1. Development of the Female Genital System
Bilal M. K. Marwa

2. Development of Ovaries

3. Development of ovaries
Gonadal development occurs slowly in females
The X chromosmes bear genes for ovarian development
Autosomal gene also appears to play a role in ovarian development
Until 10th week: ovary cannot be identified histologically

4. Gonadal cords do not become prominent.
They extend into the medulla and form rete ovarii, which is rudimentary.
Normally, it degenerates and disappears as well as the gonadal cords.

5. Cortical cords extend from
the surface epithelium of the developing ovary into
the underlying mesenchyme
Time: early fetal period
Epithelium: mesothelium-derived
As the cortical cords increase in size, primordial germ cells are incorporated in them
Cords begin to break up
forming primordial follicles
Time: about 16 weeks

6. Primordial Follicles Formed at about 16 weeks Each consists of:
Oogonium: derived from a primordial germ cell
Surrounding it: a layer of flattened follicular cells
Derived from surface epithelium
Active mitosis of oogonia occurs during fetal life producing thousands of primordial follicles
No oogonia form postatally.
Many oogonia degenerate before birth
About 2 million remain enlarge to become primary oocytes before birth

7. Development of Female Genital Ducts and glands

8. Development of Genital Ducts
Both male and female embryos have two pairs of genital ducts
The mesonephric ducts (wolffian ducts) play an important role in the development of the male reproductive system
The paramesonephric ducts (mullerian ducts) have a leading role in the development of the female reproductive system
Till the end of sixth week, the genital system is in an indifferent state, when both pairs of genital ducts are present

9. The mesonephric ducts, which drained urine from the mesonephric kidneys play a major role in the development of male reproductive system
The paramesonephric ducts pass caudally, parallel to the mesonephric ducts
The funnel shaped cranial ends of these ducts open into the peritoneal cavity
The paramesonephric ducts play an essential role in the development of the female reproductive system

10. Both the paramesonephric ducts pass caudally and reach the future pelvic region
Cross ventral to the mesonephric ducts

11. Fuse to form a Y-shaped uterovaginal primordium in the midline
This tubular structure projects into the dorsal wall of the urogenital sinus and produces an elevation called sinus (muller) tubercle

12. Development of Female Genital Ducts & Glands
In female embryos, the mesonephric ducts regress because of the absence of testosterone
Paramesonephric ducts develop because of the absence of mullerian inhibiting substance (MIS)
Female sexual development does not depend on the presence of ovaries or hormones
The paramesonephric ducts form most of the female genital tract

13. The caudal fused portions of these ducts form the uterovaginal primordium
It gives rise to uterus and superior part of vagina
The uterine tubes develop from the unfused cranial part of the paramesonephric ducts
The endometrial stroma and myometrium are derived from splanchnic mesenchyme

14. Development of Female Genital Ducts & Glands
Fusion of the paramesonephric ducts also brings together a peritoneal fold that forms the broad ligament
Also forms two peritoneal compartments, the rectouterine pouch and the vesicouterine pouch

15. Development of Vagina
Sinus tubercle induces the formation of paired endodermal outgrowths called sinovaginal bulbs
The sinovaginal bulbs fuse to form a vaginal plate

16. Later the central cells of the plate break down, forming lumen of vagina
The peripheral cells of the plate form the vaginal epithelium

17. Until the fetal life, the lumen of the vagina is separated from the cavity of the urogenital sinus by a hymen
The hymen is formed by invagination of the posterior wall of the urogenital sinus, resulting from expansion of the caudal end of the vagina
The hymen remains as a thin fold of mucous membrane just within the vaginal orifice

18. Development of Female Genital Ducts and glands

19. Development of Female External Genitalia
Estrogen produced by the placenta and fetal ovaries appear to be involved in feminization of indifferent external genitalia

20. Growth of the primordial phallus gradually ceases and becomes clitoris
The clitoris is relatively large at 18 weeks
It develops like a penis but the urogenital folds do not fuse, except posteriorly

21. Urogenital folds fuses posteriorly to form the frenulum of the labia minora
The unfused parts of the urogenital folds form the labia minora
The labioscrotal folds fuse posteriorly to form the posterior labial commisure

22. The labioscrotal folds fuse anteriorly to form the anterior labial commisure and mons pubis
Most parts of the labioscrotal folds remain unfused and form two large folds of skin called labia majora
Labia majora are homologous to the scrotum