The female reproductive system
Aleš Hampl
November 2023
1. Oogenesis
2. Copulation – receives sperm from male
3. Hormone production
4. Provides sites for egg fertilization, implantation, and development
5. Acts as birth canal
Functions of the female reproductive system
Female genital organs – Gross anatomy 1
Female genital organs – Gross anatomy 2
Endometrium
Myometrium
Epimetrium
Cervix of uterus
Vagina
Fundus
of uterus
Labia minora
Labia majora
Clitoris
Uterine tube
(fallopian)
Ovary
Ovary – Overall structure
Length – 3 cm
Width – 1.5 cm
Thickness – 1 cm
Medulla
Cortex
Hilum
Cortex
• Follicles
• Highly vascularized stroma
Medulla
• Vessels
• Loose connective tissue
Ovary – Surface
Cortex
Surface epithelium (germinal)
cuboidal cells
Tunica albuginea
dense connective t.
Oogenesis - Key periods
G2/M block
mitotic
division
growth
(months)
meiotic maturation
(hours)
PGC & oogonia
MI MII
Resumption of
meiosis
Block of meiosis in diplotene
of the 1. meiotic division
Fertilizable egg,
capable of supporting
early embryonal
development
Primary oocytes
Secondary oocyte
Meiosis – two divisions
instead of one
DNA replication
establishment of bivalents
„crossing over“
1. meiotic division
Independent segregation
of chromosomes
2. meiotic division
Separation of chromatids
2n
2C
2n
4C
1n
2C
1n
2C
1n
1C
1n
1C
Fully functional
germ cells
Oogenesis - Lifetime summary
At the time of birth
max. 500 thousands of primary oocytes
At the end of 6 month of fetal development
~ 6 – 7 millions of primary oocytes
At the time of menopause
max. 100 – 1000 remaining oocytes
At the time of birth
~ 500 thousands of primary oocytes
Atresia
Atresia
Ovulation (~ 500 oocytes)
Oogenesis – Polar body production
Ooogenesis – stages of the oocyte development
DiploteneoftheMeiosisI
Inside the ovary
Preantral follicle
(multilaminar)
Recruited follicle
(unilaminar)
Secondary
(antral) follicle
(medium size)
Tertiary
(Graafian) follicle
Primordial follicle30 mm
20 mm
Selection of the Dominant follicle
(the one most sensitive to FSH)
~14 days
Growth
Primary
follicles
Massive hormone
production
Androstendione
Theca folliculi interna
Estradiole
Granulosa cell
Oogenesis – Overall picture inside the ovary
Oogenesis – Primordial follicles
Primary oocyte
• Organelles around nucleus
• Abundant mitochondria
• Abundant RER
Oogenesis – Primary follicles
Unilaminar
Multilaminar
Zona pellucida
(5-10 mm)
Granulosa cells
15
Oogenesis – Secondary (antral) follicles
16
Antrum
Membrana
granulosa
Theca folliculi
Cumulus
oophorus
Oogenesis – Tertiary (Graafian, preovulatory) follicle
Oogenesis – Wall of tertiary follicle
Membrana
granulosa
Theca externa
Theca interna
Basal membrane
(Slavjanski)
Theca interna
• Vascularized
• Androstendione to granulosa cells - estradiol
Theca externa
• Fibrous with smooth m. cells
Antrum with
follicular fluid
18
Chromosomes
Oogenesis – MI phase oocyte surrounded by corona radiata
Polar body
Oogenesis – MII phase oocyte
Oogenesis – Ovulation
tigma
• initiated by LH surge
• no blood flow at stigma – ischemia
• smooth muscle contractions - theca f. externa
21
Oogenesis – Ovulated oocyte
Corpus luteum 1
Granulosa cells – Granulosa lutein cells
• large (20-30 mm)
• 80 % of CL
• convert androstendione to progesterone
and estradiol
Theca interna cells – Theca lutein cells
• smaller (10-15 mm)
• production of steroids
• vascularized – fenestrated caps.
23
Granulosalutein cells
Thecalutein cells
Corpus luteum 2
Corpus luteum 3
Granulosalutein cells
Thecalutein cells
Gartner, Hiatt, 2001
Corpus luteum 4
CL graviditatis
• diameter 2 – 3 cm
• maintains pregnancy
• mantained by chorionic gonadotropin
(HCG)
• maximal at 2 months
• changes to c. albicans at month 4-5
CL menstruationis
• 10 – 12 days
• changes to c. albicans
(dense connective tissue – collagen + fibroblasts)
Corpus albicans
Corpus luteum
Corpus luteum & albicans
27
Corpus albicans
28
• all types of follicles
• apoptosis of follicular cells
• autolysis (autophagy) oocytes
• phagocytosis by macrophages
• zona pellucida and basal lamina persist the
longest time
Mescher, 2010
Follicular atresia
Mescher, 2010
Ovarian cycle – 28 days
Preovulatory phase
• days 1 to 14
• growth and maturation of follicles
• production of streid hormones
Postovulatory phase
• days 16 to 28
• corpus luteum
• production of progesterone
Ovulation
• at day 15
• connect the ovaries to the uterus
• 12 to 15 cm long x 0.7 to 5 cm in diameter
• location of fertilization and early embryonic development
Teachmeanatomy.info
Uterine tubes = Fallopian tubes = Oviducts
University of Leeds Histolgoy, histology.leeds.ac.uk
Lumen
Tunica mucosa T. muscularis
T. serosa
31
Oviduct - Ampula
• highly branched mucosa
• longitudinal folds
• labyrinth
32
Oviduct - Ampula
33
Oviduct - Isthmus
• less branching
34
Oviduct
Tunica mucosa
● lamina epithelialis – simple columnar epithelium
1.) CILIATED CELLS –possess many cilia- transport of the ovum and embryo
2.) SECRETORY CELLS (PEG) – secrete a nutrient rich medium
● lamina propria – loose connective tissue (is richly vascularized!)
Uterus 1
• Mechanical protection and nutritional
support to developing embryo
• Bends anteriorly (anteflexion)
• Stabilized by broad, uterosacral,
round, and lateral ligaments
Uterus 2
Uterine wall ~ 1.5 - 2 cm
1. Endometrium – T. Mucosa
2. Myometrium – T. muscularis
3. Perimetrium – T. Serosa
● consists of lamina epithelialis and lamina propria
● epithelial lining – simple columnar epithelium containing secretory and ciliated cells
● lamina propria – loose connective tissue with many stellate fibroblasts, contains abundant amorphous
ground substance→ uterine glands – simple tubular glands (covered by simple columnar epithelial cells)
1. Stratum functionalis (~ 5 mm)
○ exhibit dramatic changes during menstrual cycle every month (hormone-driven)
○ shed during menstruation !
2. Stratum basale (~ 1 mm)
○ undergoes little changes during the menstrual cycle
○ not shed during menstruation !
○ provides a new epithelium and lamina propria for the renewal of the endometrium!
Dartmouth Medical School, Virtual Histology
http://www.dartmouth.edu/~anatomy/Histo
Uterus – Endometrium 1
Simple
columnar
epithelium
Endometrial
glands
Uterus – Endometrium 2
39
Gartner, Hiatt, 2001
Uterus – Endometrium - Blood supply
Uterus – Menstrual cycle
(28 days)
Menstrual phase (days 1 – 4)
Proliferative phase (days 5 – 15)
(driven by estrogens)
Secretory phase (days 16 – 27)
(driven by progesteron)
Ischemic phase (day 28)
Endometrium – Proliferative phase
• rising estrogen from the developing follicles
• the stratum basalis is regrowing the stratum functionalis – new glands form
• long and straight uterine glands which are not yet functional
Sobotta, 1995
Endometrium – Secretory phase
• under the control of estrogen and progesterone from the corpus luteum
• the uterine glands of the stratum functionalis begin to function, producing glycogen
• the curvy and dilated glands and elongated spiral arteries
• lack of estrogen and progesterone from the dead corpus luteum
• the stratum functionalis dies and loses its anatomical integrity, breaking lose
and shedding from the stratum basalis
Sobotta, 1995
uterine
cavity
myometrium
shedding stratum
functionalis
Endometrium – Menstrual phase
• three interwoven layers of smooth muscle
• during pregnancy – smooth muscle cell hyperplasia + hypertrophy
• contract in response to oxytocin during labor to expel the fetus from the uterus
Uterus – Myometrium
Dartmouth Pathology, http://www.dartmouth.edu/~anatomy/Histo
• 2-3 cm in length
• cylindrical shape
• cervical canal connects lumen
of uterus to lumen of vagina
• numerous mucous glands
• changes thickness
throughout ovulation cycle
• important for pregnancy and
childbirth
• contributes to capacitation
The Cervix + Orificium externum uteri
uvahealth.com
Stratified squamous ep. Columnar ep.
Abrupt junction of epithelia
The Cervix
Junction - collumnar to stratified squamous ep.
Simple collumnar ep.
Stratified squamous ep.
Cervical glands
(tubular, branched, mucus secreting)
VAGINA
Mescher, 2016
Vagina 1
• receives sperm during copulation
• serves as birth canal
3 tissue layers
a) mucosal layer – inner layer; non-keratinizing stratified squamous
b) muscular layer – middle layer; smooth muscle in two layers
c) adventitia – outer layer; areolar connective tissue
150-200 mm NO glands !
Vagina 2
Epithelial cells sythesize and accumulate glycogen (upon stimulation by estrogens)
Vagina 3
Preovulatory state
(all four layers)
Released after ovulation
• glycogen
• Lactobacillus
• acidification
Cervical smear – Giemsa staining
Contain
glycogen
50
Labia minora
Sebaceous glands
Nerves Veins
Covered by hairless skin
cloaca
Urogenital system – Overall picture
Urogenital system – Reminder
Urogenital system – Intermediate mesoderm
Genital system
Sexual dimorfism – individual can only have one type of genital organs
Genetic determination:
• Heterogametic (XY) – male
• Homogametic (XX) - female
Indifferent stage Differentiation into individual sexes
7th weekFertilization
=
genetic gender established
(Barr body)
Sertoli cells
Leydig cells
No MIS
No Testosterone
Sexual
Determination
Sexual
Differentiation
Genital system – Sry gene
Sry gene – Sox family TF – on short arm of Y chromosome
Default pathway
Y chromosome decides
XXY – male
X0 - female
Genital system – Sry gene
Pairing of X and Y chromosomes
in pseudoautosomal region during
meiosis
Rare crossing-over causes
translocation of SRY to X
chromosome:
XY females or XX males
Genital system – Primordial germ cells
PGC - large spherical cells
Primordial germ cells (PGC)
• first recognizable at day 24
• from epiblast-derived extraembryonic msoderm
• few cells among endodermal cells of the yolk sac
• they migrate through the dorsal mesentery of the hindgut
• migrate towards genital rigdes (plicae genitales)
• proliferate during migration
• reach (1-2 thousands) genital ridges on week 6 of gestation
Males
PGC stop dividing
Females
PGC enter meiosisX
decided by somatic cells in the genital ridges
Genital system – migration of PGC into gonadal anlagen
Genital system – gonadal anlagen
Steroidogenic mesoderm
along the ventromedial border of the mesonephros
caudal region
=
Genital ridges
cranial region
=
Adrenocortical primordia
cells of coelomic epithelium
+
cells from mesonephric ridge
Week 4 – Th6 to S2
cranial + caudal parts involute
Week 6 – L3 to L5
become populated by PGC at week 6
Genital system – indifferent gonade (week 6)
Medulary cords
Genital system – Sexual duct system – Indifferent stage
Paramesonephric duct
Develops at days 44 to 48
Cranially opens to coelomic cavity
Week 7
Wolffian
Mullerian
Genital system – Differentiation of the testes
Late 6th week
Cord cells differentiate to Sertoli cells
(meiosis-inhibiting factor, anti-mullerian substance, androgen binding factor)
Tunica albuginea develops
(sets barrier between coelomic epithelium and testis cords)
Cord cells form seminiferous tubuli, tubuli recti, and rete testis
Rete testis joints ductuli efferentes that are derived from
mesonephric ducts
(5th to 12th)
Week 8 to 18
Leydig cells develop and function in developing testis
• from coelomic epithelia and mesonphros
• produce testosteron
• support development of Wolfian (mesonephric) duct
• support development of external genitalia
Genital system – Sexual duct system – Male
Mesonephric ducts (Wolffian)
• Ductus epididymis
• Ductus deferens
• Ductus ejaculatorius
• Seminal vesicle
Paramesonephric ducts (Mullerian)
regresses in week 8 (anti-M hormone)
• Appendix testis (cranial part)
• Utriculus prostaticus (caudal part)
Mesonephros
• Ductuli efferentes
• Paradidymis (under the testis, nonfunctional)
Genital system – Differentiation of the ovaries
• PGC concentrate in the cortical region
• PGC proliferate (max until week 22) and then enter meiosis – arrest in prophase
• Ovarian follicles develop
(somatic cell contribution is not understood)
• Transient rete ovarii develops in medullary region
• Medulla contains connetive tissue and vasculature derived from mesonephros
Genital system – Sexual duct system – Female
Mesonephric ducts (Wolffian)
regresses (absence of testosterone)
• Gartners cyst (caudal part)
Paramesonephric ducts (Mullerian)
• Uterine tubes (falopian t.)
• Uterus
• Vagina
Mesonephros (+Mesonephric duct)
• Epoophoron (appendix of ovary)
• Paraophoron
Genital system – Sexual duct system – Uterus
Uterovaginal canal
Genital system – Duct system – Uterovaginal channel
Dorsal view
Lateral view
Paramesonephric (Mullerian) ducts fuse to form uterus and upper 1/3 of vagina
Genital system – Uterovaginal channel - Anomalies
Genital system – External genitalia - Indifferent stage
They are derived from a complex mesodermal tissue located around cloaca.
Week 8
Week 6 to 8
Genital tubercle – Phallus
Urethral (genital) folds – Plicae urogenitales
Genital swellings – Tori genitales
Orificium urogenitale primitivum
demarcated by:
HORMONE-INDEPENDENT
Genital system – External genitalia - Dimorphism
Week 9 to 13
Weeks 12 + 13 are particularly critical
=
fusing of urethral folds
Genital swellings
Genital tubercle
Genital (urethral) folds
Clitoris
Labia minora
Labia majora
Penis
Urethra
Scrotum
MALE FEMALE
Genital system – External genitalia - Male
Genital tubercle elongates – penis (phallus)
Genital swellings enlarge – scrotum
Genital folds form the lateral walls of the urethral groove
Genital folds form the spongy urethra
Ventral epithelium of genital folds – urethra proper
Corpora cavernosa develop from mesenchyme
Scrotal
raphe
Urethral
raphe
Anus
Scrotum
Genital plate
Fused genital folds
+
Canalized – urethra formed
Genital groove
Genital system – External genitalia – Urethral orifice
• ectodermal ingrowth forms a
cellular ectodermal cord
Penis body
Ectodermal cord
Glans penis
Spongy urethra Coronary groove
Surface ectoderm
Spongy urethra
Spongy urethra
Developing septum
External
urethral
orifice
Distal part of spongy urethra
Prepuce
Glandular part of urethra
• the cord grows towards the root of the
penis to meet the spongy urethra
• the cord canalizes
• circular ingrowth of ectoderm occurs at
the periphery of the glans penis (week 12)
• circular ingrowth breaks down
forming prepuce (for some time adherent
to the glans penis, hard to retract at birth)
Genital system – External genitalia – Male hypospadia
Normal midline raphe Raphe off center
Genital system – External genitalia - Female
urethra and vagina open into
vestibule = from urogenital sinus
urethra develops from
the more cranial part
of urogenital sinus – equivalent
to prostatic urethra
Thank you for your attention !
Questions and comments at:
ahampl@med.muni.cz