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Active clinical trials for "Klinefelter Syndrome"

Results 21-30 of 36

Fertility Preservation in Cases of Klinefelter Syndrome.

Klinefelter Syndrome

Klinefelter Syndrome (KS) is the most common sex chromosomal abnormalities (1/600 newborn males), and is characterized by a hypergonadism hypogonadism. Until few years ago, mostly non-mosaic KS was considered as a model of a complete male infertility although few KS (4-8%) have an oligospermia. Recent studies in adult with non-mosaic KS reported the possibility of sperm retrieval by testicular biopsy (TESE) in around 50% cases and more than some pregnancies have been obtained after TESE with Intracytoplasmic Sperm Injection (ICSI). Since 1997, more than one hundred births are described. As some studies shown a decrease of successful sperm retrieval with the increasing of age, we plan to compare the potential of sperm retrieval between two groups "adult" (23-55 years) and "young" after the onset of puberty (15-22 years). The study will be performed by searching spermatozoa on two seminal analyses spaced out 3 months followed by a testicular biopsy if the azoospermia is confirmed on semen analyses.

Completed6 enrollment criteria

Life Quality and Health in Patients With Klinefelter Syndrome

Klinefelter SyndromeQuality of Life2 more

Klinefelter syndrome is the most common sex-chromosome disorder in men with a prevalence of 1 in 660 men. The syndrome is associated with hypogonadism. Many patients with Klinefelter syndrome have psychological complaints and physical discomfort. Some patients report a positive effect of testosterone treatment, whereas others do not. The aim of this study is: (i) To investigate quality of life in patients with Klinefelter syndrome. (ii) To investigate functional, physical and mental health in patients with Klinefelter syndrome. Questionnaire concerning mental and physical health and life quality are sent out to patients with KS and to age-, educational- and zipcode-matched men from the general population. The questionnaire include questions about housing, income, marital status, fatherhood, medication, chronic disease,school and education, attachment to the labor, sexual and erectile function, life quality, mental and physical health, satisfaction with life and symptoms of attention deficits hyperactivity disorders.

Completed6 enrollment criteria

TyG Index Levels in Klinefelter Syndrome

Cardiac EventKlinefelter Syndrome1 more

It is well known that the frequency of cardiometabolic diseases are increased in patients with Klinefelter Syndrome. The triglyceride-glucose index (TyG index) is a simple surrogate marker of insulin resistance and is also associated with various cardiometabolic diseases. The aim of this study to investigate the TyG index levels and its relationship with insulin resistance and endothelial dysfunction in patients with KS.

Completed3 enrollment criteria

Human Chorionic Gonadotropin Stimulation Effects on Steroidogenesis in Men With Klinefelter Syndrome...

SteroidogenesisKlinefelter Syndrome1 more

The study design included six visits. During the first visit (visit 0), the subjects underwent physical examination(height, weight, body mass index (BMI), arm span, and upper segment measurement) and testicular ultrasound (US) for the calculation of testicular volume. At 0800 h of day 0, all subjects provided a basal blood sample immediately followed by a single intramuscular injection of hCG of 5000 IU. Further five visits were performed each of five following consecutive days after the hCG injection. A blood sample was taken at each visit after an overnight fast

Completed3 enrollment criteria

Thrombosis and Neurocognition in Klinefelter Syndrome

Klinefelter SyndromeThrombosis

The haemostatic balance and neurocognitive capability of men with Klinefelter syndrome is compared to healthy controls by using specific biochemical assays for coagulation and fibrinolysis and a selection of neuropsychological tests and brain fMRI. Furthermore, the effect of gonadal status and any effects of long- or short-term testosterone treatment on the above mentioned parameters are investigated.

Completed9 enrollment criteria

X-chromosome Inactivation, Epigenetics and the Transcriptome

Turner SyndromeKlinefelter Syndrome3 more

The human genetic material consists of 46 chromosomes of which two are sex chromosomes. The sex-chromosome from the mother is the X and from the father the Y-chromosome. Hence a male consist of one Y and one X chromosome and a female of 2 X-chromosomes. Alterations in the number of sex-chromosomes and in particular the X-chromosome is fundamental to the development of numerous syndromes such as Turner syndrome (45,X), Klinefelter syndrome (47,XXY), triple X syndrome (47,XXX) and double Y syndrome (47,XYY). Despite the obvious association between the X-chromosome and disease only one gene has been shown to be of significance, namely the short stature homeobox gene (SHOX). Turner syndrome is the most well characterized and the typical diseases affecting the syndrome are: An Increased risk of diseases where one's own immune system reacts against one's own body (autoimmune diseases) and where the cause of this is not known; For example diabetes and hypothyroidism. Increased risk of abortion and death in uteri Underdeveloped ovaries with the inability to produce sex hormones and being infertile. Congenital malformations of the major arteries and the heart of unknown origin. Alterations in the development of the brain, especially with respect to the social and cognitive dimensions. Increased incidence obesity, hypertension, diabetes and osteoporosis. In healthy women with to normal X-chromosomes, the one of the X-chromosomes is switched off (silenced). The X-chromosome which is silenced varies from cell to cell. The silencing is controlled by a part of the X-chromosome designated XIC (X-inactivation center). The inactivation/silencing of the X-chromosome is initiated by a gene named Xist-gene (the X inactivation specific transcript).This gene encodes specific structures so called lincRNAs (long intervening specific transcripts) which are very similar to our genetic material (DNA) but which is not coding for proteins. The final result is that women are X-chromosome mosaics with one X-chromosome from the mother and the other X from the father. However, numerous genes on the X-chromosome escape this silencing process by an unknown mechanism. Approximately two third of the genes are silenced, 15 % avoid silencing and 20 percent are silenced or escape depending on the tissue of origin. The aforementioned long non-protein-coding parts of our genetic material (LincRNAs) are abundant and produced in large quantities but their wole as respect to health and disease need further clarification. Studies indicate that these LincRNAs interact with the protein coding part of our genetic material modifying which genes are translated into proteins and which are not. During this re-modelling there is left foot prints on the genetic material which can indicate if it is a modification that results in silencing or translation of the gene. It is possible to map these foot prints along the entire X-chromosome using molecular techniques like ChIP (Chromatin immunoprecipitation) and ChIP-seq (deep sequencing). The understanding achieved so far as to the interplay between our genetic material and disease has arisen from genetic syndromes which as the X-chromosome syndromes are relatively frequent and show clear manifestations of disease giving the researcher a possibility to identify genetic material linked to the disease. Turner and Klinefelter syndrome are, as the remaining sex chromosome syndromes, excellent human disease models and can as such help to elaborate on processes contributing to the development of diseases like diabetes, hypothyroidism, main artery dilation and ischemic heart disease. The purpose of the study is to: Define the changes in the non-coding part of the X-chromosome. Identify the transcriptome (non-coding part of the X-chromosome)as respect to the RNA generated from the X-chromosome. Identify changes in the coding and non-coding parts of the X-chromosome which are specific in relation to Turner syndrome and which can explain the diseases seen in Turner syndrome. Study tissue affected by disease in order to look for changes in the X-chromosome with respect to both the coding and non-coding part of the chromosome. 6. Determine if certain genes escape X-chromosome silencing and to establish if this is associated with the parent of origin.

Completed4 enrollment criteria

Thyroid Function and Structure IN Klinefelter Syndrome

Klinefelter SyndromeThyroiditis2 more

This is a longitudinal retrospective study for the evaluation of thyroid function and structure in patients with Klinefelter syndrome compared to healthy controls and patients affected by chronic lymphocytic thyroiditis.

Completed7 enrollment criteria

Adaptive Behavior Assessment of Men With 49, XXXXY, Klinefelter Syndrome

Klinefelter Syndrome

Klinefelter syndrome, a congenital chromosomal abnormality with one or more extra X chromosomes, occurs in out of 400 live male births. The majority of Klinefelter men present with a 47, XXY karyotype. The "poly-X variant", with the 49,XXXXY karyotype is uncommon. This syndrome, where subjects have two or more X chromosomes presents with primary hypogonadism, and, particularly if associated with the 49,XXXXY karyotype, significantly impacts life skills across a variety of dimensions, including areas of communication, community use, functional academics, home/school living, health and safety, leisure, self-care, self direction, and work. Adaptive behavior abnormalities in 46,XXY men are well known and described. In the poly-X variant of the 49,XXXXY karyotype, adaptive behavior abnormalities are expected to be much more significant, making these patients eligible for services and Social Security benefits. In 49,XXXXY men no study to date has examined these areas of inquiry in a large patient population, using a psychometrically sound instrument in a large patient population. Current publications are limited to individual case reports or small case summaries. It is important to study the adaptive behavior in its highly abnormal presentation in 49,XXXXY men in order to learn more about the effect of additional X chromosomes on adaptive skills, which determine how an individual responds to daily demands and in order to develop treatment and training goals.

Withdrawn1 enrollment criteria

Cardiometabolic Profiles of Boys With Klinefelter Syndrome

Klinefelter Syndrome47,XXY2 more

This study plans to learn more about how to measure the way the the body's energy system works in boys with Klinefelter syndrome, including the heart, lungs, muscles, and liver. This is important to know so that investigators understand how hormones and an extra X chromosome relate to diseases such as diabetes, extra weight gain, heart disease and liver diseases.

Completed11 enrollment criteria

Neuropsychologic, Neuroradiologic, Endocrinologic, and Genetic Aspects of Klinefelter Syndrome

Klinefelter Syndrome

The purpose of this study is to investigate the following: Whether Klinefelter Syndrome is associated with altered total and regional brain volumes and altered brain activity. The influence of genetic factors and testosterone treatment on the neuropsychological phenotype, total and regional brain volumes and brain activity in men with Klinefelter syndrome.

Completed6 enrollment criteria

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