Female Reproductive Physiology

Question 1

What are the 3 layers of the ovaries?

Answer 1

• Surface
  
  • Connective tissue capsule covered with layer of simple cuboidal epithelium
• Cortex
  
  • Peripheral part, connective tissue containing ovarian follicles (one oocyte surrounded by single layer of cells)
• Medulla
  
  • Central part, connective tissue with blood vessels

Question 2

What is the surface of the ovaries formed from?

Answer 2

• Connective tissue capsule covered with layer of simple cuboidal epithelium

Question 3

What is the cortex of the ovaries formed from?

Answer 3

• Peripheral part, connective tissue containing ovarian follicles (one oocyte surrounded by single layer of cells)

Question 4

What is medulla of ovaries formed from?

Answer 4

• Central part, connective tissue with blood vessels

Question 5

Describe the function of the ovaries?

Answer 5

• Oocyte production
  
  • One mature egg per menstrual cycle, around 400 ovulated during entire reproductive lifespan
  • Finite number of eggs which declines with increasing age
• Steroid hormone production
  
  • Oestrogen develops female secondary sexual characters
  • Progesterone prepares endometrium for implantation
  • 50% of testosterone produced by ovaries before menopause

Question 6

How does the number of eggs change with age?

Answer 6

Declines

Question 7

What hormone is responsible for female secondary characteristics?

Answer 7

Oestrogen

Question 8

What is oogenesis?

Answer 8

Differentiation of the ovum (egg cell) into a cell competent to further develop when fertilised

Question 9

What is a diploid and haploid cell?

Answer 9

Diploid cell = cell that contains 2 complete set of chromosomes (46 chromosomes)

Haploid cell = cell that contains 1 complete set of chromosomes (23 chromosomes)

Question 10

What is meiosis and mitosis?

Answer 10

Meiosis = cell division that results in 4 daughter cells, each with half the number of chromosomes of the parent cell, as in the production of gametes

Mitosis = cell division that results in 2 daughter cells with the same number and kind of chromosomes as the parent nucleus

Question 11

What are gametes?

Answer 11

Gametes = an organism’s reproduction cells, female gametes are ova and male gametes are sperm

Question 12

Describe the follicular development stage?

Answer 12

1. Primordial follicles – primary oocyte arrested in first meiotic division surrounded by one layer of squamous pre granulosa cells
2. Primary follicle – oocyte surrounded by zona and cuboidal granulosa cells
3. Secondary follicle – increased oocyte diameter and multiple layer of granulosa cells, resumption of first meiotic division
4. Tertiary/Graffian follicle – follicular fluid between the cells which coalesce to form antrum, completion of first meiotic division to form secondary oocyte and start of second meiotic division

Question 13

What are the 2 phases of follicular development?

Answer 13

Preantrum phase (oogonia to secondary follicle)

Antral phase (tertiary follicle to preovulatory)

Question 14

Describe the chromosomal division during oogenesis?

Answer 14

Before birth - oogonium to primary oocyte (mitosis)

After puberty - primary oocyte to secondary oocyte with production of polar body (meiosis)

Question 15

What is the endocrine control of ovarian and menstrual cycles known as?

Answer 15

Hypothalamic-pituitary-ovarian axis

Question 16

Describe the hypothalamic-pituitary-ovarian axis?

Answer 16

1. Hypothalamus releases gonadotrophin releasing hormone (GnRH)
2. Acts on anterior pituitary gland which releases gonadotrophins (follicle stimulating hormone and leukoinsing hormone)
3. These hormones act on ovaries which release oestrogen and progesterone
4. These hormones give negative feedback to hypothalamus and anterior pituitary for most of cycle, but from days 12-14 oestrogen gives positive feedback to hypothalamus and anterior pituitary

Question 17

What effect does gonadotrophin releasing hormone (GnRH) have and where is it released from?

Answer 17

Acts on anterior pituitary gland which releases gonadotrophins (follicle stimulating hormone and luteinizing hormone)

Released from hypothalamus

Question 18

What effect does FSH and LH have and where are they released from?

Answer 18

These hormones act on ovaries which release oestrogen and progesterone

Released from anterior pituitary

Question 19

What effect does oestrogen and progesterone have on the hypothalamic-pituitary-ovarian axis and where are they released from?

Answer 19

These hormones give negative feedback to hypothalamus and anterior pituitary for most of cycle, but from days 12-14 oestrogen gives positive feedback to hypothalamus and anterior pituitary

Released from ovaries

Question 20

Describe the phases of the ovarian cycle?

Answer 20

1. Follicular phase – FSH causes follicle to mature and produce oestrogen (inhibiting the development of other follicles)
2. Ovulation – an LH surge causes ovulation (follicle rupture and releases a secondary oocyte)
3. Luteal phase – ruptured follicles forms a corpus luteum and secretes progesterone (and some oestrogen)
4. Menstruation – when the corpus luteum degenerations (forming a corpus albicans), a new ovarian cycle can begin

Question 21

What happens in the follicular phase of the ovarian cycle?

Answer 21

FSH causes follicle to mature and produce oestrogen (inhibiting the development of other follicles)

Question 22

What causes ovulation?

Answer 22

A LH surge causes ovulation (follicle rupture and releases a secondary oocyte)

Question 23

What happens in the luteal phase of the ovarian cycle?

Answer 23

Ruptured follicles forms a corpus luteum and secretes progesterone (and some oestrogen)

Question 24

How does increase production of oestrogen affect other follices?

Answer 24

Inhibits development

Question 25

What does the rupture follicle form and what does it do?

Answer 25

Corpus luteum which secretes progesterone and some oestrogen

Question 26

What is formed when the corpus luteum degenerates?

Answer 26

Corpus albicans

Question 27

Why in the middle of the ovarian cycle is there a large surge of LH? What does this cause?

Answer 27

Large surge due to positive feedback of oestrogen, causes ovulation

Question 28

What occurs during the follicular phase and luteul phase?

Answer 28

Follicular - development of follicle

Luteum - progesterone prepares endometrium for implantation

Question 29

Which of oestrogen and progesterone is dominant in the follicular and luteum phases?

Answer 29

Follicular - oestrogen

Luteum - progesterone

Question 30

What effect does oestrogen and progesterone have on the endometrium?

Answer 30

Oestrogen - causes it to proliferate and grow

Progesterone - causes vascularisation

Question 31

What is the medical term for no periods?

Answer 31

Amenorrhoea

Question 32

What can amenorrhoea occur due to?

Answer 32

• Problems with regulating hormones
  
  • Hypothalamic or pituitary cause - Hypogonadotropic hypogonadism (low FSH, LH, high prolactin)
  • Caused due to
    
    • Functional – excessive weight loss or gain, over exercising or stress
    • Chronic medical conditions – diabetes, sarcoidosis, renal disease, TB
    • Intracranial space occyping lesion – prolactinoma tumours, cysts
    • Infection or trauma – meningitis, intracranial bleed, Sheehan’s
    • Drugs – glucocorticoids, anabolic steroids, opiates
    • Genetic – Kallmann’s syndrome
• Problems with ovarian function
  
  • Hypogonadotropic hypogonadism (high or normal FSH and LH)
  • Caused due to
    
    • Genetic – Turner’s syndrome, Fragile X
    • Ageing – steep decline in ovarian function past 35 years
    • POI or POF
    • Chronic illness – autoimmune diseases
    • Radiotherapy or chemotherapy
    • Infection – TB, mumps oophoritis
• Problems with uterus or outflow tract
  
  • Congenital
    
    • Absent uterus, vagina, lack of Mullerian duct development
    • Transverse vaginal septum
    • Androgen insensitivity syndrome
  • Iatrogenic
    
    • Uterine adhesions or synechiae (Asherman syndrome)
    • Radiotherapy – pelvic or cervical

Question 33

What levels of hormones are seen if amenorrhoea occurs due to problems with regulating hormones?

Answer 33

• Hypothalamic or pituitary cause - Hypogonadotropic hypogonadism (low FSH, LH, high prolactin)

Question 34

What levels of hormones are seen if amenorrhoea occurs due to problems with ovarian function?

Answer 34

• Hypergonadotropic hypogonadism (high or normal FSH and LH)

Question 35

What is hypogonadotropic hypogonadism? Where is the cause?

Answer 35

Low FSH, LH, high prolactin

Problems with regulating hormones

Question 36

What is hypergonadotropic hypogonadism? Where is the problem?

Answer 36

(high or normal FSH and LH)

Problem with ovarian function

Question 37

What can problems with regulating hormones be caused due to?

Answer 37

• Functional – excessive weight loss or gain, over exercising or stress
• Chronic medical conditions – diabetes, sarcoidosis, renal disease, TB
• Intracranial space occyping lesion – prolactinoma tumours, cysts
• Infection or trauma – meningitis, intracranial bleed, Sheehan’s
• Drugs – glucocorticoids, anabolic steroids, opiates
• Genetic – Kallmann’s syndrome

Question 38

What can problems with ovarian function be caused due to?

Answer 38

• Genetic – Turner’s syndrome, Fragile X
• Ageing – steep decline in ovarian function past 35 years
• POI or POF
• Chronic illness – autoimmune diseases
• Radiotherapy or chemotherapy
• Infection – TB, mumps oophoritis

Question 39

What are examples of problems with uterus or outflow tract?

Answer 39

• Congenital
  
  • Absent uterus, vagina, lack of Mullerian duct development
  • Transverse vaginal septum
  • Androgen insensitivity syndrome
• Iatrogenic
  
  • Uterine adhesions or synechiae (Asherman syndrome)
  • Radiotherapy – pelvic or cervical

Question 40

What are some things involved in the management of amenorrhoea?

Answer 40

• Lifestyle changes
• Optimise control of medical illness
• Stop or change drugs
• Prolactinoma – medical treatment
• Intracranial SOL – surgical treatment
• Vaginal anomalies – surgical treatment
• Uterine adhesion – surgical division hysteroscopic
• Fertility preservation before radiotherapy and chemotherapy
• Fertility treatment such as IVF with own or donor eggs