Endocrinology 1

Question 1

What is acromegaly most commonly caused by?
Other causes:

Answer 1

Excess GH secondary to pituitary adenoma

ectopic GHRH or GH production by tumours e.g pancreatic

Question 2

Features acromegaly (6)

Answer 2

Coarse facial appearance
Spade like hands
Increased shoe size
Large tongue
Prognathism (bulging of jaw)
Excessive sweating

Question 3

Features of pituitary tumour (3)

Answer 3

Hypopituitarism
Headaches
Bitemporal hemianopia

Question 4

Other features of acromegaly (2)
Hint 1. MEN 2. increased in 1/3 of cases

Answer 4

MEN 1
Raised prolactin in 1/3 of cases

Question 5

Complications of acromegaly (4)

Answer 5

HTN
Diabetes
Cardiomyopathy
Colorectal ca

Question 6

What is Addison’s disease?
Leads to a change in which two hormones?

Answer 6

autoimmune destruction of adrenal glands leading to hypoadrenalism.

Leads to a reduction in cortisol and aldosterone.

Question 7

Features of Addison’s (8)

Answer 7

lethargy
anorexia
N&V
weight loss
hyperpigmentation (palmar creases) (only in Addison’s)
vitiligo
loss of pubic hair
hypotension

Question 8

Electrolyte changes in Addison’s (4) (na k+ glucose gas)

Answer 8

Hyponatramia and hyperkalaemia
Hypoglycaemia
Metabolic acidosis

Question 9

Addison’s crisis symptoms (3)

Answer 9

Collapse
Shock
Pyrexia

Question 10

Primary causes of hypoadrenalism (6)

Answer 10

TB
Metastases
Adrenal haemorrhage
Meningococcal
HIV
Antiphospholipid syndrome

Question 11

Secondary causes of hypoadrenalism (3)

Answer 11

Tumours
Irradiation
Exogenous glucocorticoid therapy

Question 12

Addison’s Ix
Definite investigation:

Answer 12

ACTH stimulation test (short synACTHen test)

Question 13

What is an ACTH stimulation test (short synACTHen test)?

Answer 13

Measure cortisol before and 30 minutes after giving synACTHen 250ug IM

Baseline cortisol measured, given synachthen and expect cortisol to double when measured at 30 minutes and 60minutes. If still low then Addison’s

Question 14

Addison’s - what can you do if an ACTH stimulation test is not possible?

Answer 14

Measure 9am cortisol

Question 15

Results for a 9am cortisol

Answer 15

> 500 - unlikely Addison’s
<100 - abnormal
100-500 = do a ACTH stimulation test

Question 16

Explain the hypothalamic pituitary axis

Answer 16

Hypothalamus releases hormones than impact both anterior and posterior pituitary as follows

Hypothalamus –> Anterior pituitary
CRH –> stimulates ACTH production
TRH –> stimulates TSH production
TRH –> stimulates prolactin
GnRH –> stimulates FSH/ LH production
Somatostatin –> inhibits GH production
Dopamine –> inhibits prolactin production

Posterior pituitary
Oxytocin
ADH

ACTH –> adrenals –> cortisol on many tissues
TSH –> thyroid –> thyroxine
FSH/LH –> gonads –> androgen or oestrogen production
GH –> liver –> insulin growth factor release (IGF) on many tissues
Prolactin –> breast –> lactation

Oxytocin –> uterine muscle
ADH –> distal convoluting tubules –> water reabsorption

Question 17

Addison’s Mx (2)

Answer 17

1. Hydrocortisone (20-30mg/day) (double if sick) - majority given in the first half of the day in 2-3 divided doses.
2. Fludrocortiose (stays the same when sick)

Question 18

What is Bartter’s syndrome?

What is the effect on BP

Answer 18

Autosomal recessive disease causing severe hypokalaemia

(defective chloride absorption at the NaKCl cotransporter in the ascending loop of Henle)

Associated with normotension

Question 19

Features of Bartter’s (5)
Age group

Answer 19

Presents in childhood

FTT
Polyuria and polydipsia
Hypokalaemia
Normotension
Weakness

Question 20

Mx of thyrotoxicosis

Answer 20

Carbimazole high dose for 6 weeks until pt becomes euthyroid before being reduced

Question 21

MOA carbimazole

Answer 21

blocks thyroid peroxidase from coupling and iodinating thus reducing thyroid hormone production

Question 22

Most common cause of thyrotoxicosis

Answer 22

Grave’s

Question 23

Other causes of thyrotoxicosis (5)

Answer 23

Graves
Toxic nodular goitre
Acute phase of subacte thyroiditis
Acute phase of post partum thyroiditis
Amiodarone

Question 24

DVLA rules for diabetics on insulin/ other hypoglycaemic inducing drugs such as sulfonylureas
Group 2
(5)

Answer 24

• no severe hypoglycaemia event in last 12 months
• full hypoglycaemic awareness
• show adequate control by regular blood glucose monitoring (BD monitoring and at times relevant to driving) (for 3 months before applying)
• driver must understand risks of hypoglycaemia
• no other debarring complications of diabetes

Question 25

Group 2 versus Group 1 in the context of DVLA

Answer 25

HGV = Group 2
Car = Group 1

Question 26

Car driver and on insulin or other hypoglycaemic inducing drugs such as sulfonylureas
Group 1

Answer 26

Hypoglyaemic awareness
No more than one episode of hypoglycaemia requiring the assistance of another person within the preceding 12 months
No visual impairment

Drivers are contacted by DVLA

Question 27

If on tablets of exanatide or diet controlled do the DVLA need to be informed?

Answer 27

No

Question 28

SE mineralocorticoids (2)

Answer 28

Fluid retention
HTN

Question 29

When to have a gradual withdrawal of systemic corticosteroids? (3)

Answer 29

40mg OD for more than 1 week
Or if they have received any dose for more than 3 weeks
Recently received repeated courses

Question 30

SE glucocorticoids psychiatric (3)
GI (2)
Eyes (2)

Answer 30

insomnia
depression
psychosis
Peptic ulcers
Pancreatitis
Glaucoma
Cataracts

Question 31

Cushings
Metabolic acidosis or alkalosis

Answer 31

Hypokalaemic metabolic alkalosis

Question 32

Cushings syndrome
Causes
ACTH dependent (2)
ACTH independent (3)
Pseudo (2)

Answer 32

ACTH dependent
1. Pituitary adenoma = Cushing’s disease
2. Ectopic ACTH production e.g small cell lung cancer

ACTH independent
1. Iatrogenic (steroids given to pt)
2. Adrenal carcinoma/ adenoma
3. Carney complex

Pseudo-Cushings
1. ETOH excess
2. Depression

Question 33

Cushings
Investigations (3)

Answer 33

1. Overnight dexamethasone suppression test
2. 24 hr urinary free cortisol
3. CRH stimulation test

Question 34

Cushings
Explain what the overnight dexamethasone test is
Explain its results

Answer 34

Split into low dose and high dose dexamethasone test
10pm give 1mg dexamethasone, 9am measure cortisol and ACTH

In a pt without any issues
Give 1mg dexamethasone, this acts on hypothalamus (negative feedback) and pituitary and adrenals –> therefore in the morning, you should have a low cortisol.

If you have Cushing’s disease (pituitary adenoma causing high cortisol)
As pt is used to having lots of cortisol, having 1mg dexamethasone will not cause negative feedback system. Therefore cortisol level will be normal or raised.

If low dose test is suggestive of Cushing’s you will then move on to high dose.

Give 8mg of dexamethasone at 10pm
Morning measure cortisol and ACTH

If you have Cushing’s disease (pituitary adenoma), 8mg is enough to trigger negative feedback system. Therefore ACTH will decrease and cortisol will fall.

If you have an adrenal gland tumour. The adrenal gland tumour cells will produce cortisol independent of ACTH. Therefore dexamethasone will work on pituitary through negative feedback system which leads to low ACTH. However as cortisol is independent of ACTH. Cortisol levels will be raised.

If you have ectopic ACTH production. Then dexamethasone will cause reduction in CRH and therefore ACTH. However as ectopic ACTH production still going on. ACTH will be raised and thus cortisol will be raised.

To summarise
Low dose test
Low cortisol = normal
High cortisol = cushing’s syndrome

High dose test
Low ACTH and low cortisol = Cushing’s syndrome
Low ACTH and high cortisol = Adrenal carcinoma/ adenoma
High ACTH and high cortisol = ectopic

Question 35

Explain CRH stimulation test

Answer 35

This is to determine between pituitary source or ectopic source

In a pituitary source - CRH stimulation = increased ACTH = increased cortisol

In an ectopic source - CRH stimulation = ACTH remains the same and cortisol stays the same as the ectopic ACTH acts as negative feedback to the hypothalamus.

Question 36

TFTS interpretation
What would you expect the TSH to look like in steroid therapy and secondary hypothyroidism

Answer 36

Steroid Low TSH, normal T4

Secondary hypothyroidism low and low

Question 37

Sick euthyroid TFTs

Answer 37

low and low although sometimes TSH can be normal

Question 38

How to prevent thyroid related eye disease?

What medication can reduce the risk?

Answer 38

smoking cessation
prednisolone

Question 39

Mx thyroid eye disease (4)

Answer 39

Topical lubricants
Steroids
Radiotherapy
Surgery

Question 40

What is the classification of thyroid disorders?

Answer 40

Primary - problem with the thyroid gland
Secondary - usually due to pituitary (pituitary apoplexy)
Congenital - hypothyroidism

Question 41

Name the thyroid condition:
Painful goitre and raised ESR

Answer 41

= subacute thyroiditis (hypothyroiditis)

Question 42

Subacute (De Quervain’s) thyroiditis - hypo or hyper
By what week will it return to normal?

Answer 42

Presents with hyperthyroidism following a viral infection but is actually hypothyroidism.
Week 4

Question 43

Name the thyroid condition:
Fibrous tissue replacing the normal thyroid parenchyma
Painless or painful goitre?
Hypo or hyper

Answer 43

Riedel thyroiditis
Painless
Hypothyroiditis

Question 44

Toxic multinodular goitre
What is it?

Answer 44

benign thyroid nodules that secrete excess thyroid hormones

Question 45

Postpartum thyroiditis
Hypo or hyper?

Answer 45

Hyper initially then hypo

Question 46

Most common cause of low thyroid in the developing world?

Answer 46

Iodine deficiency

Question 47

Name two drugs that can cause hypo thyroid and one that can cause hyper

Answer 47

Lithium hypo
Amiodarone both

Question 48

Name a skin condition caused by hyperthyroidism

Answer 48

Pretibial myxoedema

Question 49

Name three autoantibodies that can be tested for?

Answer 49

anti-TPO (Hashimotos)
TSH receptor antibodies (Grave’s)
Thyroglobulin antibodies

Question 50

Mx hyperthyroidism (3)

Answer 50

• propranolol
• carbimazole
• radioiodine tx

Question 51

When do you tx subclincial hypothyroidism? (figures)

Answer 51

TSH >10 and <= 70yo start rx if asymptomatic with levothyroxine
If >80 watch and wait

Question 52

When do you tx subclinical hypothyroidism?
65yo

Answer 52

TSH 4-10 and T4 normal = subclinical hypothyroidism

<65 and symptomatic - trial levothyroxine for 6 months, if no improvement then stop

Question 53

Subclinical hypothyroidism Mx
Older people (>80)
Asymptomatic people

Answer 53

Watch and wait, observe and repeat TFTs in 6 months

Question 54

What are the main cause of subclinical hyperthyroidism?
Particularly in which group of patients? (sex and age)

Mx

Answer 54

Multinodular goitre - particularly in elderly females

If persistently low TSH then low dose carbimazole for 6 months

Question 55

Describe Riedel’s thyroiditis

Describe the goitre

Age group and sex

Associated with which condition?

Answer 55

Hypothyroid characterised by dense fibrous tissue replacing the normal thyroid parenchyma
hard, fixed, painless goitre
middle aged women
associated with retroperitoneal fibrosis

Question 56

Describe the 4 phases of subacute thyroiditis (De Quervain’s)

Answer 56

phase 1 (lasts 3-6 weeks): hyperthyroidism, painful goitre, raised ESR
phase 2 (1-3 weeks): euthyroid
phase 3 (weeks - months): hypothyroidism
phase 4: thyroid structure and function goes back to normal

Question 57

subacute thyroiditis (De Quervain’s)
Ix

Answer 57

thyroid scintigraphy: globally reduced uptake of iodine-131

Question 58

subacute thyroiditis (De Quervain’s) mx (3)

Answer 58

self limiting
pain can be tx with NSAIDs or aspirin
if severe then steroids (especially if hypothyroidism develops)

Question 59

Examples of meflitinides
When will they be used?
Similar to
SE (2)

Answer 59

Repaglinide
Erratic lifestyle
Similar to sulfonylureas
Weight gain and hypoglycamia

Question 60

MODY mx (2)
Most common type
Gene defect
Increased risk of?

Answer 60

sensitive to sulfonylureas, insulin is not necessary

MODY 3
HNF alpha 1 gene defect
Increased risk of HCC

Question 61

Metabolic syndrome criteria (5)

Answer 61

Atleast 3 of the following:
Raised BM
Raised BP
Raised waist circumference
Raised triglycerides
Reduced HDL