Endocrine

Question 1

Low calcium, low phosphate cause?

Answer 1

Vitamin D deficiency

Question 2

High calcium, high phosphate cause?

Answer 2

Vitamin D excess (Would also get low PTH)

Question 3

Findings on Hypoparathyroidism bloods?

Answer 3

Low calcium
High phosphate
Low PTH

Question 4

Causes of hypocalcemia

Answer 4

Transient hypocalcemia of infancy (<72hrs)
Vitamin D deficiency
Magnesium deficiency
Hypoparathyroidism
Cystic fibrosis
Pseudohypoparathyroidism

Question 5

Causes of hypoparathyroidism

Answer 5

Thyroidectomy or parathyroidectomy
22q11 deletion syndrome (DiGeorge)!!
Autoimmune (APS1 which is associated with Addisons disease and mucocutaneous candidiasis)

Question 6

Action of PTH

Answer 6

Activates 25,vit D to 1,25(OH)2vitD which increases calcium reabsorption and increases phosphate excretion in the kidney

Question 7

Features of pseudohypoparathyroidism

Answer 7

PTH resistance, so PTH will be high but not effective so will get low calcium and high phosphate

Short stature
Tetany
Short 4th and 5th digits
Round facies / obesity
Developmental delay

Question 8

Features of pseudopseudohypoparathyroidism

Answer 8

Skeletal manifestations:
- brachydactyly
- short stature
- round face

No PTH resistance, so normal PTH and calcium levels
Due to paternal imprinting of the GNAS mutation

Question 9

Causes of Hypercalcemia

Answer 9

• Primary hyperparathyroidism
  ○ Causes increased bone resorption, increased renal Ca+ reabsorption and absorption of GI calcium (Via calcitriol) (usually as part of MEN)
• Malignancy (PTHrP)
• Excess vitamin D
  ○ Too much GI calcium absorption
  ○ May be due to too much 1,25 vit D (calcitriol), ectopic sources of vitamin D eg from granulomatous disease and subcutaneous fat necrosis
• Thiazide diuretics
  ○ Increased Ca++ reabsorption in distal tubule of kidney
• Thyrotoxicosis
• Sarcoidosis
• Williams Syndrome
• Idiopathic infantile hypercalcemia
• Prolonged immobilisation (causes increased bone turnover)

Question 10

Management of hypercalcemia

Answer 10

1. Hyperhydration
2. Bisphosphonates
3. Glucocorticoids (helpful if due to too much vitamin D)
4. Loop diuretics sometimes used
5. calcitonin (short acting)

Question 11

Features of MODY

Answer 11

Autosomal dominant inheritence
- need 3 generations of family members and at least one diagnosed with DM <25yrs old
- Monogenic
- Sulfonylureas first line for MODY1 and 3, no treatment needed for MODY2 usually

Question 12

Features of MEN1

Answer 12

Neoplasia/ hyperplasia of the pancreas, parathyroid gland and anterior pituitary

• Hyperparathyroidism
• Pancreatic tumour
• Pituitary tumours, commonly prolactinomas

Question 13

Features of APECED/ Autoimmune polyglandular syndrome 1 (AIRE gene mutation)

Answer 13

• Oral and nail candida
• Hypoparathyroidism
• Addisons disease
  +/- alopecia, vitiligo and DM

Question 14

Gene mutation causing pseudohypoparathyroidism (PTH resistance)?

Answer 14

GNAS mutation on chromosome 20q13 (maternal imprinting)

Question 15

Features of MEN2a

Answer 15

Pheochromocytoma
Medullary thyroid cancer
Hyperparathyroidism

Question 16

Features of MEN2b

Answer 16

Pheochromocytoma
Medullary thyroid cancer

(no hyperparathyroidism)

Question 17

Mutation in Calcium sensing receptor (CaSR) -> high serum Ca+, low urinary Ca+ and inappropriately normal PTH?

Answer 17

Familial Hypocalciuric Hypercalcemia

Question 18

Management of X-linked hypophosphatemic rickets?

Answer 18

Phosphate supplement (split dosing as much as possible to avoid phosphate peaks which cause secondary hyperPTH)
Calcitriol (1,25 vit D)
Burosumab (mab against FGF23 which is upregulated in this condition)

Question 19

Cause of short stature in Turner syndrome

Answer 19

Absence of SHOX gene on X chromosome. Need 2 copies to have normal stature

Question 20

How to distinguish central from peripheral precocious puberty?

Answer 20

Basal LH usually <0.3 in peripheral, >0.3 in central
LH:FSH ratio >1.0 is usually central
GnRH stimulation test can be done - will see an increase in LH to >5 with central PP

Question 21

Features of McCune Albright Syndrome

Answer 21

• Cafe au lait macules (coast of Maine)
• Precocious puberty
• > presents with early PV bleeding at age 3-4 in girls (Initially GIPP then GDPP)
• Fibrous dysplasia of skeletal system, often asymmetric

Question 22

Predisposing factors for T1DM

Answer 22

• HLA DR3 and DR4 (2-3x)
• HLA B8 and HLA-BW15
• f

Question 23

What is the “honeymoon period” in T1DM?

Answer 23

Period of residual beta cell function, commonly in early months after diagnosis (residual beta cells can still make insulin)
Will usually have good glycaemic control with minimal insulin requirements

Question 24

What is the “dawn phenomenon” in T1DM?

Answer 24

Normal occurrence of increased BGL between 4-7am with no preceding hypoglycaemia. It is a transient mild insulin resistance due to nocturnal GH secretion

Question 25

Features of metabolic syndrome

Answer 25

Obesity (BMI >97th %ile)
Insulin resistance
Hypertension (BP >90th %ile)
Abnormal lipid profile (high trigs, low HDL)

Question 26

Best test and management of CF-related DM

Answer 26

OGTT
Insulin

Question 27

Management of adrenal crisis?

Answer 27

1. Fluid bolus (0.9%NaCl)
2. IVT with 5% glucose + 0.9% NaCl
3. Hydrocortisone stress dose (50-100mg/m2) - has mineralocorticoid action also then taper hydrocortisone to physiologic requirements (6-8mg/m2)
4. Can continue usual PO daily fludrocortisone dose (dose not need to be increased for stress)

Question 28

Features of 21 hydroxylase deficiency

Answer 28

Low cortisol -> hypoglycaemia
Low aldosterone -> salt wasting (hyponatremia) and hyperkalemia
Excess testosterone shunting -> virilisation in females

Question 29

Features of 3 beta hydroxysteroid dehydrogenase deficiency CAH

Answer 29

Low cortisol
Low aldosterone -> salt wasting in boys and girls
Low testosterone but high DHEA
- incomplete virilisation and hypospadias in M
- mild virilisation in F
- early pubic and axillary hair d/t DHEA

Question 30

Features of 11 beta hydroxylase deficiency

Answer 30

Low cortisol
High mineralocorticoids (because deoxycorticosterone accumulates and this has mineralocorticoid activity) -> salt retention and hypertension
High testosterone -> virilisation

Question 31

Most common cause of Cushing syndrome?

Answer 31

Iatrogenic (excess corticosteroids)

Question 32

What causes Klinefelter syndrome

Answer 32

47 XXY
Occurs due to meiotic non-dysfunction with extra chromosome coming from the mother in 50% and coming from the father in 50%
Advanced maternal age is a RF

Question 33

Hypogonadotrophic hypogonadism and anosmia

Answer 33

Kallman syndrome

Question 34

What would you expect on bloods in 21 hydroxylase deficiency?

Answer 34

Elevated 17 OH progesterone
High renin
Aldosterone inappropriately low
Salt wasting:
- Low Na+
- High K+

Question 35

What is the most common cause of congenital hypothyroidism?

Answer 35

Thyroid dysgenesis (abnormal thyroid gland development) resulting from agenesis, ectopia or hypoplasia …

with ectopia making up 2/3

Question 36

Sensorineural hearing loss and goitre (with or without hypothyroidism)

Answer 36

Pendred syndrome (AR)
- due to lack of pendrin protein

Question 37

Newborn screening doesn’t detect hypothyroidism caused by…

Answer 37

central hypothyroidism (screening tests for high TSH)

Question 38

Management of hyperthyroidism

Answer 38

Carbimazole for 2-3yrs
- prevents TPO enzyme from coupling and iodinating the tyrosine residues on thyroglobulin -> reduced production of T3 and T4.

Beta blocker eg atenolol (block peripheral conversion of T3-T4) for 2-6wks

Radical treatment if no remission after >2yrs: radioactive iodine or thyroidectomy

Aim to get T4 to normal range

Question 39

Management of Klinefelter syndrome

Answer 39

Need lifelong testosterone (remember they have Primary hypogonadism)

Question 40

Genetic defect causing Noonan Syndrome?

Answer 40

Defect in PTPN 11 gene on chromosome 12q24

AD trait but has variable expression

Question 41

Features of Bardet-Biedl syndrome

Answer 41

• Retinitis pigmentosa (causes night blindness and tunnel vision/loss of peripheral vision)
• Obesity
• ID
• Hypogonadism
• Polydactyly
• Renal defects (various)

Question 42

Presentation of Prader Willi syndrome

Answer 42

• Hypotonia, weak cry at birth
• Initially FTT then obesity due to hyperphagia
• Low IQ
• Small penis with cryptorchidism
• Small hands and feet
• Hypogonadism

Question 43

Features of Turners Syndrome

Answer 43

• Short stature (100%)
• Webbed neck, low posterior hairline
• Small mandible
• Prominent ears
• Broad chest with widely spaced nipples
• Cubitus valgus
• Distal radioulnar subluxation (Madelung deformity)
• Shortening of the 4th metatarsals + metacarpals
• Cardiac: bicuspid aortic valve (~50%), coarctation of Aorta (20%)
• Pelvic kidney or horseshoe kidney or double collecting system
• Hypogonadism (10-20% can have breast development)
• Autoimmune disease: thyroid disease (10-20%), coeliac disease
• SNHL
• Recurrent otitis media

Question 44

How can you differentiate between Turners Syndrome and Noonan Syndrome?

Answer 44

Turners typically have normal IQ (IQ reduced in Noonan syndrome)
Turners causes R-sided cardiac defects (bicuspid aortic valve, CoA) whereas Noonan causes L-sided cardiac defects (eg PS)

Karyotype abnormal in Turners (usually 45X0), will be normal in Noonans

Question 45

Features of complete androgen insensitivity (46 XY DSD)?

Answer 45

• Female external genitalia (due to resistance to testosterone and no formation of Wolffian ducts)
• Intra abdominal testes and no internal female genital organs
• Normal testosterone levels
• Breast development during puberty but no menses (obviously) or adrenarche (due to androgen resistance)

Question 46

What do WAGR, Deny-Drash and Frasier syndromes all have in common?

Answer 46

All caused by mutations in the WT1 gene which is involved in gonadal and renal development. They can all cause:

• 46 XY DSD with ambiguous genitalia
• Renal disease (diffuse mesangial sclerosis in DD, FSGS in Frasier)
• Increased risk of gonadoblastoma

WAGR and Denys-Drash also at increased risk of Wilms tumour

Question 47

What are the 3 features of septo-optic dysplasia

Answer 47

1. Optic nerve abnormalities (hypoplasia of nerve or absence of optic chiasm)
2. Agenesis or hypoplasia of corpus callosum and/or septum pellucidum
3. Anterior and/or posterior hypopituitarism

Question 48

What could you expect to find with an ectopic posterior pituitary bright spot?

Answer 48

Commonly causes anterior pituitary deficiencies. May present with panhypopituitarism or GH deficiency

Question 49

Which agents could be used in a growth hormone stimulation test?

Answer 49

Clonidine, levodopa, insulin, glucagon or arginine

Question 50

How do you differentiate SIADH from cerebral salt wasting

Answer 50

Both have hyponatremia

SIADH
- Euvolemia
- Low urine output
- Low urine Na+
- High ADH
- Normal ANP

Cerebral salt wasting (Due to over secretion of ANP)
- Hypovolemia
- High urine output
- High urine Na+
- Low ADH
- High ANP

Question 51

Management of SIADH

Answer 51

• Fluid restriction
• Hypertonic saline if severe, symptomatic or resistant hyponatremia
• Tolvaptan (ADH receptor antagonist)
• Urea crystals

Question 52

What is calcitriol?

Answer 52

Activated vitamin D: 1,25 (OH)2 vit D

25OH vit D (circulating form) -> converted to 1,25(OH)2 vit D by 1 alpha hydroxylase in the kidney (which is stimulated by PTH)