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Active clinical trials for "Klinefelter Syndrome"

Results 11-20 of 36

Androgen Effect on Klinefelter Syndrome Motor Outcome

Klinefelter Syndrome

The purpose of this study is to evaluate the effects of low-dose androgen on the motor and cognitive development of boys with Klinefelter syndrome.

Completed6 enrollment criteria

Study of Psychological and Motor Effects of Testosterone in Adolescents With XXY/Klinefelter Syndrome...

Klinefelter SyndromeXXY Syndrome

The purpose of this study is to determine if testosterone replacement therapy leads to changes in psychological factors and/or motor skills in adolescent males with 47,XXY (also called Klinefelter syndrome). This study will also evaluate whether certain genetic factors of the X chromosome affect the psychological or motor features of XXY/Klinefelter syndrome.

Completed8 enrollment criteria

Body Composition in Infants With Klinefelter Syndrome and Effects of Testosterone Treatment

Klinefelter Syndrome

This research study in infant males with Klinefelter syndrome (47,XXY) will learn more about body composition (muscle and fat) and male hormones and look at the effect of testosterone shots on body composition. The Investigators know that older boys and men with Klinefelter syndrome often have more fat compared to muscle than adults without Klinefelter syndrome, but we do not know if this difference is present at birth or develops over time. The Investigators will learn if body composition and motor skills are improved with testosterone treatment in infants with Klinefelter syndrome.

Completed5 enrollment criteria

RA-2 13-cis Retinoic Acid (Isotretinoin)

Male InfertilityKlinefelter's Syndrome1 more

Men with infertility and normal hormone levels have few options for fertility treatment. Previous research work has suggested that men with infertility may have low levels of the active form of Vitamin A, called retinoic acid, in their testes. We think that giving men with low sperm counts retinoic acid may increase their sperm counts and improve their chances of fathering a pregnancy. We want to see if retinoic acid administration over twenty weeks can increase sperm production and help infertile men become fathers without the need for In vitro fertilization (IVF) and/or intracytoplasmic sperm injection (ICSI). We also want to see if adding calcitriol with retinoic acid will improve sperm motility in a sub-set of subjects.

Completed20 enrollment criteria

Androgen for Leydig Cell Proliferation

Klinefelter SyndromeHypergonadotropic Hypogonadism2 more

Patients with infertility often presents alterations at ultrasonographic examination of the testis. These alterations include a much higher incidence of small, multiple, non-palpable hypoechoic micro-nodules that can show internal vascularization. This finding often create alarm and anxiety, because it has to be placed in a differential diagnosis versus low-stage malignant germ cell tumors. Nevertheless, explorative surgery reveal that a consistent number of these lesion are benign, due to Leydig cell hyperplasia or Leydig cell tumours. The purpose of this study is to evaluate the effects of androgen therapy on the size and number of non-palpable hypoechoic micro-nodules in patients with elevated gonadotropin levels.

Completed12 enrollment criteria

Sperm Production in Kleinfelter Syndrome Patients After Mesenchymal Stem Cell Injection

Klinefelter SyndromeAzoospermia

Klinefelter syndrome KS is caused by an additional X chromosome in males (47,XXY). Clinical findings are nonspecific during childhood; thus, the diagnosis commonly is made during adolescence or adulthood in males who have small testes with hypergonadotropic hypogonadism and gynecomastia. Virtually all men with Klinefelter syndrome are infertile. Approximately one in 1,000 boys is born with an additional X chromosome-47,XXY, the karyotype that causes Klinefelter syndrome. This karyotype is detected at or before birth in 10 percent of affected boys, and it is found during adulthood in 25 percent of affected men. Almost all men with a 47,XXY karyotype will be infertile; Klinefelter syndrome accounts for 3 percent of male infertility. Klinefelter syndrome is common in infertile men with oligospermia or azoospermia (5 to 10 percent). Infertility in men with Klinefelter syndrome is caused by a precipitous drop in sperm count. If sperm are present, cryopreservation is useful for future family planning with intracytoplasmic sperm injection, and if not, testicular sperm extraction may be pursued. Although there have been multiple reports of successful fertilization by men with Klinefelter syndrome. Mesenchymal stem cell injection in testicular tubules and intra testicular artery using surgical microscope. The period for follow up last from three months to twelve months including semen analysis to detect sperm and hormonal profile .

Completed4 enrollment criteria

Subcapsular Orchiectomy in Men With Klinefelter Syndrome

Klinefelter Syndrome

Men with Klinefelter syndrome undergo unilateral subcapsular ochiectomy, and the removed testicular tissue is examined for presence of sperm and cryopreserved in small pieces for fertility treatment and scientific purposes. Prior to operation blood samples are frozen in a biobank.

Completed3 enrollment criteria

Klinefelter Fertility Preservation

Klinefelter Syndrome

Klinefelter syndrome occurs in 1 in 600 males and is a common cause of infertility in men. It appears scar tissue forms in these boys' testicles, leading to progressive destruction over their lifetimes. Advanced reproductive technology can be used to surgically retrieve sperm from these individuals, but these methods have a 50% failure rate in adult Klinefelter patients. Younger men have higher success rates, suggesting that adolescence and young adulthood may be the best time to extract sperm, but these techniques have not been studied in Klinefelter patients younger than 26 years of age. Additionally, there is currently no way to predict which Klinefelter patients will have success with these methods and which of them will not. This trial will explore sperm extraction in Klinefelter syndrome in an age range (12-25 years) that has never been studied, with the ultimate hope of improving the potential for fertility in these patients. The specific goals of this study are to determine the ideal age for sperm retrieval in Klinefelter patients and to establish factors that can be used to predict which of these patients will have a higher likelihood of success with advanced reproductive technology. The hypothesis is that younger Klinefelter patients will have higher sperm retrieval rates.

Completed5 enrollment criteria

Fertility Assessment in Patients With Klinefelter Syndrome

Klinefelter Syndrome

Klinefelter syndrome is characterized by primary testicular failure and progressive infertility. The objective of this study is to determine if sperm are present and can be observed in semen samples of adolescent and young adult Klinefelter patients and to determine whether the presence of sperm correlates with physical and/or clinically obtained hormone measures of pubertal development. This study was designed in order to answer the following questions: Is it possible to retrieve sperm for cryopreservation from semen samples of adolescent and young adult Klinefelter patients? Does the presence of sperm correlate with the physical and/or endocrine measures that are assessed during routine clinical evaluations of pubertal development in the KS patient population? If sperm retrieval is possible, what is the optimal age at which sperm retrieval should be attempted?

Terminated6 enrollment criteria

Skeletal Health of Klinefelter Patients

Osteoporosis

This study compared the bone health of KS patients who were actively monitored in our clinic by dual-energy X-ray absorptiometry (DXA) with that of a control group of healthy volunteers.

Completed3 enrollment criteria

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