Az anti-Müller-hormon (AMH) mennyiségének összefüggése a petefészekképletekkel és a petesejttartalék kimerülésével kancában és tehénben
Megtekintés/ Megnyitás
Dátum
2023-02Szerző
Angyal, Eszter
Somoskői, Bence
Török, Dóra
Bordás, Lilla
Cseh, Sándor
Novotniné Dankó, Gabriella
Vincze, Boglárka
DOI link
10.56385/magyallorv.2023.02.113-127Metaadat
Részletes rekordAbsztrakt
The main role of AMH is to induce the regression of the Mullerian duct during the
male sexual differentiation. However, in females, AMH is not expressed during
the period of sexual differentiation, this guarantees the proper development of
the female genital tract. In women and female animals, AMH expression can be
detected in the granulosa cells of early primary, preantral and small antral follicles
after birth. AMH regulates the follicle number and selection of the dominant
follicle during follicular waves. In the postnatal ovary, AMH plays a key role in the
recruitment of primordial follicles by preventing these follicles from joining the pool
of growing follicles before the selection process. Thus, AMH prevents premature
exhaustion of the ovarian follicle reserve.
Nowadays anti-Mullerian hormone is the subject of several research in human
reproductive biology, due to the fact that it is an indicator of fertility and reproductive
ageing. In the case of domestic animals, research in this direction is especially
important because fertility is often identified as the primary factor that hinders the
efficiency of livestock systems. It is important to emphasize that the effectiveness
of assisted reproduction techniques depends to a large extent on the physiological
parameters of the individual, such as the antral follicle population (AFP) of the
ovary. In this way, the efficiency of assisted reproduction techniques can be greatly
diminished by the great variability in the number of antral follicles of the donors.
AMH seems to be useful endocrine marker to estimate ovarian reserve capacity.
The aim of this study was to summarize the physiological functions of AMH and its
correlation with ovarian reserve capacity and age.