Endocrine - Pituitary tumors, Acromegaly, DI, Hyperprolactinemia

Question 1

Pituitary gland

• Location
• Borders
• Anatomical division and secretions

Answer 1

Site: enclosed in sella turcica (normally <0.8cm deep)

Superior → diaphragm sellae
Anterosuperior → optic chiasm
Inferior → sphenoidal sinus
Lateral → cavernous sinus

Anterior lobe secretes prolactin, LH/FSH, TSH, ACTH, GH
Posterior lobe secretes oxytocin and ADH

Question 2

Anatomical connection between pituitary and hypothalamus

Answer 2

Connected to hypothalamus via infundibular stalk
- Portal vessel carrying blood from median
eminence of hypothalamus to anterior lobe
- Nerve fibres from PVN and SON to posterior lobe (neurohypophysis)

Question 3

List non-functional tumors of pituitary

Answer 3

Non-functional tumours:
→ Pituitary adenoma (most common)
→ Craniopharyngioma
→ Metastatic tumours

Question 4

List pituitary diseases with hormone excess/ deficiency

Answer 4

Hormone excess:
→ Hyperprolactinemia
→ Acromegaly
→ Cushing’s disease
→ SIADH
→ TSH-/LH-/FSH-secreting adenomas (rare)

Hormone deficiency:
→ Hypopituitarism
→ Diabetes insipidus
→ GnRH deficiency (Kallmann’s syndrome)

Question 5

Approach to ascertain type of pituitary disease

Answer 5

Approach to pituitary diseases:

1. Hormonal secretion: depends on mode of secretion
   → Pulsatile secretion: GH, ACTH → requires suppression/stimulation tests
   → Constant secretion: prolactin, TSH, LH/FSH → direct measurement of its level
2. Perimetry for visual defects due to compression on optic pathways
3. MRI pituitary if pituitary tumour suspected
4. Intra-op biopsy for histological Dx

Question 6

Tests for ACTH excess/ Deficiency

Answer 6

ACTH Excess:

Low-dose dexamethasone suppression test
Late-night salivary cortisol
24h urine free cortisol

ACTH Deficiency:

Low 9am serum cortisol
Short synacthen test (SST)
Insulin tolerance test (ITT)

Question 7

Tests for Growth hormone excess/ deficiency

Answer 7

GH excess:

Oral glucose tolerance test (OGTT)
High serum IGF-1

GH deficiency:

Low serum IGF-1
Insulin tolerance test (ITT)
Glucagon stimulation test
Arginine-GHRH stimulation test

Question 8

Tests for FSH/ LH deficiency

Answer 8

Random serum LH/FSH
Random serum testosterone in M
GnRH (LHRH) stimulation test

Question 9

Tests for TSH excess/ deficiency

Answer 9

Random serum T4, TSH

Question 10

Tests for prolactin excess/ deficiency

Answer 10

Random serum prolactin

Question 11

Test for ADH excess/ deficiency

Answer 11

ADH excess - Diagnosis of exclusion

ADH deficiency - Water deprivation test

Question 12

Outline clinical presentation of Pituitary tumor

Answer 12

Local compressive symptoms:

• Headache, Visual field defect, Diplopia, Disconnection hyperprolactinaemia, Pituitary apoplexy

Hormonal symptoms:

• Hypersecretion: acromegaly, Cushing’s, hyperprolactinaemia
• Hyposecretion: hypopituitarism

Question 13

Local compressive symptoms of pituitary tumor

Answer 13

1. Headache (Stretching diaphragma sellae)
2. Visual field defect (optic chiasm involvement)
3. Diplopia (Cavernous sinus involvement)
4. Acute infarction/ expansion (pituitary apoplexy, sudden hemorrhage)
5. Disconnection hyperprolactinaemia

Question 14

S/S of hypopituitarism

Answer 14

• Growth hormone deficiency:

Growth retardation, Lethargy

• Gonadotrophin deficiency:

Lethargy, Loss of libido, Hair loss, Amenorrhea

• ACTH deficiency:

Lethargy, Pallor, Postural hypotension, Hair loss

• TSH deficiency:

Hypothyroidism S/S

• Vasopressin deficiency:

Thirst, polydipsia, polyuria

Question 15

S/S hyperpituitarism

Answer 15

Cushing’s disease

Acromegaly

Hyperprolactinemia: Galactorrhea, Amenorrhea, Hypogonadism

Question 16

Characteristic sign of pituitary tumor on Cranial XR?

Answer 16

Skull XR: double-flooring due to asymmetrical enlargement

Question 17

Ddx sellar masses

Answer 17

□ Pituitary adenomas

□ Pituitary carcinomas: very rare
→ Types: germ cell tumours, chordoma, lymphoma, metastatic

□ Craniopharyngiomas: majority in children/young adulthood

□ Other tumours: meningioma, pituicytoma, lymphoma, germ cell tumour, metastatic tumours (esp CA breast, lung)

□ Non-neoplastic masses: Rathke’s cleft cyst, arachnoid cyst, pituitary abscess, carotid-cavernous fistula, hypophysitis

Question 18

Craniopharyngioma

• Site
• Morphology
• Age of onset
• Presentation, S/S

Answer 18

Site: commonly in suprasellar region but can occur intrasellarly

Nature: often cystic, 50% calcified (visible on XR/CT)

Onset:
→ 50% present in childhood
(more common than pituitary adenoma in young people)
→ 25% presents between 20-40y
→ 25% presents >40y

Presentation:

• Hypopituitarism, eg. growth retardation
• Central DI due to stalk compression
• Visual field defects due to chiasmal compression
• ↑ICP due to 3rd ventricle compression
• Hypothalamic damage, eg. hyperphagia, obesity, loss of thirst sensation, disturbance of temperature regulation

Question 19

Pituitary adenoma

Site

Size cut-off

Subtypes

Answer 19

Site: usually within sella turcica
Size: microadenoma (<1cm) vs macroadenoma (>1cm)

Functional adenomas:

Prolactinoma

GH-secreting

ACTH-secreting

Glycoprotein-secreting: FSH, LH, TSH

Non-functional adenomas: Hypopituitarism

Question 20

Clinical presentation of functioning pituitary adenomas

Answer 20

• Prolactinoma: Galactorrhea, Hypogonadotropic hypogonadism - Amenorrhea and Impotence
• GH-secreting adenoma: Acromegaly in adults, Gigantism in children
• ACTH-secreting adenoma: Cushing’s disease
• Glycoprotein-secreting tumors: Secondary hyperthyroidism, Precocious puberty, Ovarian Hyperstimulation syndrome, Hypopituitarism, Local compressive symptoms

Question 21

Clinical presentation of non-functioning pituitary adenomas

Answer 21

Hypopituitarism (classically GH → FSH/LH → ACTH → TSH)
Local symptoms including headache and visual loss

Question 22

Clinical diagnosis of functional pituitary adenoma

Answer 22

Dx:
Hormonal hypersecretion in functional adenomas
→ Prolactinoma: ↑serum prolactin >200ng/mol (usu >10× ULN)
→ Acromegaly: ↑serum IGF-1, non-suppressible GH on OGTT
→ Cushing’s disease: ↑ACTH + ↑cortisol (by ≥2× diagnostic tests)
→ 2o hyperthyroidism: ↑TSH, ↑fT4
→ Gonadotroph tumour: seldom hypersecretes

Radiological diagnosis:
→ Contrast MRI: modality of choice
→ CT: better for calcified tumour (meningioma, craniopharyngioma)

Question 23

Pituitary apoplexy

S/S

Diagnosis

Management

Answer 23

□ S/S: sudden onset of excruciating headache (stretching of sella) + diplopia (pressure on CNIII) + hypopituitarism (esp adrenal crisis)

□ Dx: acute blood in pituitary seen on CT/MRI

□ Mx: steroid cover + urgent surgical decompression if
→ Signs of ↑ICP
→ Change in conscious state
→ Evidence of compression on neighbouring structures

Question 24

Management options of pituitary tumors (functional and non-functional)

Answer 24

Non-functional microadenoma - Observe and FU

Functional adenoma and Non-functional Macroadenoma:

→ Surgical Tx: first-line for all
→ RT: usually as adjunct to surgery
→ Medical Tx: first-line only to prolactinoma

Question 25

Surgery for pituitary tumor

• Indication
• Approach
• Advantages
• Disadvantages
• F/U

Answer 25

□ Indication: all functioning tumours (except prolactinoma) and all macroadenomas

□ Approach:
→ Trans-sphenoidal (route of choice): transnasal endoscopic or sublabial
- Unresectable if compresses/abuts optic pathway or invades cavernous sinus → maximal debulking instead
→ Transfrontal if very large suprasellar extension or severe chiasmal compression

□ Advantages: rapid ↓secretion and ↓size → remission >85% for micro-, 40-50% for macroadenoma

□ Disadvantages:
→ Residual or recurrence esp if macroadenomas (2-8%)
→ Hypopituitarism
→ DI due to surgical injury to stalk or posterior pituitary (may be transient)

□ F/U:
→ Monitor pituitary function for 4-6w for hypopituitarism
→ Post-op imaging at 1y, 2y, 5y, 10y for any recurrence

Question 26

Radiotherapy for pituitary tumor

• Modalities
• Indication
• Advantages
• Disadvantages

Answer 26

□ Modalities: conventional EBRT or stereotactic radiosurgery (SRS) by gamma/X-knife

□ Use:
→ Usually as adjunct to surgery (for residual tumours)
→ May be primary therapy for macroprolactinoma

□ Advantages: restrains tumour growth

□ Disadvantages:
→ Delayed effect on secretion (not used in acute setting)
→ Higher incidence of hypopituitarism
→ Risk of damage to other structures (NOT used if <5mm from optic chiasma)

Question 27

Medical treatment for pituitary adenoma

• Indication
• Efficacy
• Drug options

Answer 27

□ Use: 1st line for prolactinomas and as adjunct to surgery/RT in others

□ Efficacy:
→ Usually reversible on drug withdrawal
→ No reduction in size except for prolactinomas (by dopamine agonists); 50% of GH/TSH-producing tumours (by somatostatin analogues)

Options:

Dopamine agonists, eg. bromocriptine, cabergoline

Somatostatin analogues, eg. octreotide LAR, lanreotide, pasireotide

GH receptor antagonists, eg. pegvisomant

Question 28

Dopamine agonists for pituitary tumors

Efficacy

Examples

S/E

F/U

Answer 28

Dopamine agonists, eg. bromocriptine, cabergoline

Effect:

• Prolactinoma: >90% achieve normal prolactin, tumour shrinkage
• Acromegaly: IGF-1 normalized in 10% pt
• FSH-producing tumours: ↓FSH but no effect on tumour size

S/E: constipation, nausea and headaches. hallucinations, peripheral edema, gastrointestinal ulcers, pulmonary fibrosis and psychosis.

F/U:

• Monitor tumour size by serial MRI
• Monitor prolactin level → taper off after dropping to normal

Question 29

Somatostatin analogues for pituitary tumors

Efficacy

Examples

S/E

Answer 29

Somatostatin analogues, eg. octreotide LAR, lanreotide, pasireotide

Use as adjunct to surgery/RT

Octreotide LAR/lanreotide: predominantly act on sstr
→ ↓size and secretion of GH and TSH-producing tumours
→ 60% acromegaly pt achieve normal GH/IGF-1

Pasireotide: high affinity for sstr5,
→ Effective for ACTH-producing tumours
→ more effective for some GH-producing tumours

S/E: 3Gs

• GI side-effects: nausea/vomiting, steatorrhoea, abdominal cramps
• Gallstones due to ↓gallbladder motility
• ↓glucose tolerance due to ↓insulin secretion (hyperGly more common for pasireotide)

Question 30

GH receptor antagonists for pituitary tumor

Example

Efficacy

S/E

Answer 30

GH receptor antagonists, eg. pegvisomant

Effect:

• 90% normalize IGF-1 in 12mo, 76% in long-term
• No ↓tumour size, no ↓GH level (-ve feedback)

S/E: ↑liver transaminases (5%)

Question 31

Causes of Hyperprolactinemia

Answer 31

Question 32

Clinical presentation of hyperprolactinemia

Answer 32

Hypogonadotropic hypogonadism due to inhibition on GnRH secretion
→ Female: secondary amenorrhoea, anovulation with infertility, climacteric symptoms, ↓BMD
→ Male: ↓libido, lethargy, erectile dysfunction, infertility

Galactorrhoea due to ↑breast milk production (NOT breast development – due to oestrogen!)
→ Female: can present with milk discharge
→ Male: rarely occur unless gynaecomastia already induced (oestrogen-mediated)

Question 33

Serum prolactin levels and associated conditions at each level

Define Macroprolactin

Answer 33

Levels:

• <500mU/L → normal
• 500-1000mU/L → stress, drugs
• 1000-5000mU/L → drugs, microprolactinoma, disconnection prolactinoma
• >5000mU/L → highly suggestive of macroprolactinoma
• >100000mU/L → potential for high-dose hook effect and thus false -ve

Macroprolactin: prolactin bound to IgG Ab

• Cannot cross blood vessel walls → NOT physiologically active
• May cause interference! → use assays that are known not to cross-react

Question 34

Investigations for Hyperprolactinemia

Answer 34

1. Exclude pregnancy if female and child-bearing age
2. Serum prolactin levels
3. MRI/CT pituitary for pituitary adenoma
4. Pituitary hormones: IGF-1, ACTH, FSH/LH/sex hormones
5. T4, TSH to exclude 1o hypothyroidism

Question 35

Treatment of hyperprolactinemia

Answer 35

Dopamine agonist as 1st line, treat if symptomatic or macroadenoma
→ Efficacy: ↓prolactin secretion, ↓size of adenoma in >90%
→ Termination: taper off DA if prolactin normalized + no adenoma by MRI for ≥2y (off when pregnant)
→ S/E: nausea, postural hypotension, mental fogginess, impulse control disorders (hypersexuality, compulsion)

Surgery ± adjuvant RT if failed medical Tx or very large adenoma planning pregnancy

Question 36

Acromegaly

Cause

Clinical features

Answer 36

Cause: GH-secreting pituitary adenoma (most), GHRH-secreting hypothalamic tumours, ectopic GHRH/GH secretion by neuroendocrine tumours

Clinical features:

1. Pituitary local compressive symptoms: headache, VF defects, CN palsies, hypopituitarism
2. GH-excess:

• Soft tissue overgrowth: Coarse facial features, Macroglossia, Malocclusion, OSA, Prognathism
• Acral overgrowth: Large hands with board palms, spatulate fingers, sweaty palms; Large feet with thick heel pads
• Skin changes: Hyperhidrosis, Hirsutism
• Bone: Hypertrophic arthropathy, increase BMD
• Visceromegaly: Goiter, Testiculomegaly

Question 37

Complications of Acromegaly

Answer 37

Complications: overall mortality 1.72× to general population (mainly due to CVS risk)

• Cardiovascular: HTN, LVH, cardiomyopathy with diastolic HF, CV mortality, VHD
• Metabolic: IGT (40%), T2DM (20%), ↑lipids, ↑Ca, ↑PO4
• Colon: ↑risk of colon CA, polyp, diverticulosis
• Others: ↑risk of other malignancy, renal stones (hypercalciuria)
• hyperprolactinemia (30%) (due to interference with hypothalamic/pituitary blood flow or from cosecretion of PRL)

Question 38

Investigations for acromegaly

Answer 38

□ Serum IGF-1: elevated
□ OGTT: inadequate GH suppression
Normal → adequate suppression to <1ng/L after 2h
Acromegaly → no suppression or paradoxical increase (30%)

□ Pituitary MRI and pituitary hormone profile
□ Colonoscopy for any colonic tumours

Question 39

Treatment options for acromegaly

Answer 39

Transsphenoidal surgery (1st line)
→ Postop evaluation: IGF-1 + random GH and MRI at postop 12w
→ Residual disease: repeat OT if resectable or compresses vital structures, otherwise medical or SRS

Medical Rx if not a surgical candidate or incomplete clearance
→ Somatostatin analogues, eg. octreotide, lanreotide
→ GH receptor antagonist, eg. pegvisomant
→ Dopamine agonist if co-secrete prolactin

Stereotactic RT if refractory to medical therapy

Question 40

Structural causes of hypopituitarism

Answer 40

Structural damage involving hypothalamus, pituitary or stalk

→ Tumours: large pituitary or hypothalamic tumours
→ Trauma: surgery, RT, head injury
→ Infarction: post-partum necrosis (Sheehan’s syndrome), pituitary apoplexy
→ Infiltration: haemosiderosis/haemochromatosis, histiocytosis, sarcoidosis
→ Infection: TB, syphilis, mycosis, toxoplasmosis (in AIDS)
→ Immunological: lymphocytic hypophysitis (spontaneous or induced by cancer immunotherapy), isolated ACTH deficiency (due to anti-ACTH secreting cell Ab)

Question 41

Congenital causes of hypopituitarism

Answer 41

→ Congenital panhypopituitarism
→ Isolated GH deficiency
→ Isolated LH/FSH deficiency, eg. in Kallmann’s syndrome (may be a/w anosmia)

Question 42

Functional causes of hypopituitarism

Answer 42

→ Emotional deprivation (GH insufficiency)
→ Anorexia nervosa (LH/FSH ± TSH insufficiency)

Question 43

Panel of tests for hypopituitarism

Answer 43

GH:
- IGF-1, ITT, GST, Arginine- GHrH stimulation test

ACTH:
- Short synacthen test, ITT, 9am serum cortisol

TSH: Thyroid function test

FSH/ LH: Random serum levels

Basal non-stressed prolactin

Question 44

Treatment of Growth hormone deficiency

Answer 44

GH replacement in children ± adults

Route: SC injection of recombinant GH daily

Indications in adult: impaired QoL + severe GH deficiency → reassess symptoms at 9mo
(defined as peak GH <9mU/L during a stimulation test)

Question 45

Treatment of Gonadotropin deficiency

Answer 45

Testosterone in M

• Route: usually long-acting IM injections every few weeks
• S/E: CA prostate (screen before starting and at 3mo, 1y), BPH, erythrocytosis, VTE, ?↑CVD risk

Oestrogen ± progestogen in Female in the form of COCP

Gonadotropins for ovulation induction

• Eg. human menopausal gonadotropin (HMG): mainly FSH
• Eg. human chorionic gonadotropin (hCG): mimics LH action
• Eg. recombinant FSH/LH, i.e. follitropin + lutropin α

Question 46

Treatment for TSH deficiency

Answer 46

T4 replacement (start at 1.6μg/kg)
→ Should be deferred until cortisol replaced as treatment of hypothyroidism may ↑cortisol clearance
→ Should aim serum T4 in upper 1/2-2/3 of normal range

Question 47

Treatment of ACTH deficiency

Answer 47

ACTH deficiency: hydrocortisone replacement (15-25mg/d)
→ Mineralocorticoid NOT required (independent of ACTH)

Question 48

Diabetes Insipidus

Definition

2 subtypes

Answer 48

Diabetes insipidus (DI): characterized by persistent excretion of excessive quantities of dilute urine

□ Cranial DI: deficient ADH production/secretion by pituitary

□ Nephrogenic DI: renal tubules unresponsive to ADH
→ More common, often asymptomatic
→ Only presents during episodes of water deprivation (eg. solute diuresis, ↓water intake)

Question 49

Familial causes of Diabetes insipidus

Answer 49

Central DI

• Vasopressin prohormone mutation (AD)
• Wolfram syndrome
• PCSK1 deficiency

Nephrogenic DI

• V2 receptor mutation (X-linked)
• Aquaporin 2 mutation (AR)
• Sickle cell trait

Question 50

Acquired causes of central DI

Answer 50

Traumatic – accidental, surgical

Neoplasm causing damage to pituitary stalk

• Primary – craniopharyngioma, dysgerminoma, meningioma, adenomal
• Secondary – metastasis

Granulomas – TB, sarcoidosis, Langerhans’ histiocytosis, toxoplasmosis…

Infections – meningitis, encephalitis

Vascular – Sheehan’s syndrome, aneurysm, hypoxic encephalopathy

Idiopathic or congenital – Congenital hypopituitarism, septo-optic dysplasia

Question 51

Acquired causes of nephrogenic DI

Answer 51

Renal tubular damage - Chronic pyelonephritis, APCKD, obstruction…

Metabolic – hypoK, hyperCa

Drugs

• Lithium carbonate for bipolar disorder
• Drugs causing tubular damage – eg. cisplatin, amphotericin B
• Others: cidofovir, foscarnet, demeclocycline, ifosfamide, ofloxacin, orlistat, didanosine

Gestational DI

Question 52

Clinical presentation of Diabetes insipidus

Answer 52

Clinical presentation:
□ Polyuria + polydipsia: suspect if >50mL/kg/d (>3000mL for 60kg female)
→ May be masked by associated cortisol deficiency (impairment of diuresis)

□ ± hyperNa: usu high-normal except in impaired thirst mechanism (eg. unconscious, hypothalamic lesion)

Question 53

Ddx of polyuria + polydipsia

Answer 53

Polyuria as primary defect: urine output > water intake, ↑plasma osmolality

• Solute (osmotic diuresis): DM (esp if hyperGly or on SGLT-2), urea diuresis (post AKI), mannitol, sodium diuresis (post volume expansion, post-obstructive)
• Water diuresis: diabetes insipidus
• Early CKD
• Diuretics

Excessive drinking as primary defect: water intake > urine output, ↓plasma osmolality
→ Primary polydipsia: excessive drinking in pt with psychiatric disease or hypothalamic lesions

Question 54

Investigations for Diabetes Insipidus

Answer 54

1. Chart I/O to document polyuria and rule out obvious alternative causes
2. Paired plasma/urine osmolality + plasma electrolytes
3. Water deprivation test

Question 55

Differentiate plasma osm, urine osm, Paired urine/plasma osmolality ratio results between:

Diabetes insipidus

Primary polydipsia

Osmotic diuresis

Answer 55

Question 56

Water deprivation test

• Indication
• MoA
• Procedure
• Findings

Answer 56

Indication: Suspected* DI
(already diagnostic if Urine: Plasma osmolality ratio <1 or Na conc. >145 + Urine osmolality <300)

Principle: to induce ↑ADH by creating hyperosmolar state and to detect response to ↑ADH

Procedure:

• No fluid intake for 8h (only dry food allowed)
• During test, measure hourly body weight, urine volume and U/P osmolality
• Stop when end-point reached (U/P osmo ratio ≤2 with Plasma osmo > 300) or lose 3% body weight)
• *- Give DDAVP 2μg IM**

Findings:

• Normal/primary polydipsia = adequate concentration of urine (U/P ratio ≥2)
• DI = plasma osmolality >300, U/P osmo ratio still ≤1.9 (cannot concentrate urine) (i.e. U < 600)
• Cranial DI = ↑ ≥50% urine osmo (adequate urine concentration) after DDAVP
• Nephrogenic DI = no change in urine osmo after DDAVP

Question 57

Management of cranial DI

Route of administration

S/E

Answer 57

Cranial DI: desmopressin (DDAVP)
→ RoA: usually intranasal, PO/sublingual also available

→ S/E: excessive Tx (water intoxication, hypoNa), inadequate Tx (hyperNa)

Question 58

Management of nephrogenic DI

Route of administration

S/E

Answer 58

Nephrogenic DI:
→ Treat underlying cause, eg. stop offending medication

→ Low Na/protein diet + thiazide diuretics ± amiloride

→ NSAIDs (inhibit prostaglandin production (antagonist of ADH action) and thus increase concentrating ability)

→ Consider DDAVP if refractory

Question 59

Acute post-operative/ Traumatic DI

Clinical presentation

Answer 59

Clinical presentation: follows classical triphasic pattern

→ Polyuric phase (phase I) due to transient DI from hypothalamic dysfunction leading to inhibition of ADH release
- Time frame: begins ≤24h and lasts till 4-5d

→ Antidiuretic phase (phase II) due to release of stored ADH from degenerating posterior pituitary → SIADH
- Time frame: usually d6-11, lasts 2-14d

→ Return of DI (phase III) due to depletion of stored ADH → may be permanent

Question 60

Management of Acute post-operative/ traumatic DI

Answer 60

Monitor: Chart I/O, Body weight, serum Na, urine osmolality

• Oral hydration or IV hydration with oral DDAVP
• Allow some polyuria between doses and give next dose if previously urine output >200mL/h in successive hours
• Target urine output 1-2L/ Day
• Advise drug holiday if appropriate