Reproduction 2 - FEMALE

Question 1

What does pool established at birth mean?

Answer 1

Limited gamete production

Question 2

Female reproductive tract composed of

Answer 2

Uterus, uterine tube, vagina

Question 3

Ovaries function:

Answer 3

• Site of ova maturation
  – Consists of connective tissue with follicles
  – Separate from reproductive tract

Question 4

Uterine Tubes function:

Also called fallopian tube / oviduct

Answer 4

Transports ova from ovaries to uterus. Site of fertilization.

– Infundibulum and fimbriae

– Movement of ovum through uterine tube

Question 5

Infundibulum and fimbriae

Answer 5

• pick up released ovum

Question 6

– Movement of ovum through uterine tube

Answer 6

• Initially – peristaltic contractions
• Mostly – ciliary actions
• Duration – 4 days to uterus

Question 7

Ectopic pregnancy

Answer 7

Implantation occurs in fertilization site rather then uterus = no baby = pain

Question 8

Why doesn’t ectopic pregnancy end in baby ?

Answer 8

Cuz no nutritional capacity in fertilization site.

Question 9

Causes for ectopic pregnancies

Answer 9

• chlamdydia infection

Question 10

Wall of Uterus layers?

Answer 10

1) Outer layer: perimetrium
2) Middle layer: myometrium
3) Inner layer: endometrium

Question 11

Outer layer = Perimetrium

Answer 11

• Epithelial cells and connective tissue

Question 12

Middle layer = Myometrium

Answer 12

• Smooth muscle

* Thickest layer

Question 13

Inner layer = Endometrium

Answer 13

• Layer of epithelial cells
• Layer of connective tissue
• Numerous glands

Question 14

Uterus

Answer 14

Site of fetal development

• Body = upper portion
• Cervix = canal leading to vagina
• Cervix + vagina = birth canal

Question 15

Steps of oocyte release from ovary

Answer 15

1) immature follicles
2) maturing follicles
3) Mature (graafian follicles)
4) expel oocyte = follicle empty
5) follicle = corpus luteum (no prego=dies)

Question 16

Ovarian cycle

Answer 16

2 phases: follicular & Luteal (28 days)

• Follicular phase: day 1-14
• Luteal phase: 14-28
• day 14 = ovulation

Question 17

Luteal phase is the phase that starts from the

Answer 17

release of the oocyte to the menstrual bleeding. Does vary.

• within this phase is the secretory phase of the uterine cycle and the progestational phase of the hormones cycle

Question 18

Follicular phase starts from the

Answer 18

Formation of the follicle (day 1) to the point where the oocyte is released (day 14). This phases varies.

• within this phase is the menstrual phase, proliferative phase of the uterine cycle and the estrgenic phase of the hormone cycle.

Question 19

The menstrual phase of the uterine cycle begins from day

Answer 19

Day 1-5.

Question 20

The proliferative phase of the uterine cycle starts from

Answer 20

Day 5-14. The cell layers of the endometrium degrade = increase blood vessel growth.

Question 21

The secretory phase of the uterine cycle begins from

Answer 21

Day 14-28. Blood vessels become more profuse and start branching. Secrete a lot of stuff.

Question 22

Hormone cycle, explain its phases

Answer 22

Estrogenic phase: day 1-14. From day 14 the follicle is converted to corpus luteum which produces progesterone —->

Progesterone phase: influence growth of endometrial layer of ovarian cycle.

Question 23

Follicles

Answer 23

• each contain 1 oocyte (primary oocyte)
• start as primordial follicle
• single layer of epithelial cells
• single layer divides to become granulosa cells ——> forms theca cells

Question 24

Types of theca cels

Answer 24

Theca externa and theca interna

Question 25

Stages in follicle growth

Answer 25

1) primordial follicle (single layer, small)
2) primary follicle (nucleus grow large)
3) peantral follicle (granulosa layer grew, theca cells appeared)
4) early antral follicle (antrum appears)
5) Mature / graffian follicle (large antrum)

Question 26

What kind of cells directly surround the oocyte in the follicle?

Answer 26

Zona pellucida

Question 27

At the beginning of each cycle 10-25 _______ random follicles are selected

Answer 27

Preantral or early antral follicles

Question 28

Where does the antrum grow

Answer 28

Within the granulosa cells

Question 29

After the mature follicle forms, what happens next?

Answer 29

1) The follicle bursts and releases oocyte

2) forms corpus luteum (dies if no fertilization)

Question 30

What does the corpus luteum become

Answer 30

Becomes an endocrine cell secreting hormones for several days. Dies and becomes corpus albicans

Question 31

What does the corpus luteum become after it dies?

Answer 31

Corpus albicans

Question 32

Folliculogenesis is triggered by the

Answer 32

Release of FSH

Question 33

FSH exerts ______ effect on _______ cells

Answer 33

mitotic

granulosa

Question 34

When the oocyte is release form the mature follicle, what kind of oocyte has it become?

Answer 34

Second army oocyte. Started off as primary.

Question 35

How does the oocyte grow from a primary to secondary oocyte?

Answer 35

Granulosa cells send out cytoplasmic processes through the zona pellucida and form gap junctions with oocyte.

Nutrients and paracrine factors are extended through these junctions to help the growth of the oocyte.

Question 36

When do follicles begin to develop

Answer 36

During the fetal stage

Question 37

How many and what kind of follicles at birth?

Answer 37

4 million primordial follicles

Question 38

How many and what kind of follicles at puberty?

Answer 38

400 follicles which can reach the stage of ovulation during reproductive lifetime.
——> run out = menopause

Question 39

How does FSH trigger follicolugensis ?

Answer 39

FSH stimulates the follicle and causes mitotic changes on the granulosa cells = start prollipherating.
Granulosa cells surrounding oocyte send nutrients through tight junctions.

Question 40

From day 1-7, during early to mid follicular phase, what are the effects of FSH

Answer 40

• stimulates granulosa cell proliferation = produce estrogen = grow antrum
• increase aromatase synthesis and activity in granulosa cells and INC estrogen production

Question 41

From day 1-7, during early to mid follicular phase, what are the effects of LH?

Answer 41

LH stimulate the LH receptors on the thecal cells = secrete androgens.

Question 42

Wat do the androgens released from the theca cells that were stimulated by LH do?

Answer 42

• Androgens go into granulosa cells and convert to Estrogen.

• Estrogen secretion rises and dominant
follicle selected (one that secreted the most)

Question 43

The effects of estrogen secreted by granulosa cells after androgens from theca cells entered and converted to it?

Answer 43

• Further growth of granulosa cells
• Up regulate LH receptors on Granulosa cells
• Progesterone receptors on uterine endometrial cells

Question 44

How is the dominant follicle selected?

Answer 44

The follicle that produces the most estrogen form the granulosa cells = will gorw the largest. The rest of them die off.

Question 45

Two cell theory

Answer 45

Thecal cell produces progesterone —> androgen.

Androgen travel to inside the granulosa cell —-> estrogen, its released to blood and antrum.

Question 46

Two cell theory of early/mid follicle

Answer 46

Thecal: (LH receptors)
C —> P —> A

Grsanulosa: (FSH receptors)
—-> A —-> E —-> released

Through this process the dominant follicle is selected.

Question 47

Two cell theory of late follicle/corpus luteum

Answer 47

Thecal: (LH receptors)
C —> P —> A

Grsanulosa: (FSH and LH receptors)
—-> A —-> E —-> released
—-> C -—> P —-> released

New Granulosa cells can produce both E and P.

Question 48

Granulose cells functions

Answer 48

• Secrete antral fluid

- secrete inhibin

Question 49

Inhibin

Answer 49

Peptide hormone that controls with (-) feedback to FSH form the Ant Pit.

Question 50

The hypothalamus-pituitary-ovarian Axis

Answer 50

Hypothalamus(GnRH) —-> Ant. Pit. (LH and FSH) —-> ovary (E and P)

• hypoth. Releases GnRH in pulse generator
• P has (-) feedback with Ant. Pit and hypo
• E has (-)/(+) feedback with Ant. Pit and hypo

Question 51

Pulse generator:

Answer 51

frequency and amplitude of these pulses change every 24 h over the course of the menstrual cycle

Question 52

With the onset of puberty, hypo begins to release GnRH in

Answer 52

pulses, neruoendocrine cells are called the pulse generator as the frequency of these pulses change over the 24 hour period and as the day go on along the menstrual cycle.

Question 53

• Progesterone work on the

Answer 53

negative feedback level on both the ant pit and the hypo.

Question 54

• Estrogen has both

Answer 54

negative and postive feedback on both the ant pit and hypo.

Question 55

Oognesis

Answer 55

Oogonia —> ovum

1) mitosis/differentiation of oogonia = primary
2) meiosis I of primary oocyte = secondary
3) meiosis II secondary oocyte = ovum

Question 56

The number of oogonia for women is

Answer 56

Fixed prior to birth.

As opposed to males that continually produce spermatogonia

Question 57

When does the mitosis phase of the oogensis process begin?

Answer 57

Mitosis starts in the first 2 months of embryonic life

Question 58

When does the meiosis I phase of the oogensis process begin?

Answer 58

Meiosis I begins in fetal life

– Meiosis I goes into mitotic arrest where all the oocyte are in primary oocyte stage. Arrests lasts until puberty.

Question 59

1 st meiotic division completed in the

Answer 59

dominant follicle at the time just prior to ovulation

Question 60

When is the meiosis II phase of the oogensis process completed?

Answer 60

Meiosis II only completed after

fertilization

Question 61

So throughout the lifespan of a women, when could mitosis occur? And when can meiosis occur ?

Answer 61

Mitosis occurs BEFORE BIRTH

Meiosis occurs AFTER PUBERTY

Question 62

Decrease the oogenesis pathway

Answer 62

1) MITOSIS and Differentiation: Oogonia (2n) —-> 2X oogonia (DNA replicated (1 turns into primary, 1 dies)

2) the single primary oocyte (2n) produced goes into meiotic arrest just prior to ovulation
(until puberty)

3) MEIOSIS I: After puberty, primary —> secondary oocyte (n X 2) + polar body
4) MEIOSIS II: After fertilization, secondary—> ovum (2n) [zygote now] + polar body

Question 63

Meiosis I is completed

Answer 63

Prior to ovulation

Question 64

Follicle development stages

Answer 64

1) primordial germ cell
2) oogonia (2n)
3) primary oocyte (2n)
4) secondary oocyte (n)
5) ovum (zygote)

Question 65

Follicle states correlating to what oocyte development stage

Answer 65

1) primordial germ cell —> primordial follicle
2) oogonia (2n) —> primordial follicle

3) primary oocyte (2n) —> preantal and early antral follicle
4) secondary oocyte (n)—> Graafian follicle to ovulation
5) ovum (zygote) —> follicle w no oocyte develops into corpus luteum.

Question 66

Wha period does each oocyte stage exist in?

Answer 66

1) primordial germ cell —> fetal
2) oogonia (2n) —> fetal
3) primary oocyte (2n)–>fetal life to ovulation
4) secondary oocyte (n) —> just prior to ovulation until fertilization
5) ovum (zygote) —> fertilization

Question 67

At birth all oocyte exists as

Answer 67

Primary oocyte

Question 68

Do Internal female organs require hormones for them to develop?

Answer 68

Internal female organs dont require hormones for them to develop as those are the default, males need hormones for male reproductive organs to form.

Question 69

Are ovarian hormones required for female sexual differentiation?

Answer 69

No

Question 70

What are ovarian hormones required for?

Answer 70

Required for :

• sexual maturation at puberty and secondary sex characteristics
• Maintaining sexual capacity in adult life

• Regulation of the hypothalamic-pituitary gonadal axis
– E: both +ve and –ve feedback effect
– P: –ve feedback only
– Inhibin: –ve feedback on FSH

Question 71

Hormones levels during menstrual cycle and directly after?

Answer 71

• FSH > LH during, at beginning of menstrual theres small increases in both LH and FSH due to 10-25 random follicles getting ready for mensuration.
- After LH platues and FSH decreases due to inhibin

• E > P during, both low, which removes (-) on LH and FSH = small increase in LH/FSH secretion.
- After menstrual E rises a lot, P stays low.

Question 72

At the beginning of menstrual cycle, FSH starts

Answer 72

increasing and LH increases slightly as well.

Question 73

It’s mainly FSH that causes the

Answer 73

follicles to start growing rapidly (granulosa cells prolipherate and produce estrogen = spike in E

Question 74

After the menstrual cycle (day 7)

Answer 74

• One follicle selected = dominant follicle = Estrogen level rises gradually, still has (-) feedback effect on LH and FSH, and they begin to plague,
• As E increases, there’s a further decrease in FSH levels which is due the effect of inhibin.

Question 75

What does the decrease in FSH due to inhibin right after the menstrual cycle (day 7) cause?

Answer 75

This decreases causes all follicles other then the dominant follicle to start dying off. This programmed death of follicles is known as astresia.

Question 76

programmed death of follicles is known as.

Answer 76

astresia

Question 77

After atresia and dominant follicle secretes ALOT of E, E will

Answer 77

Peak and cause it to have a (+) feedback effect on Hypothalamus = GnRH = sharp increase in LH just before ovulation = LH surge

Question 78

What causes the LH surge?

Answer 78

The high level os E secreted by the dominant follicle causes it to have a (+) feedback to hypothalamus = GnRH = INC in LH = surge

Question 79

LH surge is very important and occurs_______ before ovulation, without the LH surge a …

Answer 79

18 hours

Graafian follicle cannot go through proper release of the egg.

Question 80

Along with the LH surge, there’s a

Answer 80

small release of FSH because both LH and FSH are secreted form the same cell in the ant pit.

Question 81

After the estrogen peaks and caused the surge and the dominant follicle is ready to ovulate, the estrogen

Answer 81

goes down.

Then rises up at the Luteal phase after day 14.

Question 82

During Luteal phase there’s high level of

Answer 82

progesterone that stays up up to day 23, and estrogen levels are also high.

Question 83

During the Luteal phase, high levels of both E and P causes

Answer 83

(-) feedback in hypo and ant pit = decrease in both LH and FSH

Question 84

Once FSH and LH decreased, the levels of progesterone will

Answer 84

remain high with high levels of estrogen until the point where the body stops keeping the corpus Latium viable.
(No fertilization = corpus dies)

Question 85

If there’s no fertilization (no reason to keep the corpus Latium alive), progesterone and estrogen levels

Answer 85

go down and corpus corpus luteum degenerate, once these go down, because of (-) feedback, LH and FSH begin to go up once again, repeat cycle.

Question 86

During earl to mid follicular phase, estrogen levels are

Answer 86

Low which causes them to have (-) feedback to Ant. Pit. & hypothamlus.

Question 87

When LH and FSH contact the ovary, which hormones affects which cell type?

Answer 87

LH —-> theca cells = estrogen

FSH —-> Granulosa cells = inhibin / follicle development

Question 88

Early to mid filicular phase = from day 1 to day 7.

Answer 88

• LH works -—> theca cells = androgen secretion = granulosa cells release enzymatic modifications of androgens = estrogen secretion.
• FSH —-> granulosa cells release inhibin and follilar development occurs inside the follicles

Question 89

LH works on theca cells to increase

Answer 89

androgen secretion that causes granulosa cells to release enzymatic modifications of androgens = estrogen secretion.

Question 90

Early to mid filicular phase = from day 1 to day 7.

The inhibin that was released by granulosa cells via FSH has

Answer 90

has a (-) feedback effect on the ant pit.

Question 91

Early to mid filicular phase = from day 1 to day 7.

The estrogen from the granulosa cells has a

Answer 91

(-) feedback effect on the hypothalamus and ant pit.

Question 92

What are the effects of estrogen secretion

Answer 92

• Proliferative phase = uterine changes
• LH receptors on granulosa cells INC
• Progesterone receptors in uterus INC
• growth and genitalia growth INC
• bone growth in adolescence INC

Question 93

During the cycle, the increase in FSH during the ovulation mark helps

Answer 93

the growth of randomly selected follicles

Question 94

Main things to remember from the multi-cycle graphs

Answer 94

Beginning of FOLLICULAR PHASE: FSH peak at beginning = follicular growth of randomly selected follicles

• day 7 = dominant follicle selected (atresia)
  = FSH decreases due to inhibin = E rises.
• when mid follicular phase finishes = dominant follicle sec E = (+) feedback on GnRH = LH surge (helps with ovulation) and FSH INC
• LUTEAL PHASE : after ovulation, both LH and FSH decrease, no other follicle selected rn
• corpus Luteal goes through 10 days of Luteal phase where P and E are at their peak = low levels in LH and FSH cuz (-)feedback .

—> no fertilization = E and P decrease and corpus dies = LH and FSH increase = cycle restarts

-

Question 95

Early to mid follicles phase is between day

Answer 95

1 to day 7

Question 96

Late follicular phase starts from day

Answer 96

7 to day 14

Question 97

Regulation of Hormone Secretion – Early to Mid-Follicular Phase

Answer 97

High levels of estrogen secreted by dominant follicle = (+) feedback on hypothalamus and Ant. Pit. = high LH secretion (LH surge)

Question 98

What do the granulosa cells cause after being contacted by LH and FSH during late follicular phase (day 7- day 14)

Answer 98

• stimulate meiosis I in oocyte
• estrogen sec DEC after ovulation
• progesterone sec INC
• ovulation
• transforms follicle —-> corpus luteum

Question 99

The corpus luteum contains what kind of cells?

Answer 99

Granulosa and theca cells.

Question 100

Menstrual Phase (day 1 - day 5)

Answer 100

• shedding of uterine lining
• blood flow to tissue decreases
• tissues dies and slough into vagina = menstrual flow.

Question 101

Hormonal Control of Menstruation

Answer 101

• triggered by decrease in E and P

- E and P decrease when corpus luteum dies

Question 102

Proliferative Phase ( day 5 - day 14)

Answer 102

Uterus prepares for fertilized ovum:
– Endometrial lining develops
- Endometrial layer grows 
- Endometrial glands enlarge 
- smooth muscle layer thickens 
- cervical glands secrete thin mucus

Question 103

What is the proliferative phase controlled by ?

Answer 103

The high levels of E released by dominant follicle

Question 104

In proliferative phase, estrogen stimulates

Answer 104

development of uterine lining

Question 105

Secretory Phase

Answer 105

Endometrium prepared for implantation:

• fertilization occurs in this phase
  – Blood supply increased (branching)
  – Glands enlarge and secrete glycogen-rich fluids
  – Cervical secretions more sticky forming a plug

Question 106

What is the secretory phase controlled by ?

Answer 106

High levels of progesterone

(+ estrogen) released in Luteal phase

Question 107

What does the formation of a plug in the secretory phase do?

Answer 107

Protective function.

Prevents other sperm from getting into zygote after implantation

Question 108

Estrogen on the Ovary causes:

Answer 108

• Increased growth of follicles
  (E = proliferates granulosa cell)
• Increased receptors for E, P, FSH, LH

Question 109

Estrogen on the Fallopian tube /uterine tube causes:

Answer 109

Increases growth, contractility, cilia activity and secretion =
(moves zygote to uterus)

Question 110

Estrogen on the uterus causes:

Answer 110

• increases growth of endometrium and myometrium
• increases contractility, blood flow, sensitivity to oxytocin

(E prepares endometrium by INC sensitivity to oxytocin)

Question 111

Estrogen on the cervix causes:

Answer 111

“Sperm-friendly” mucus, (abundant, watery and alkaline)

Helps sperm move to fertilization site

Question 112

Estrogen on the vagina causes:

Answer 112

Proliferation and cornification of epithelium

Question 113

Estrogen on the breasts causes:

Answer 113

Increased duct growth, fat deposition,

size and pigmentation of areola

Question 114

Progesterone on the Ovary causes:

Answer 114

Decreases FSH-induced E production and receptors for E

(-) feedback

Question 115

Progesterone on the fallopian / uterine tube causes:

Answer 115

Decreased contractility, cilia number, and secretions

Calms everything down

Question 116

Progesterone on the uterus causes:

Answer 116

• Increased endometrial secretions

- Decreased contractility and sensitivity to oxytocin

Question 117

Progesterone on the cervix causes:

Answer 117

“Sperm-unfriendly” mucus” (small amount, viscous, cellular)

Once fertilization occurs

Question 118

Progesterone on the vagina causes:

Answer 118

WBC infiltration, decreased cornification

Question 119

Progesterone on the progesterone causes:

Answer 119

Increased alveolar growth

Question 120

What effect does E and P have on temp

Answer 120

Increases body temp, following ovulation cuz of increased progesterone