View clinical trials related to Turner Syndrome.
Filter by:The purpose of this strictly observational, prospective, longitudinal study is to evaluate with sufficient precision the rate of overall treatment compliance from one year to 3 years of follow-up of the patients. Somatotropin is indicated in the long-term treatment of children with growth retardation related to a deficiency in secretion of growth hormone and in the long-term treatment of growth retardation related to Turner's syndrome confirmed by chromosomal analysis. These are the two indications of Zomacton® 4 mg and 10 mg injection solution. The use of the Zomajet® needle-free device (Zomajet® 2 Vision, reserved for the administration of Zomacton® 4 mg or of the Zomajet® Vision X needle-free device, reserved for the administration of Zomacton® 10 mg), allows the product to be administered by percutaneous transjection (needle-free) and can be used by the child directly or by the family after an initial training. In April 2004, the CEPP (Commission for the Evaluation of Products and Services) requested a follow-up of the cohort of patients using the Zomajet® 2 Vision system measuring the compliance and duration of use of the device. The number of patients initiated on Zomacton treatment using the Zomajet® needle-free device is estimated to 30. Over a period of inclusion of 3 years, we therefore estimate that 90 patients will be treated. In the cohort studied the patients will be followed-up for 1 year at least and for 3 years at the maximum. The rate of treatment compliance will be evaluated according to the ratio of the actual duration of administration over the total duration recommended by the physician during the observation period.
This study is conducted in Europe. The aim of this study is to compare the easiness of use of Norditropin NordiFlex® device to the device previously used by patients or parents.
The objective of this study is to evaluate the efficacy and safety of recombinant human growth hormone (r-hGH) treatment in girls with Turner Syndrome under the age of 4 years. After 4 years of treatment, height in these girls will be compared with an historical control group of untreated girls with Turner Syndrome, matched for age and height at baseline.
This observational study is conducted globally. The aim of the study is to investigate the effectiveness and safety of real-life treatment with Norditropin®. The study population will consist of children and adults who are on treatment with Norditropin® in accordance with normal clinical practice.
Relative risk for many psychiatric disorders differs dramatically in males and females. Early-onset disorders, such as autism, occur more often in males; other conditions, such as schizophrenia, occur at similar rates in males and females, but the sexes differ in expression. It has been hypothesized that the prevalence and expression of these disorders is related to sex differences in brain development. X-chromosome effects and early exposure to gonadal hormones are strong candidates for a causal role. The aims of the research are (1) to characterize sex differences in brain development from birth to age 2; (2) to test whether brain development is altered in infants with Turner syndrome, a well-defined genetic disorder resulting from the partial or complete loss of one of the sex chromosomes. To address aim 1, high resolution MRI, including diffusion tensor imaging (DTI), will be used to characterize sex differences in brain development from birth to age 2 in a longitudinal cohort of 250 children. To address aim 2, high resolution MRI, including DTI, will be used to compare brain development in 70 infants with Turner syndrome (X monosomy) to matched controls from aim 1. The investigators hypothesize that sex differences in gray and white matter development and in white matter maturation as assessed by DTI will be present during the first 2 years of life and that children with TS will exhibit abnormal gray and white matter development in the neonatal period.
Estrogen is necessary for feminization during puberty and to decrease bone resorption, the latter critical for the achievement of peak bone mass and normal bone health in the female. The practicing pediatric endocrinologist often faces the dilemma of how to best feminize girls with hypogonadism (lack of estrogen), manifested as delayed or arrested puberty, due to disorders of the brain or the ovaries. We propose a series of studies to address which type, dose, and route of delivery of estrogen are suitable choices in feminizing and sustaining estrogen concentrations in adolescent girls with Turner syndrome. To accomplish this we will study girls/young woman between the ages of 13 to 20 with Turner Syndrome in 2 protocols. In Protocol # 1 we will study 24 girls with TS, they will receive 3 different estrogen preparations, either by mouth or via a patch for a total of 6 weeks. They will come to the clinical research center for blood draws after 2 wks of taking the estrogen. With this study, we hope to learn how the body responds to estrogen differently, depending on the form estrogen is given and how high, estrogen levels gets in the blood in these girls with Turner Syndrome. We will be comparing these patients estrogen levels to girls that menstruate normally and do not have Turner Syndrome. In Protocol #2, 40 patients with TS will be recruited; these patients will take estrogen for 1 year, either by mouth or via a patch. Patients will come to the lab for blood drawn in 7 occasions and we will measure estrogen levels as well as other hormones and lipid levels. We will also perform a Dual-energy X-ray absorptiometry (DXA) study (like an X ray) to assess body composition and bone mineralization. We will adjust doses based on the estrogen levels we find. With this study we hope to learn how estrogen affects body composition, i.e., the amount of fat vs. muscle, and how different forms of estrogen affect blood cholesterol and other hormones. This study will allow us to understand better how to best replace young woman with Turner Syndrome with estrogen.
Several studies have demonstrated that Turner Syndrome patients have elevated liver enzymes readily suppressible by a short course of HRT. We wanted to estimated quantitative liver functions in a young group of Turner syndrome patients compared to a healthy control group.
Validate that circulating cell free fetal nucleic acid can be used to identify a direct marker for fetal aneuploidy, particularly fetal Down Syndrome (DS), that is better than surrogate markers.
This is an international, multicenter study involving children treated with Saizen®, a growth hormone, who will be trained to use easypod, a new electronic injector and will complete a questionnaire after 12 week of use. Both children naïve to growth hormone and dissatisfied with their current injection device will be recruited.
Primary objective is to assess the relationship between changes from serum biomarkers observed after 1 month of Saizen® therapy and change in height, weight after up to 5 years of treatment with Growth Hormone in children with Growth Hormone Deficiency (GHD) and Turner Syndrome (TS).