Anatomy Physiology of the Female Reproductive Tract - Copy.pdf

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Anatomy & Physiology
of the
Female Reproductive Tract
RIZVI, Fahad
PHAS5001
 ØDescribe the main anatomical features of
the female reproductive tract
ØRelate female anatomy to common clinical
problems
Learning ØDescribe the main physiological functions of
Outcomes the female reproductive system, including:
ØHormonal regulation
ØOogenesis
ØOvarian cycle
 Bladder
Urethra
Uterus
Ovary
Vagina
Rectum
The thick wall of the uterus has 3 layers:
1. The endometrium is the inner layer that lines the uterus. It
is made up of glandular cells that make secretions.
2. The myometrium is the middle and thickest layer of the
uterus wall. It is made up mostly of smooth muscle.
3. The perimetrium is the outer serous layer of the uterus
 Uterus

Uterus is anteverted, i.e. anterior to vertical plane going through the
vagina
Pear-shaped muscular organ
8 cm long; 5 cm width; 3 cm thick
Cervix opens into fornices of vagina
Fundus is the portion above entrance of uterine tubes
Covered with peritoneum
 SF

SB

Uterine histology –
the menstrual cycle Myometrium

Menstrual
corkscrew
shaped
glands

SF SF Endometrium
(SF+SB)
spiral
arteries

SB Secretory SB Proliferative
M M

Ross and Pawlina; Histology, 5th Ed., LWW, 2006
 Cervix
Cervix
Isthmus is a circular borderline area
between the body and cervix
Isthmus is the supra vaginal portion
of cervix, the lower uterine segment
Posterior is deeper covered with
peritoneum
Internal os is the opening from the cavity of body
Spindle shaped cavity cervix
External os is the opening into vagina
 Vagina
Thin walled tubes 8-10 cm which surround
the cervix
Normal anteverted and antiflexed
Anterior fornix is shallow; anterior wall is
shorter than posterior
Posterior deeper, covered with peritoneum
of the pouch of Douglas - lowest part of
peritoneal cavity
Walls normally in contact except superiorly
Opens into vestibule of vagina
 Ovary

Hilum
Blood vessels,
nerves,
lymphatics

Marieb and Hoehn, 10th Ed.
Ovarian Cortex – the site of oocyte development

Contains ovarian follicles in various stages of development.
Each follicle contains one oocyte.
The appearance will vary with age and stage in the monthly cycle.
From puberty to menopause every month a mature (Graafian) follicle
expels a secondary oocyte by a process called ovulation.
 Ovarian Cortex Histology
TA

GE

Follicles
(at different stages
of development)

Ross & Pawlina; Histology, 5th Ed. x120, H&E
 Oogenesis
The Ovaries:
Undergoes monthly cycle in which an oocyte develops
Formation of a secondary (2y) haploid (n) oocyte at ovulation which
may or may not be fertilised.
Similar to spermatogenesis; 1 x mitosis, 2 x meiosis
Each embryonic ovary contains ~1000-2000 primordial germ cells that
divide by mitosis to form around 3 million oogonia.
Sequence includes mitosis (in utero), meiosis I (after puberty each
month) and meiosis II (at fertilisation).
Oocytes develop in ‘follicles’ with a visible sequence of follicular
changes. Defined by the Follicular phase and Luteal Phase
 Oogonium
Stem cell 2n

1y oocytes are made in utero
Mitosis

2 Ch, 2 Ctd
1y oocyte (identical) 2n 2n
STOPS AT PROPHASE 1 of Meiosis 1

Meiosis 1 Ovulation each month post-puberty

2y oocyte Pb n 1y Oocyte GOES FROM P1 AND STOPS AT M2 AS A 2y Oocyte.
1 Ch, 2 Ctd

Meiosis 2 In fallopian tube

1 Ch, 2 Ctd pb
n 1 Ch, 1 Ctd
1y – primary 1 Ch, 1 Ctd pb
2y – secondary ovum M2 COMPLETES IF
2n – diploid 2y OOCYTE IS FERTILISED
n – haploid
Pb – polar body (these disintegrate) n
 FOLLICLE DEVELOPMENT
Oogonium 2n
Stem cell

Mitosis In utero

2n
2n
1y oocyte 2n Primordial follicle

Meiosis 1 Puberty to menopause each month

Meiosis 1 2n 1y follicle

2n 2y follicle

Graafian follicle
2y oocyte n

ovulation
 Oocytes develop in
follicles
Primary

Secondary

Mature
Graafian

*Not to scale – Primary much smaller than Graafian
 Oocytes develop in
Follicles
Follicular Stages:
Primordial
Primary
Secondary Follicular phase

Antral
Corpus luteum
Corpus albicans
Luteal phase

Marieb and Hoehn, 10th Ed.
 Key features to remember
Primordial - 1y oocyte, follicular cells
Primary – 1y occtye, zona pellucida, theca interna & externa,
granulosa cells
Secondary (early antral/vesicular*) – 1y oocyte
Graffian (vesicular*) – 2y oocyte, antrum, follicular fluid, corona
radiata, cumulus oophorius, Ovulation
Corpus luteum – endocrine secretion of progesterone
Corpus albicans – degenerating corpus luteum

*Note: Marieb’s uses slightly odd follicle gradings. I’d like you to use the terminology here which is more widely used.
Ovulation
The rupture of the Graafian follicle and release of 2y oocyte into the
pelvic cavity
Usually just one oocyte
Occurs around day 14 of the 28-day cycle caused by hormonal changes
leading to a LH surge.
A combination of hormonal changes and enzymatic effects
Increased volume and pressure of follicular fluid
Enzymatic proteolysis of follicular wall
Theca interna contraction 2y
The remaining follicle forms the corpus luteum
pb
Endocrine Regulation of Ovarian Function
Ovaries are responsible for oogenesis and cyclic (~28 days) synthesis
of steroidal oestrogens and progesterone.

Principal events of menstrual cycle in the uterus can be correlated
with those of the ovarian cycle and changes in the endometrium - all
are hormonally controlled events.
Ovarian Cycle
Monthly series of events associated with
the maturation of an ovum
Hypothalamus
Synthesis and secretion of oestrogens
from theca / granulosa cells GnRH

Synthesis and secretion of progesterone
from the corpus luteum Ant. Pituitary
Gonadotrophs
Regulated by anterior pituitary
gonadotrophins, LH and FSH (FSH) LH

Oestrogen/ Gonad Testosterone
Progesterone
Follicle Stimulating Hormone (FSH):
Stimulates growth of granulosa cells and initial development of
primary ovarian follicles
Stimulates synthesis and secretion of oestrogens and inhibin from
granulosa cells (-ve feedback)
Up-regulates LH receptors in granulosa cells
Many follicles may begin to mature during each cycle but only one
dominant follicle will mature to a secondary follicle
Luteinising Hormone (LH):
The dominant follicle that will ovulate is that which most rapidly
acquires LH receptors
Thereby most rapidly reacts to raising LH concs.
LH stimulates later development of ovarian follicles
A surge of LH induces ovulation - peak at day 13-14
Stimulates production of oestrogens via theca cells
Stimulate production of progesterone by CL

Anti Mullerian Hormone
Produced by granulosa cells. Prevents development of surrounding
primary follicles.
Tortora: Principles of human anatomy and physiology. 11th Edition
 The Ovarian Cycle

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Tortora: Principles
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anatomy and
physiology. Principles of Human Anatomy
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11th Edition and Physiology, 11e
 The Menstrual Cycle
Series of changes in the endometrium of the non-pregnant female
Regulated by ovarian steroids
Each month endometrium (Strat. basalis and Strat. functionalis)
prepared to nourish and receive a fertilized ovum
If no fertilization occurs, the stratum functionalis is shed
(menstruation)
Three histologically distinct stages in women that relate to affects of
ovarian steroid
Ovarian steroids regulate the cycle
1st
Menstrual Stage: shedding of stratum functionalis if CL progesterone
is lost
Proliferative
2nd Stage: Ovarian oestrogens promote proliferation and
repair of Strat. Functionalis.
Secretory
3rd Stage: Oestrogen and progesterone from the CL promotes
uterine receptivity and glandular secretions.
If hCG from the placenta does not take over the role of LH then the
CL atrophies
Tortora: Principles of human anatomy and physiology. 11th Edition
Menopause Menopause

Peak of reproductive ability is in 20s
By mid 40s most women are not able to
conceive naturally

% of follicles
Ovaries become less response to
gonadotropin signals
Oestrogen production declines
Once ovulations ceases this is called the
menopause Age (years)

Average age ~ 50
 Menopause
Lack of oestrogen leads to many side effects, including:
Vagina becomes dry
Hot flushes
Decreased libido
Difficulty sleeping
Mood changes, anxiety & depression
Palpitations
Higher risk of UTIs
Treatment: Hormone Replacement Therapy if required
Clinical problems

Dysmenorrhoea
Amenorrhoea
Endometriosis
PCOS
Amenorrhoea
Strenuous physical activity can delay menarche or disrupt normal
menstrual cycle
Female athletes have very low % body fat
Adipose tissues are the source of leptin
Leptin stimulates release of GnRH
Usually reversible once training stops