View clinical trials related to Puberty, Delayed.
Filter by:The goal of this study is to learn more about the genes that control puberty and reproduction in humans.
The absence of clinical signs of pubertal maturation, i.e. pubertal delay, is a relatively frequent reason for consultation in boys. In cases where it is necessary, the treatment to be established is the administration of testosterone with the aim of provoking the development of secondary sexual characteristics and optimizing growth. Currently, the most commonly used treatment is empirical, with im testosterone enanthate at increasing doses (from 50 mg every 4 weeks up to 250 mg every 4 weeks) over a period of 2 to 3 years. The pharmacokinetic profile has not been described to see if it mimics the physiological progressive increase in testosterone levels occurring during normal puberty. In adults, testosterone enanthate shows supraphysiological serum testosterone the first week after, with a progressive drop to subphysiological levels in the fourth week. Testosterone undecanoate is used in adults at a dose of 1000 mg im every 12 weeks, as equivalent to testosterone enanthate 250 mg every 4 weeks.Serum levels of testosterone show a profile within physiological ranges. Testosterone undecanoate im has not been tested in adolescents. Hypothesis: The hypothesis of this work is that the initial administration of 1 ml (~250 mg) of testosterone undecanoate (1000 mg/4 ml) via im every 12 weeks for 6 months, with a progressive increase of 1 ml (~250 mg) every 6 months until reaching 4 ml (1000 mg) per dose is safe and effective in causing normal progression of secondary sex characteristics and growth spurt in boys with pubertal delay. The primary specific objectives are to determine, in boys with pubertal delay: (a) if a treatment regimen of testosterone undecanoate (1000 mg/4 ml), with an initial dose of 250 mg every 12 weeks and subsequent increase up to 1000 mg every 12 weeks over 2 years (increasing 250 mg every 6 months) induces a progression in the development of secondary sexual characteristics and growth spurt commensurate with those of normal pubertal development, and (b) the safety of the administration of increasing doses of im testosterone undecanoate.
In this prospective open clinical study, Pubertal Replacement in Boys Study (PRIBS), boys 14-16 years with delayed puberty in terms of slow pubertal progression, were randomized to SoC treatment with TE: Testostoviron depot® 75 mg intramuscularly (i.m) / month (6 injections), or low dose TU: Nebido® 250mg i.m. / 3 months (2 injections). Our goal was to implement a study similar to clinical routine.
"Observational study of clinical outcomes for testosterone treatment of pubertal delay in Duchenne Muscular Dystrophy" is a single centre observational study that aims to follow the progress of 20 adolescents with Duchenne Muscular Dystrophy (DMD) and delayed puberty who are treated by the Newcastle muscle team, as they are treated with testosterone to induce puberty. The participants will all be treated with the standard stepwise regimen of testosterone injections every 4 weeks and data will be collected to help determine the effectiveness and tolerability of the current treatment regimen. The investigators will use the data to explore the effect of testosterone on pubertal development, growth, muscle strength and function, bone mineral density and body composition and characterise any side effects. Semi-structured interviews will also be carried out to learn the boys' views on the tolerability of the regimen. The study will last up to a maximum of 27 months in total for each participant, but may be less if they are happy with pubertal development before this time. It is important to do this study because from the investigator's limited experience in this group, testosterone treatment seems to be well liked and tolerated but the best treatment regimen to use remains unknown and there is no current consensus. It is not currently part of the standard of care in DMD but it would be important to include it if this study can show that it is an effective treatment for pubertal delay.
The aim of the our study is to investigate whether there is an increased incidence of ADHD ( based on self reports and questionnaires) among children with short stature due to constitutional growth delay (CGD) in comparison with children with Familial short stature.
To evaluate the phenotype and biochemical characteristics of boys referred for delayed puberty, to describe the frequency of associated co-morbidities and diseases, to evaluate the diagnostic criteria and the effect of testosterone treatment.
Anorexia nervosa may be responsible for a catch- down or even an interruption of growth, delayed puberty and osteopenia with failure of acquisition of bone mass. The recovery of normal nutrition usually leads to a resumption of growth and pubertal development. However, despite a therapeutic nutritional and psychotherapeutic satisfactory approach, some patients have a significant short stature with reduced adult final height and a deficit of bone mass. The main objective is to evaluate the effect of growth hormone (hGH) treatment on the growth velocity in prepubertal children or children in early puberty with anorexia nervosa and significant reduction of height velocity. This is a single-center, controlled, randomized and double-blind clinical trial evaluating the efficacy of hGH treatment for 1 year against a placebo, on the growth velocity of prepubertal or children in early puberty with Anorexia nervosa and major catch-down.This period is followed by the evaluation of the hGH treatment in children receiving placebo and continued hGH treatment in the treatment arm for 1 year, in total 2 years of study for each child. This second period corresponds to an ethical consideration giving secondarily access to treatment for patients in the placebo group.
The goal of this study is to test whether the hormone kisspeptin has the potential to prospectively diagnose adolescents with self-resolving or permanent delayed puberty. Some children with delayed puberty will eventually enter puberty on their own. However, some children with delayed puberty have a permanent condition and require medical treatment to undergo puberty. Right now, there is no reliable diagnostic tool to tell whether a child's delayed puberty will be self-resolving or permanent. The hormone kisspeptin has the potential to prospectively diagnose adolescents with self-resolving or permanent delayed puberty.
The purpose of this study is to determine if the timing of the onset of puberty may be affected by FSH-regulatory peptides. We will determine how these peptides relate to FSH production in prepubertal and pubertal children by comparing the regulation of FSH control in children with precocious (early) puberty and delayed puberty. In this pilot study, we will stimulate the pubertal axis using an agonist of GnRH to determine the pubertal response of activin-A, inhibin-A and -B and follistatin. To determine baseline FSH secretion and FSH-regulatory peptide tone, we will block GnRH with a specific antagonist. These studies should lead to a better understanding of the role of FSH in controlling the onset of puberty and the pathogenesis of pubertal disorders.
The aims of this study are: 1) to identify genes that play a role in human pubertal development and reproduction, 2) to characterize the phenotypic spectrum of patients with these gene defects, and 3) to discern the mode of inheritance for disorders caused by these gene defects. We are specifically interested in genes that cause Kallmann syndrome, idiopathic hypogonadotropic hypogonadism (IHH), precocious (early) puberty, and delayed puberty. Individuals do not have to travel to Boston to participate in this study.