-like growth factor-I (IGF-I) measurements have been shown to correlate well with growth hormone action and effect, and recent data show that serum IGF-I may be related to safety and efficacy of growth hormone (GH) treatment in patients. Some studies indicate that high IGF-I levels are associated with increased cancer risk, and low IGF-I levels are associated with increased risk for cardiovascular disease. Studies in children also show that the serum IGF-I level is correlated with the change in height score achieved (that is, the higher the IGF-I level, the greater the gain in height). Pediatric endocrinologists have therefore begun to use serum IGF-I levels, in addition to growth rate and weight gain, to adjust the GH dose in treated children. Although monitoring of serum IGF-I levels is becoming standard of care in patients begin treated with GH, there are few guidelines regarding the actual logistics of adjusting GH dose. As serum IGF-I level has been linked to both safety and efficacy of GH treatment, the ideal practice would be to maintain serum IGF-I levels within a certain target range. The overall goal of our study is to construct a mathematical model which predicts the change in GH dose necessary to achieve a desired change in IGF-I level. Hypotheses to be tested by our study include the following: IGF-I measurement has a role in optimization of GH therapy; GH dose change to achieve IGF-I changes are predictable; and gender and puberty affect the relationship between dose change and target IGF-I changes.
Background: - Overweight and obese children and adults often have lower levels of growth hormone in the blood. Regulation of growth hormone may be tied to weight and free fatty acids in the blood. Current tests of growth hormone (such as those used when evaluating the heights of children who are markedly shorter than other children of comparable age) may be affected by other factors, including obesity. Researchers are interested in evaluating the levels of growth hormone and free fatty acids in the blood of children between 7 and 14 years of age who weigh more than children of a comparable age, or who are shorter than other children of a comparable age and have been recommended for growth hormone testing as part of an evaluation for their height. Objectives: - To determine the effect of changes in free fatty acids in the blood on changes in growth hormone secretion in overweight or shorter children and young adolescents. Eligibility: - Children and adolescents between 7 and 14 years of age who weigh more than or are shorter than other children of a comparable age and do not have any medical illnesses. Design: * Participants will have two study visits, one of which will be a half day screening visit in the outpatient clinic and one of which will require 2 nights as an inpatient at the National Institutes of Health Clinical Center. * Participants should not eat or drink anything except water after 10 PM the night before or on the morning of the screening visit. * At the screening visit, participants will have a physical examination and medical history, provide blood and urine samples, have an oral glucose tolerance test (to check blood sugar levels), and have an x-ray of the left hand to check bone age. * The inpatient study visit will involve a physical examination and medical history, a full x-ray scan to study body fat and muscle, frequent blood tests throughout the visit, and various medications to stimulate growth hormone production and lower levels of free fatty acids in the blood.
Treatment with growth hormone (GH; a hormone made by the body that stimulates growth) has been shown to be helpful in treating children with chronic kidney disease who fail to grow. The amount of growth that is seen in children treated with growth hormone varies widely for unknown reasons. Growth hormone works by producing another hormone in the liver called insulin-like growth factor-1, or IGF-1 for short. IGF-1 stimulates the bones to grow. The amount of IGF-1 in the blood may directly affect the amount of growth in each child. At this time, growth hormone therapy in children depends on giving a certain dose of growth hormone for each child based on his or her weight. If after 3-6 months on this dose of growth hormone the change in height is not enough, then the dose of growth hormone is increased until enough growth is seen. This method of dosing of growth hormone may take a long time and is complicated and time-consuming. The purpose of this study is to measure the amount of IGF-1 produced by the body as a result of giving 2 different doses of growth hormone in children for 7 days only. The study investigator hopes to find the most favorable level of IGF-1 generated after 7 days of growth hormone that correlates with good growth of children with kidney disease. Then instead of dosing growth hormone by weight, like is done now, researchers can dose growth hormone by the amount of IGF-1 that the body produces. Being able to dose more effectively will save valuable time for the child to grow and will shorten the overall duration of growth hormone therapy. The investigators will also determine the effect of inflammatory cytokines Il-6 and TNF-alpha on growth hormone insensitivity and hence IGF-1 generation test in the same population.
The purpose of this study is to see if Arimidex, an aromatase inhibitor, can delay epiphyseal fusion and increase predicted adult height in boys who are growth hormone deficient, in puberty, and who are taking growth hormone. This is a double blind, placebo controlled 3 year trial.
The purpose of this basket study in children with Turner syndrome, SHOX deficiency, and Noonan syndrome is to evaluate the effect of 3 doses of vosoritide versus hGH on growth as measured by AGV after 6 months of treatment. The long-term efficacy and safety of vosoritide at the therapeutic dose will be evaluated up to FAH.
This is an open-label, single-arm prospective pilot study to study the effects of a single dose regimen of daily growth hormone medication (Norditropin) on pre-pubertal children with Aggrecan deficiency. The growth response will be tracked over a 12 month period. A protocol extension has been approved to continue subjects on treatment for an additional 2 years.
This project is a retrospective (beginning January 2006) and prospective patient registry program sponsored by Ipsen (formerly Tercica, Inc.). In collaboration with participating health care practitioners, the patient registry program is an observational study monitoring the long-term safety of patients treated with Increlex® (mecasermin \[rDNA origin\] injection). The IGFD (Increlex® Growth Forum Database) Registry is intended primarily to monitor the safety and efficacy of Increlex replacement therapy in children with growth failure.