Female Reproductive System.pptx

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Female Reproductive
System

Objectives
• Identify components of the female reproductive system
• Describe function of each component of the female
reproductive system
• Describe the roles of hormones in the female
reproductive system
• Describe the process of oogenesis

Female Reproductive Anatomy
• Ovaries are the primary female reproductive organs
• Make female gametes (ova)
• Secrete female sex hormones (estrogen and progesterone)

• Accessory ducts include uterine tubes, uterus, and
vagina
• Internal genitalia – ovaries and the internal ducts
• External genitalia – external sex organs

Female Reproductive Anatomy

Figure 27.11

The Ovaries
• Paired organs on each side of the uterus held in place
by several ligaments
• Ovarian – anchors the ovary medially to the uterus
• Suspensory – anchors the ovary laterally to the pelvic wall
• Mesovarium – suspends the ovary in between

• Broad ligament – contains the suspensory ligament and
the mesovarium

The Ovaries

Figure
27.14a

Ovaries
• Blood supply – ovarian arteries and the ovarian branch
of the uterine artery
• They are surrounded by a fibrous tunica albuginea,
which is covered by a layer of epithelial cells called the
germinal epithelium
• Embedded in the ovary cortex are ovarian follicles

Ovaries
• Each follicle consists of an immature egg called an
oocyte
• Cells around the oocyte are called:
• Follicle cells (one cell layer thick)
• Granulosa cells (when more than one layer is present)

Ovaries
• Primordial follicle – one layer of squamouslike follicle
cells surrounds the oocyte
• Primary follicle – two or more layers of cuboidal
granulosa cells enclose the oocyte
• Secondary follicle – has a fluid-filled space between
granulosa cells that coalesces to form a central antrum

Ovaries
• Graafian follicle – secondary follicle at its most mature
stage that bulges from the surface of the ovary
• Ovulation – ejection of the oocyte from the ripening
follicle
• Corpus luteum – ruptured follicle after ovulation

Ovaries

Figure 27.12

Uterine Tubes (Fallopian Tubes) and
Oviducts
• 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

Uterine Tubes
• The uterine tubes have no contact with the ovaries and
the ovulated oocyte is cast into the peritoneal cavity
• Beating cilia on the fimbriae create currents to carry the
oocyte into the uterine tube
• The oocyte is carried toward the uterus by peristalsis
and ciliary action

Uterine Tubes
• Nonciliated cells keep the oocyte and the sperm
nourished and moist
• Mesosalpinx – visceral peritoneum that supports the
uterine tubes

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

Uterus
• Cervix – narrow neck 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

Supports of the Uterus
• Mesometrium – portion of the broad ligament that
supports the uterus laterally
• Lateral cervical ligaments – extend from the cervix and
superior part of the vagina to the lateral walls of the
pelvis
• Uterosacral ligaments – paired ligaments that secure
the uterus to the sacrum
• Round ligaments – bind the anterior wall to the labia
majora

Peritoneal Pouches
• Several cul-de-sacs of peritoneum exist around the
uterus
• Vesicouterine pouch – lies between the bladder and the uterus
• Rectouterine pouch – lies between the rectum and the uterus

Uterine Wall
• Composed of three layers
• Perimetrium – outermost serous layer; the visceral peritoneum
• Myometrium – middle layer; interlacing layers of smooth
muscle
• Endometrium – mucosal lining of the uterine cavity

Uterine Wall

Figure
27.15b

Endometrium
• Has numerous uterine glands that change in length as
the endometrial thickness changes
• Stratum functionalis:
• Undergoes cyclic changes in response to ovarian hormones
• Is shed during menstruation

• Stratum basalis:
• Forms a new functionalis after menstruation ends
• Does not respond to ovarian hormones

Uterine Vascular Supply
• Uterine arteries – arise from the internal iliacs, ascend
the sides of the uterus and send branches into the
uterine wall
• Arcuate arteries – branches of the uterine arteries in the
myometrium that give rise to radial branches
• Radial branches – descend into the endometrium and
give off:
• Spiral arteries to the stratum functionalis
• Straight arteries to the stratum basalis

Uterine Vascular Supply
• Degeneration and regeneration of spiral arteries causes
the functionalis to shed during menstruation
• Veins of the endometrium are thin-walled with
occasional sinusoidal enlargements

Vagina
• Thin-walled tube lying between the bladder and the
rectum, extending from the cervix to the exterior of the
body
• The urethra is embedded in the anterior wall
• Provides a passageway for birth, menstrual flow, and is
the organ of copulation

Vagina
• 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

Vagina

Figure 27.16

External Genitalia: Vulva
(Pudendum)
• Lies external to the vagina and includes the mons pubis,
labia, clitoris, and vestibular structures
• Mons pubis – round, fatty area overlying the pubic
symphysis
• Labia majora – elongated, hair-covered, fatty skin folds
homologous to the male scrotum
• Labia minora – hair-free skin folds lying within the labia
majora; homologous to the ventral penis

External Genitalia: Vulva
(Pudendum)
• Greater vestibular glands
• Pea-size glands flanking the vagina
• Homologous to the bulbourethral glands
• Keep the vestibule moist and lubricated

External Genitalia: Vulva
(Pudendum)
• Clitoris (homologous to the penis)
• Erectile tissue hooded by the prepuce
• The exposed portion is called the glans

• Perineum
• Diamond-shaped region between the pubic arch and coccyx
• Bordered by the ischial tuberosities laterally

Mammary Glands
• Modified sweat glands consisting of 15-25 lobes that
radiate around and open at the nipple
• Areola – pigmented skin surrounding the nipple
• Suspensory ligaments attach the breast to underlying
muscle fascia
• Lobes contain glandular alveoli that produce milk in
lactating women
• Compound alveolar glands pass milk to lactiferous
ducts, which open to the outside

Structure of Lactating Mammary
Glands

Figure 27.17

Breast Cancer
• Usually arises from the epithelial cells of the ducts
• Risk factors include:
• Early onset of menses or late menopause
• No pregnancies or the first pregnancy late in life
• Previous history of breast cancer or family history of breast
cancer
• Hereditary factors including mutations to the genes BRCA1
and BRCA2
• 70% of women with breast cancer have no known risk
factors

Breast Cancer: Detection and
Treatment
• Early detection is by self-examination and
mammography
• Treatment depends upon the characteristics of the
lesion
• Radiation, chemotherapy, and surgery followed by
irradiation and chemotherapy
• Today, lumpectomy is the surgery used rather than
radical mastectomy

• Production of female sex cells by meiosis
Oogenesis

• In the fetal period, oogonia (2n ovarian stem
cells) multiply by mitosis and store nutrients
• Primordial follicles appear as oogonia are
transformed into primary oocytes
• Primary oocytes begin meiosis but stall in
prophase I

Oogenesis: Puberty
• At puberty, one activated primary oocyte produces two
haploid cells
• The first polar body
• The secondary oocyte
• The secondary oocyte arrests in metaphase II and is
ovulated
• If penetrated by sperm the second oocyte completes
meiosis II, yielding:
• One large ovum (the functional gamete)
• A tiny second polar body

Events of Oogenesis

Figure 27.19

Ovarian Cycle
• Monthly series of events associated with the maturation
of an egg
• Follicular phase – period of follicle growth (days 1–14)
• Luteal phase – period of corpus luteum activity (days
14–28)
• Ovulation occurs midcycle

Follicular Phase
• The primordial follicle, directed by the oocyte, becomes
a primary follicle
• Primary follicle becomes a secondary follicle
• The theca folliculi and granulosa cells cooperate to produce
estrogens
• The zona pellucida forms around the oocyte
• The antrum is formed

Follicular Phase
• The secondary follicle becomes a vesicular follicle
• The antrum expands and isolates the oocyte and the corona
radiata
• The full size follicle (vesicular follicle) bulges from the external
surface of the ovary
• The primary oocyte completes meiosis I, and the stage is set
for ovulation

Ovarian Cycle

Figure 27.20

Ovulation
• Ovulation occurs when the ovary wall ruptures and
expels the secondary oocyte
• Mittelschmerz – a twinge of pain sometimes felt at
ovulation
• 1-2% of ovulations release more than one secondary
oocyte, which if fertilized, results in fraternal twins

Luteal Phase
• After ovulation, the ruptured follicle collapses, granulosa
cells enlarge, and along with internal thecal cells, form
the corpus luteum
• The corpus luteum secretes progesterone and estrogen
• If pregnancy does not occur, the corpus luteum
degenerates in 10 days, leaving a scar (corpus albicans)
• If pregnancy does occur, the corpus luteum produces
hormones until the placenta takes over that role (at
about 3 months)

Establishing the Ovarian Cycle
• During childhood, ovaries grow and secrete small
amounts of estrogens that inhibit the hypothalamic
release of GnRH
• As puberty nears, GnRH is released; FSH and LH are
released by the pituitary, which act on the ovaries
• These events continue until an adult cyclic pattern is
achieved and menarche occurs

Hormonal Interactions During the
Ovarian Cycle

• Day 1 – GnRH stimulates the release of FSH and
LH
• FSH and LH stimulate follicle growth and
maturation, and low-level estrogen release
• Rising estrogen levels:
• Inhibit the release of FSH and LH
• Prod the pituitary to synthesize and accumulate
these gonadotropins
• Estrogen levels increase and high estrogen levels
have a positive feedback effect on the pituitary,
causing a sudden surge of LH

Hormonal Interactions During the
Ovarian Cycle
• The LH spike stimulates the primary oocyte to complete
meiosis I, and the secondary oocyte continues on to
metaphase II
• Day 14 – LH triggers ovulation
• LH transforms the ruptured follicle into a corpus luteum,
which produces inhibin, progesterone, and estrogen

Hormonal Interactions During the
Ovarian Cycle
• These hormones shut off FSH and LH release and
declining LH ends luteal activity
• Days 26-28 – decline of the ovarian hormones
• Ends the blockade of FSH and LH
• The cycle starts anew

Feedback Mechanisms in Ovarian
Function

Figure 27.21

Uterine (Menstrual) Cycle
• Series of cyclic changes that the uterine endometrium
goes through each month in response to ovarian
hormones in the blood
• Days 1-5: Menstrual phase – uterus sheds all but the
deepest part of the endometrium
• Days 6-14: Proliferative (preovulatory) phase –
endometrium rebuilds itself
• Days 15-28: Secretory (postovulatory) phase –
endometrium prepares for implantation of the embryo

Menses
• If fertilization does not occur, progesterone levels fall,
depriving the endometrium of hormonal support
• Spiral arteries kink and go into spasms and endometrial
cells begin to die
• The functional layer begins to digest itself
• Spiral arteries constrict one final time then suddenly
relax and open wide
• The rush of blood fragments weakened capillary beds
and the functional layer sloughs

Gonadotropins, Hormones, and the
Ovarian and Uterine Cycles

Figure
27.22a, b

Gonadotropins, Hormones, and the
Ovarian and Uterine Cycles

Figure
27.22c, d

Extrauterine Effects of Estrogens
levels rise during puberty
and• Estrogen
Progesterone
• Promote oogenesis and follicle growth in the
ovary
• Exert anabolic effects on the female
reproductive tract
• Uterine tubes, uterus, and vagina grow larger
and become functional
• Uterine tubes and uterus exhibit enhanced
motility
• Vaginal mucosa thickens and external genitalia
mature

Estrogen-Induced Secondary Sex
Characteristics
• Growth of the breasts
• Increased deposition of subcutaneous fat, especially in
the hips and breasts
• Widening and lightening of the pelvis
• Growth of axillary and pubic hair

Female Sexual Response
• The clitoris, vaginal mucosa, and breasts engorge with blood
• Activity of vestibular glands lubricates the vestibule and
facilitates entry of the penis
• Orgasm – accompanied by muscle tension, increase in pulse
rate and blood pressure, and rhythmical contractions of the
uterus
• Females do not have a refractory period after orgasm and
can experience multiple orgasms in a single sexual
experience
• Orgasm is not essential for conception

Sexually Transmitted Diseases:
Gonorrhea
• Bacterial infection spread by contact with
genital, anal, and pharyngeal mucosal
surfaces
• Signs and symptoms

• In males – painful urination, discharge of pus from
the penis
• In females – none (20%), abdominal discomfort,
vaginal discharge, abnormal uterine bleeding
• Left untreated, can result in pelvic inflammatory
disease
• Treatment: antibiotics, but resistant strains are
becoming more prevalent

Sexually Transmitted Diseases:
Syphilis
• Bacterial infection transmitted sexually or contracted
congenitally
• Infected fetuses are stillborn or die shortly after birth
• A painless chancre appears at the site of infection and
disappears in a few weeks

Sexually Transmitted Diseases:
Syphilis
• Secondary syphilis shows signs of pink skin rash, fever,
and joint pain
• A latent period follows, which may progress to tertiary
syphilis characterized by gummas (lesions of the CNS,
blood vessels, bones, and skin)
• Treatment: penicillin

Sexually Transmitted Diseases:
Chlamydia
• Most common STD in the U.S.
• Responsible for 25–50% of all diagnosed cases of pelvic
inflammatory disease
• Symptoms include urethritis; penile and vaginal
discharges; abdominal, rectal, or testicular pain; painful
intercourse; and irregular menses
• Can cause arthritis and urinary tract infections in men,
and sterility in women
• Treatment is with tetracycline

Sexually Transmitted Diseases: Viral
Infections
• Genital warts – caused by human papillomaviruses
(HPV); infections increase the risk of penile, vaginal,
anal, and cervical cancers
• Genital herpes – caused by Epstein-Barr virus type 2
and characterized by latent periods and flare-ups
• Congenital herpes can cause malformations of a fetus
• Has been implicated with cervical cancer
• Treatment: acyclovir and other antiviral drugs

Development Aspects: Puberty
• Reproductive organs grow to adult size and become
functional
• Secondary sex characteristics appear
• Characteristics of puberty
• Males – enlargement of the testes and scrotum, appearance of
axillary and facial hair, and growth of the penis
• Females – enlarging of the breasts, menarche, and
dependable ovulation

Menopause
• Ovulation and menses cease entirely
• Without sufficient estrogen, reproductive organs and
breasts atrophy
• Irritability and depression result
• Skin blood vessels undergo intense vasodilation (hot flashes
occur)
• Gradual thinning of the skin and bone loss

• Males have no equivalent to menopause