The Menstrual Cycle

Question 1

What are the aims of the menstrual cycle?

Answer 1

• Selection of a single oocyte
• Regular spontaneous ovulation
• Correct number of chromosomes in eggs i.e. haploid
• Cyclical changes in the vagina, cervix and fallopian tube
• Preparation of the uterus
• Support of the fertilised dividing egg

Question 2

Why does GnRH need to be pulsatile?

Answer 2

To make LH/FSH.

Question 3

What happens when GnRH is administered in a continuous way?

Answer 3

The LH levels fall and switch off production. Production restored on resumption of pulsatile administration.

Question 4

How many phases of the menstrual cycle are there?

Answer 4

2

Question 5

When does the menstrual cycle begin?

Answer 5

On day 1 - the first day of bleeding

Question 6

What is the follicular phase?

Answer 6

14 days after the first day of bleeding i.e. growth of follicle

Question 7

When does ovulation occur?

Answer 7

At the end of the follicular phase (i.e. the middle of the cycle).

Question 8

What does the empty follicle become?

Answer 8

The corpus luteum

Question 9

What is the next phase after ovulation?

Answer 9

The luteal phase i.e. dominated by corpus luteum

Question 10

When does menstruation occur?

Answer 10

At the end of the menstrual cycle

Question 11

What happens during the follicular phase?

Answer 11

Growth of follicles up to ovulation dominanted by oestradiol production from dominant follicle.

Question 12

What happens during the luteal phase?

Answer 12

Formation of corpus luteum from the empty follicle dominated by progesterone productoin from corpus luteum.

Question 13

How do we work out the cycle of a woman clinically?

Answer 13

Ask from the 1st day of bleeding to the 1st day of bleeding in the next cycle.

Question 14

What type of feedback controls the luteal phase?

Answer 14

Negative feedback of progesterone

Question 15

What type of feedback controls the follicular phase?

Answer 15

Variable

1. Release of negative feedback
2. Negative feedback then reinstated, then
3. Switch from negative to positive feedback

Question 16

Describe the HPG axis feedback

Answer 16

Pulsatile release controls the release of hormones from the hypothalamus, this control the pituitary in a positive feedback manner. Then positive feedback to the ovary causing the release of oestrogen, progesterone and testosterone. This can cause an increase/decrease in the release of hormones from the pituitary or hypothalamus.

Question 17

Summarise the menstrual cycle

Answer 17

• At the end of the cycle (end of the luteal phase), the corpus luteum, which is the left over follicle after ovulation, is dying and the progesterone that is makes starts to fall.
• This high P was exerting negative feedback at level of hyp/pit, thereby keeping levels of LH/FSH low.
• As the levels fall, the brake on negative feedback is lost but in such a way that it causes FSH levels to increase preferentially.
• This stimulates follicles to grow and they make oestradiol.
• The E2 feeds back to hyp-pit and inhibits FSH release, so levels fall again.
• Meanwhile, LH levels have been rising a little across the follicular phase and this allows a single follicle to grow and grow and become the dominant follicle.
• This DF will make massive amounts of E2, after 2 days of E2 which reach levels of >300pmol, the negative feedback becomes positive and there is a huge release of LH that causes the egg to be released.
• The remaining follicle becomes the corpus luteum that makes progesterone and this causes negative feedback again.

Question 18

Why is the inter-cycle rise and fall in FSH important?

Answer 18

It is important because it allows selection of a single follicle, that will go on to beomce the dominant follicle that will ovulate.

Question 19

What is the peak of FSH below the LH peak a result of?

Answer 19

It is a result of an “artefact” of gonadotrophin stimulation of pituitary by oestrodiol.

Question 20

What is the “window of opportunity” for the follicle?

Answer 20

This is the exact moment when FSH goes up and selects a follicle and then as FSH declines, other follicles die.

Question 21

What happens to the selected follicle?

Answer 21

It doubles in size every 24hrs and makes lots of E2 that exerts negative feedback on H-P to decrease FSH.

Question 22

What is the FSH threshold hypothesis?

Answer 22

One follicle from the group of antral follicles in ovary is just at the right stage at the right time. This becomes the dominant follicle that goes onto ovulate. This is called selection.

Question 23

What prevents further follicle growth?

Answer 23

Oestradiol levels rising reinstating negative feedback at pituitary causing FSH levels to fall.

Question 24

What happens during dominant follicle selection?

Answer 24

As FSH falls, LH increases. Dominant follicle acquires LH receptors on granulosa cells. Other follicles do not, so they loose their stimulant and die.

Question 25

How does the dominant follicle survive a fall in FSH?

Answer 25

• Increased sensitivity to FSH
• Increased FSH receptors
• Increased by numbers of granulosa cells
• Acquisition of LH receptors

Question 26

Describe the formation of the androgens

Answer 26

Acetate -> cholesterol -> pregnenolone (via a side chain cleavage enzyme) -> progesterone -> androgens: testosterone/androstenedione (via 17 alpha hydroxylase, 12,20 lyase)

Question 27

Describe the formation of oestrogens

Answer 27

Androgens converted to oestrogen via aromatase

Question 28

What do both theca and granulosa cells contain?

Answer 28

Cholesterol, pregneneolone, Progesterone

Question 29

What do theca cells have only?

Answer 29

The androgens

Question 30

What do granulosa cells have only?

Answer 30

Oestrogens

Question 31

Where do steroids originate from?

Answer 31

Cholesterol from the sequential removal of C atoms by a series of enzymes

Question 32

Describe the LH surge

Answer 32

• During the follicular phase, E2 feedback is negative.
• At the end of the follicular phase, when the E2 levels are raised for long and high enough the feedback switches from negative to positive.
• Causes a release of LH from the pituitary and there is an exponential rise in LH in serum.
• This triggers an ovulation cascade and the egg is released. The corpus luteum is formed. Corpus luteum has both luteinised granulosa and theca cells.
• E2 production falls, but still produced and P is stimulated and dominates.

Question 33

Describe the events of ovulation

Answer 33

• Blood flow to the follicle increases dramatically.
• Appearance of apex or stigma on ovary wall.
• Local release of proteases and inflammatory mediators.
• Enzymatic breakdown of protein of the ovary wall.

Question 34

What is released at the beginning of ovulation?

Answer 34

12-18 hrs after peak of LH, the follicle wall is digested and ovulation occurs with release of cumulus-oocyte-complex (COC).

Question 35

How does the egg progress down the fallopian tube?

Answer 35

By peristalsis and action of cilia

Question 36

How long does the process of the LH surge and ovulation take?

Answer 36

15 minutes

Question 37

What happens to the oocyte after the LH surge?

Answer 37

The nucleus of the oocyte in the dominant follicle completes the first meiotic division.

Question 38

What is the 1st polar body?

Answer 38

1/2 the chromosomes are put into the small package

Question 39

When does the egg become a secondary oocyte?

Answer 39

When the 1st polar body is released from the process.

Question 40

What is the largest cell in the body?

Answer 40

The oocyte

Question 41

What is the smallest cell in the body?

Answer 41

The sperm - but the fastest

Question 42

What does the oocyte support?

Answer 42

It supports all of the early cell divisions of the dividing embryo until it establishes attachment to the placenta.

Question 43

How long is the oocyte in the uterine tube?

Answer 43

2-3 days

Question 44

What happens to the follicle after ovulation?

Answer 44

The corpus luteum is formed, “yellow body”. Progesterone production increases greatly, also E2.

Question 45

What supports the CL?

Answer 45

CL contains large No. LH receptors. CL supported by LH and hCG (from implanting embryo, if a pregnancy occurs) which also bind to LHR.

Question 46

Describe the hormone changes during pregnancy

Answer 46

At the end of ovulation, there is an large surge in hCG and a gradual increase in oestrogen. The corpus luteum is maintained and releases progesterone.

Question 47

Why does the CL secrete progesterone?

Answer 47

• Supports oocyte in its journey
• Maintains the CL
• Prepares the endometrium
• Controls cells in the fallopian tubes
• Alters secretions of cervix

Question 48

Why does the CL secrete oestradiol?

Answer 48

• For the endometrium

Question 49

How does the CL demise occur?

Answer 49

• If fertilisation does not occur, CL has a finite lifespan of 14 days.
• Removal of CL essential to initiate new cycle.
• Cell death occurs, vasculature breakdown, CL shrinks
• Process is not well understood

Question 50

How can the disruption of negative feedback affect the cycle?

Answer 50

It can cause infertility and need to be treated by clomid.

Question 51

What can be used if there is constant negative feedback?

Answer 51

OCP that prevents LH and FSH release

Question 52

What can be used to replace hormones?

Answer 52

HRT - hormone replacement therapy

Question 53

What can be used to reduce gonadotrophin release?

Answer 53

Analogues of GnRH

Question 54

What can be used to stimulate gonadotrophin release?

Answer 54

Analogues of GnRH

Question 55

What can be used to treat infertility?

Answer 55

Injections of LH/FSH

Question 56

What controls the HP ovarian axis?

Answer 56

It requires input from a lot of other systems in the body detecting fitness to reproduce as it is an important and calorific process.

Question 57

What are the signs of ovulation?

Answer 57

• A slight rise in basal body temperature (BBT), typically 0.5 to 1 degree, measured by a thermometre.
• Tender breasts
• Abdominal bloating
• Light spotting
• Changes in cervical mucus
• Slight pain or ache on one side of the abdomen

Question 58

How much does your BBT increase by after ovulation?

Answer 58

by about 0.4 to 1.0 degree Fahrenheit

Question 59

Which hormone is being detected in ovulation?

Answer 59

Progesterone

Question 60

How do ovulation prediction kits work?

Answer 60

• E3G is a urinary metabolite of oestradiol, allowing women to identify days of high fertility leading up to ovulation.

Question 61

What is the lifespan of the egg?

Answer 61

Up to 24h after ovulation

Question 62

What is the lifespan of sperm?

Answer 62

1.5 days but sperm can survive up to 5 days in the sperm supportive mucus of fertile days.

Question 63

What is sperm survival dependent on?

Answer 63

The type and quantity of mucus within the cervix and the quality of the sperm.