Histo: Endocrine disease

Question 1

What types of cell are the anterior and posterior pituitary made up of?

Answer 1

Anterior = epithelial cells

Posterior = nerve cells

Question 2

What is the blood supply to the anterior pituitary?

Answer 2

Pituitary portal system

Question 3

Where do the nerves that make up the posterior pituitary originate?

Answer 3

Supraoptic nucleus and paraventricular nucleus

Question 4

Describe the histology of the anterior pituitary.

Answer 4

Made up of epithelial cells derived from the developing oral cavity

Question 5

How is hyperpituitarism defined?

Answer 5

Excess secretion of the trophic hormones (hormones released by anterior pituitary) - e.g. TRH, LH, FSH, GH, ACTH, PRL)

immunohistochemical diagnosis

Question 6

What is the most common type of pituitary adenoma?

Answer 6

Prolactinoma

Question 7

What is a microadenoma?

Answer 7

A pituitary adenoma with a diameter < 1 cm

Question 8

Outline the clinical features of prolactinoma.

Answer 8

• Amenorrhoea
• Galactorrhoea
• Loss of libido
• Infertility

Question 9

What are the clinical manifestations of growth hormone adenomas?

Answer 9

• Gigantism (in prepubertal children)
• Acromegaly (in adults)
• Diabetes, Muscle weakness, Congestive HF, HTN

Question 10

What disease is caused by corticotroph cell adenomas?

Answer 10

Cushing’s disease

Question 11

List some causes of hypopituitarism.

Answer 11

• Non-secreting pituitary adenoma
• Ischaemia
• Iatrogenic (e.g. surgery, radiotherapy)

Question 12

What is the most common cause of ischaemic necrosis of the pituitary gland?

Answer 12

Sheehan’s syndrome - the pituitary enlarges during pregnancy and is more susceptible to ischaemia. A post-partum haemorrhage may induce ischaemia.

Other causes: DIC, sickle cell anaemia, shock

Question 13

List some clinical features of hypopituitarism.

Answer 13

Children – growth failure (pituitary dwarfism)

Gonadotrophin deficiency:
* Amenorrhoea and infertility in women
* Decreased libido and impotence in men

TSH and ACTH deficiency – secondary hypothyroidism and secondary hypoadrenalism

Prolactin deficiency – failure of post-partum lactation

Question 14

Which hormones are produced by the posterior pituitary?

Answer 14

ADH and oxytocin

Question 15

Which clinical syndrome involves ADH?

Answer 15

Diabetes insipidus

SIADH

Question 16

List some consequences of a local mass effect of pituitary tumours.

Answer 16

• Bitemporal hemianopia (optic chiasm)
• Headaches (raised ICP)
• Obstructive hydrocephalus

Question 17

Describe the histological appearance of the thyroid gland.

Answer 17

• Arranged into follicles with a small amount of stromal tissue between them
• They are lined by epithelial cells and have a large amount of colloid in the middle
• Parafollicular cells are found between the follicles

Question 18

Describe the physiological response of the thyroid gland to TSH.

Answer 18

• Stimulating of TSH receptors leads to pinocytosis of the colloid (to intake thyroxine) by the thyroid follicular cells AND promotes the conversion of thyroglobulin into T3 and T4
• Release of thyroid hormones into the circulation results in a rise in basal metabolic rate

Question 19

Which hormone do parafollicular cells produce?

Answer 19

Calcitonin - this promotes the absorption of calcium by the skeletal system to reduce calcium levels

Question 20

What is a non-toxic goitre?

Answer 20

Enlargement of the thyroid gland without overproduction of thyroid hormones

Question 21

What is the most common cause of non-toxic goitre?

Answer 21

• Commonly caused by impaired thyroxine production due to Iodine deficiency (Higher rates in developing countries)
• NOTE: bassicas (e.g. cabbages) interfere with thyroid hormone synthesis
• It may also be caused by a hereditary enzyme deficiency

Question 22

List some primary causes of thyrotoxicosis.

Answer 22

• Graves’ disease
• Hyperfunctioning multinodular goitre/adenoma
• Thyroiditis

Question 23

List some pathological causes of thyrotoxicosis that are not associated with the thyroid gland.

Answer 23

• Struma ovarii - ovarian teratoma with ectopic thyroid hormone production
• Factitious thyrotoxicosis - exogenous thyroid hormone intake

Question 24

Which antibodies are often seen in Graves’ disease?

Answer 24

Antibodies to the TSH receptor and thyroglobulin

Question 25

Describe the effect of TSH receptor-stimulating antibodies.

Answer 25

They stimulate thyroid hormone release and increase proliferation of the thyroid epithelium.

Question 26

List some primary causes of hypothyroidism.

Answer 26

• Primary atrophic (no goitre - small thyroid, lymphocyte infiltrated - commonest in the UK)
• Iatrogenic (post-surgery, post-grave’s disease treatment)
• Autoimmune (Hashimoto’s, plasma cell infiltration, Hurthe cells, Goitre!)
• Iodine deficiency

Question 27

Describe the presentation of Hashimoto’s thyroiditis.

Answer 27

Painless enlargement of the thyroid gland with symptoms of hypothyroidism.

Question 28

Describe the histology of Hashimoto’s thyroiditis.

Answer 28

• There are lots of lymphoid cells with germinal centres
• The epithelial cells become large with lots of eosinophilic cytoplasm (Hurthle cells)

Question 29

List some features of a thyroid lump that would be suggestive of neoplasia.

Answer 29

• Solitary rather than multiple
• Solid rather than cystic
• Younger patients
• Male more than female
• Less likely to take up radioiodine

Question 30

List some features of adenomas of the thyroid gland.

Answer 30

• Usually solitary
• Well circumscribed
• Well-formed capsule
• Small proportion will be functional

Question 31

List the four types of thyroid cancer in order of decreasing prevalence.

Answer 31

• Papillary (80%)
• Follicular (15%)
• Medullary (5%)
• Anaplastic

Question 32

What are some risk factors for thyroid cancer?

Answer 32

• Genetic factors (e.g. MEN)
• Ionisation radiation (mainly papillary)

Question 33

What is the diagnosis of papillary thyroid cancer based on?

Answer 33

• Nuclear features
  
  • Optically clear nuclei
  • Intranuclear inclusions (Orphan Annie Eye)
• There may also be psammoma bodies (little foci of calcification)
• Usually non-functional
• On histology, they have a papillary structure (central connective tissue stalk with surrounding epithelium)

Question 34

Where does papillary thyroid cancer tend to metastasise to?

Answer 34

Cervical lymph nodes

Question 35

Where does follicular thyroid cancer tend to metastasise?

Answer 35

Lungs, bone and liver (via the bloodstream)

Question 36

Which cells are medullary thyroid cancers derived from?

Answer 36

Parafollicular C cells

NOTE: 80% are spoardic, 20% are familial

Question 37

What tends to happen to the calcitonin produced by tumour cells in medullary thyroid cancer? Which stain can this be observed

Answer 37

• It is broken down and deposited as amyloid within the thyroid
• Visualised using congo-red stain (method to diagnose medullary thyroid cancer)

Question 38

What are the parathyroid glands derived from?

Answer 38

Developing pharyngeal pouches

Question 39

List the actions of PTH.

Answer 39

• Activates osteoclasts
• Increased renal absorption of calcium
• Increases activation of vitamin D
• Increases urinary phosphate exretion
• Increases intestinal calcium absorption (secondary to activation of vitamin D)

Question 40

What is hyperparathyroidism usually caused by?

Answer 40

• 80% solitay adenoma
• 20% due to hyperplasia of all four glands (sporadic or part of MEN1)

Question 41

Describe the histological appearance of a parathyroid adenoma.

Answer 41

Very cellular tissue with no fat (whereas the normal parathyroid gland is quite fatty)

Question 42

What bone change is seen in hyperparathyroidism?

Answer 42

Osteitis fibrosa cystica - caused by bone resorption with thinning of the cortex

Question 43

What is the most common cause of secondary hyperparathyroidism?

Answer 43

Renal failure - Defect in the activation of vitamin D in the kidneys due to chronic kidney disease (CKD) leads to hypocalcemia

Question 44

List some causes of hypoparathyroidism.

Answer 44

• Surgical ablation
• Congenital absence
• Autoimmune

Question 45

List some clinical features of hypoparathyroidism.

Answer 45

• Neuromuscular irritability
• Cardiac arrhythmias
• Fits
• Cataracts

CATs go NUMB

Question 46

Which cell types constitute the cortex and medulla of the adrenal gland?

Answer 46

Cortex = epithelial

Medulla = neural

Question 47

What are the layers of the adrenal cortex and which hormones do they produce?

Answer 47

• Glomerulosa - aldosterone
• Fasciculata - glucocorticoids
• Reticularis - sex steroids

Question 48

What is the most common cause of Cushing’s syndrome?

Answer 48

Administration of exogenous corticosteroids (leads to adrenal atrophy)

Question 49

What happens to the adrenal glands in Cushing’s disease?

Answer 49

Undergo nodular hyperplasia of the cortex with exception of exogenous use of corticosteroids induced Cushing’s

Question 50

List some other causes of Cushing’s syndrome.

Answer 50

• Cushing’s disease
• Adernal adenoma/carcinoma
• Adrenal hyperplasia

Question 51

What are the causes of hyperaldosteronism?

Answer 51

• 35% adenoma (Conn’s syndrome)
• 60% bilateral adrenal hyperplasia

Question 52

List the two main clinical features of hyperaldosteronism.

Answer 52

Hypertension

Hypokalaemia

Question 53

What causes virilising syndromes?

Answer 53

• May be associated with neoplasms (more commonly carcinoma than adenoma)
• Congenital adrenal hyperplasia

Question 54

Describe the pathophysiology of congenital adrenal hyperplasia.

Answer 54

• Autosomal recessive
• Hereditary defect in an enzyme involved in cortisol synthesis leads to cortisol deficiency
• This leads to increased ACTH release from the pituitary gland
• ACTH stimulates androgen synthesis from the adrenal gland

Question 55

List three causes of acute primary adrenal failure.

Answer 55

• Haemorrhage
• DIC associated with sepsis (Waterhouse-Friderichson syndrome)
• Sudden withdrawal of corticosteroid treatment

Question 56

List some causes of chronic primary adrenal failure.

Answer 56

• Autoimmune (90%)
• TB
• HIV
• Metastic tumour

Question 57

What are the two types of adrenocortical neoplasm?

Answer 57

• Adenomas - mostly functional, may be associated with Cushing’s syndrome or Conn’s syndrome
• Carcinomas - rare, more commonly associated with virilisng syndromes than adenomas

Question 58

What are the two types of tumours of the adrenal medulla?

Answer 58

• Phaeochromocytoma
• Neuroblastoma (does not release epinephrine)

Question 59

What is the rule of 10s regarding phaeochromocytomas?

Answer 59

• 10% associated with a syndrome
• 10% bilateral
• 10% malignant
• 10% oustide the adrenal gland (paraganglioma)

Question 60

Define multiple endocrine neoplasia.

Answer 60

A group of inherited conditions resulting in proliferative lesions of multiple endocrine organs

Question 61

Outline the features of MEN.

Answer 61

• Tumours tend to occur at a younger age
• Tumours tend to arise in multiple endocrine organs or may be multifocal within one organ
• Tumours are often preceded by hyperplasia
• Tumours are usually more aggressive than sporadic tumours