female reproductive

Question 1

gonads and accessory structures

Answer 1

ovaries

• make ova
• secrete estrogen (estradiol, estrone, estriol) and progesterone

Accessory

• eterine tubes
• uterus
• vagina

Question 2

internal

Answer 2

in pelvic cavity
Ovaries 
Uterine tubes 
Uterus
Vagina

Question 3

sacs of peritoneum around uterus

Answer 3

Vesicouterine pouch between bladder and uterus

Rectouterine pouch between rectum and uterus

Question 4

Ligaments

Answer 4

Ovarian ligament - anchors ovary medially to uterus

Suspensory ligament - anchors ovary laterally to pelvic wall

Mesovarium - suspends ovary

Suspensory ligament and mesovarium part of broad ligament – supports uterine tubes, uterus, and vagina

Question 5

ovary blood supply and layers

Answer 5

ovarian arteries and ovarian branch of the uterine arteries

surrounded by fibrous tunica albuginea

germinal epithelium = outer layer

two poorly defined regions:

• outer cortex which houses forming gametes
• inner medulla which houses blood vessels and nerves

Question 6

Ovarian follicles

Answer 6

immature egg (oocyte) surrounded by

• follicle cells (one layer thick)
• granulosa cells (over one layer)

Several stages of development

• primordial follicle = single layer of follicle cells and oocyte
• more mature follicles = several layers of granulosa cells
• vesicular (antral or tertiary) follicle = fully mature with fluid-filled antrum –> follicle bulges from ovary surface

Question 7

ovulation and corpus luteum

Answer 7

ovulation = ejection of oocyte from ripening follicle

corpus luteum develops from ruptured follicle after ovulation

Question 8

duct system contact with ovary

Answer 8

no contact

oocytes are cast into peritoneal canvity where some are lost

Question 9

uterine tubes
anatomy
function

Answer 9

receive ovulated oocyte - usual site of fertilization

Isthmus = constricted region where tube joins uterus

ampulla

Distal expansion with infundibulum near ovary - ciliated fimbriae of infundibulum create current

• oocytes carried along by peristalsis and ciliary action
• nonciliated cells (peg cells) nourish oocyte and sperm
• covered externally by peritoneum
• mesosalpinx = mesentery that supports uterine tubes

Question 10

Uterus: cervix, cervical canal, and cervical glands

Answer 10

cervix = narrow nexk, or outlet projecting into vagina

cervical canal communicates with vagina via external os and uterine body via internal os

cervical glands secrete mucus that blocks sperm entry except during midcycle

Question 11

the rest of the uterus

Answer 11

hollow, thick walled, muscular organ

receives, retains, and nourishes fertilized ovum

Anteverted - inclined forward; retroverted - inclined backward

body = major portion
fundus = rounded superior region
isthmus = narrow inferior region

Question 12

uterus histology

Answer 12

perimetrium = serous layer (visceral peritoneum)
myometrium = interlacing layers of smooth muscle
endometrium = mucosal lining

Question 13

endometrial layers

Answer 13

Stratum functionalis

• changes in response to ovarian hormone cycles
• sheds during menstruation

stratum basalis

• forms new functionalis after menstruation
• unresponsive to ovarian hormones

Question 14

uterine vascular supply

Answer 14

Uterine arteries arise from internal iliacs; branch into

Arcuate arteries in myometrium; branch into

Radial arteries in endometrium; branch into

• Straight arteries –> stratum basalis
• Spiral arteries –> stratum functionalis (Degenerate and regenerate; spasms –> shedding of functionalis layer during menstruation)

Question 15

Cervical cancer

Answer 15

• 450,000 women each year - kills half. In US those who dies are those who didn’t get regular screening and those with immune deficiencies
• most common bt 30-50

Risks: basically all cases related to HPV

Papanicolau (pap) smear for detection
-every 2-3 years. every 5 years if negative HPV test. May discontinue at age 65 if normal screenings prior

Question 16

HPV vaccine

Answer 16

-3 dose vaccine
Recommended for 11- and 12-year-old girls and boys as well as catch up immunization for those under 26. Those between the age of 26-45 can consider it if they are considered at risk. Does not prevent the need for screening. Does not cover all strains of HPV that cause cervical cancer.

Question 17

vagina: gross anatomy

Answer 17

• Thin-walled tube 8-10 cm in length
• -Birth canal and organ of copulation
• Extends between bladder and rectum from cervix to exterior
• Urethra parallels course anteriorly; embedded in anterior wall
• Vaginal fornix = upper end of vagina surrounding cervix

Question 18

vagina microscopic anatomy
layers
HIV access
hymen

Answer 18

Layers of wall

• fibroelastic adventitia
• smooth muscle muscularis
• stratified squamous mucosa with rugae

dendritic cells in mucosa may provide route for HIV transmission

Mucosa near vaginal orifice forms incomplete partition called hymen - ruptures with intercourse

Question 19

External genitaila: mons pubis, labia majora/minora

Answer 19

Mons pubis - fatty area overlying pubic symphysis

Labia majora - hair-covered, fatty skin folds
-Counterpart of male scrotum

Labia minora - skin folds lying within labia majora

• Join at posterior end of vestibule  fourchette
• Vestibule - recess within labia minora

Question 20

external genitalia: greater vestibular glands, clitoris, and perineum

Answer 20

Greater vestibular glands

• Flank vaginal opening
• Homologous to bulbo-urethral glands
• Release mucus into vestibule for lubrication

Clitoris - anterior to vestibule

• glans of the clitoris = exposed portion
• prepuce of clitoris = hoods glans
• counterpart of glans penis

Perineum

• diamond shaped region bt pubic arch and coccyx
• bordered by ischial tuberosities laterally

Question 21

Mammary glands

Answer 21

Modified sweat glands consisting of 15–25 lobes

Function in milk production

Areola - pigmented skin surrounding nipple

Suspensory ligaments (Cooper’s ligaments) – attach breast to underlying muscle

Lobules within lobes contain glandular alveoli that produce milk

Question 22

breast cancer: stats and contraceptives

Answer 22

Invasive breast cancer most common malignancy, second most common cause of cancer death in U.S. women

13% will develop condition

Use of hormonal contraceptives quadruple risk of most aggressive breast cancer (triple negative breast cancer) in women under the age of 40

Question 23

Breast cancer: cause and risk factors

Answer 23

Usually arises from epithelial cells of smallest ducts; eventually metastasize

Risk factors include

• Early onset of menstruation and late menopause
• No pregnancies or first pregnancy late in life
• No or short periods of breast feeding
• Family history of breast cancer
• Hormonal contraceptive use

10% due to hereditary defects, including mutations to genes BRCA1 and BRCA2
50 – 80% develop breast cancer
Greater risk of ovarian cancer as well

70% of women with breast cancer have no known risk factors

Question 24

Breast cancer diagnosis

Answer 24

Early detection via self-examination and mammography
-X-ray examination
-American Cancer Society recommends screening every year for women 40 and over. This is controversial because it has not shown to increase survival. Increased risk from unnecessary invasive diagnostic tests such as biopsies,
-U.S. Prevention Services Task Force on Breast Cancer Screening recommends screening every two years in ages 50 and over
These recommendations are for asymptomatic women with no significant risk factors.
-Women who have symptoms or have significant risk factors will have mammography recommendations based on their individual case, not on the general population screening recommendations

Question 25

Oogenesis and follicular development

Answer 25

• Formation of gametes in ovary
• Oogenesis begins before females are born
• Essentially same steps of meiosis as spermatogenesis
• During early fetal development, primordial (primitive) germ cells migrate from yolk sac to ovaries
• Germ cells then differentiate into oogonia – diploid (2n) stem cells
• Before birth, most germ cells degenerate – atresia
• A few develop into primary oocytes that enter meiosis I during fetal development
• Each covered by single layer of flat follicular cells – primordial follicle
• About 200,000 to 2,000,000 at birth, 40,00 remain at puberty, and around 400 will mature during a lifetime

Question 26

Follicular development (primordial follicle to secondary follicle)

Answer 26

Each month from puberty to menopause, FSH and LH stimulate the development of several primordial follicles
-Usually, only one reaches ovulation

Primordial follicles develop into primary follicles

• Primary oocyte surrounded by granulosa cells
• Forms zona pellucida between granulosa cells and primary oocyte
• Stromal cells begin to form theca folliculi

Primary follicles develop into secondary follicles

• Theca differentiates into theca interna secreting estrogens and theca externa secreting androgens
• Granulosa cells secrete follicular fluid in antrum
• Innermost layer of granulosa cells attaches to zona pellucida forming corona radiata

Question 27

follicular development: secondary follicle to zygote

Answer 27

Secondary follicle becomes mature (graffian) follicle

• Just before ovulation, diploid primary oocyte completes meiosis I
• Produces 2 unequal sized haploid (n) cells – first polar body is discarded and secondary oocyte

At ovulation, secondary oocyte expelled with first polar body and corona radiata

If fertilization does not occur, cells degenerate

If a sperm penetrates secondary oocyte, meiosis II resumes

Secondary oocyte splits into 2 cells of unequal size – second polar body (also discarded) and ovum or mature egg

Nuclei of sperm cell and ovum unite to form diploid zygote

Question 28

comparison of oogenesis and spermatogenesis

Answer 28

S = 4 viable sperm with 3-4% error rate

O = 1 viable gamete + 3 polar bodies with 20% error rate

unequal divisions ensure oocyte has ample nutrients for 6-7 day journey to uterus

polar bodies degenerate and die

Question 29

Two parts of female reproductive cycle

Answer 29

Ovarian cycle – series of events in ovaries that occur during and after maturation of oocyte

Uterine (menstrual) cycle – concurrent series of changes in uterine endometrium preparing it for arrival of fertilized ovum

Question 30

Hormones: GnRH and FSH

Answer 30

Gonadotropin-releasing hormone (GnRH)

• Secreted by hypothalamus controls ovarian and uterine cycle
• Stimulates release of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) from anterior pituitary

FSH (anterior pituitary)

• Initiate follicular growth
• Stimulate ovarian follicles to secrete estrogens

Question 31

Hormones: LH

Answer 31

LH (anterior pituitary)
Stimulates further development of ovarian follicles
Stimulate ovarian follicles to secrete estrogens
Stimulates thecal cells of developing follicle to produce androgens to be converted into estrogens
Triggers ovulation
Promotes formation of corpus luteum – produces estrogens, progesterone, relaxin and inhibin

Question 32

Hormones: estrogen and progesterone

Answer 32

Estrogens secreted by ovarian follicles
Promote development and maintenance of female reproductive structures and secondary sex characteristics
Increases protein anabolism including building strong bones
Lowers blood cholesterol
Inhibit release of GnRH, LH and FSH

Progesterone
Secreted mainly by corpus luteum
Works with estrogens to prepare and maintin endometrium for implantation and mammary glands for milk production
Inhibits secretion of GnRH and LH

Question 33

hormones: relaxin and inhibin

Answer 33

Relaxin
Produced by corpus luteum
Relaxes uterus by inhibiting contraction of myometrium
At end of pregnancy, increases flexibility of pubic symphysis and dilates uterine cervix

Inhibin
Secreted by granulosa cells of growing follicles and by corpus luteum
Inhibits secretion of FSH and LH

Question 34

4 phases of reproductive cycle and typical duration

Answer 34

Typical duration 24-35 days
Assume a duration of 28 days

Menstrual phase
Preovulatory phase
Ovulation
Postovulatory phase

Question 35

Menstrual phase/ mensruation

Answer 35

Roughly first 5 days of cycle
First day of menstruation is day 1 of new cycle

Events in ovaries
Under FSH influence, several primordial follicles develop into primary follicles ad then into secondary follicles
Takes several months
Follicle that begins to develop in one cycle may not mature for several cycles later

Events in uterus
Menstrual discharge occurs because declining levels of estrogens and progesterone stimulate release of prostaglandins causing uterine spiral arterioles to constrict
Cells deprived of oxygen begin to die
Only stratum basilis remains

Question 36

Preovulatory phase ovaries

Answer 36

More variable in length
Lasts from days 6-13 in a 28 day cycle

Events in ovaries
Some of secondary follicles begin to secrete estrogens and inhibin
Dominant follicle – one follicle outgrown all others
-Estrogens and inhibin of dominant follicle decrease FSH causing other follicles to stop growing
-Fraternal (nonidentical) twins result when 2 or 3 secondary follicles become codominant and are ovulated and fertilized at the same time
Normally, one dominant follicle becomes the mature (graffian) follicle
In ovarian cycle, menstrual and preovulatory phases are termed follicular phase because follicles are growing

Question 37

preovulatory phase uterus

Answer 37

Estrogens stimulate repair of endometrium
Cells of stratum basalis undergo mitosis to form new stratum functionalis
Thickness of endometrium doubles
In uterine cycle, preovulatory phase is the proliferative phase because endometrium is proliferating

Question 38

ovulation and twins

Answer 38

Rupture of mature (graffian) follicle and release of secondary oocyte
Day 14 of 28 day cycle
High levels of estrogens exert a positive feedback effect on cells secreting LH and GnRH
Ovary wall ruptures, expels secondary oocyte with its corona radiata to peritoneal cavity
Mittelschmerz - twinge of pain sometimes felt at ovulation
1–2% of ovulations release more than one secondary oocyte, which, if fertilized, results in fraternal twins
Identical twins result from fertilization of one oocyte, then separation of daughter cells

Question 39

Postovulatory phase: ovary

Answer 39

Duration most constant of phases
Lasts for 14 days in 28 day cycle (day 15-28)
Events in one ovary
After ovulation, mature follicle collapses to form corpus luteum under the influence of LH
Secretes progesterone, estrogen, relaxin and inhibin
In the ovarian cycle, this is the luteal phase

Question 40

corpus luteum

hCG role

Answer 40

If oocyte not fertilized, corpus luteum lasts 2 weeks

• Degenerates in corpus albicans
• As levels of progesterone, estrogens and inhibin decrease, release of GnRH, FSH, and LH rise sue to loss of negative feedback
• Follicular growth resume as new ovarian cycle begins

If oocyte is fertilized, corpus luteum lasts more than 2 weeks
-Human chorionic gonadotropin (hCG) produced by chorion of embryo about 8 days after fertilization stimulates corpus luteum

Question 41

Postovulatory phase uterus

Answer 41

Progesterone and estrogens produced by corpus luteum promote growth of endometrium
Because of secretory activity of endometrial glands, this is the secretory phase of uterine cycle
Changes peak about 1 week after ovulation when an embryo might arrive in uterus
If fertilization does not occur, levels of progesterone and estrogens decline due to degeneration of corpus luteum
Withdrawal of estrogens and progesterone due to the degenerating corpus lutem causes menstruation

Question 42

Establishing ovarian cycle during childhood until puberty

Answer 42

Ovaries secrete small amounts of estrogens
Estrogen inhibits release of GnRH
Onset of puberty linked to amount of adipose tissue via hormone leptin
If leptin levels adequate hypothalamus less sensitive to estrogen as puberty nears; releases GnRH in rhythmic pulse-like manner –> FSH and LH release –>ovarian hormone release

Question 43

establishing the ovarian cycle (continued)

Answer 43

Gonadotropin levels increase ~ four years; no ovulation; no pregnancy
Then adult cyclic pattern achieved and menarche occurs
First menstrual period
~ Three years before cycle regular and all ovulatory

Question 44

effects of estrogen while establishing ovulation

• ovulation stuff
• sex characteristic stuff
• metabolic stuff

Answer 44

Promote oogenesis and follicle growth in ovary
Exert anabolic effects on female reproductive tract
Support rapid but short-lived growth spurt at puberty

Induce secondary sex characteristics

• Growth of breasts
• Increased deposit of subcutaneous fat (hips and breasts)
• Widening and lightening of pelvis

Metabolic effects (not true secondary sex characteristics)

• Maintain low total blood cholesterol and high HDL levels
• Facilitate calcium uptake

Question 45

Effects of progesterone

Answer 45

Progesterone works with estrogen to establish and regulate uterine cycle
Promotes changes in cervical mucus
Effects of placental progesterone during pregnancy
-Inhibits uterine motility
-Helps prepare breasts for lactation

Question 46

Female sexual response

Answer 46

Initiated by touch and psychological stimuli
Clitoris, vaginal mucosa, bulbs of vestibule, and breasts engorge with blood; nipples erect
Vestibular gland secretions lubricate vestibule
Orgasm accompanied by muscle tension, increase in pulse rate and blood pressure, and rhythmic contractions of uterus

Question 47

menopause

Answer 47

Has occurred when menses have ceased for an entire year
No equivalent to menopause in males
-Males continue to produce sperm well into eighth decade of life, though numbers and motility decrease

Question 48

menopause: effects of declining estrogen levels

Answer 48

Atrophy of reproductive organs and breasts
Irritability and depression in some
Hot flashes as skin blood vessels undergo intense vasodilation
Gradual thinning of skin and bone loss
Increased total blood cholesterol levels and falling HDL

Question 49

Menopause treatment with estrogen-progesterone

Answer 49

Women’s Health Initiative research reported increased risk of heart disease (51%), invasive breast cancer (24%), stroke (31%), dementia (risk doubled)

Smallest does for shortest time alright to reduce symptoms if no breast cancer or mutated BRCA gene