Background: The ovarian follicle is the fundamental functional tissue unit that consists of mammalian ovary. In humans, it has been known that females are born with a maximum number of… Click to show full abstract
Background: The ovarian follicle is the fundamental functional tissue unit that consists of mammalian ovary. In humans, it has been known that females are born with a maximum number of follicles or oocytes that are not only non-renewable, but also undergoing degeneration with time with a sharply decreased oocyte quality after the age of 35. Methods: Here, we demonstrate that successful isolation of primary, early secondary and late secondary follicles from the ovaries of CD-1 outbred female mice and in vitro culture system to successfully induce the development of MII oocytes. Result: The 9 days of in vitro culture of early secondary follicles showed significant higher rates in growth and maturation displaying higher numbers of antral follicles and MII oocytes developed from early secondary follicles compared to those cultured for 11 days. However, there was no visible difference induced by the size of initial follicles in the rates of growth and maturation. MII oocytes derived from in vitro culture of early secondary follicles following in vitro fertilization developed into two-cell embryos. These observations demonstrate that developmentally competent MII oocytes can be obtained by in vitro culture of preantral follicles derived from the ovaries of CD-1 mice and reveal a crucial role for CD-1 mice as a novel model for research on human ovarian follicles. Furthermore, this study proposes an in vitro culture system using preantral follicle as a therapeutic strategy for fertility preservation of humans for assisted reproductive medicine.
               
Click one of the above tabs to view related content.