Endocrinology 1/6/20

Question 1

causes of hyponatraemia (with urine Na osmolarity >20mmol/L)

Answer 1

euvolaemic patient

• SIADH
• hypothyroidism

hypovolaemic patient
> Addison’s disease
> renal failure
> diuretics (thiazides/loop diuretics)

Question 2

causes of hyponatraemia (with urine Na osmolarity <20mmol/L)

Answer 2

hypovolaemic patient
> diarrhoea, vomiting
> burns

oedematous patient
     > secondary hyperaldosteronism  (heart failure, liver cirrhosis, renal artery stenosis)
     > nephrotic syndrome
     > IV dextrose
     > psychogenic polydipsia

Question 3

mild, mod, sev hyponatraemia serum Na values

Answer 3

normal blood sodium = 135-145mmol/L

mild = 130-134 mmol/l
mod = 120-129 mmol/l
sev =  <120 mmol/l

Question 4

symptoms of hyponatraemia

Answer 4

mild + mod:
Non-specific symptoms such as headache, lethargy, nausea, vomiting, dizziness, confusion, and muscle cramps

sev:

• seizures
• coma
• respiratory arrest

Question 5

management of mild hyponatraemia (130-134 mmol/L)

Answer 5

• fluid restriction (<800ml/day)

- loop diuretics (eg. furosemide)

Question 6

management of moderate hyponatraemia (120-129mmol/L)

Answer 6

• hypertonic saline in first 4 hrs (to raise Na)
• fluid restriction (<800ml/day)
• loop diuretics (eg. furosemide)

Question 7

management of severe hyponatraemia (<120mmol/L)

Answer 7

• bolus of hypertonic saline until symptom resolution

- may add conivaptan/tolvaptan to inhibit ADH (can be hepatotoxic)

Question 8

other management concerns for hyponatraemia

Answer 8

Fluids restriction in the following patients:

• Oedematous states like heart failure and cirrhosis
• SIADH
• Renal failure
• Psychogenic polydipsia

Central pontine myelinolysis is a risk in correcting severe hyponatraemia too quickly - leads to irreversible neuro damage, can lead to locked in syndrome

Question 9

causes of hypernatraemia

Answer 9

• dehydration
• osmolar diuresis eg. hyperosmolar hyperglycaemic state (HHS)
• diabetes insipidus
• excess IV saline

Question 10

hyperosmolar hyperglycaemic state (HHS) features

Answer 10

Often confused with DKA - check ketones/pH (HHS more common in DM2, while DKA usually DM1)

General Nervousness Harms Hearts

General:
polyuria, lethargy, nausea and vomiting

Neurological: altered level of consciousness, headaches, papilloedema, weakness

Haematological: hyperviscosity (may result in myocardial infarctions, stroke and peripheral arterial thrombosis)

Cardiovascular: dehydration, hypotension, tachycardia

Question 11

diagnosis of hyperosmolar hyperglycaemic state (HHS)

Answer 11

1. hypovolaemia
2. marked hyperglycaemia (>30 mmol/L) without significant ketonaemia or acidosis
3. significantly raised serum osmolarity (> 320 mmol/kg) gives features of hyperviscosity

Question 12

management of hyperosmolar hyperglycaemic state (HHS)

Answer 12

treat underlying cause

1. Normalise the osmolality (gradually)
2. Replace fluid (normal saline or 0.45% saline if not reducing in osmolarity sufficiently as is more hypotonic) and electrolyte losses
3. Normalise blood glucose (gradually)

prophylactic anticoagulation

Question 13

iatrogenic causes of siADH

Answer 13

• carbamazepine
• thiazides
• SSRIs and tricyclics
• vincristine and cyclophosphamide
• oxytocin and vasopressin

Question 14

management of siADH

Answer 14

correction must be done slowly to avoid precipitating central pontine myelinolysis

• fluid restriction
• demeclocycline: reduces the responsiveness of the collecting tubule cells to ADH (can cause photosensitive rash)
• ADH receptor antagonist eg. conivaptan/tolvaptan

Question 15

non-drug causes of siADH

Answer 15

• malignancy - particularly SCLC but also pancreatic and prostate
• neurological - stroke/SA or SD haemorrhage/meningitis or encephalitis or abscess
• infections - TB or pneumonia

Question 16

diagnosis of siADH

Answer 16

diagnosis of exclusion, must fill the folowing criteria:

• low plasma sodium concentration <135 mmol/l
• high urinary sodium concentration >30mmol/L
• patient euvolaemic
• absence of adrenal and thyroid dysfunction
• no diuretic use (recent or past)

Question 17

causes of hypercalcaemia

Answer 17

• primary hyperparathyroidism (PHPT): commonest cause in non-hospitalised patients
• malignancy: the commonest cause in hospitalised patients, may be due to a number of processes, including bone metastases, myeloma, PTHrP from squamous cell lung cancer

- other (<10% cases): 
     > vit D intoxication
     > granulomas eg. sarcoidosis/TB 
     > drugs (thiazides, calcium antacids, lithium, dietary calcium)
     > Addison's
     > thyrotoxicosis

Question 18

features of hypercalcaemia

Answer 18

• bones, stones, thrones (polyuria + constipation), abdo groans (stones, peptic ulcer, constipation, nausea) and psychiatric moans (confusion, mood change)
• polyuria + polydipsia
• anorexia/weight loss
• corneal calcification
• shortened QT interval

Question 19

normal adjusted calcium

Answer 19

Adjusted calcium range = 2.20-2.60 mmol/L

Question 20

management of hypercalcaemia

Answer 20

generally correct underlying cause and do an ECG and urine calcium (consider BMD scan)

• give saline IV
• bisphosphonate IV
• surgery in mets/PHPT

Question 21

primary adrenal insufficiency (Addisons) site of disease

Answer 21

adrenal cortex dysfunction

Question 22

secondary adrenal insufficiency site of disease

Answer 22

pituitary or hypothalamus dysfunction

Question 23

tertiary adrenal insufficiency site of disease

Answer 23

chronic glucocorticoid administration

Question 24

causes of primary adrenal insufficiency

Answer 24

• autoimmune “Addison’s” (destruction of adrenal glands)
• trauma
• TB
• malignancy (eg. bronchial carcinoma)
• meningococcal septicaemia (Waterhouse-Friderichsen syndrome)

Question 25

causes of secondary adrenal insufficiency

Answer 25

pituitary or hypothalamus disorders (e.g. tumours, irradiation, infiltration)

Question 26

causes of tertiary adrenal insufficiency

Answer 26

• glucocorticoid suppression

- post treatment of Cushing’s

Question 27

features of adrenal insufficiency

Answer 27

• lethargy, weakness, anorexia, nausea & vomiting, weight loss, hypotension, ‘salt-craving’
• skin/gum changes (in primary addison’s - hyperpigmentation (especially palmar creases), vitiligo, loss of pubic hair in women (due to reduced androgens)
• hypoglycaemia, hyponatraemia and hyperkalaemiac metabolic acidosis may be seen

Question 28

investigations for adrenal insufficiency

Answer 28

ACTH stimulation test (short synacthen test)

• plasma cortisol is measured before and 30 minutes after giving synacthen 250ug IM
• adrenal autoantibodies such as anti-21-hydroxylase may also be demonstrated in Addison’s

if not readily available eg. general practice, can use a 9am serum cortisol blood test

history and examination can rule out secondary/tertiary

Question 29

management of Addison’s

Answer 29

glucocorticoid and mineralocorticoid replacement therapy (double in illness to prevent crisis)

• hydrocortisone
• fludrocortisone

patient education

Question 30

management of Addisonian crisis

Answer 30

• hydrocortisone 100 mg IM or IV
• 1000ml normal saline IV (with dextrose if hypoglycaemic)
• continue hydrocortisone 6 hourly until the patient is stable. No fludrocortisone is required because high cortisol exerts weak mineralocorticoid action
• oral replacement may begin after 24 hours and be reduced to maintenance over 3-4 days

Question 31

role of PTH

Answer 31

increases:

• Ca2+ reabsortion in kidney
• hydroxylation of 25 OH vit D in kidney
• Ca2+ release from bone remodelling
• Ca2+ gut absorption via 25 OH vit D

decreases:
- phosphate reabsorption by kidney

Question 32

hypoparathyroidism features (symptoms of hypocalcaemia)

Answer 32

symptoms due to hypocalcaemia:

• tetany: muscle twitching, cramping and spasm
• perioral paraesthesia
• Trousseau’s sign: carpal spasm if the brachial artery occluded by inflating the blood pressure cuff and maintaining pressure above systolic
• Chvostek’s sign: tapping over parotid causes facial muscles to twitch
• if chronic: depression, cataracts
• ECG: prolonged QT interval

Question 33

pseudohypoparathyroidism

Answer 33

• chromosomal abnormality leading to PTH target G proteins being ineffective, so PTH less potent
• association with low IQ, short stature and short 4th and 5th metacarpals
• low calcium, high phosphate, high PTH

pseudopseudo hypoparathyroid = similar phenotype to pseudohypoparathyroidism but normal biochemistry

Question 34

Cushing’s syndrome causes

Answer 34

exogenous
- chronic steroid use

endogenous

• pituitary adenoma (Cushing’s disease)
• adrenal adenoma/carcinoma
• ectopic ACTH production (eg. SCLC)

Question 35

Cushing’s syndrome symptoms

Answer 35

due to cortisol's effect on different tissues
- muscle wasting
- central obesity
- moon face
- buffalo hump
- abdominal striae
- osteoporosis - fractures
- thin skin/easy bruising
- hyperglycaemia
    > diabetes
    > hypertension
    > amenorrhoea
    > infection susceptibility

Question 36

diagnosis of Cushing’s disease

Answer 36

measure free cortisol

• overnight dexamethasone suppression test
• 24hr urinary cortisol

Question 37

dexamethasone suppression test results meaning

Answer 37

low dose dexamethasone

• suppressed cortisol = normal
• cortisol not suppressed = endogenous cortisol Cushing’s

high dose dexamethasone
- suppressed by high dose but not low = cushing's DISEASE (pituitary adenoma)
- not suppressed by low or high
    > ACTH = low = adrenal Cushing's
    > ACTH = high = ectopic ACTH

Question 38

causes of hypokalaemia

Answer 38

• primary hyperaldosteronism (Conn’s)
• loop/thiazide diuretics
• metabolic alkalosis (eg. D+V)
• Cushing’s syndrome (high cortisol causes low potassium)
• insulin overdose
• magnesium deficiency
• renal tubular acidosis types 1 and 2

Question 39

features of hypokalaemia

Answer 39

- muscle weakness
     > skeletal = weakness, flaccid paralysis, cramps   
     > smooth = constipation, respiratory distress
     > cardiac = arrhythmias
- hypotonia
- increased risk of digoxin toxicity
ECG:
- U waves
- small or absent T waves
- prolonged PR interval
- ST depression

Question 40

causes of hyperkalaemia

Answer 40

• acute kidney injury
• drugs: potassium-sparing diuretics, antihypertensives, ciclosporin, heparin
• metabolic acidosis/renal tubular acidosis type 4
• insulin deficiency
• Addison’s disease (due to low aldosterone)
• cell lysis eg. rhabdomyolysis/tumour lysis/burns
• massive blood transfusion

Question 41

features of hyperkalaemia

Answer 41

• ascending muscle weakness
• flaccid paralysis
• arrhythmias
  ECG:
• tall-tented T waves
• loss of P waves
• broad QRS complexes

Question 42

management of kyperkalaemia

Answer 42

• calcium gluconate protects against cardiac arrhythmias
• calcium resonium (resin that aids secretion of K+)
• insulin + dextrose infusion
• nebulised salbutamol
• dialysis

Question 43

features of pituitary apoplexy

Answer 43

• headache (often sudden and severe)
• nausea and vomiting
• diplopia
• tunnel vision
• ptosis

Question 44

causes of thyroid storm

Answer 44

• thyroid or non-thyroidal surgery
• trauma
• infection
• acute iodine load e.g. CT contrast media

Question 45

thyroid storm features

Answer 45

• fever > 38.5ºC
• tachycardia
• confusion and agitation
• nausea and vomiting
• hypertension
• heart failure
• abnormal liver function test - may be jaundiced

Question 46

management of thyroid storm

Answer 46

• treatment of underlying precipitating event
• symptomatic treatment e.g. paracetamol for fever
• Lugol’s iodine
• anti-thyroid drugs: e.g. propylthiouracil
• beta-blockers: typically IV propranolol
• dexamethasone - blocks the conversion of T4 to T3

Question 47

posterior pituitary hormones

Answer 47

oxytocin and ADH

Question 48

causes of hypothyroidism

Answer 48

• Hashimoto’s thyroiditis (autoimmune)
• iodine deficiency
• iatrogenic - amiodarone, lithium
• postpartum thyroiditis
• subacute thyroiditis (viral) - painful goitre and raised ESR
• Riedel thyroiditis - painless fibrous goitre

Question 49

causes of thyrotoxicosis

Answer 49

• Graves’ disease (autoimmune)
• toxic multinodular goitre
• iatrogenic - amiodarone

Question 50

autoantibodies for autoimmune thyroid disease

Answer 50

• anti-thyroid peroxidase (anti-TPO) antibodies - mostly Hashimoto’s
• TSH receptor antibodies - mostly Graves’
• thyroglobulin antibodies

Question 51

types of hyperparathyroidism

Answer 51

primary
- due to tumour
- high PTH
- high Ca2+
secondary
- due to vit D deficiency/CKD
- high PTH
- low Ca2+
tertiary
- due to chronic secondary HPT, hyperplasia of glands cause irreversile high PTH secretion
- high Ca2+ if vit D/CKD treated
- treated by excision of surplus cells

Question 52

treatment for primary hypoparathyroidism

Answer 52

alfacalcidol

Question 53

features of myxoedema coma

Answer 53

severely hypothyroid

• hypothermia
• confusion/reduced GCS
• symptoms of hypothyroidism

Question 54

management of myxoedema coma

Answer 54

medical emergency

• IV liothyronine
• IV fluid
• IV corticosteroids (until the possibility of coexisting adrenal insufficiency has been excluded)
• electrolyte imbalance correction
• may need rewarming

Question 55

where is tumour in phaeochromocytoma?

Answer 55

• adrenal medulla - Chromaffin cells
  tumour secretes catecholamines

sometimes affects neural tissue on abdominal aorta

Question 56

features of phaeochromocytoma

Answer 56

• hypertension
• pounding headache
• palpitations/tachycardia
• diaphoresis (extreme sweating)

Question 57

diagnosis of phaeochromocytoma

Answer 57

24 hr urinary collection of metanephrines

Question 58

management of phaeochromocytoma

Answer 58

surgery required,
until then:
- alpha adrenergic blockade (phenoxybenzamine)
- THEN beta adrenergic blockade (propranolol)

Question 59

effects of digoxin

Answer 59

• increased inotrophic effect
• reduced heart rate (vagus parasymp stim)

takes ~7-10 days to reach steady state, important due to narrow therapeutic window (0.5-0.9ng/mL)

Question 60

drug interactions with digoxin

Answer 60

• amiodarone, verapamil - both increase arrhythmia risk
• PPIs - increase digoxin effect
• antacids - decrease digoxin effect

Question 61

electrolyte changes in refeeding syndrome

Answer 61

• hypophosphataemia
• hypokalaemia
• hypomagnesaemia: may predispose to torsades de pointes
• abnormal fluid balance

Question 62

causes of hypomagnesaemia

Answer 62

• drugs: diuretics, proton pump inhibitors
• total parenteral nutrition
• diarrhoea
• alcohol
• hypokalaemia, hypocalcaemia

Question 63

pathophysiology of diabetes insipidus

Answer 63

Diabetes insipidus is due to either:

• deficiency of ADH (cranial DI)
• insensitivity to ADH (nephrogenic DI)

Question 64

causes of nephrogenic diabetes insipidus

Answer 64

• lithium/tetracycline
• genetic
• CKD
• hypokalaemia/hypercalcaemia

Question 65

features of diabetes insipidus

Answer 65

• polyuria
• polydipsia
• hypernatraemia
• dehydration

Question 66

management of diabetes insipidus

Answer 66

cranial = desmopressin
nephrogenic = find cause, thiazides, low salt/protein diet

Question 67

features of prolactinoma

Answer 67

men
- impotence
- loss of libido
- galactorrhoea
women
- amenorrhoea
- infertility
- galactorrhoea
- osteoporosis

Question 68

drugs that can cause increased prolactin

Answer 68

• metoclopramide, domperidone, prochlorperazine

- haloperidol

Question 69

management of prolactinoma

Answer 69

• medical = dopamine agonists (e.g. cabergoline, bromocriptine)
• surgical removal

Question 70

causes of hirsutism

Answer 70

Ovarian
- PCOS
- androgen secreting ovarian tumour
Adrenal
- Cushing's syndrome
- congenital adrenal hyperplasia
- androgen therapy
- adrenal tumour
Other
- obesity: thought to be due to insulin resistance
- drugs: phenytoin, corticosteroids

Question 71

investigation for acromegaly

Answer 71

Serum IGF-1 level

Question 72

investigations for hypocalcaemia

Answer 72

• magnesium (if low can cause reduced PTH)
• vitamin D (deficiency will usually only cause mild hypocal)
• PTH

Question 73

management of hypocalcaemia

Answer 73

• ECG (long QTc)

- IV calcium gluconate (10ml 10% 10 mins, then infusion)

Question 74

Complications of hypothyroidism:

Answer 74

• high cholesterol/dyslipidaemia
• metabolic syndrome
• coronary heart disease and stroke, heart failure
• neurological and cognitive impairments
• adverse maternal and fetal outcomes in pregnancy

Question 75

target rate of Na+ rise when treating hyponatraemia

Answer 75

• no more than 4 to 6 mmol/l increase in a 24-hour period due to risk of central pontine myelinolysis

Question 76

estimation of serum osmolarity

Answer 76

osmolarity can be estimated with 2Na + glucose + urea

Question 77

autoantibodies in Addison’s disease

Answer 77

anti-21-hydroxylase

Question 78

features of Addisonian crisis

Answer 78

Follows a stressor that should increase cortisol eg. infection, illness, stress, etc

• hypotension
• hypoglycaemia
• hyperkalaemia

Question 79

management of hypernatraemia

Answer 79

treat underlying cause eg. dehydration/diarrhoea/HHS

• acute = dextrose 5%
• chronic = half-normal saline (0.45%)

Question 80

antibodies present in thyroid disease

Answer 80

Graves:

• TSH receptor stimulating antibodies (90%)
• anti-thyroid peroxidase (TPO) (75%)

Hashimoto’s:

• anti-thyroid peroxidase (TPO)
• anti-thyroglobulin (Tg) antibodies