1The Female Reproductive System.pdf

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THE FEMALE REPRODUCTIVE
SYSTEM
FEMALE REPRODUCTION
 Unlike males, who are
able to produce sperm
cells throughout their
reproductive lives,
females produce a
finite number of egg
cells.
 During early fetal
development germ
cells migrate into the
ovaries and
differentiate into
oogonia
OOGONIA
 The oogonia divide by
mitosis for the next
few months and some
differentiate into
primary oocytes.
 By fifth (5th) month
there are about 7M
million primary
oocytes, but most will
degenerate during the
next 2 months
OOGONIA
 Those that remain will be
surrounded by a single
layer of squamous
epithelial cells (follicle
cells) called a primordial
follicle.

 Degeneration of primary
oocytes continues.

 At birth =1million
primordial follicles

 At puberty 400,000 remain
 Only 400-500 will reach
maturity
OVARIAN CYCLE
 Monthly changes that
occur in the ovary during a
woman’s reproductive life.

 Each month FSH
stimulates primordial
follicles to grow and
mature (follicular phase)

 Ovulation- release of the
egg (LH)
If fertilization does not occur,
 Luteal phase the corpus the corpus luteum
luteum produces
progesterone that degenerates, within 2 weeks
maintains uterine walls into a mass of scar tissue
called the corpus albicans
OOGENESIS

Meiosis – PMAT1
PMAT2

Mitosis – PMAT

2n = diploid

N = haploid

Human = 2n=46

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LIFE HISTORY OF OOGONIA

 As a fetus, oogonia divide to produce millions by
mitosis but most degenerate (atresia)
 Some develop into primary oocytes & stop in
prophase stage of meiosis I
 200,000 to 2 million present at birth
 40,000 remain at puberty but only 400 mature during a
woman’s life
 Each month, hormones cause meiosis I to resume
in several follicles so that meiosis II is reached by
ovulation
 Penetration by the sperm causes the final stages
of meiosis to occur
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OOGENESIS: BEFORE BIRTH
 During fetal
development, oogonia
(stem cells) divide by
mitosis to make primary
oocytes
 Primary oocytes begin
meiosis and stop in
prophase I until
puberty
 Primordial follicles:
Support cells that
surround the oocyte in
the ovary
 2 million present at birth
 400,000 remain at
puberty
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OOGENESIS: AFTER PUBERTY

 Each month, hormones cause several follicles to
develop, which triggers the primary oocyte to
resume meiosis I
 Polar bodies: When the cell divides, all the
cytoplasm and organelles stay with one of the
new cells, the other cell is just DNA, and is
called a polar body and is discarded
 Secondary oocyte: The stage at which ovulation
occurs.
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OOGENESIS: AFTER PUBERTY

 The secondary oocyte begins meiosis II, but stops in
metaphase II
 The secondary oocyte is ovulated

 Meiosis II is completed only if it is fertilized.

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FOLLICLE DEVELOPMENT
1. Primordial follicle: one layer of squamous-
like follicle cells surrounds the oocyte
2. Primary follicle: two or more layers of
cuboidal granulosa cells enclose the oocyte
3. Secondary follicle: has a fluid-filled space
between granulosa cells that coalesces to
form a central antrum
4. Graafian follicle: secondary follicle at its
most mature stage that bulges from the
surface of the ovary
5. Corpus luteum : ruptured follicle after
ovulation produces progesterone that maintains the uterine walls

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OVARY HISTOLOGY

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CORPUS LUTEUM AND CORPUS ALBICANS
GRAAFIAN FOLLICLE

Fluid filled antrum

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Oocyte 2°
Granulosa cells

Stalk

Corona radiata Zona pellucida
CORPUS LUTEUM
 After ovulation, the
remains of the follicle
are transformed into a
structure called the
corpus luteum.
 If a pregnancy occurs,
it produces
progesterone to
maintain the wall of
the uterus during the
early period of
development.
OVARIES
 Each follicle consists of an immature egg called an
oocyte
 Cells around the oocyte are called:
 Follicle cells (one cell layer thick)
 Stimulated to mature by FSH from the pituitary gland
 Granulosa cells (when more than one layer is present)
 Thecal cells: Cells in the ovarian stroma
 Thecal & granulosa cells work together to produce
estrogen
 A protective layer of glycoprotein forms around the
egg called the zona pellucida

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OVARY HISTOLOGY

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Primary Follicle 1° Oocyte
(arrested in prophase I)
Nucleus

Primordial
follicle

Zona pellucida
Thecal cells Granulosa cells
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 Fluid-filled
SECONDARY FOLLICLE antrum

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CORPUS ALBICANS
 If fertilization does
not occur, the corpus
luteum will begin to
break down about 2
weeks after ovulation.
 Degeneration occurs
when fibroblasts enter
the corpus luteum and
a clump of scar tissue
forms called the
corpus albicans.
OVARIAN AND UTERINE CYCLES
GROSS ANATOMY
 The ovaries are solid,
ovoid structures, about
2 cm in length and 1 cm
in width.

 Like the testes, they
develop from embryonic
tissue along the
posterior abdominal
wall, near the kidneys.

 Accessory organs
include the uterine
tubes, uterus, and
vagina.
UTERINE TUBES
(FALLOPIAN TUBES)

 Receive the ovulated oocyte and provide a site for
fertilization

 Empty into the superolateral region of the uterus
via the isthmus

 Expand distally around the ovary forming the
ampulla

 The ampulla ends in the funnel-shaped, ciliated
infundibulum containing fingerlike projections
called fimbriae
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UTERINE TUBES
(FALLOPIAN TUBES)
 Function: events occurring in the uterine tube
 Fimbriae sweep oocyte into tube, cilia
& peristalsis move it along, sperm
reaches oocyte in ampulla,
fertilization occurs within 24 hours
after ovulation & zygote reaches
uterus about 7 days after ovulation

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FALLOPIAN TUBE HISTOLOGY

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Cilia sweep egg/zygote
toward the uterus
UTERUS
 Hollow, thick-walled organ located in the pelvis
anterior to the rectum and posterosuperior to the
bladder

 Body: Major portion of the uterus

 Fundus: Rounded region superior to the entrance of
the uterine tubes

 Isthmus: Narrowed region between the body and
cervix
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UTERUS

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 UTERINE HISTOLOGY

 Endometrium
 Simple columnar epithelium
 Stroma of connective tissue and endometrial glands

Stratum functionalis: Shed during

menstruation
Stratum basalis: Replaces stratum
functionalis each month
 Myometrium
 3 layers of smooth muscle
 Perimetrium
 Visceral peritoneum 28
UTERINE
HISTOLOGY

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ENDOMETRIUM

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Simple
columnar
epithelium

Endometrial
glands
ENDOMETRIUM
 Proliferative phase:
glands and blood vessels
scattered throughout the
functional zone with little
or no branching.
 New glands form and
endometrium thickens.
 Secretory phase: glands
are enlarged and have
branches. Preparing the
endometrium for
implantation
 If no implantation then
endometrium breaks down
and menstruation begins.
FEMALE: LATERAL VIEW

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CERVIX
 Narrow lower neck of the uterus which projects into
the vagina inferiorly
 Cervical canal – cavity of the cervix that
communicates with:
 The vagina via the external os
 The uterine body via the internal os

 Cervical glands secrete mucus that covers the
external os and blocks sperm entry except during
midcycle

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Endocervical canal

Fornix

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VAGINA
 Thin-walled tube lying between the bladder and the
rectum, extending from the cervix to the exterior of
the body
 Wall consists of three coats: fibroelastic adventitia,
smooth muscle muscularis, and a stratified
squamous mucosa
 Mucosa near the vaginal orifice forms an
incomplete partition called the hymen
 Vaginal fornix: upper end of the vagina
surrounding the cervix

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FEMALE EXTERNAL GENITALIA
 Mons pubis: fatty pad over the pubic symphysis
 Labia majora & minora: folds of skin encircling
vestibule where find urethral and vaginal openings
 Clitoris: small mass of erectile tissue
 Bulb of vestibule: masses of erectile tissue just deep
to the labia on either side of the vaginal orifice
 Perineum: Area between the vagina and anus

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FEMALE EXTERNAL GENITALIA

Perineum

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BARTHOLIN’S GLANDS
(AKA: VESTIBULAR GLANDS)
 The Bartholin's glands are located on each side of
the vaginal opening.
 They secrete fluid that
helps lubricate the vagina.
 Sometimes the ducts of
these glands become
obstructed.
 Fluid backs up into the gland
and causes swelling
(Bartholin's cyst)

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MAMMARY GLANDS
 Modified sweat glands that produce milk (lactation)
 Amount of adipose determines size of breast
 Milk-secreting glands open by lactiferous ducts at the
nipple
 Areola is pigmented area around nipple
 Suspensory ligaments suspend breast from deep fascia
of pectoral muscles (aging & Cooper’s droop)
 Mammary line is a thickened ridge of embryonic tissue
that extends from the axilla to the groin.

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BREAST

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 BREAST

 Prolactinfrom
from
Prolactin
the
the pituitary
pituitary
gland gland
stimulates
stimulates
the the
synthesissynthesis
of of
milk
milk
Oxytocin
 Oxytocinfrom
fromthe
the posterior
posterior
pituitary
pituitarygland
gland
stimulates milk
stimulates
milk
ejection ejection

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LYMPHATIC
DRAINAGE
 Lymph nodes
draining the
breast are
located in the
axilla.

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REVIEW & EXPLORE
1. What is the reproductive system?

2. Define gonad.

3. How does the differentiation of the reproductive
system occur in females?

4. When and how does the human reproductive
system mature?

5. List organs of the female reproductive system.