Investigating the Endocrine System

Question 1

What is a hormone?

Answer 1

hormones are messenger molecules secreted by endocrine glands

Question 2

What is meant by endocrine, paracrine and autocrine signalling?

Answer 2

endocrine:

• endocrine cells release hormones that act on distant cells in the body
• the hormones travel in the bloodstream

paracrine:

• the signalling cell induces changes in nearby cells

autocrine:

• a cell secretes a hormone that binds to autocrine receptors on the SAME cell to induce changes within the cell

Question 3

What types of cells can hormones influence?

What types of changes do they produce?

Answer 3

hormones circulate and influence other tissues

they produce short- and long-term changes in various cells

a hormone can only influence cells that have specific target receptors for that particular hormone

Question 4

What are the 3 different types of hormones?

Answer 4

peptide hormones:

• PTH, ACTH, TSH

steroid hormones:

• testosterone, oestradiol, cortisol

tyrosine-based hormones:

• thyroxine (T4) and triiodothyronine (T3)

Question 5

What are the 3 ways in which a steroid hormone can elicit a response?

Answer 5

1. classical model
2. receptor-mediated endocytosis
3. signalling through cell-surface receptors

Question 6

What is meant by the ‘classical model’ that shows how a steroid hormone can elicit a response?

Answer 6

1. steroid hormone dissociates from its plasma carrier porotein and diffuses across the cell membrane
2. after gaining entry to the cell, the free hormone binds to an intracellular receptor and alters gene transcription

Question 7

What happens in receptor mediated endocytosis?

Answer 7

1. the steroid hormone, bound to its plasma protein, is brought into the cell via a cell-surface receptor
2. the complex is broken down inside the lysosome and the free steroid hormone diffuses into the cell
3. the hormone exerts its action at the genomic level or undergoes metabolism

Question 8

How does signalling through cell-surface receptors work?

Answer 8

1, the steroid hormone alters intracellular signalling by binding to cell-surface receptors

the steroid hormone can exert these effects directly or could alter signalling by blocking the actions of peptide hormones

Question 9

What is meant by feedback regulation in endocrine systems?

Answer 9

feedback loops are used to regulate secretion of hormones in the hypothalamic-pituitary axis

Question 10

What are the following hormones?

Answer 10

Question 11

Which hormones influence the gonads to produce sex hormones?

Answer 11

• GnRH from the hypothalamus leads to…
• secretion of LH and FSH in the anterior pituitary
• these hormones cause the gonads to produce sex hormones

Question 12

Which hormones from the hypothalamus influence the production of growth hormone?

Answer 12

GHRH stimulates growth hormone production

Somatostatin suppresses growth hormone production

Question 13

What does production of TRH in the hypothalamus lead to?

Answer 13

TRH increases the secretion of TSH in the anterior pituitary gland

This travels to the thyroid gland and increases thyroxine production

Question 14

Which hormones from the hypothalamus influence prolactin secretion?

Answer 14

PRH increases prolactin secretion

Dopamine suppresses prolactin secretion

Prolactin travels to the breasts

Question 15

What is the result of CRH production in the hypothalamus?

Answer 15

CRH stimulates the anterior pituitary to secrete ACTH

ACTH stimulates the adrenal cortex to secrete cortisol

Question 16

What is thyroxine-binding globulin (TBG)?

How can it affect interpretation of thyroid function tests?

Answer 16

only the “free” unbound forms of thyroxine are physiologically active

if the level of TBG changes, this results in a change in the level of the free hormones

measurement of total hormone levels can be misleading

Question 17

What conditions may lead to an increase in plasma TBG concentration?

Answer 17

• genetic causes
• pregnancy
• oestrogens (OCP)

Question 18

What conditions may lead to a decreased plasma TBG concentration?

Answer 18

• genetic causes
• protein-losing states
• malnutrition
• malabsorption
• acromegaly
• Cushing’s disease
• high dose corticosteroids
• severe illness
• androgens

Question 19

What conditions may be seen in the following situations?

Answer 19

Question 20

What test is performed if TSH is decreased or elevated?

Answer 20

if TSH testing results are normal, no further testing is performed

if TSH is decreased or elevated, a free T4 test is conducted

Question 21

What conditions may be suggestive of the following scenarios?

Answer 21

decreased TSH level:

• low free T4 - central hypothyroidism
• normal free T4 - T3 toxicosis or subclinical hyperthyroidism
• elevated free T4 - hyperthyroidism

elevated TSH level:

• low free T4 - hypothyroidism
• normal free T4 - subclinical hypothyroidism
• elevated free T4 - TSH secreting tumour

Question 22

What is T3 toxicosis and what might cause it?

Answer 22

a state in which patients have a high level of T3 and low TSH but normal level of T4

it is caused by iodine deficiency

or

the earliest stages of disease caused by a thyroid nodule, multinodular goitre or Graves’ disease

Question 23

What is meant by subclinical hypothyroidism?

Answer 23

an early, mild form of hypothyroidism

only the serum level of TSH from the anterior pituitary gland is a little bit above normal

Question 24

What hormone leves would be seen in secondary hypothyroidism?

Answer 24

NORMAL TSH with a LOW T4

8% of patients have low serum TSH concentrations

84% of patients have normal TSH concentrations

8% have high TSH values

Question 25

What is meant by “sick euthyroid disease”?

Answer 25

a condition in which serum levels of thyroid hormones are low in clinically euthyroid patients with nonthyroidal systemic illness

Question 26

What is the treatment of sick euthyroid disease aimed at?

Answer 26

diagnosis is based on excluding hypothyroidism

treatment is directed towards the underlying illness

thyroid hormone replacement is not indicated

Question 27

What would thyroid function test results look like in someone suffereing from non-thyroidal illness?

Answer 27

patients suffering from non-thyroidal illness may show abnormalities within thyroid function tests, despite being euthyroid

TSH levels may be suppressed ( < 0.1 mU/L) in acute phases

Question 28

In a patient suffering from non-thyroidal illness, what happens to TSH levels after illness?

How about free thyroid hormone levels?

Answer 28

TSH levels may transiently rise into the hypothyroid range (< 10 mU/L) in the recovery phase following a period of illness

illness can reduce the levels of TBG or modify its capacity to bind T3 and T4

this increases free thyroid hormone levels

Question 29

When should thyroid function tests be requested in hospitalised/ill patients and why?

Answer 29

due to the poor predictive value of thyroid function tests in hospitalised/ill patients, they should only be requested if thyroid dysfunction is suspected

Question 30

In a healthy person, how often should TFTs be repeated?

Answer 30

every 3 years

Question 31

How often should TFTs be repeated in monitoring of treatment of hyperthyroidism in Graves’ disease?

Answer 31

• repeated 1-2 months after radioactive iodine
• if the patient remains thyrotoxic, then biochemical monitoring continues at 4-6 week intervals

OR

• following thyroidectomy for Graves’s disease (and commencement of levothyroxine)
• serum TSH is measured 6-8 weeks post-op

Question 32

How often should TFTs be repeated when monitoring treatment for hypothyroidism?

Answer 32

• the minimum period to achieve stable concentrations after a change of dose of thyroxine is 2 months
• TFTs should not be assessed before this time
• patients stabilised on longterm thyroxine therapy should have serum TSH checked annually
• an annual fT4 should be performed in all patients with secondary hypothyroidism stabilised on thyroxine therapy

Question 33

What is involved in an immunoassay?

Answer 33

it initially involved polyclonal antibodies and radioisotope labelling

polyclonals were largely replaced by monoclonal antibodies

Question 34

What are the 2 main types of immunoassay used in clinical chemistry?

Why are they widely used?

Answer 34

1. immunometric assays
2. competitive immunoassays

they are widely used as:

1. specific due to antibody specificity
2. senstive and able to measure picomolar concentrations
3. amenable to automation

Question 35

What is the difference between a competitive and non-competitive assay?

Answer 35

competitive:

• patient’s unlabelled analyte of interest (antigen) competes with a constant amount of labelled similar antigen for a limited amount of specific antibody
• measures the analyte-unbound sites

non-competitive:

• excess of labelled antibody towards the analyte of interest (antigen)
• measures the analyte bound sites

Question 36

What may cause interference in an immunoassay?

Answer 36

non-specific interference occurs in lipidaemia and haemolysis

positive interference:

• caused by cross-linking antibody

negative interference:

• caused by blocking antibody

Question 37

What is meant by assay interference?

Answer 37

analytical interference is the effect of a substance present in the sample that alters the correct value of the result

this may be a substance that alters the measurable concentration of the analyte in the sample or alters antibody binding

Question 38

What are the 2 types of adrenal medullary tumours?

Answer 38

• phaeochromocytoma in adults
• neuroblastoma in children

Question 39

What is a phaeochromocytoma?

What % are malignant / bilateral?

Answer 39

tumour of the neuroendocrine chromaffin cells (mainly in adrenal medulla)

10% in extra-adrenal neuroendocrine cells

10% are malignant

5% are bilateral - especially as part of MEN IIa or IIb

Question 40

What are the clinical features of phaeochromocytoma?

Why do they occur?

Answer 40

excessive and often episodic release of catecholamines may result in paroxysmal features

• hypertension
• sweating, pallor
• panic attacks
• headaches
• abdominal pain
• no symptoms

Question 41

Why is it difficult to diagnose a phaeochromocytoma?

Answer 41

false negative and false positive results of biochemical tests are not uncommon

Question 42

What are the biochemical tests used to diagnose a phaeochromocytoma?

What are the drawbacks of these tests?

Answer 42

plasma metanephrines:

• unstable so must collect on ice
• not available in many laboratories
• sensitivity of 99% and specificity of 89%

24 hour urine fractionated metanephrines:

• usual problems of 24 hour collections
• sensitivity of 96-100% and specificity of 94-97%

Question 43

How should patients prepare for the diagnostic tests for phaeochromocytoma?

Answer 43

• stop antihypertensive medication for 24 hours
• certain drugs cause biological or analytical interference with HPLC measurement
• pseudoephedrine, tricyclic antidepressants, phenoxybenzamine, calcium channel antagonists
• if measuring urinary VMA, patient should be on a vanilla-free diet

Question 44

What are the follow up tests involved in diagnosing a phaeochromocytoma?

Answer 44

clonidine suppression test:

• used in patients with suspected phaeochromocytoma and borderline changes in catecholamines or metanephrines

plasma chromogranin A:

• sensitivity 83%, specificity 96%

Question 45

What types of scans or other tests may be offered as a follow up test for a suspected phaeochromocytoma?

Answer 45

• MRI or CT scan of adrenal glands
• MIBG scan - to detect extra-adrenal phaeochromocytomas or metastases
• genetic counselling and screening for MEN mutations in young patients, or those with a family history

Question 46

What is meant by Whipple’s triad?

Answer 46

a collection of three criteria that suggest a patient’s symptoms result from hypoglycaemia that may indicate an insulinoma

Question 47

What are the 3 criteria involved in Whipple’s Triad?

Answer 47

1. signs and symptoms of hypoglycaemia
2. resolution of symptoms once glucose level rises (through consumption)
3. low plasma glucose level

non - diabetic - < 54 mg/dL

diabetic - < 63 mg/dL

Question 48

What are the symptoms of hypoglycaemia in an adult?

Answer 48

• hunger
• sweating
• anxiety
• paresthesias
• palpitations
• tremulousness

Question 49

What are the signs of hypoglycaemia in an adult?

Answer 49

• pallor
• tachycardia
• widened pulse pressure

Question 50

What is meant by neuroglycopenia?

Answer 50

a shortage of glucose in the brain, usually due to hypoglycaemia

it affects the function of neurones and alters brain function and behaviour

Question 51

What are the symptoms of neuroglycopenia in an adult?

Answer 51

• weakness and fatigue
• dizziness
• headache
• confusion
• behavioural changes
• cognitive dysfunction
• blurred vision and diplopia

Question 52

What are the signs of glycopenia in an adult?

Answer 52

• cortical blindness
• hypothermia
• seizures
• coma

Question 53

What stages are invovled in the differential diagnosis of hypoglycaemia in adults?

Answer 53

endogenous causes:

• either insulin dependent or insulin independent

exogenous causes:

• therapeutic drugs
• factitious felonious
• alcohol toxins

Question 54

What are examples of insulin-dependent endogenous causes of hypoglycaemia?

Answer 54

• insulinoma
• nesidoblastosis
• NIPHS
• insulin antibodies

Reactive:

• alimentary hypoglycaemia
• reactive hypoglycaemia associated with type 2 DM
• idiopathic

Question 55

What are examples of insulin-independent endogenous causes of hypoglycaemia?

Answer 55

critical organ failure:

• hepatic diseases
• cardiac failure
• renal failure

sepsis

hormone deficiency:

• cortisol
• growth hormone
• hypopituitarism

insulin receptor antibodies

non-islet cell tumour

Question 56

What types of therapeutic drugs act as an exogenous cause of hypoglycaemia?

Answer 56

direct effect:

• insulin
• sulfonylureas
• quinine
• disopyramide
• B2-adrenoreceptor agonists
• pentamidine

drug interactions with insulin or sulfonylurea:

• biguanides
• PPARy agonists
• B-adrenoreceptor blockers
• ACE inhibitors

Question 57

What is an insulinoma?

In which groups is the highest incidence seen?

Answer 57

the most common tumours arising from the islets of Langerhans

highest incidence is between 40-60 years

more common in females

Question 58

How is insulinoma diagnosed?

Answer 58

a simple fasting blood test

• low blood sugar (less than 2.2 mmol/l)
• high insulin (6 microunits/ml or higher)
• high levels of C peptide (0.2 nmol/l or higher)

Question 59

What are the features associated with Cushing’s syndrome?

Answer 59

obesity:

• moon face
• central obesity

skin:

• thin skin
• purple striae
• easily bruised
• hypertension
• glucose intolerance
• menstrual disturbances and impotence
• thin limbs and muscle weakness
• back pain due to osteoporosis
• psychiatric disturbances - depression / psychoses

Question 60

Label the components of the hypothalamic-pituitary-adrenal axis

Answer 60

Question 61

Where is cortisol produced?

What can influence this process?

Answer 61

cortisol is produced in the zona fasciculata of the adrenal gland

the release of cortisol is controlled by the release of ACTH from the pituitary gland

Question 62

What is the difference between primary and secondary cortisol excess?

Answer 62

primary cortisol excess:

• associated with disorders of the adrenal glands
• does not depend on stimulation from ACTH
• e.g. adrenal adenoma

secondary cortisol excess:

• adrenal hyperfunction due to an excess of adrenocorticotropic hormone (ACTH)

Question 63

What conditions is ectopic ACTH secretion commonly associated with?

Answer 63

• benign carcinoid tumours of the lung
• small cell tumours of the lung
• islet cell tumours of the pancreas
• medullary carcinoma of the thyroid
• tumours of the thymus gland

Question 64

What is the difference between primary and secondary disorders affecting the thyroid?

Answer 64

primary thyroid disease:

• due to disease within the thyroid gland
• in primary hypothyroidism, TSH levels are high but the thyroid gland does not respond

secondary thyroid disease:

• due to pituitary or hypothalamic disease
• in secondary hypothyroidism, TSH levels are low

Question 65

What are the principles of dynamic investigations of thyroid function?

Why are random hormone values not used?

Answer 65

excess production:

• can it be suppressed?

insufficient production:

• can it be stimulated?

random hormone values can be identical in either circumstance