03. Ovarian Function

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Created by
Evie T

Cards (24)

  • primary oocytes arrest in prophase I until ovulation
  • secondary oocytes arrest in metaphase II until fertilisation
  • polar bodies are produced due to asymmetrical meiotic division. These are by-products of meiosis with much smaller cytoplasms
  • second polar body is formed after the second meiotic division, signifies sperm entry
  • granulosa and theca cells are present in follicles
  • granulosa cells are epithelial and produce oestrogen and progestogens
  • theca cells are interstitial and produce androgens and progestogens
  • development of the follicles up until the secondary follicle is fsh and lh independent, this takes about a year
  • development of the follicles from secondary follicle to graafian follicle is fsh and lh receptive and occurs in the mesntrual cycle.
  • primordial follicle = primary oocyte surrounded by a single layer of granulosa cells
  • atresia = selective apoptotic process of oocytes
  • primary follicles:
    • granulosa cells become cuboidal in a single layer around the oocyte
    • fibroblast matrix surrounds granulosa cells
    • zona pellucida become visible
  • zona pellucida is a glycoprotein layer that surrounds oocytes.
    • porous, allows for contact between granulosa cells and oocyte
  • secondary follicles:
    • granulosa cells proliferate and become 3-6 layers
    • forms theca interna and externa
    • granulosa cells secrete follicular fluid
  • fsh stimulates follicle development and oestradiol secretion
  • lh stimulates follicle maturation, development of corpus luteum, oestradiol secretion and ovulation
  • progesterone is important for completing the endometrium and stimulating mammary gland development
  • during menses, oestrogen and progesterone levels are low. This means there is no negative feedback so GnRH is released and FSH and LH levels increase
  • LH stimulates theca cells to produce androgens. FSH stimulates granulosa cells to turn those androgens into oestrogen
    • two cell hypothesis
  • when FSH levels peak, the follicle with the highest number of FSH receptors outcompete the others
  • only one oocyte is normally ovulated
  • oestrogen normally has negative feedback onto the hypothalamus and anterior pituitary.
    • mid cycle, there is high levels of oestrogen that positively feedback leading to high LH and FSH
    • high LH leads to ovulaiton
  • during ovulation there is an increase in granulosa cells and accumulation of follicular fluid
    • the cumulus oophorus loosens and the follicular wall weakens
    • proteases break down side of ovary
    • stigma forms
  • during the luteal phase the follicle forms the corpus luteum, and granulosa and theca interna cells form lutein cells which produce oestrogen and progesterone
    • if no HCG present, the corpus luteum degrades and forms the corpus albicans
    • cycle recommences as low oestrogen and progesterone