Week 6

Question 1

Hypogonadism meaning + origins

Answer 1

 The term “Hypogonadism” designates a deficiency in
ovary or testicular function.
 There are several possible origins, including, the
absence of sexual development in an individual, or,
feminine or masculine sterility.
 This disorder can result from a congenital anomaly
(Turner Syndrome) or from consuming vegetables that
were grown in soil that is rich in cadmium.

Question 2

Clinical Syndromes of hypogonadism

Answer 2

In men, hypogonadism is presented by a deficiency in
testicular function.
 This concerns sperm production and the testosterone
secretion.
 This pathology is evoked in pubescent males around the age of 14 years.

In women, hypogonadism manifests in three forms:
 Primary hypogonadism
 Secondary hypogonadism
 Menopause

Question 3

Reproductive Hormones- Regulation

Answer 3

 In both sexes, the hypothalamus monitors and causes the release of hormones from the pituitary gland. When the reproductive hormone is required, the hypothalamus sends a gonadotropin-releasing hormone (GnRH) to the anterior pituitary.
 This causes the release of follicle stimulating hormone (FSH) and luteinizing hormone (LH) from the anterior pituitary into the blood.
 Note that the body must reach puberty in order for the adrenals to release the hormones that must be present for GnRH to be produced

Question 4

Carrier proteins for Sex Hormones

Answer 4

Sex hormone binding globulin (SHBG) is a
protein that affects the function of some sex
hormones,including testosterone and estrogen
 It is primarily made in the liver .

In short, SHBG binds to specific sex
hormones, removing them from direct
circulation in the body.

It binds tightly to testosterone,
dihydrotestosterone (DHT), and estradiol (an
estrogen) and transports them in the blood in
an inactive form.

Question 5

Reproductive Hormones (male)

Answer 5

 At the onset of puberty, the hypothalamus causes the release of FSH and LH into the male system for the first time.
 FSH enters the testes and stimulates the Sertoli cells to begin facilitating spermatogenesis using negative feedback.
 LH also enters the testes and stimulates the interstitial cells of Leydig to make and release testosterone into the testes and the blood.

Testosterone, the hormone responsible for the secondary sexual characteristics that develop in the male during adolescence, stimulates spermatogenesis.
 These secondary sex characteristics include a deepening of the voice, the growth of facial, axillary, and pubic hair, and the beginnings of the sex drive.

Question 6

Reproductive Hormones (female)

Answer 6

As with the male, the anterior pituitary hormones cause the release of the hormones FSH and LH.
 In addition, estrogens and progesterone are released from the developing follicles.
 Estrogen is the reproductive hormone in females that assists in endometrial regrowth, ovulation, and
calcium absorption; it is also responsible for the secondary sexual characteristics of females.
 These include breast development, flaring of the hips, and a shorter period necessary for bone
maturation.
 Progesterone assists in endometrial re-growth and inhibition of FSH and LH release.
 In females, FSH stimulates development of egg cells, called ova, which develop in structures called follicles.
 Follicle cells produce the hormone inhibin, which inhibits FSH production.
 LH also plays a role in the development of ova, induction of ovulation, and stimulation of estradiol and
progesterone production by the ovaries.
 Estradiol and progesterone are steroid hormones that prepare the body for pregnancy.
 Estradiol produces secondary sex characteristics in females, while both estradiol and progesterone
regulate the menstrual cycle.

Question 7

Male hypogonadism

Answer 7

A decrease in either of the two major
functions of the testes:
 sperm production
 testosterone production

Primary hypogonadism
 Testes
 Serum Testosterone↓, FSH & LH ↑

Secondary hypogonadism
 Pituitary gland or Hypothalamus
 Serum Testosterone↓, FSH & LH
↔ , ↓

Question 8

Testosterone function

Answer 8

 Male sexual differentiation
 Secondary sex characteristic in puberty and adult
 Spermatogenesis
 Muscle strength, Muscle volume
 Bone density
 Erythropoeisis

Question 9

Androgen Deficiency Symptoms

Answer 9

Musculoskeletal
• Decreased vigour and physical energy
• Diminished muscle strength

Sexuality
• Decreased interest in sex
• Reduction in frequency of sexual activity
• Poor erectile function/arousal
• Loss of nocturnal erections
• Reduced quality of orgasm
• Reduced volume of ejaculate

Question 10

Male hypogonadism: Onset

Answer 10

Postpubertal onset
 Loss of libido
 Impotence
 Infertility

Question 11

Primary hypogonadism (male): Cause

Answer 11

Postpubertal onset
 Infections — Mumps orchitis 
 Radiation
 Drugs
 Trauma 
 Bilateral orchiectomy
 Autoimmune damage
 Chronic systemic diseases (Cirrhosis, Chronic renal failure, HIV)

Question 12

Secondary hypogonadism (male): Cause

Answer 12

Prepubertal onset
 Isolated idiopathic 
hypogonadotropic hypogonadism
 Kallmann's syndrome
 Idiopathic hypogonadotropic 
hypogonadism associated with 
mental retardation 
 Abnormal ß-subunit of LH 
 Abnormal ß-subunit of FSH
 Idiopathic hypogonadotropic 
hypogonadism associated with 
other hypothalamic pituitary 
hormonal deficits

Postpubertal onset
 Sella or suprasellar tumor
 Infiltrative disease 
> Sarcoidosis, eosinophilic 
granuloma → hypothalamic hypogonad
> Hemochromatosis → pituitary hypogonad
 Infection: meningitis
 Trauma
 Critical illness: surgery, MI, head 
trauma
 Chronic systemic illness : 
cirrhosis, CKD, HIV
 Drugs

Question 13

Investigation for hypogonadism

Answer 13

Serum Testosterone, FSH,LH

Semen analysis

Others
 Peripheral leukocyte karyotype
 Other pituitary hormones
 Serum prolactin
 Iron saturation
 MRI brain

Question 14

Testosterone replacement

Answer 14

 Intramuscular preparations
 Transdermal patch
 Transdermal gel
 Oral agent
 Testosterone pellet
 Buccal testosterone tablets

Question 15

Female hypogonadism

Answer 15

Describes the inadequate function of the ovaries, with impaired production of germ cells (eggs) and sex hormones (oestrogen and progesterone).
 Primary hypogonadism refers to a condition of the ovaries (primary ovarian insufficiency/hypergonadotropic hypogonadism).
 Secondary hypogonadism refers to the failure of the hypothalamus or pituitary gland (hypogonadotropic hypogonadism).

Question 16

Primary ovarian insufficiency

Answer 16

 Ovaries do not regularly release eggs 
and do not produce enough sex 
hormones despite high levels of 
circulating gonadotropins (especially 
follicle-stimulating hormone [FSH]) in 
women < 40. 
 Diagnosis is by measuring FSH 
and estradiol levels.

Question 17

Hypergonadotropic hypogonadism (female)

Answer 17

 Also called primary hypogonadism, 
is a disorder of abnormal function of 
gonads with decreased estradiol 
in females, which results in delayed 
sexual development. 
 Diagnosis is by measuring FSH 
and estradiol levels.

Question 18

Amenorrhea

Answer 18

Primary amenorrhea is failure of menses to occur by age 15 years in patients with normal growth and secondary sexual characteristics.

Secondary amenorrhea is the absence of menses for ≥ 6 months or the length of 3 cycles after the establishment of regular menstrual cycles.

Question 19

Amenorrhea Pathophysiology

Answer 19

During normal female menstruation cycle:
 Gonadotropin-releasing hormone (GnRH) is released from
hypothalamus, and it works on pituitary to release follicle-
stimulating hormone (FSH) and luteinizing hormone (LH)
 These 2 hormones from pituitary act on ovaries and ovaries finally make estrogen and progesterone to work on the uterus to carry out the follicular and secretory phase of
menstrual cycle.
Any defect at any level of this normal physiology of
female can cause amenorrhea.

Question 20

Amenorrhea Key players

Answer 20

These hormones do the following:
 Follicle-stimulating hormone activates 
aromatase in granulosa cells around the 
developing oocytes to convert androgens 
to estradiol.
 Estrogen stimulates the endometrium, 
causing it to proliferate.
 Luteinizing hormone, when it surges 
during the menstrual cycle, promotes 
maturation of the dominant oocyte, 
release of the oocyte, and formation of 
the corpus luteum, which 
produces progesterone.
 Progesterone changes the endometrium 
into a secretory structure and prepares it 
for egg implantation (endometrial 
decidualization).

Question 21

Menopause

Answer 21

 In late reproductive life, menopause occurs after 12
months of amenorrhea and represents the near complete
cessation of ovarian hormone secretion.
 The Menopausal Transition (MT) is the time in each
woman’s reproductive life that precedes the final
menstrual period (FMP).
 MT is associated with changes in bleeding pattern and
hormone profiles.

Question 22

Menopause Hormone changes

Answer 22

Follicle stimulating hormone (FSH), anti-Mullerian hormone (AMH), inhibin B and estradiol represent the four primary hormone measures of these investigations.
 AMH appears to be the first marker to change, followed by FSH and inhibin B.
 Estradiol declines in late MT.
 FSH is secreted by the anterior pituitary gonadtrophes and is regulated in part through negative feedback by inhibin B and estradiol, hence an “indirect measure”.
 As inhibin B and estradiol vary through each menstrual cycle, FSH levels fluctuate accordingly.
 With ovarian aging, lower inhibin B also results in decreased negative feedback to the pituitary, resulting in increased FSH secretion and higher early follicular FSH.

 Current data show an increase in FSH and decreases in
AMH, inhibin B and estradiol over MT