Female Reproductive System Study Guide

Question 1

Suspensory ligament

Answer 1

anchors each ovary laterally to the pelvic wall

Question 1

Ovarian ligaments

Answer 1

anchors each ovary medially to the uterus

Question 2

Mesovarium

Answer 2

suspends the ovary

Question 3

Broad ligament

Answer 3

supports uterine tubes, uterus, and vagina. Suspensory ligament and mesovarium are portions of it

Question 4

ovarian follicle

Answer 4

Tiny sac like structures embedded in the cortex

Question 5

what an ovarian follicle contains

Answer 5

immature ova (oocytes) surrounded by
- Follicle cells (if only 1 cell layer is present)
- Granulosa cells (if more than 1 cell layer present)

Question 6

Primordial follicle

Answer 6

single layer of follicle cells plus oocyte

Question 7

More mature follicle

Answer 7

several layers of granulosa cells plus oocyte

Question 8

Vesicular (antral or tertiary) follicle

Answer 8

a fully mature follicle in which a fluid-filled antrum has formed. The follicle bulges from the ovary surface

Question 9

What happens in ovulation?

Answer 9

Ejection of the oocyte

Question 10

corpus luteum

Answer 10

• Develops from the ruptured follicle after ovulation
• Formed by the remaining granulosa cells and internal thecal cells - secretes progesterone and some estrogen

Question 11

corpus luteum upon degeneration

Answer 11

If no pregnancy occurs, it degenerates into corpus albicans in about 10 days
- (If pregnancy occurs, the corpus luteum produces hormones to sustain it until the placenta takes over at about 3 months)

Question 12

fallopian/uterine tubes

Answer 12

receive ovulated oocyte, are the typical site of fertilization

Question 13

Regions of fallopian/uterine tubes

Answer 13

isthmus, ampulla, infundibulum

Question 14

isthmus

Answer 14

constricted area where tube joins uterus

Question 15

Ampulla

Answer 15

distal end of the tube that curves around the ovary

Question 16

Infundibulum

Answer 16

distal expansion near the ovary - contains fimbriae to create a current. Current sweeps ovulated oocyte into the tube. closure of the fimbriae makes the fallopian tube blocked, preventing the egg from moving on (and potentially being fertilized)

Question 17

ectopic pregnancy

Answer 17

An oocyte is fertilized in the peritoneal cavity or in the distal uterine tube. It begins developing
- Typically results in a natural abortion with substantial bleeding

Question 18

cervical glands

Answer 18

Secrete thick mucus to block sperm from entering the cervix outside the mid cycle time window

Question 19

link between HPV and cervical cancer

Answer 19

Frequent UTIs, including HPV (sti) can cause cervical cancer

Question 20

How is HPV detected?

Answer 20

pap smears

Question 21

Mesometrium

Answer 21

lateral support for the uterus by the broad ligament

Question 22

Cardinal (lateral cervical) ligaments

Answer 22

extend from the cervix and superior vagina to the lateral pelvic walls

Question 23

Uterosacral ligaments

Answer 23

secure uterus to the sacrum

Question 24

Round ligament

Answer 24

binds the uterus to the anterior wall

Question 25

uterus position

Answer 25

tilts anteriorly away from the vaginal opening, anteversion (as opposed to retroversion - posterior tilt)

Question 26

uterine prolapse

Answer 26

Despite ligaments, the uterus is primarily supported by the pelvic floor
- An unsupported uterus - such as might happen after childbirth, can sink inferiorly

Question 27

Endometrium inner layers

Answer 27

Stratum functionalis - functional layer
Stratum basalis - basal layer

Question 28

Stratum functionalis

Answer 28

Changes in response to ovarian hormone cycles
Is shed during menstruation

Question 29

Stratum basalis

Answer 29

• Forms a new stratum functionalis after menstruation
• Is not responsive to ovarian hormones

Question 30

What is the significance of the stratified squamous epithelium of the vagina. Why are acidic secretions important?

Answer 30

protection and stretch

Question 31

analogous structures between the male and female external genitalia

Answer 31

• Labia majora and scrotum
• Great vestibular glands and bulbourethral glands
• Clitoris and penis (also has glans - exposed portion, and prepuce - hood that covers the glans)

Question 32

perineum

Answer 32

Diamond shapes region between the pubic symphysis, coccyx, and the bilateral ischial tuberosities

Question 33

milk producing structures

Answer 33

Glandular alveoli

Question 34

structures that carry milk to the nipple

Answer 34

Milk is passed into lactiferous ducts and then into lactiferous sinuses. Sinuses open to the external body surface at the nipple

Question 35

3 things that can increase a women’s risk of breast cancer

Answer 35

• Risk is proportional to lifetime exposure of estrogens - early puberty, late menopause, no or delayed pregnancies, and use of hormone replacement therapies can increase risk
• Risk is also increased by family history or genetic mutations in 1 of 2 genes - BRCA 1 or BRCA 2

Question 36

screening exam for breast cancer

Answer 36

Mammogram

Question 37

oogenesis

Answer 37

production of female gametes (like spermatogenesis)

Question 38

When does oogenesis begin?

Answer 38

fetal period

Question 39

At birth, a female infant has a lifetime supply of ____________

Answer 39

primary oocytes

Question 40

dominant follicle

Answer 40

One primary oocyte is selected from the few primary oocytes that are activated each month to become the dominant follicle. It resumes meiosis I and creates two haploid cells - 1 secondary oocyte (large cell with almost all the parent cell’s cytoplasm and organelles), 1st polar body

Question 41

cellular process during ovulation

Answer 41

Meiosis I - produces first polar body and secondary oocyte

Question 42

polar body

Answer 42

very small cell, almost devoid of cytoplasm

Question 43

What happens if a secondary oocyte is fertilized

Answer 43

it completes meiosis II creating 1 ovum (functional gamete) and 2nd polar body

Question 44

What happens if a secondary oocyte is not fertilized

Answer 44

it deteriorates

Question 45

net products of oogenesis

Answer 45

1 viable ovum + 2/3 polar bodies

Question 46

net products of spermatogenesis

Answer 46

4 viable sperm

Question 47

Similarities for spermatogenesis and oogenesis

Answer 47

• Diploid stem cells divide by mitosis
• Primary oo/spermatocytes undergo meiosis I
• Secondary oo/spermatocytes undergo meiosis II
• Ovum / sperm

Question 48

typical ovarian cycle length

Answer 48

28 days

Question 49

two phases of ovarian cycle

Answer 49

Follicular phase
Luteal phase

Question 50

Follicular phase

Answer 50

day 1-14, period of vesicular follicle growth

Question 51

Luteal phase

Answer 51

days 14 - 28, period of corpus luteum activity

Question 52

Ovulation relative to ovarian cycle

Answer 52

end of the follicular phase and the luteal phase (around day 14)

Question 53

Follicle

Answer 53

function unit of the ovary

Question 54

Primordial follicles

Answer 54

1st follicle to develop in a female fetus, become primary follicles through oocyte enlargement and a change in the shape of the surrounding cells - squamous to cuboidal

Question 55

Primary follicles

Answer 55

become secondary follicles when follicular cells proliferate to form stratified epithelium around the oocyte

Question 56

A secondary follicle

Answer 56

becomes a vesicular follicle when a clear fluid-filled cavity called the antrum forms

Question 57

Vesicular follicle

Answer 57

bulges from the external ovary surface and is ready to be ovulated

Question 58

hormone that stimulates development of follicles

Answer 58

FSH - follicle stimulating hormone

Question 59

what causes selection of the dominant follicle?

Answer 59

A drop in FSH levels

Question 60

What hormone stimulates the rupturing of the ovarian wall?

Answer 60

LH - luteinizing hormone

Question 61

sequencing of hormones for triggering follicle development, ovulation, and development of the corpus luteum.

Answer 61

GnRh stimulates secretion of FSH and LH
These 2 stimulate follicles to grow, mature, and secrete sex hormones
- Fsh stimulates granulosa cells to release estrogen
- Lh prods thecal cells to produce androgens - converted to estrogens
Increasing levels of plasma estrogen (and inhibin) stop release of fsh and lh, only dominant follicle withstands dip is fsh
Estrogen levels rise and trigger positive feedback surge in lh
Surge in lh triggers ovulation
Estrogen levels decline after ovulation, lh transforms ruptured follicle into corpus luteum
Corpus luteum secretes progesterone and some estrogen almost immediately
Rising levels of estrogen and progesterone in plasma inhibit the release of additional lh and fsh - inhibition is enhanced by inhibin
If no fertilization occurs, corpus luteum degenerates and estrogen / progesterone levels fall
Fsh and lh are secreted again, and the cycle restarts

Question 62

What hormone plays an additional role in inhibiting the reproductive cycles?

Answer 62

Inhibin

Question 63

How are the uterine and ovarian cycles related?

Answer 63

• The menstrual and proliferative phase of the uterine cycle overlap with the follicular phase of the ovarian cycle.
• The secretory phase of the uterine cycle overlap with the luteal phase phase of the ovarian cycle

Question 64

3 phases of the uterine cycle

Answer 64

1. Menstrual phase days 1-5
2. Proliferative phase days 6-14
3. Secretory (postovulatory) phase days 15-28

Question 65

Menstrual phase

Answer 65

• Ovarian hormones are at their lowest levels
• Gonadotropin rises
• Stratum functionalis detaches from the uterine wall and is shed- flow of menstrual blood and tissue for 3-5 days
• By day 5, growing ovarian follicles start to produce more estrogen

Question 66

Proliferative phase

Answer 66

• Rising estrogen levels prompt generation of a new stratum functionalis - layer thickens, glands enlarge, spiral arteries increase in number
• Estrogen increases the synthesis of progesterone receptors within the endometrium
• Normally thick, sticky cervical mucus is thinned out to facilitate the passage of sperm
• Ovulation occurs around day 14

Question 67

Secretory (postovulatory) phase

Answer 67

• Phase that is most consistent in duration
• Endometrium is prepared for possible implantation
• Rising progesterone levels from the corpus luteum prompt
  – Endometrial glands to enlarge and secrete nutrients
  – Formation of a cervical mucus plug to block entry of more sperm, pathogens, debris

Question 68

amenorrhea

Answer 68

cessation of menstruation (typically reversible, but bone loss is not)
- Adipose cells help convert adrenal androgens to estrogens and are a source of leptin

Question 69

Leptin

Answer 69

hormone that plays a critical, permissive role in the onset of puberty

Question 70

danger of amenorrhea

Answer 70

Once estrogen levels drop and the menstrual cycle stops, bone loss begins, leading to osteoporosis

Question 71

role between estrogen and bone health

Answer 71

Supports rapid short lived growth spurts
Widening and lightening of pelvis
Sustains bone density

Question 72

estrogen and cardiac health

Answer 72

Maintains low total blood cholesterol and high hdl levels
Facilitates calcium uptake

Question 73

systemic effects of estrogen

Answer 73

• Promote oogenesis and follicle growth in the ovaries
• Exert anabolic effects on the female reproductive tract
• Induce secondary sex characteristics - growth of breasts and deposits of fat in the hips

Question 74

role of progesterone in maintaining pregnancy

Answer 74

• Works with estrogen to establish and regulate uterine cycle
• Promotes changes in cervical mucus
• Inhibits uterine motility during pregnancy
• Prepares breasts for lactation

Question 75

How genetic sex is determined

Answer 75

Xx = female xy = male

Question 76

Which parent determines genetic sex of offspring

Answer 76

Men determine the sex because they have two different chromosomes they can pass down, females only have one

Question 77

SRY gene

Answer 77

Single gene on the y chromosome that determines maleness by initiating development of testes

Question 78

nondisjunction

Answer 78

Abnormal distribution of any chromosome to the gametes

Question 79

Trisomy 21

Answer 79

down’s syndrome, one extra chromosome 21

Question 80

Turners syndrome

Answer 80

females with only 1 x chromosome (XO) that never develop ovaries; at risk for shorter stature, learning challenges, and heart defects

Question 81

Klinefelter’s syndrome

Answer 81

males with 2+ x chromosomes and 1 y chromosome - results in sterility, at risk for learning challenges

Question 82

The presence or absence of which hormone determines sexual differentiation?

Answer 82

testosterone