W.11: Disturbances in Pituitary function

Question 1

Primary regulator/(-ors) of hormone synthesis?

Answer 1

Target glands such as thyroid, adrenal cortex, gonads.

Question 2

Secondary regulator of hormone synthesis?

Answer 2

Anterior pituatary

Question 3

Tertiary regulator of hormone synthesis?

Answer 3

Hypothalamus

Question 4

Hormones have negative inhibition on what?

Answer 4

On the anterior pituitary.

Question 5

Anterior pituitary have negative ihibition on what?

Answer 5

Hypothalamus

Question 6

Pathway of hormone synthesis.

Answer 6

Hypothalamus –> Releasing hormones (TRH, CRH, GnRH) –> Ant. pituitary –> Tropic hormones (TSH, ACTH, FSH, LH) –> Target glands (thyriod, andrenal cortex, gonads) –> Hormones

Question 7

Ant. pituitary hormones?

Answer 7

• Corticotropin- releated peptides
  
  • ACTH, LPH, MSH, endorfins
• Somatomammotrops (peptides)
  
  • GH, PRL
• Glycoproteins (2alfa, 2beta)
  
  • LH, FSH, TSH

Question 8

Defects that might cause a loss of pituitary function? (5)

Answer 8

• Congenital
• Pituitary tumors
  
  • Functional
  • Non- functional
• Non- pituitary tumors
  
  • Craniopharyngioma
  • Metastases
• Trauma
  
  • Surgical
  • Head trauma
• Inflammation
  
  • Autoimmune hypophysitis
  • Granulomatous disease
    + Histiocytosis X
    + Sarcoid
    + Tuberculosis

Question 9

Typical progression of hormone loss?

Answer 9

GH –> LH –> FSH –> ACTH –> TSH

Question 10

Definition of dwarfism (Nanosomia)

Answer 10

Height <147 cm.

Question 11

Possible reasons for developing dwarfism? (6)

Answer 11

• Achondroplasia (70%)
• GH associated diseases
• Other endocrine diseases (hypothyreosis, Cushings- syndrome)
• Connective tissue diseases (Osteogenesis imperfecta)
• Genetic disorders, Turner syndrome
• Stress- psychogen dwarfism

Question 12

Achondroplasia

Answer 12

FGF R3 mutation. 75% of individuals with achondroplasia are born to parents of average size due to new mutation or genetic change.

Question 13

What might GH deficiency lead to? (7)

Answer 13

• Growth retardation (in children)
• High fat content, increased waist/ hip
• Decreased BMD 1-2 SD below age matched mean
• Increased fracture 2x
• Increased total cholesterol and LDL/ HDL
• Increased insulin, insulin resistance
• Fatigue, muscle weakness

Question 14

Sporadic GH deficiency

Answer 14

• Acquired

- Hypothalamic

Question 15

Genetic GH deficiency

Answer 15

• FSH and LH deficiency also present

- Monotropic GH defiencency (70% respond to GnRH)

Question 16

Underlying cause of GH deficiency might be?

Answer 16

Pituitary or hypothalamic deficiency.

Question 17

Clinical manifestations seen in GH receptor defect (Laron Dwarf)?

Answer 17

• Extreme short statue <122 cm
• Increased serum level of GH
• Absence of GH receptor in tissues
• GH secretion is not suppressible by glucose
• IGF-I level is low - tumor, DM decrease

Question 18

Manifestations seen in Somatomedin- C (SM-C, IGF-I) defects?

Answer 18

• Total absence of IGF-I, IGF-II normal
  
  • Failure of IGF-I to increase at puberty (seen in African pygmy)
• Absence of IGF-I receptors
• Post IGF-I receptor defect (normal binding, but decreased uptake of amino acids)

Question 19

Treatment of hypopituitarism?

Answer 19

1. Remove cause

2. Replacement therapy (depends on hormone lost)

Question 20

Treatment in secondary hypothyroidism?

Answer 20

Thyroxine

Question 21

Treatment of secondary hypoadrenalism?

Answer 21

Hydrocortisone

Question 22

Treatment for induction of ovulation?

Answer 22

FSH+LH

Question 23

GH excess may cause…

Answer 23

• Childhood
  
  • Gigantism
• Adults
  
  • Acromegaly

Question 24

Etiology of GH excess?

Answer 24

• 98% GH- producing pituitary tumor
• 2% ectopic GHRH secretion
  
  • SCC lung cancer
  • Bronchial or intestinal carcinoid tumors
  • Pancreatic islet cell tumor
  • Pheochromocytoma

Question 25

Clinical signs of acromegaly?

Answer 25

• Somatotropic adenoma of pituitary
• Acromegalic facies
• Cardiomegaly
• Barrel chest
• Abnormal glucose tolerance secondaty to insulin resistance
• Degenerative arthritis
• Thickened skin (hypertrophy of sebaceous and sweat glands)
• Hyperostosis (thoracic vertebrae)
• Carpal tunnel syndrome
• Increased size (hands, feet)
• Growth of long bonws (children)

Question 26

Patophysiology of acromegaly? (6)

Answer 26

• Increased GH secretion
• The nocturnal sruge is absent
• Glucose suppression is lost
• Paradox dopamine stimulation test
• Increased serum somatomedins
• Insulin resistance

Question 27

Treatment of acromegaly?

Answer 27

1. Surgical removal of the tumor
2. Additional therapy:
   
   • Somatostatin analouge
   • Radiation
   • GH- receptor antagonist

Question 28

Frequency of pituitary tumors?

Answer 28

• PRL- secreting 35%
• Non- functioning 30%
• GH- secretion 20%
• Mixed GH- and PRL- secretion 7%
• ACTH and Lipotropin sec. 7%
• LH-, FSH-, or TSH- sec. 1%

Question 29

Normal prolactin level?

Answer 29

<900 pmol/L

Question 30

Main clinical manifestation seen in women/ men due to Hyperprolactinemia?

Answer 30

Women:

• Amnorhea 57- 90%
• Galactorrhea 30- 80%

Men:

• Decreased libido 75- 100%
• Impotence 68- 100%

Question 31

Treatment of prolactinomas?

Answer 31

Dopamin agonist therapy will normalize prolactin and lead to timor regression in most patients with macro- and microprolactinomas.

Question 32

ADH release is stimulated by?

Answer 32

• Plasma osmolality >280 mosm/L
• A fall in plasma volume
• Emotional factors and stress
• Sleep
• Other factors:
  
  • Cholinergic stimulation, alfa- adrenergic stimulation
  • Angiotensin II, prostaglandin E
  • Opiates, Nicotine
  • Histamine, Ether, Phenobarbitate

Question 33

Definition of Diabetes Insipidus

Answer 33

DI is a disorder resulting from deficiency of anti- diuretic hormone (ADH) or its action and is characterized by the passage of copious amounts of diluted urine.

Question 34

Central DI

Answer 34

Failure of pituitary gland to secrete adequate ADH.

Question 35

Causes of Central DI?

Answer 35

• Idiopathic (30% of cases)
• Suprasellar tumors (30% of cases)
• Infections (encephaitis, TB, etc)
• Non- infectious granuloma (sarcoid, etc.)
• Trauma or skull srugery
• Leukemia

Question 36

Nephrogenic DI

Answer 36

Results when the renal tubules of the kidney fail to respond to circulating ADH.

Question 37

What does the renal concentration defect seen in nephrogenic DI lead to?

Answer 37

Loss of large volumes of diluted urine. This causes cellular and extracellular dehydration and hypernatremia.

Question 38

Causes of nephrogenic DI (primary and secondary)?

Answer 38

• Primary familial:
  X- linked recessice that is severe in boys and mild in girls.
• Secondary to:
  • Chronic pyelonephritis
  • Hypokalemia
  • Hypercalcemia
  • Sickel cell disease
  • Protein deprivation
  • Drugs (Li) etc.

Question 39

SIADH

Answer 39

Syndrome of Inappropriate secretion of ADH

Question 40

When is SIADH seen?

Answer 40

SIADH occurs when ADH is released in amounts far in excess of those indicated by plasma osmotic pressure.

Question 41

SIADH is characterized by?

Answer 41

• Fluid retention
• Serum hypoosmolality
• Dilutional hyponatermia
• Hypochloremia
• Concentrated urine in the presence of normal or increased intravascular volume
• Normal renal function

Question 42

SIADH may be caused due to…

Answer 42

• Pulmonary conditions: pneumonia, TB, lung abscesses, positive pressure ventilation
• Trauma (most frequently head related)
• Meningitis, subarachnoid hemorrhage
• AIDS, Addison’s disease
  Peripheral neuropathy, psychoses
• Vomiting, stress and many medications
• Symtoms may also be caused by ADH secreting tumors

Question 43

Which hormones are secreted by the ovary?

Answer 43

Graafian follicle:
- Estrogens (estradiol): Steroid

Corpus Luteum:

• Progestins (Progesterone): Steriod
• Relaxin: Polypeptide

Question 44

Which hormones are secreted by the testis?

Answer 44

Leydig cells:
- Androgens (Testosterone): Steriod

Sertoli cells:
- Inhibin: Protein

Seminal vesicles:
- Contain leutinizing hormone receptors, may be regulated by the ligand, luteinizing hormone.

Question 45

Which hormone/ hormones are secreted by the adrenal cortex?

Answer 45

Glucocorticoids (cortisol): Steroid

Question 46

Which hormone/ hormones are secreted byt the placenta?

Answer 46

Human Chorionic Gonadotropin (hCG): Glycoprotein

Question 47

Which hormone/ hormones are secreted by the endometrial cups?

Answer 47

• Equine Chorionic Gonadotropin (eCG): Glycoprotein
• Estrogens/Progestins: Steroids
• Realxin: Protein
• Placental Lactogen: Glycoprotein

Question 48

Pricipal function of Estrogens?

Answer 48

Mating behavior, secindary sex characteristics, maintenance of female duct system, mammary growth.

Question 49

Pricipal function of Inhibin (Folliculostatin)?

Answer 49

Regulates release of FSH from ant. pituitary.

Question 50

Pricipal function of Porgestins (Progesterone)?

Answer 50

Maintenance of mammary growth, pregnancy and secetion.

Question 51

Pricipal function of Relaxin?

Answer 51

Expansion of pelvis, dilation of cervix.

Question 52

Pricipal function of Androgens (Testosterone)?

Answer 52

Male mating behaviour, spermatocytogenesis, maintenance of male duct system and accessory glands.

Question 53

Pricipal function of Inhibin?

Answer 53

Regulates release of FSH.

Question 54

Pricipal function of Prostaglandin F2- alfa?

Answer 54

Regression of CL. Stimulate myometrial contracions, ovulation. Produced by uterus when stimulated by oxytocin.

Question 55

Pricipal function of hCG?

Answer 55

LH- like. Involved with establishment of pregnancy in human. Support and maintain CL.

Question 56

Pricipal function of eCG?

Answer 56

FSH- like. Some LH activity, immunological protection of foal. Formation of accessory CL in mare.

Question 57

Pricipal function of estogens/ progestins?

Answer 57

Regulate placental blood flow. Maintenance of pregnancy.

Question 58

Pricipal function of Placental Lactogen?

Answer 58

Stimulates mammary growth and milk secretion.

Question 59

How are the sex steriods transported?

Answer 59

They are bound to plasma proteins.

Question 60

What does SHBG resp. DHT bind to?

Answer 60

SHBG binds to T and DTH: 66- 78%

and E: 37%.

Question 61

What does CBG bind to?

Answer 61

90% of cortisol

28% of progesterone

Question 62

What does albumin bind to?

Answer 62

60- 80% of E and P

20- 30% of T and DHT

85% of Androstenedione

Question 63

Where is SHBG synthesized?

Answer 63

In the liver. E increases its synthesis and T decreases it. Why female levels are much higher.

Question 64

Where are E and P metabolized?

Answer 64

In the liver.

Question 65

Half life of P?

Answer 65

Approx. 5 min.

Question 66

What stimulates the hepatic SHBG synthesis?

Answer 66

• E2
• T4
• Anticonvulsants
• Liver disease
• Age

Question 67

What decreases tje hepatic SHBG synthesis?

Answer 67

• Testosterone
• Anabolic steriods
• Insulin (eg. in obesity)

Question 68

How big amount of testoterone is excreted?

Answer 68

90%

Question 69

Effect of testosterone?

Answer 69

• Wolffian duct
• Bone formation
• Muscle mass
• Spermatogenesis

Question 70

Testosterone + 5alfa- reductase (6-8%) –>

Answer 70

DHT

Question 71

Testosterone + Aromatase (0,3%)

–>

Answer 71

Estradiol

Question 72

Effects of DHT?

Answer 72

• External genitalia features
• Prostate growth
• Acne
• Facial/ body hair
• Scalp hair loss

Question 73

What does total testosterone include?

Answer 73

• Biologically inactive SHBG- bound testosterone (60%)
• Albumin- bound testosterone (38%)
• Unbound free testosterone (2%)

Question 74

Testosterone deficinencies may cause? (4)

Answer 74

• In utero: Female external phenotype
• Post- natal: Micropenis/ crypotochid
• Childhood: Failure to enter puberty
• Adult- onset:
  
  • Sexual dysfunction
  • Osteopaenia/ sarcopaenia
  • Central obesity/ dyslopidaemia
  • Think skin and gynaecomastia
  • Diminished muscle mass
  • Absent/ reduced body hair
  • Small, soft tetes
  • Infertility

Question 75

Laboratory evaluation of male reproductive function?

Answer 75

• Measure serum testosterone
• Calculate free testosterone from total testosterone and SHBG
• Stimulation test (hCG, clomiphene, GnRH)
• Semen analysis
• Testicular biopsy

Question 76

Disorders of sexual differentiation?

Answer 76

• Seminiferous tubule dysgenesis: Klinefelter syndrome
• Gonadal dysgenesis and its variants: Turner syndrome
• Complete and incoplete form to XX and XY gonadal dysgenesis
• True hermaphroditism

Question 77

Most common form of primary hypogonadism and infertility in male?

Answer 77

Seminiferous tubule dysgenesis (Klinefelter syndrome)

Question 78

Clinical symptomes seen in Seminiferous tubule dysgenesis?

Answer 78

• Gynecomastia
• Diminished facial and body hair
• SMall phallu, poor muscular development
• Eunochiod tall body habits
• Increased incidence of:
  - Mild DM
  - Varicose veins
  - Chronic pulmonary disease
  - Carcinoma of breast
• Progressive testicular lesion

Question 79

Clinical features seen in Syndrome of Gonadal Dysgenesis (Turner syndrome)?

Answer 79

• Sexual infantilism
• Short stature
• Lymphedema of the extremities
• Typical face
• Short neck, shieldlike chest
• Coarctation of the aorta
• Hypertension, renal abnormalties
• Obesity, DM, Hashimoto’s thyroiditis, rheumatoid arthiritis etc.

Question 80

Features of pseudohermaphroidism, female?

Answer 80

• Normal ovaries
• Extragonadal hypersecretion of androgen
• Masculinization, clitoral hypertrophy

Question 81

Features of pseudohermaphroidism, male?

Answer 81

• Teste, genital ducts or extragenitals are not completely masculinized
• Deficient testosterone secretion

Question 82

What might deficient testosterone secretion seen in pseudohermaphroidism lead to?

Answer 82

• Failure of testicular differentiation
• Failure of secretion of tesosterone or Müllerian duct inhibitory factors
• Failure of target tissue response to T or DHT
• Failure of conversion of T to DHT

Question 83

Clinical features of true hermaphroditism?

Answer 83

• Uterus
• Ovotestis
• Breast development
• Menses (50%)

Question 84

Causes of true hermaphroditism?

Answer 84

• Sexchromatin mosaicism or chimerism
• Y to autosome; Y to X chromosome translocation or exchange
• Autosomal mutant gene

Question 85

Disorders of puberst, causing Precocious puberty?

Answer 85

• Central, Gondaotropin dependent
  
  • Idiopathic
  • Hypothalamic hamartoma or other lesions
  • CNS tumor or inflammatory state
• Perfipheral, GnRH- independent (precocious pseudopuberty)
  
  • Isosexual sexual precocity
  • Heterosexual sexual precocity
• -> gynecomastia

Question 86

Causes of Isosexual sexual precocity?

Answer 86

• Congenital adrenal hyperplasia
• hCG- secreting tumor
• McCune- Albright syndrome
• Activating LH receptor mutation
• Exogenous androgens

Question 87

Causes of Heterosexual sexual precocity?

Answer 87

• Estrogen producing tumor
• Familial aromatase excess
• Marijuana smoking
• Germ cell tumors - secrete hCG

Question 88

Causes of delayed puberty, GnRH dependent?

Answer 88

• Idiopathic
  
  • Sporadic or familial (associated with constitutional growth delay)
• Chronic diseases
  
  • Malnutrition, anemia, acidosis, anorexia nervosa, cystic fibrosis, chronic renal insufficiency
• Psychosocial deprivation
• Hypothalamic- pituitary causes:
  
  • Congenital disorders: GnRH receptor mutation, adrenal hypoplasia, Kalmann syndrome.
  • Acquired with other pituitary hormone deficinecies: Pituitary tumors, cranial irradiation, granulomatous disease, hemosiderosis.

Question 89

Causes of delayed puberty, GnRH independent?

Answer 89

• Congenital:
  
  • Anorchia
  • Chromosomal abnormalties: Klinefelter syndrome, Noonan’s syndrome
• Acquired:
  
  • Autoimmune inflammation (APS)
  • Orchitis
  • Bilateral undescendent testes or anorchia
  • Radio- or chemotherapy
  • Trauma
  • Surgery

Question 90

Which are the primary congenital disorders of male reproductive functions during adulthood?

Answer 90

• Klinefelter’s syndrome
• Noonan’s syndrome
• Inborn errors of testosterone biosynthesis
• Androgen resistance states

Question 91

Primary acquired disorders of male reproductive functions during adulthood?

Answer 91

• Undescended testes
• Bilateral torsion of the testes
• Bilateral orchitis
• Orchidectomy
• Gonadal toxins (radio- and chemotherapy)
• Acute and chronic systemic disease

Question 92

Secondary congenital disorders of male reproductive functions during adulthood?

Answer 92

• Isolated GnRH deficiency
• Isolated LH deficiency
• Prader- Willi syndrome
• Laurence- Moon- Biedl syndrome

Question 93

Secondary acquired disorders of male reproductive functions during adulthood?

Answer 93

• Piruitary tumors and infarct
• Trauma
• Craniopharyngioma
• Hyperprolactinaemia (primary and secondary)
• Haemochromatosis
• Neurosarcoid
• Ageing

Question 94

How much T do females produce in 24h?

Answer 94

300 mikrogram (25% in the ovary)

Question 95

Which androgens are produced by the ovary?

Answer 95

T, DTH and androstenedione

Question 96

Abnormalities associated with androgen excess seen in females?

Answer 96

• Acne
• Alopecia
• Android obesity
• Cardiovascular disease
• Dyslipidemia
• Glucose intolernace/ insulin resistance
• Hirsutism
• Hypertension
• Infertility
• Menstrual dysfunction

Question 97

Name three female reproductive disorders.

Answer 97

• Premenstrual syndrome (PMS)
• Dysmenorrhea (= painful menstruation)
• Polycystic ovarian syndroma (PCOS)

Question 98

Definition PMS

Answer 98

Occurs prior to menstruation and is charachterized by irratibility, bloating, weight gain, breast tenderness and headaches.

Question 99

Primary dysmenorrhea

Answer 99

Is thought to resylt from periodic uterine contractions due to uterine PG. Pain can be accompanied by nausea and diarrhea.

Question 100

Secondary dysmenorrhea

Answer 100

Results from problems such as endometriosis or congenital anomalies.

Question 101

Polycystic ovrian syndrome (PCOS)

Answer 101

Characterized by anovulation and high circulating androgen, estrogen and LH. The ovaries are enlarged with many follicles undergoing atresia due to low FSH.

Question 102

What might PCOS result in?

Answer 102

Due to that high amount of estrogen is aromatized –> hirsutism and acne.

Question 103

Most common cause of hirsutism?

Answer 103

PCOS

Question 104

Clinical features PCOS?

Answer 104

• Oligomenorrhoea
• Anovulation
• Hirstuism
• Acne
• Obesity
• Hypertension
• Glucose intolerance
• Dyslipideamia

Question 105

Biochemical features seen in PCOS?

Answer 105

• Increased LH:FSH in follicular phase
• Increased prolactin
• Increased testosterone
• Low SHBG
• Raised fasting insulin
• Dyslipidaemia
  (- Increased DHEAS Androstenedione)

Question 106

Dynfunctions of which organs cause amenorrhea?

Answer 106

Dysfunctions of:

• Hypothalamus
• Pituitary
• Ovaries
• Uterus
• Vagina

Question 107

Amenorrhea can be both primary and secondary. Give the definitions.

Answer 107

Primary: Absence of mearche by the age of 16.

Secondary: absence of menses from more than three cycle internals or six monthsin women who were previously menstruating.

Question 108

Cause of primary amenorrhea?

Answer 108

• Chromosomal abnormalties : 45%
• Physiologic delay of puberty : 25%
• Müllerian agenesis : 15%
• Transverse vaginal septum or imperforate hymen : 5%
• Absent hypothalamic production of GnRH : 5%
• Anorexia nervosa : 2%
• Hypopituitarism : 2%

Question 109

Name the conditions where secondary amenorrhea can be seen?

Answer 109

• Pregnancy
• Anovulation
• High PRL
• Abnormality in the outflow tract
• Destruction of uterine endometrium by curretage or chronic infections

Question 110

Definition of hirsutism.

Answer 110

The development of androgendependent terminal body hair in a woman in places in which terminal hair is normally not found.

Question 111

Definition hypertrichosis.

Answer 111

A diffuse increase in total body hair. It is not androgen dependent.

Question 112

Name the common causes of hypertrichosis.

Answer 112

• Drugs
• Systemic illness
  (hypothyroidsm, anorexia nervosa, malnutrition, porphyria, dermatomyositis)
• Paraneoplastic syndrome in some cancers

Question 113

Common etiology of hirsutism.

Answer 113

• Idiopathic hirsutism (47,7%)
• PCOS (50%)
• Ovarian testosterone producing tumour
• Cushing’s syndrome
• Congenital adrenal hyperplasia

Question 114

Clinical manifestation PCOS.

Answer 114

• Hirsutism
• Frontal balding
• Acne
• High serum androgen
• Menstrual irregularity (oligo- or anovulation)

Question 115

Clinical manifestation idiopathic hirsutism.

Answer 115

• Hirsutism
• No other clinical abnormalties
• No menstrual irregularity
• May be a mild variant of PCOS

Question 116

Name the less common causes of hirsutism (2,3%).

Answer 116

• Hyper- PRL
• Drugs
• CAH
• Ovarian tumors
• Adrenal tumors
• Acromegaly

Question 117

How does obesity affect androgen production?

Answer 117

It causes and increase in the androgen production and clearance rates.

Question 118

Effect of hyperinsulinemia (female reproduction).

Answer 118

Hyperinsulinemia caises ovarian hyperandrogenism, by acting via theca- cell receptors for IGF-I.

Insulin also decreases serum SHBG.

Question 119

Diagnosis of hirsutism?

Answer 119

• No labs. if long- standing mild to moderate hirsutism.
• Testosterone: mild to moderate hirsutism.
• DHEA-S in addition to T: if progressive hirsutism, irrgeular menses and any signs of virilization
• Prolcatin, FSH, LH: if irregular menses

Question 120

Relation LH/ FSH in PCOS?

Answer 120

LH > FSH

Question 121

Level of prolactin in prolactinoma?

Answer 121

> 100- 200ng/ mL

Question 122

Definition of endometriosis.

Answer 122

Presence of endometrial tissue, including both endometrial glands and stoma outsde the lining of the uterine cavity.

Question 123

Most common sites of endometriosis?

Answer 123

- Ovary: chocolate cyst
Peritoneum of the rectovaginal cul-de-sac of the Pouch of Douglas
- Uterosacral ligaments
- Sigmoid colon
- Broad ligament

Question 124

Less common sites of endometriosis?

Answer 124

• Cervix
• Round ligament
• Urinary system: bladder, ureter
• Umbilicus
• Appendix
• Laparotomy scars
• Lung, brain etc.

Question 125

Name the signs and symptoms of endometriosis.

Answer 125

• Chronic pelvic pain
• Dysmenorrhea
• Abnormal uterine bleeding
• Dyspareunia
• Infertility
• Pelvic mass (endometrioma)
• Misc: Tenesmus, hematuria, hemoptysis

Question 126

Name the risk factors of endometriosis.

Answer 126

• Early menarche
• Short menstrual cycle
• Alcohol
• Caffeine

Question 127

Name the protection factors of endometriosis.

Answer 127

• Term pregnancy
• Regular extercise
• Smoking

Question 128

Mean age at time of diagnosis of endometriosis.

Answer 128

25- 30 years.

Question 129

Give a short description of the Implantation theory, retrograde menstruation.

Answer 129

• Endometrial cells in menstrual fluid are capable of implating on peritoneal surfaces
• Woman with endometriosis have higher volumes of reflux
• Peritoneal endometrial cells recovered during menses can atach to and penetrate the peritoneum
• Endometriosis is most commonly seen in dependent portions of pelvis.
• Endometriosis occurs in patients with uterine outlet obstruction
• Most woman have some degree of retrograde menstruation but only 6- 10% have endometriosis.

Question 130

Give a short description of the Coelemic metaplasia, transformation of embryonic tissue.

Answer 130

• Peritoneal mesothelium, Müllerian epithelium and germinal epithelium may be derived from a common ambryonic tissue
• Metaplastic change in the coelomic epithelium (peritoneum and pleura): spontaneous or induced.

Question 131

Supporting eviences of theory based on Coelemic metaplasia, transformation of embryonic tissue.

Answer 131

• Endometriosis have been found in prepubertal girls
• Pleural and pulmonary endometriosis
• Endometriosis in men treated with high doses of estrogen
• In vitro, ovarian surface epithelium can be induced by estradiol to form endometrial glands
• Unusual sites such as knee, thumb, eye

Question 132

Name some theories in the pathogenesis of endometriosis.

Answer 132

• Implantation theory, retrograd menstruation
• Lymphatic and vascular dissemination theory
• Coelomic metaplasia
• Immune theory
• Genetic theory

Question 133

Briefly describe the Lymphatic and vascular dissemination theory.

Answer 133

The theory may explain endometriosis in distant sites outside plevis eg. brain, colon.

Question 134

Briefly describe the Immune theory and mechanisms supporting the theory.

Answer 134

• Not all women with seeding of menstrual debris into plevis develop endometriosis.
• Evidence for decreased cellular immunity
• Increased prevalence of humoral antibodies against endometrial tissue
• INcreased number of macrophages –> promote disease by secreting a variety of cytokines and growth factors that stimulate endometriotic attachment, invation, proliferation and neovascularization.

Question 135

Briefly describe the Genetic theory.

Answer 135

• First degree relatives have 6- 7 times higher risk.
• Detoxification enzymes –> susceptibility to envionmental stimuli (dioxin)
• Genes associated with malignant transformation (eg. tumor suppressor genes).

Question 136

Describe the molecular mechanism of endometriosis.

Answer 136

Estrogen production plays a key role in endometriosis.

• Ovaries secrete estradiol
• Aromatase in adipose tissue and skin
  - - Androstenedion –>Etrone –> Estradiol
• Endometriotic tissue expresses a complete set of sterogenic genes, incl. aromatase-
  - - Cholesterol –> Estradiol