Germ cell apoptosis after treatment of cryptorchidism with human chorionic gonadotropin is associated with impaired reproductive function in the adult.

@article{Dunkel1997GermCA,
  title={Germ cell apoptosis after treatment of cryptorchidism with human chorionic gonadotropin is associated with impaired reproductive function in the adult.},
  author={Leo Dunkel and Seppo Taskinen and Outi Hovatta and Jonathan L. Tilly and Sakari Wikstr{\"o}m},
  journal={The Journal of clinical investigation},
  year={1997},
  volume={100 9},
  pages={
          2341-6
        }
}
Cryptorchidism results in impaired fertility. Reduced numbers of testicular germ cells can be shown histologically during the first years of life. The process causing germ cell loss in cryptorchid prepubertal boys is unknown, but it could be the result of a form of programmed cell death known as apoptosis. 25 adult men with a history of surgically treated cryptorchidism were studied, 15 of whom had received an unsuccessful human chorionic gonadotropin (hCG) therapy before orchidopexy. Apoptotic… 
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Long-term cultures of testicular biopsies from boys with cryptorchidism: effect of FSH and LH on the number of germ cells.
TLDR
This culture system supports survival of spermatogonia for at least 3 weeks, and LH either alone or in combination with FSH results in a significantly reduced S/T ratio.
Hormonal treatment may harm the germ cells in 1 to 3-year-old boys with cryptorchidism.
The influence of hormonal treatment with beta-human chorionic gonadotropin for cryptorchidism on future fertility in rats.
Human Chorionic Gonadotropin Deteriorates the Histology of Rat Testes
TLDR
It is assumed that hCG impairs the seminiferous tubule histology in normal testes of rats, and further experimental studies on dose dependency and the reversibility of these effects are warranted.
The role of testicular germ cell apoptosis during equine spermatogenesis
TLDR
To examine the relationships between germ cell apoptotic rate and spermatogenic efficiency, seminal traits were assessed to classify stallions into normal or reduced quality semen groups.
Germ cell development in the descended and cryptorchid testis and the effects of hormonal manipulation
TLDR
Current evidence suggests that hormonal therapy may not stimulate transformation of neonatal gonocytes but may trigger prepubertal mitosis of primary spermatocytes, and further studies are required to determine the role of hormone treatment on germ cell development.
Effects of hormonal treatment on the contralateral descended testis in unilateral cryptorchidism.
Insights into male germ cell apoptosis due to depletion of gonadotropins caused by GnRH antagonists
TLDR
The present data suggest that the principal role of FSH and testosterone is to maintain spermatogenic homeostasis by inhibiting death signals for the germ cells.
Lactate inhibits germ cell apoptosis in the human testis.
TLDR
Testicular cell death was effectively regulated by lactate, which may be regarded as a potential compound for optimizing in-vitro methods involving male germ cells for assisted reproduction.
Histopathological Changes That Occur on the Testicular and Penile Tissues Depending on the Treatment of Human Chorionic Gonadotropin: Rat Model
Objectives: To examine the histopathological effects of hCG treatment on the penile and the testicular tissue in rat model. Materials and Methods: The rats of the hCG group (n = 8) were given daily
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References

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TLDR
The findings lead to the conclusion that apoptosis is a hormonally controlled, normal phenomenon in a human prepubertal testis and that cryptorchidism decreases its occurrence by reducing the number of germ cells capable of undergoing apoptosis.
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TLDR
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TLDR
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TLDR
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TLDR
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TLDR
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TLDR
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TLDR
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TLDR
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