Dermatology and Endocrine

Question 1

Give an example of a water soluble hormone.

Answer 1

Peptides e.g. TRH, LH, FSH.

Question 2

Are water soluble hormones stored in vesicles or synthesised on demand?

Answer 2

Water soluble hormones e.g. peptides are stored in vesicles.

Question 3

How do water soluble hormones e.g. peptides get into a cell?

Answer 3

They bind to cell surface receptors.

Question 4

Give an example of a fat soluble hormone.

Answer 4

Steroids e.g. cortisol.

Question 5

Are fat soluble hormones stored in vesicles or synthesised on demand?

Answer 5

Fat soluble hormones e.g. steroids are synthesised on demand.

Question 6

Give an example of an amine hormone.

Answer 6

Noradrenaline and adrenaline.

Question 7

Describe the pathway for noradrenaline synthesis.

Answer 7

Phenylalanine -> L-tyrosine -> L-dopa -> dopamine -> NAd and Ad.

Question 8

Name 2 enzymes that break down catecholamines.

Answer 8

MAO and COMT.

Question 9

What are noradrenaline and adrenaline broken down into?

Answer 9

Normetadrenaline and metadrenaline.

Question 10

Where in a cell are peptide cell receptors located?

Answer 10

Peptide cell receptors are located on the cell membrane.

Question 11

Where in a cell are steroid cell receptors located?

Answer 11

Steroid cell receptors are located in the cytoplasm.

Question 12

Where in a cell are thyroid/vitamin A and D cell receptors located?

Answer 12

Thyroid, vitamin A and D and oestrogen act on nuclear receptors.

Question 13

Give 5 ways in which hormone action is controlled.

Answer 13

1. Hormone metabolism.
2. Hormone receptor induction.
3. Hormone receptor down-regulation.
4. Synergism e.g. glucagon and adrenaline.
5. Antagonism e.g. glucagon and insulin.

Question 14

What layer of the trilaminar disc is the anterior pituitary derived from?

Answer 14

Ectoderm (Rathke’s pouch).

Question 15

Name 6 hormones that the anterior pituitary produces.

Answer 15

1. TSH.
2. FSH.
3. LH.
4. ACTH.
5. Prolactin.
6. GH.

Question 16

What is the posterior pituitary derived form?

Answer 16

The floor of the ventricles.

Question 17

Where are posterior pituitary hormones synthesised?

Answer 17

They are synthesised in the para-ventricular and supra-optic nuclei.

Question 18

Name 2 hormones secreted from the posterior pituitary.

Answer 18

Oxytocin and ADH.

Question 19

What is the function of ADH?

Answer 19

It acts on the collecting ducts of the nephron and increases insertion of aquaporin 2 channels -> there is H2O retention.

Question 20

Give 2 functions of oxytocin.

Answer 20

1. Milk secretion.

2. Uterine contraction.

Question 21

Which has a longer half life, triiodothyronine or thyroxine?

Answer 21

Thyroxine has a half life of 5-7 days whereas triiodothyronine has a half life of only 1 day.

Question 22

Describe the thyroid axis.

Answer 22

Hypothalamus -> TRH -> AP -> TSH -> thyroid -> T3 and T4.

T3/4 have a negative feedback effect on the hypothalamus and the anterior pituitary.

Question 23

What would be the effect on TSH if you had an under-active thyroid?

Answer 23

TSH would be raised as you have less T3/4 being produced and so no negative feedback.

Question 24

What would a low TSH tell you about the action of the thyroid?

Answer 24

A low TSH indicates an over-active thyroid.

Lots of T4 and T3 is being produced and so there is more negative feedback on the pituitary and less TSH.

Question 25

Describe the mechanism of ACTH.

Answer 25

Hypothalamus -> CRH -> AP -> ACTH -> adrenal cortex (zona fasciculata) -> glucocorticoid synthesis e.g. cortisol.

Cortisol has a negative feedback effect on the hypothalamus and the anterior pituitary.

Question 26

Give 3 functions of thyroid hormones (T3/4).

Answer 26

1. Food metabolism.
2. Protein synthesis.
3. Increased sympathetic action e.g. CO and HR.
4. Heat production.
5. Needed for growth and development.

Question 27

Give 3 functions of cortisol in response to stress.

Answer 27

1. Mobilises energy sources -> lipolysis, gluconeogenesis and protein break down.
2. Vasoconstriction.
3. Suppresses inflammatory and immune repsonses.
4. Inhibits non-essential functions e.g. growth and reproduction.

Question 28

Briefly describe the mechanism of LH and FSH.

Answer 28

Hypothalamus -> GnRH -> AP -> FSH/LH -> ovaries/testes.

FSH acts on granulosa cells to produce oestrogen and sertoli cells to stimulate spermatogenesis.

LH acts on theca cells to produce androgens or leydig cells to produce testosterone.

Question 29

What cells does FSH act on?

Answer 29

• In the ovaries: granulosa cells.

- In the testes: sertoli cells.

Question 30

What cells does LH act on?

Answer 30

• In the ovaries: theca cells.

- In the testes: leydig cells.

Question 31

What is the function of theca cells?

Answer 31

Theca cells are stimulated by LH to produce androgens that diffuse into granulosa cells to be converted into oestrogen.

Question 32

What is the function of granulosa cells?

Answer 32

Granulosa cells are stimulated by FSH to convert androgens into oestrogen using aromatase.

Question 33

What is the function of sertoli cells?

Answer 33

Sertoli cells produce MIF (mullerian inhibiting factor) and inhibin and activin which acts on the pituitary gland to regulate FSH.

Question 34

What is the function of leydig cells?

Answer 34

Leydig cells are stimulated by LH to produce testosterone.

Question 35

Describe the GH/IGF-1 axis.

Answer 35

Hypothalamus -> GHRH (+) or SMS (-) -> AP -> GH -> Liver -> IGF-1.

Question 36

What is the function of IGF-1?

Answer 36

It induces cell division, cartilage and skeletal growth and protein synthesis.

Question 37

Briefly describe the mechanism of prolactin.

Answer 37

Hypothalamus -> dopamine (-) -> AP -> prolactin.

Prolactin acts on the mammary glands to produce milk.

Question 38

What would happen to serum prolactin levels if something was to impact on the pituitary stalk and block dopamine release?

Answer 38

Prolactin levels would increase.

Question 39

Give 3 potential consequences of a pituitary tumour.

Answer 39

1. Pressure on local structures e.g. optic chiasm.
2. Hypo-pituitary.
3. Functioning tumour e.g. Cushing’s, gigantism, prolactinoma.

Question 40

Give 2 causes of prolactinoma.

Answer 40

1. Pituitary adenoma.

2. Anti-dopaminergic drugs.

Question 41

Give 5 signs of prolactinoma.

Answer 41

1. Infertility.
2. Golactorrhoea.
3. Amenorrhoea.
4. Loss of libido.
5. Visual field defects and headaches due to local effect of tumour.

Question 42

What investigation would you do on someone presenting with difficulty getting pregnant, golactorrhoea, amenorrhoea, loss of libido and headaches?

Answer 42

You would measure serum prolactin.

These are symptoms of prolactinoma.

Question 43

Describe the treatment for prolactinoma.

Answer 43

Dopamine agonist e.g. cabergoline.

Question 44

Describe growth hormone secretion from the anterior pituitary.

Answer 44

It is secreted in a pulsatile fashion and increases during deep sleep.

Question 45

What can cause acromegaly?

Answer 45

A benign pituitary adenoma producing excess GH.

Question 46

Give 5 symptoms of acromegaly.

Answer 46

1. Change in appearance.
2. Increase in size of hands and feet.
3. Excessive sweating.
4. Headache.
5. Tiredness.
6. Weight gain.
7. Amenorrhoea.
8. Deep voice.
9. Goitre.

Question 47

Give 5 signs of acromegaly.

Answer 47

1. Prognathism - jaw protrusion.
2. Interdental separation.
3. Large tongue.
4. Spade like hands and feet.
5. Tight rings.
6. Bi-temporal hemianopia.

Question 48

What co-morbidities are associated with acromegaly?

Answer 48

1. Arthritis.
2. Cerebrovascular events.
3. Hypertension and heart disease.
4. Sleep apnea.
5. T2 DM.

Question 49

What investigations might you do on someone who you suspect has acromegaly?

Answer 49

1. Plasma GH levels can exclude acromegaly - not diagnostic!
2. Serum IGF-1 levels raised.
3. Oral glucose tolerance test - diagnostic!
4. MRI of pituitary.

Question 50

What test is diagnostic for acromegaly?

Answer 50

Oral glucose tolerance test - failure of glucose to suppress serum GH.

Question 51

Describe the treatment for acromegaly.

Answer 51

1. Trans-sphenoidal surgical resection.
2. Radiotherapy.
3. Medical therapy: somatostatin analogues, dopamine agonists e.g. cabergoline.

Question 52

Give 3 potential complications of trans-sphenoidal surgical resection for the treatment of acromegaly.

Answer 52

1. Hypopituitarism.
2. Diabetes insipidus.
3. Haemorrhage.
4. CNS injury.
5. Meningitis.

Question 53

Give 3 advantages of using dopamine agonists in the treatment of acromegaly.

Answer 53

1. No hypopituitarism.
2. Oral administration.
3. Rapid onset.

Question 54

Give 2 disadvantages of using dopamine agonists in the treatment of acromegaly.

Answer 54

1. Can be ineffective.

2. Risk of side effects.

Question 55

Name a dopamine agonist that can be used in the treatment of acromegaly.

Answer 55

Cabergoline.

Question 56

Give 5 causes of hypothyroidism.

Answer 56

1. Autoimmune thyroiditis e.g. Hashimoto’s and atrophic thyroiditis.
2. Post-partum thyroiditis.
3. Iatrogenic - thyroidectomy.
4. Drug induced e.g. carbimazole, amiodarone, lithium.
5. Iodine deficiency.

Question 57

Hypothyroidism: name 3 anti-bodies that may be present in the serum in someone with autoimmune thyroiditis.

Answer 57

1. TPO (thyroid peroxidase).
2. Thyroglobulin.
3. TSH receptor.

Question 58

Give an example of a transient cause of hypothyroidism.

Answer 58

Post-partum thyroiditis.

Question 59

Give 2 examples of iatrogenic causes of hypothyroidism.

Answer 59

1. Thyroidectomy.

2. Radioiodine therapy.

Question 60

Name 3 drugs that can cause hypothyroidism.

Answer 60

1. Carbimazole (used to treat hyperthyroidism).
2. Amiodarone.
3. Lithium.

Question 61

Why can amiodarone cause hypo/hyperthyroidism?

Answer 61

Because it is iodine rich.

Question 62

Give 5 symptoms of hypothyroidism.

Answer 62

1. Menorrhagia – heavy bleeding.
2. Obesity/weight gain.
3. Malar flush.
4. Tiredness.
5. Intolerance to cold.
6. Energy levels fall/eyebrow loss.
7. Depression/dry skin and hair.
8. GOITRE!

Question 63

Give 5 signs of hypothyroidism.

Answer 63

1. Mental slowness.
2. Dry thin hair.
3. Bradycardia.
4. Anaemia.
5. Hypertension.
6. Loss of eyebrows.
7. Cold peripheries.
8. Carpal tunnel syndrome.

Question 64

What investigations might you do in someone who you suspect has hypothyroidism?

Answer 64

• TFT’s - serum TSH will be raised and T3/T4 will be low.

- Thyroid antibodies.

Question 65

Describe the management for hypothyroidism.

Answer 65

Levothyroxine.

Question 66

Give 5 causes of thyrotoxicosis.

Answer 66

Thyrotoxicosis - excess thyroid hormone due to any cause:

1. Increased production e.g. Grave’s, toxic adenoma.
2. Leakage of T3/4 due to follicular damage.
3. Ingestion.
4. Thyroiditis.
5. Drug induced.

Question 67

Give 2 causes of hyperthyroidism.

Answer 67

1. Grave’s disease.

2. Toxic adenoma.

Question 68

Briefly describe the pathophysiology of Grave’s disease.

Answer 68

Autoimmune disease. TSH receptor antibodies stimulate thyroid hormone production -> hyperthyroidism.

Question 69

Give 5 symptoms of Grave’s disease that don’t include opthalmopathy signs.

Answer 69

1. Weight loss.
2. Increased appetite.
3. Irritable.
4. Tremor.
5. Palpitations.
6. Goitre.
7. Diarrhoea.
8. Heat intolerance.
9. Malaise.
10. Vomiting.

Question 70

Give 5 signs of Grave’s disease that don’t include opthalmopathy signs.

Answer 70

1. Tachycardia.
2. Arrhythmias e.g. AF.
3. Warm peripheries.
4. Muscle spasm.
5. Pre-tibial myxoedema (raised purple lesions over the shins).
6. Thyroid acropachy (clubbing and swollen fingers).

Question 71

With what disease would you associated pre-tibial myxoedema and thyroid acropachy?

Answer 71

Grave’s disease.

Question 72

Give 5 Grave’s opthlmopathy signs.

Answer 72

1. Exophthalmos (bulging eyes).
2. Lid lag stare.
3. Redness.
4. Conjuctivitis.
5. Pre-orbital oedema.
6. Bilateral.
7. Extra-ocular muscle swelling.

Question 73

What investigations might you do in someone who you suspect has hypothyroidism?

Answer 73

TFT’s - serum TSH is suppressed and T3/4 are elevated.

Question 74

What would you see histologically in someone with Grave’s disease?

Answer 74

Lymphocyte infiltration and thyroid follicle destruction.

Question 75

Describe the treatment for Grave’s disease.

Answer 75

1. Anti-thyroid drugs e.g. carbimazole.
2. Radioiodine drugs.
3. Surgery - partial thyroidectomy.

Question 76

How does carbimazole work in treating Grave’s disease?

Answer 76

It targets thyroid peroxidase and so prevents the formation of T3/4.

Question 77

Give a potential serious side effect of taking carbimazole to treat Grave’s disease.

Answer 77

Agranulocytosis.

Patient’s are advised to seek medical attention if they develop an unexplained sore throat or fever.

Question 78

How do radioiodine drugs work in treating Grave’s disease?

Answer 78

Radioiodine drugs emit beta particles that destroy thyroid follicles and so thyroid hormone production is decreased.

Question 79

Give 3 potential complications of a partial thyroidectomy.

Answer 79

1. Bleeding.
2. Hypocalcaemia.
3. Hypothyroidism.
4. Recurrent laryngeal nerve palsy.

Question 80

What disease would you treat with Carbimazole?

Answer 80

Grave’s disease.

Question 81

What disease would you treat with levothyroxine?

Answer 81

Hypothyroidism.

Question 82

Give 5 metabolic changes that occur in pregnancy.

Answer 82

1. Increased EPO, cortisol and NAd.
2. High CO.
3. High cholesterol and triglycerides.
4. Pro thrombotic and inflammatory state.
5. Insulin resistance.

Question 83

Give 5 gestational syndromes.

Answer 83

1. Pre-eclampsia.
2. Gestational diabetes.
3. Obstetric cholestasis.
4. Gestational thyrotoxicosis.
5. Postnatal depression.
6. Post partum thyroiditis.

Question 84

At what week are foetal thyroid follicles and T4 synthesised?

Answer 84

Week 10.

Question 85

Why can hCG activate TSH receptors and cause hyperthyroidism?

Answer 85

HCG and TSH are glycoprotein hormones with very similar structures. HCG can therefore activate TSH receptors.

Question 86

Is hypothyroidism or thyrotoxicosis more common in pregnancy?

Answer 86

Hypothyroidism is more common in pregnancy.

Question 87

How can you differentiate between Grave’s disease and gestational thyrotoxicosis?

Answer 87

• Grave’s: symptoms predate pregnancy; symptoms are severe during pregnancy; goitre and TSH-R antibodies present.
• Gestational thyrotoxicosis: symptoms do not predate pregnancy; lots of N/V - hyperemesis gravidarum associated. No goitre or TSH-R antibodies.

Question 88

Give 3 potential consequences of untreated hypothyroidism in pregnancy.

Answer 88

1. Gestational hypertension.
2. Placental abruption.
3. Post partum haemorrhage,
4. Low birth weight.
5. Neonatal goitre.

Question 89

Give 3 potential consequences of untreated hyperthyroidism in pregnancy.

Answer 89

1. Intra-uterine growth restriction.
2. Low birth weight.
3. Pre-eclampsia.
4. Risk of still birth/miscarriage.

Question 90

What disease is described as being a ‘disorder of carbohydrate metabolism characterised by hyperglycaemia’?

Answer 90

Diabetes mellitus.

Question 91

What are the 4 cells to make up the islets of langerhans?

Answer 91

1. Beta cells (70%).
2. Alpha cells (20%).
3. Delta cells (8%).
4. Polypeptide secreting cells.

Question 92

What do beta cells produce?

Answer 92

Insulin.

Question 93

What do alpha cells produce?

Answer 93

Glucagon.

Question 94

What do delta cells produce?

Answer 94

Somatostatin.

Question 95

What is the importance of the alpha and beta cells being located next to each other in the islets of langerhans?

Answer 95

This enables them to ‘cross talk’ - insulin and glucagon show reciprocal action.

Question 96

Describe the mechanism of insulin secretion from beta cells.

Answer 96

Glucose binds to beta cells -> glucose-6-phosphate -> ADP -> ATP -> K+ channels close -> membrane depolarisation -> Ca2+ channels open, influx -> insulin release.

Question 97

Describe the physiological processes that occur in the fasting state in response to low blood glucose.

Answer 97

Low blood glucose = high glucagon and low insulin.

• Glycogenolysis and gluconeogenesis.
• Reduced peripheral glucose uptake.
• Stimulates the release of gluconeogenic precursors.
• Lipolysis and muscle breakdown.

Question 98

Describe the effect on insulin and glucagon secretion in the fasting state.

Answer 98

Fasting state = low blood glucose.

Raised glucagon and low insulin.

Question 99

How many carbon precursors are needed for gluconeogenesis?

Answer 99

3.

Question 100

Describe the physiological processes that occur after feeding in response to high blood glucose.

Answer 100

High blood glucose = high insulin and low glucagon.

• Glycogenolysis and gluconeogenesis are suppressed.
• Glucose is taken up by peripheral muscle and fat cells.
• Lipolysis and muscle breakdown suppressed.

Question 101

Describe the effect on insulin and glucagon secretion after feeding.

Answer 101

Insulin is high and glucagon is low.

Question 102

A diagnosis of diabetes can be made by measuring plasma glucose levels. What would a persons fasting plasma glucose be if they were diabetic?

Answer 102

Fasting plasma glucose >7mmol/L.

Question 103

A diagnosis of diabetes can be made by measuring plasma glucose levels. What would a persons random plasma glucose be if they were diabetic?

Answer 103

Random plasma glucose >11mmol/L.

Question 104

A diagnosis of diabetes can be made by measuring plasma glucose levels. What would the results of the oral glucose tolerance test be if someone was diabetic?

Answer 104

Fasting plasma glucose >7mmol/L and 2-hour value >11mmol/L.

Question 105

What might someone’s HbA1c be if they have diabetes?

Answer 105

> 48mmol/mol.

Question 106

What is the affect of cortisol on insulin and glucagon?

Answer 106

Cortisol inhibits insulin and activates glucagon.

Question 107

Describe the aetiology of type 1 diabetes mellitus.

Answer 107

Beta cells express HLA antigens. Autoimmune destruction -> beta cell loss -> impaired insulin secretion.

Question 108

Is type 1 diabetes characterised by a problem with insulin secretion, insulin resistance or both?

Answer 108

Type 1 diabetes is characterised by impaired insulin secretion - there is severe insulin deficiency.

Question 109

At what age do people with T1DM present?

Answer 109

Often people with Type 1 diabetes will present in childhood.

Question 110

Give 2 potential consequences of T1DM.

Answer 110

1. Hyperglycaemia.

2. Raised plasma ketones -> ketoacidosis.

Question 111

Describe the natural history of T1DM.

Answer 111

Genetic predisposition + trigger -> insulitis, beta cell injury -> pre-diabetes -> diabetes.

Question 112

T1DM is characterised by impaired insulin secretion. Describe the pathophysiological consequence of this.

Answer 112

Severe insulin deficiency -> glycogenolysis/gluconeogensis/lipolysis all not suppressed AND reduced peripheral glucose uptake -> hyperglycaemia and glycosuria.
Perceived stress -> cortisol and Ad secretion -> catabolic state -> increased plasma ketones.

Question 113

Give 3 symptoms of T1DM.

Answer 113

1. Weight loss.
2. Thirst (fluid and electrolyte losses).
3. Polyuria (due to osmotic diuresis).

Question 114

Would you associate ketoacidosis with T1 or T2 DM?

Answer 114

TYPE 1.

Occurs due to the absence of insulin.

Question 115

Describe the pathophysiology of diabetic ketoacidosis.

Answer 115

No insulin -> lipolysis -> FFA’s -> oxidised in liver -> ketone bodies -> ketoacidosis.

Question 116

Name 3 ketone bodies.

Answer 116

• acetoacetate.
• acetone.
• beta hydroxybutyrate.

Question 117

Where does ketogenesis occur?

Answer 117

In the liver.

Question 118

Give 4 signs of diabetic ketoacidosis.

Answer 118

1. Hypotension.
2. Tachycardia.
3. Kussmaul’s respiration.
4. Breath smells of ketones.
5. Dehydration.

Question 119

Describe the treatment for T1DM.

Answer 119

1. EDUCATION - make sure the patient understands the benefits of good glycaemic control.
2. Healthy diet - low in sugar, high in carbohydrates.
3. Regular activity, healthy BMI.
4. BP and hyperlipidaemia control.
5. Insulin.

Question 120

How is insulin administered in someone with T1DM?

Answer 120

Injected into SC fat.

Question 121

Other than SC injections, how else can insulin be administered?

Answer 121

Insulin pump.

Question 122

Give 4 potential complications of insulin therapy.

Answer 122

1. Hypoglycaemia.
2. Lipohypertrophy at ejection site.
3. Insulin resistance.
4. Weight gain.
5. Interference with life style.

Question 123

Is type 2 diabetes characterised by a problem with insulin secretion, insulin resistance or both?

Answer 123

Type 2 DM is characterised by impaired insulin secretion AND insulin resistance.

Question 124

Describe the aetiology of T2DM.

Answer 124

Genetic predisposition and environmental factors e.g. obesity and lack of exercise.

Question 125

Why is insulin secretion impaired in T2DM?

Answer 125

Impaired insulin secretion is thought to be due to lipid deposition in the pancreatic islets.

Question 126

Describe the pathophysiology of T2DM.

Answer 126

Impaired insulin secretion and resistance -> IGT -> T2DM -> hyperglycaemia and high FFA’s.

Question 127

Is insulin secretion or insulin resistance the driving force of hyperglycaemia in T2DM?

Answer 127

Hepatic insulin resistance is the driving force of hyperglycaemia.

Question 128

Give 3 risk factors for insulin resistance in T2DM.

Answer 128

1. Obesity.
2. Physical inactivity.
3. Family history.

Question 129

What happens to insulin resistance, insulin secretion and glucose levels in T2DM?

Answer 129

• Insulin resistance increases.
• Insulin secretion decreases.
• Fasting and post-prandial glucose increase.

Question 130

Why do you rarely see diabetic ketoacidosis in T2DM?

Answer 130

Insulin secretion is impaired but there are still low levels of plasma insulin. Even low levels of insulin can prevent muscle catabolism and ketogenesis.

Question 131

Describe the treatment pathway for T2DM.

Answer 131

1. Lifestyle changes: lose weight, exercise, healthy diet.
2. Metformin.
3. Metformin + sulfonylurea.
4. Metformin + sulfonylurea + insulin.
5. Increase insulin dose as required.

Question 132

How does metformin work in treating T2DM?

Answer 132

Metformin increases insulin sensitivity and inhibits glucose production.

Question 133

How does sulfonylurea work in treating T2DM?

Answer 133

Sulfonylurea stimulates insulin release.

Question 134

Give a potential consequence of taking Sulfonylurea for the treatment of T2DM.

Answer 134

Hypoglycaemia.

(Sulfonylurea stimulates insulin release).

Question 135

Give 3 microvascular complications of diabetes mellitus.

Answer 135

1. Diabetic retinopathy.
2. Diabetic nephropathy.
3. Diabetic peripheral neuropathy.

Question 136

Give a macrovascular complication of diabetes mellitus.

Answer 136

CV disease and stroke.

Question 137

What is the main risk factor for diabetic complications?

Answer 137

Poor glycaemic control!

Question 138

Give a potential consequence of acute hyperglycaemia?

Answer 138

Diabetic ketoacidosis and hyperosmolar coma.

Question 139

Give a potential consequence of chronic hyperglycaemia?

Answer 139

Micro/macrovascular tissue complications e.g. diabetic reinopathy, nephropathy, neuropathy, CV disease etc.

Question 140

What is the commonest form of diabetic neuropathy?

Answer 140

Distal symmetrical polyneuropathy.

Question 141

Give 3 major clinical consequences of diabetic neuropathy.

Answer 141

1. Pain.
2. Autonomic neuropathy.
3. Insensitivity.

Question 142

Describe the pain associated with diabetic neuropathy.

Answer 142

• Burning.
• Paraesthesia.
• Nocturnal exacerbation.

Question 143

Diabetic neuropathy clinical consequences: what is autonomic neuropathy?

Answer 143

Autonomic neuropathy - damage to the nerves that supply body structures that regulate functions such as BP, HR, bowel/bladder emptying.

Question 144

Diabetic neuropathy: give 5 signs of autonomic neuropathy.

Answer 144

1. Hypotension.
2. HR affected.
3. Diarrhoea/constipation.
4. Incontinence.
5. Erectile dysfunction.
6. Dry skin.

Question 145

What are the consequences of insensitivity as a result of diabetic neuropathy?

Answer 145

Insensitivity -> foot ulceration -> infection -> amputation.

Question 146

Describe the distribution of insensitivity as a result of diabetic neuropathy?

Answer 146

Insensitivity starts in the toes and moves proximally. Glove and stocking distribution.

Question 147

Give 5 risk factors for diabetic neuropathy.

Answer 147

1. POOR GLYCAEMIC CONTROL.
2. Hypertension.
3. Smoking.
4. HbA1c.
5. Overweight.
6. Long duration of DM.

Question 148

Describe the treatments for diabetic neuropathy.

Answer 148

1. Improve glycaemic control.
2. Antidepressants.
3. Pain relief.

Question 149

PVD is a potential complication of Diabetes. Give 6 signs of acute ischaemia.

Answer 149

1. Pulseless.
2. Pale.
3. Perishing cold.
4. Pain.
5. Paralysis.
6. Paraesthesia.

Question 150

Give 5 ways in which amputation can be prevented in someone with diabetic neuropathy.

Answer 150

1. Screening for insensitivity.
2. Education.
3. MDT foot clinics.
4. Pressure relieving footwear.
5. Podiatry.
6. Revascularisation and abx.

Question 151

Would there be increased or decreased pulses in a diabetic neuropathic foot?

Answer 151

There would be increased foot pulses.

Question 152

Give 5 risk factors for diabetic retinopathy.

Answer 152

1. Long duration DM.
2. Poor glycaemic control.
3. Hypertension.
4. Insulin treatment.
5. Pregnancy.
6. High HbA1c.

Question 153

Describe the pathophysiology of diabetic retinopathy.

Answer 153

Micro-aneurysms -> pericyte loss and protein leakage -> occlusion -> ischaemia.

Question 154

How can diabetic retinopathy be sub-divided?

Answer 154

Diabetic retinopathy is divided into:

• Proliferative - evidence of neovascularisation in retina.
• Non-proliferative.

Question 155

What would you see in someone with an R1 retinopathy grade?

Answer 155

R1 - non-proliferative/background.

• Micro-aneurysms.
• Intraretinal haemorrhages.
• Exudates.

Question 156

What would you see in someone with an R2 retinopathy grade?

Answer 156

R2 - pre-proliferative.

• Venous beading.
• Growth of new vessels.

Question 157

What would you see in someone with an R3 retinopathy grade?

Answer 157

R3 - proliferative.

• New blood vessel on disc.

Question 158

What is the treatment for diabetic retinopathy?

Answer 158

People with diabetes are offered regular screening to assess visual acuity.

• Laser therapy treats neovascularisation.

Question 159

What is the hallmark of diabetic nephropathy?

Answer 159

Development of proteinuria and progressive decline in renal function.

Question 160

What happens to the glomerular basement membrane in someone with diabetic nephropathy?

Answer 160

On microscopy there is thickening of the glomerular basement membrane.

Question 161

Give one way in which the presentation of diabetic nephropathy differs between T1 and T2DM.

Answer 161

T1 DM: microalbuminuria develops 5-10 years after diagnosis.

T2 DM: microalbuminuria is often present at diagnosis.

Question 162

Describe the treatment for diabetic nephropathy.

Answer 162

1. Glycaemic and BP control.
2. ARB/ACEi.
3. Proteinuria and cholesterol control.

Question 163

Name 3 types of skin cancer.

Answer 163

1. BCC (75%) - in situ, grows slowly.
2. SCC (20%) - can metastasise, grows rapidly.
3. Melanoma (5%).

Question 164

What is Keratoacanthoma?

Answer 164

A benign variant of SCC. It is unlikely to metastasise.

Question 165

What is Bowen’s disease?

Answer 165

Bowen’s disease is also known as SCC in situ. It is characterised by red and scaly patches.

Question 166

Give 5 early signs of melanoma.

Answer 166

MAJOR
1. Enlargement.
2. Colour change (almost always darkening).
MINOR
3. Irregular shape.
4. Bleeding.
5. Itching.

Question 167

What is Hutchinson’s sign?

Answer 167

Pigmentation of the nail and proximal nail fold. It is an important sign of subungual melanoma.

Question 168

What is the ABCDE of melanoma?

Answer 168

Asymmetrical.
Border irregularity.
Colour variability.
Diameter >5mm.
Elevation irregularity.

Question 169

Give 4 risk factors for melanoma.

Answer 169

1. High density freckles.
2. Red hair.
3. > 100 moles.
4. > 5 atypical moles.
5. Family history.

Question 170

Give 3 factors that can be used to determine the prognosis of melanoma?

Answer 170

1. Breslow’s thickness - the thinner (<1mm) the better.
2. Younger = better prognosis.
3. Female = better prognosis.

Question 171

Give 4 differential diagnoses for melanoma.

Answer 171

1. Melanocytic neavi.
2. Seborrhoeic wart.
3. Freckle.
4. BCC.
5. Pyogenic granuloma.

Question 172

Describe the distribution and characteristics of infantile eczema.

Answer 172

Infantile eczema is generalised. The cheeks and foreheads are commonly affected.

Scaly, dry and red patches.

Question 173

Describe the distribution and characteristics of childhood eczema.

Answer 173

There is a shift from extensor surfaces being affected to flexural surfaces.

Lichenification.

Question 174

Describe the distribution and characteristics of adult eczema.

Answer 174

There is increasing dryness and lichenification.

S.aureus infections may be common.

Question 175

Describe the diagnostic criteria of eczema.

Answer 175

The patient must have had an itchy skin condition in the past 6 months and >3 or more of:

• History of involvement of skin creases.
• Personal history of asthma or hay-fever.
• History of generally dry skin.
• Visible flexural dermatitis.

Question 176

Briefly describe the natural history of eczema.

Answer 176

Sub-clinical skin barrier defect -> sub-clinical inflammation -> AD phase 1 (non-atopic) -> AD phase 2 (true atopic, extrinsic), high IgE.

Question 177

Where does Seborrhoeic dermatitis usually affect?

Answer 177

The scalp and face, there is thickened and scaly skin.

Question 178

What can trigger Seborrhoeic dermatitis?

Answer 178

Yeast infection.

Question 179

What is cradle cap an example of?

Answer 179

Seborrhoeic dermatitis.

Question 180

Describe the treatment for Seborrhoeic dermatitis?

Answer 180

1. Anti-fungal treatment.

2. Keratolytic agents to reduce thickening.

Question 181

Describe the signs of acne.

Answer 181

1. Open comedones (black heads).
2. Closed comedones (white heads).
3. Papules and pustules.

Question 182

When might biological agents be indicated in the treatment of psoriasis?

Answer 182

In someone with a PASI score > 10 - severe psoriasis.

Question 183

What type of psoriasis might you associate with streptococcal infections?

Answer 183

Guttate psoriasis.

Question 184

Give 3 signs of Rosacea?

Answer 184

1. Flushing.
2. Erythema.
3. Papules and pustules.

NO comedones!

Question 185

How does Rosacea differ from Acne?

Answer 185

Rosacea tends to affect older people and isn’t associated with comedone formation.

Acne affects adolescents and often the presenting feature is open and closed comedones.

Question 186

Describe the treatment for rosacea.

Answer 186

Metronidazole.

Question 187

Briefly describe the pathophysiology of urticaria.

Answer 187

Mast cell and basophil activation, with resultant histamine release.

Question 188

Give 2 clinical features of urticaria.

Answer 188

1. Wheals (hives) - superficial redness and swelling. Itching/burning.
2. Angio-oedema - more severe swelling. Painful.

Question 189

Describe the sub-types of chronic urticaria.

Answer 189

Chronic - recurrent or continous signs:

1. Chronic spontaneous: idiopathic or associated with infection.
2. Chronic inducible: physical (triggered by temperature or pressure) OR contact (triggered by allergens).

Question 190

What is the treatment for urticaria?

Answer 190

Anti-histamines and manage triggers.

Question 191

Name the suprasellar neoplasm that can result from benign cysts and calcification of Rathke’s pouch?

Answer 191

Craniopharyngioma.

Question 192

Give 4 signs of Craniopharyngioma.

Answer 192

1. Raised ICP.
2. Vision affected.
3. Growth failure.
4. Puberty affected.

Question 193

Give 4 local effects of pituitary adenoma.

Answer 193

1. Headaches.
2. Visual field defects - bitemporal hemianopia.
3. Cn palsy and temporal lobe epilepsy.
4. CSF rhinorrhoea.

Question 194

What is the affect of hypothyroidism on TSH and T4 levels?

Answer 194

• TSH will be high.

- T4 will be low.

Question 195

What is the affect of hyperthyroidism on TSH and T4 levels?

Answer 195

• TSH will be low.

- T4 will be high.

Question 196

What is the affect of hypopituitarism on TSH and T4 levels?

Answer 196

• TSH will be low.

- T4 will be low.

Question 197

What is the treatment for thyroid hypopituitarism?

Answer 197

Levothyroxine.

Question 198

Give a cause of primary hypogonadism.

Answer 198

Klinefelter’s syndrome - extra X chromosome.

Question 199

What is the affect of primary hypogonadism on testosterone and FSH/LH levels?

Answer 199

• Testosterone will be low.

- FSH/LH will be high.

Question 200

What is the affect of hypopituitarism on testosterone and FSH/LH levels?

Answer 200

• Testosterone will be low.

- FSH/LH will be low.

Question 201

When should serum testosterone be measured?

Answer 201

At 9am due to circadian rhythm.

Question 202

Give 5 consequences of androgen deficiency in a male.

Answer 202

1. Loss of libido.
2. High pitched voice.
3. Loss of facial, axillary, limb and pubic hair.
4. Loss of erections.
5. Poorly developed scrotum and penis.

Question 203

What is the treatment for hypogonadism?

Answer 203

Testosterone gel/injection.

• Can improve BMD, QOL and libido etc.

Question 204

What syndrome is characterised by a congenital deficiency of GnRH?

Answer 204

Kallmann’s syndrome.

Question 205

Are the levels of oestradiol and FSH/LH low or high before puberty?

Answer 205

Before puberty there are very low levels of these hormones in the serum.

Question 206

What is the affect of primary ovarian failure on oestradiol and FSH/LH levels?

Answer 206

• FSH/LH is high.

- Oestradiol is low.

Question 207

What is the affect of hypopituitarism on oestradiol and FSH/LH levels?

Answer 207

• FSH/LH are low.

- Oestradiol is low.

Question 208

What is the affect of primary adrenal insufficiency on cortisol and ACTH levels?

Answer 208

• Cortisol is low.

- ACTH is high.

Question 209

What is the affect of hypopituitarism on cortisol and ACTH levels?

Answer 209

• Cortisol is low.

- ACTH is low.

Question 210

What can lead to elevated levels of prolactin?

Answer 210

1. Stress.
2. Drugs.
3. Pressure on the pituitary stalk.

Question 211

What stimulates the posterior pituitary to release ADH?

Answer 211

Osmoreceptors in the hypothalamus detect raised plasma osmolarity -> posterior pituitary is signalled to release ADH.

Question 212

Give 5 signs of diabetes insipidus.

Answer 212

1. Excessive urine production (>3L/24h).
2. Very dilute urine - <300 mOsmol/Kg.
3. Severe thirst.
4. Hypernatraemia.
5. Dehydration.

Question 213

What investigations might you do to determine whether someone has diabetes insipidus?

Answer 213

1. Measure 24-hour urine volume - >3L/24h = suggests DI.
2. Plasma biochemisty - hypernatraemia.
3. Water deprivation test - urine will not concentrate when asked not to drink.

Question 214

What is the treatment for neurological diabetes insipidus?

Answer 214

Desmopression.

Question 215

Give 4 causes of polyuria.

Answer 215

1. Hypokalaemia.
2. Hypercalcaemia.
3. Hyperglycaemia.
4. Diabetes insipidus.

Question 216

Would TSH and T4 be high or low in someone with sub-clinical hypothyroidism?

Answer 216

TSH would be high but T4 would be normal. These patients are often asymptomatic and well.

(Hypothyroidism: high TSH and low T4).

Question 217

What is Cushing’s syndrome?

Answer 217

A set of signs/symptoms resulting from chronic glucocorticoid excess with a loss of normal feedback mechanisms.

Question 218

What can cause Cushing’s syndrome?

Answer 218

1. Adrenal Tumour (adenoma or carcinoma).
2. Pituitary tumour (Cushing’s disease).
3. Exogenous steroids.
4. Ectopic ACTH syndrome.

Question 219

What is Cushing’s disease?

Answer 219

A set of signs/symptoms resulting from inappropriate ACTH secretion from the pituitary.

ACTH dependent.

Question 220

Give 7 signs/symptoms of Cushing’s disease.

Answer 220

1. Central obesity.
2. Moon face.
3. Hypertension.
4. Skin thinning.
5. Abdominal striae.
6. Mood change.
7. Osteoporosis.
8. Muscle thinning.
9. Weight gain.

Question 221

What investigations might you do in someone with Cushing’s syndrome?

Answer 221

1. Overnight dexamethasone suppression test - failure to suppress cortisol.
2. Late night salivary cortisol - loss of circadian rhythm.
3. Urinary free cortisol is raised.
4. Loss of circadian rhythm.

Question 222

What is the treatment for Cushing’s syndrome?

Answer 222

1. Surgical removal of pituitary tumours.

2. Drugs to inhibit cortisol synthesis e.g. metyrapone, ketoconazole.

Question 223

What is SIADH?

Answer 223

Syndrome of inappropriate ADH secretion.

Too much ADH = very concentrated urine and hyponatreamia.

Question 224

Give 3 symptoms of SIADH.

Answer 224

1. Anorexia.
2. Nausea.
3. Malaise.
4. Headache.
5. Confusion.

Question 225

Give 3 causes of SIADH.

Answer 225

1. Malignancy.
2. CNS disorders e.g. meningitis, brain tumour, cerebral haemorrhage.
3. TB.
4. Pneumonia.
5. Drugs.

Question 226

Describe the treatment for SIADH.

Answer 226

1. Restrict fluid!
2. Give salt.
3. Loop diuretics e.g. furosemide.
4. ADH-R antagonists e.g. vaptans - can be used when people find fluid restriction challenging.

Question 227

What is Conn’s syndrome?

Answer 227

Primary hyperaldosteronism - high aldosterone levels independent of RAAS activation -> H2O and sodium retention and potassium excretion.

Question 228

What are the 2 main signs of Conn’s syndrome?

Answer 228

1. Hypertension.
2. Hypokalaemia.

Sodium will be normal or slightly raised.

Question 229

Give 3 symptoms of Conn’s syndrome. A deficiency in which electrolyte causes these symptoms?

Answer 229

1. Muscle weakness.
2. Tiredness.
3. Polyuria.

Due to potassium deficiency - hypokalaemia.

Question 230

What can cause Conn’s syndrome?

Answer 230

Adrenal adenoma.

Question 231

What hormone is raised in Conn’s syndrome and what hormone is reduced? Where are these hormones synthesised?

Answer 231

1. Aldosterone is raised - synthesised in the zona glomerulosa.
2. Renin is reduced - synthesised by the juxta-glomerular cells.

Question 232

What investigations might you do in someone to confirm a diagnosis of Conn’s syndrome?

Answer 232

1. Bloods - U+E, renin (low) and aldosterone (high).
2. Plasma aldosterone renin ratio can be used as an initial screening test - raised ratio indicates the need for further tests.

Question 233

Give 4 ECG changes that you might see in someone with Conn’s syndrome.

Answer 233

1. Increased amplitude and width of P waves.
2. Flat T waves.
3. ST depression.
4. Prolonged QT interval.
5. U waves.

Question 234

What is the treatment for Conn’s syndrome?

Answer 234

1. Laparoscopic adrenalectomy.

2. Spironolactone (aldosterone antagonist).

Question 235

What does the parathyroid control?

Answer 235

Serum calcium levels.

A low serum calcium triggers the release of PTH and a high serum calcium triggers c-cells to release calcitonin.

Question 236

What hormone does the parathyroid secrete and what is its function?

Answer 236

PTH - secreted in response to low serum calcium.

PTH increases bone resorption; increases calcium reabsorption at the kidney and activates vitamin D which then acts on the intestine to increase calcium absorption.

Question 237

What is released by c-cells in the parathyroid in response ot high serum calcium?

Answer 237

Calcitonin.

Question 238

What is the affect of hyperparathyroidism on serum calcium levels?

Answer 238

Hyperparathyroidism -> hypercalcaemia.

Question 239

Give 5 symptoms of hyperparathryoidism.

Answer 239

Hyperparathyroidism -> hypercalcaemia:

1. Renal/biliary stones.
2. Bone pain.
3. Abdominal pain.
4. Polyuria.
5. Depression, anxiety, malaise.

Stones,bones, groans, thrones, moans.

Question 240

Give 3 causes of hyperparathyroidism.

Answer 240

1. Primary: parathyroid adenoma - ↑PTH ↑Calcium ↓Phosphate.
2. Secondary: physiological hypertrophy in an attempt to correct low calcium.
3. Prolonged uncorrected hypertrophy.

Question 241

Describe the treatment for hyperparathyroidism.

Answer 241

1. High fluid intake, low calcium diet.
2. Excision of adenoma.
3. Correct underlying cause.
4. Parathyroidectomy.

Question 242

What is the affect of hypoparathyroidism on serum calcium levels?

Answer 242

Hypoparathyroidism -> hypocalcaemia.

Question 243

Give 5 symptoms of hypoparathryoidism.

Answer 243

Hypoparathyroidism -> hypocalcaemia:

1. Spasm.
2. Paraesthesia around mouth and lips.
3. Anxious/irritable.
4. Seizures.
5. Increased muscle tone.
6. Confusion.
7. Dermatitis.
8. Impetigo herpetiformis.
9. QT prolongation.

Question 244

What is the treatment for hypoparathyroidism?

Answer 244

Calcium supplements.

Question 245

Give 5 causes of hypocalcaemia.

Answer 245

1. Dietary insufficiency.
2. Anticonvulsant therapy.
3. CKD.
4. Vitamin D deficiency.
5. Osteomalacia.
6. Hypoparathyroidism.

Question 246

Give 2 ECG changes that you might see in someone with hyperparathyroidism.

Answer 246

Hyperparathyroidism -> hypercalcaemia and so:

1. Tall T waves.
2. Shorted QT interval.

Question 247

Give 2 ECG changes that you might see in someone with hyoparathyroidism.

Answer 247

Hyoparathyroidism -> hypocalcaemia and so:

1. Small T waves.
2. Long QT interval.

Question 248

What is phaeochromocytoma?

Answer 248

A rare catecholamine secreting tumour in the adrenal medulla.

Question 249

Give 5 symptoms of phaeochromocytoma.

Answer 249

Classic triad of:

1. Headache.
2. Sweating.
3. Tachycardia.

Also:

4. Hypertension.
5. Palpitations.
6. Tremor.
7. Arrhythmia.
8. Confusion.

Question 250

What investigations might you do in order to diagnose someone with having a phaeochromocytoma?

Answer 250

Bloods - raised WCC, increased plasma metadrenaline and normetadrenaline.

Question 251

What is the treatment for phaeochromocytoma?

Answer 251

1. Alpha blocker e.g. phenoxybenzamine.
2. Beta blockers.
3. Surgical resection of tumour.

Question 252

What is the major concern in someone with phaeochromocytoma?

Answer 252

Phaeochromocytomare are a dangerous but treatable cause of hypertension.

Question 253

Describe the different types of subcutaneous insulins that can be given to people with T1DM.

Answer 253

1. Ultra-fast acting e.g. Humalog - taken before eating in conjunction with a long-acting insulin at night.
2. Long-acting insulin e.g. insulin glargine - taken before going to bed.
3. Pre-mixed insulin e.g. NovoMix - taken twice daily.

Question 254

What is adrenal insufficiency?

Answer 254

Adrenocortical insufficiency resulting in a reduction of mineralocorticoids, glucocorticoids and androgens.

Question 255

Give 6 symptoms of adrenal insufficiency.

Answer 255

1. Tanned - pigmentation.
2. Tired.
3. Tearful.
4. Thin - weight loss.
5. Headaches.
6. Abdominal cramps.
7. Myalgia.
8. Throwing up.
9. Weakness.

Question 256

Give 5 primary causes of adrenal insufficiency?

Answer 256

1. Addison’s disease (autoimmune destruction of the adrenal cortex).
2. Congenital adrenal hyperplasia (CAH).
3. TB.
4. Adrenal metastases.
5. Drugs.
6. Haemorrhage.
7. Infection.

Question 257

What investigations might you do in someone who you suspect has adrenal insufficiency?

Answer 257

1. Bloods - FBC, U+E (↓Na+ and ↑K+ - due to ↓ aldosterone - ↑Ca2+, ↑Urea).
2. ↓ Glucose.
3. ACTH stimulation test - Addison’s will not respond.

Question 258

What is the treatment for adrenal insufficiency?

Answer 258

Hormone replacement - any steroids e.g. hydrocortisone.

In addison’s disease replace aldosterone with fludrocortisone.

Question 259

Give 3 causes of hypokalaemia.

Answer 259

1. Diuretics.
2. D+V.
3. Conn’s syndrome.
4. Insulin.

Question 260

Give 5 symptoms of hypokalaemia.

Answer 260

1. Muscle weakness.
2. Hypotonia.
3. Hyporeflexia.
4. Palpitations.
5. Arrhythmia.
6. Nausea and vomiting.
7. Cramps.

Question 261

What ECG changes might you see in someone with hypokalaemia?

Answer 261

1. Increased amplitude and width of P waves.
2. ST depression.
3. Flat T waves.
4. U waves.
5. QT prolongation.

Question 262

Give 3 causes of hyperkalaemia.

Answer 262

1. AKI.
2. NSAIDs.
3. Metabolic acidosis.
4. K+ sparing diuretics.

Question 263

Give 3 symptoms of hyperkalaemia.

Answer 263

1. Weakness.
2. Palpitations.
3. Tachycardia.
4. Chest pain.

Question 264

What ECG changes might you see in someone with hyperkalaemia?

Answer 264

1. Tall tented T waves.
2. Wide QRS.
3. Small P waves.

Question 265

Give 3 causes of hypercalcaemia.

Answer 265

1. Hyperparathyroidism.
2. Hypercalcaemia of malignancy.
3. Vitamin D toxicity.
4. Myeloma.

Question 266

What biochemical test might you want to do to establish the cause of hypercalcaemia?

Answer 266

PTH measurement.

Question 267

How can hypercalcaemia be treated?

Answer 267

1. IV normal saline.
2. IV furosemide.
3. IV calcitonin.

Question 268

A man presents with a history of weight loss, polyuria and nocturia. He is very unwell. The GP performs a capillary blood glucose which is found to be 17.2mmol/l. What is the most likely diagnosis of this mans symptoms?

Answer 268

Type 1 Diabetes Mellitus.

Question 269

What is the treatment for someone presenting with ketoacidosis?

Answer 269

1. ABCDE.
2. IV normal saline.
3. IV soluble insulin via syringe driver and sliding scale.
4. Restore potassium levels.
5. Look for underlying cause.

Question 270

pH 7.1; pCO2 1.2 kPa; pO2 11.1 kPa; Bicarbonate 4mmol/l.

Interpret this blood gas result.

Answer 270

Severe metabolic acidosis.

Question 271

Give 3 causes of severe metabolic acidosis.

Answer 271

1. Diabetic ketoacidosis.
2. Severe sepsis.
3. Uraemia.
4. Lactic acidosis.

Question 272

What is hirsutism?

Answer 272

Excess hair growth in women in a male pattern.

Question 273

What is the cause of hirsutism?

Answer 273

Hirsutism indicates increased androgen production by the ovaries or adrenal glands, most commonly polycystic ovary syndrome.

Question 274

What diseases are associated with polycystic ovary syndrome?

Answer 274

1. Insulin resistance and so T2DM.
2. Hypertension.
3. Hyperlipidaemia.
4. CV disease.

Question 275

Give 5 symptoms of polycystic ovary syndrome.

Answer 275

1. Amenorrhoea.
2. Oligomenorrhoea.
3. Hirsutism.
4. Acne.
5. Overweight.
6. Infertility.

Question 276

What criteria can be used to make a diagnosis of polycystic ovary syndrome?

Answer 276

Rotterdam diagnostic criteria:

1. Menstrual irregularity.
2. Clinical or biochemical evidence of hyperandrogenism.
3. Polycystic ovaries on USS.

Question 277

Describe the treatment for polycystic ovary syndrome?

Answer 277

1. Hirsutism therapy: shaving/waxing excess hair OR oestrogens e.g. OCP.
2. Menstrual disturbance therapy: cyclic oestrogen/progesterone.
3. Metformin can improve hyperinsulinaemia and regulates the menstrual cycle.

Question 278

A 27-year- old woman comes to see you because she is having infrequent periods (oligomenorrhoea). You note, on examination, that she has facial acne and is overweight. What is the most likely diagnosis? Give 3 other signs you might see in this patient.

Answer 278

Polycystic ovary syndrome.

Other signs:

1. Hirsutism.
2. Amenorrhoea.
3. Infertility.

Question 279

Describe insulin action at muscle and fat cells.

Answer 279

Insulin binds to membrane receptors -> intracellular signalling cascade stimulated -> GLUT-4 mobilisation to plasma membrane -> GLUT-4 integrates into plasma membrane -> glucose enters cell via GLUT-4.

Question 280

Which bacteria is responsible for causing impetigo?

Answer 280

Staphylococcus aureus.

Question 281

What is the treatment for impetigo?

Answer 281

Flucloxacillin.

Question 282

Give 5 symptoms of DKA.

Answer 282

1. Polyuria.
2. Polydipsia.
3. Weight loss.
4. Nausea/vomiting.
5. Confusion.
6. Weakness.

Question 283

Give 3 causes of DKA.

Answer 283

1. Unknown.
2. Infections.
3. Treatment errors - not administering enough insulin.
4. Having undiagnosed T1DM.

Question 284

Describe the triad of DKA.

Answer 284

1. Acidaemia – blood pH < 7.3
2. Hyperglycaemia – blood glucose > 11mmol/L.
3. Ketonaemia.

Question 285

Give 4 potential complications of untreated DKA.

Answer 285

1. Oedema.
2. Adult respiratory distress syndrome.
3. Aspiration pneumonia.
4. Thromboembolism.
5. Death.

Question 286

Give 5 symptoms of hypoglycaemia.

Answer 286

1. Hunger.
2. Sweating.
3. Tachycardia.
4. Anxious.
5. Shaking.

Question 287

Give 3 endocrine diseases that can cause diabetes.

Answer 287

1. Cushing’s.
2. Acromegaly.
3. Phaeochromocytoma.

Question 288

What class of drugs can cause diabetes?

Answer 288

1. Steroids.
2. Thiazides.
3. Anti-psychotics.

Question 289

Give 3 secondary causes of adrenal insufficiency.

Answer 289

1. Hypopituitarism.
2. Withdrawal from long term steroids.
3. Infiltration.
4. Infection.
5. Radiotherapy.

Question 290

An adrenal crisis is a common presentation of adrenal insufficiency. Give 3 features of an adrenal crisis.

Answer 290

1. Hypotension.
2. Fatigue.
3. Fever.
4. Hypoglycaemia.
5. Hyponatraemia.
6. Hyperkalaemia.

Question 291

How would you treat an adrenal crisis?

Answer 291

Hydrocortisone and IV saline.

Question 292

State whether sodium and potassium levels would be high or low in someone with adrenal insufficiency.

Answer 292

• Hyponatraemia.
• Hyperkalaemia.

Lack of aldosterone and so less sodium is reabsorbed and less potassium is excreted.

Question 293

17 year old man presents with intermittent headaches and anxiety. He is sweating and vomiting. His BP is 223/159 and his pulse is 115. What is the likely cause?

Answer 293

Phaeochromocytoma crisis!

Hypertension and tachycardia = phaeochromocytoma until proved otherwise; especially in younger patients.

Question 294

What is the management of a phaeochromocytoma crisis?

Answer 294

Non-competitive alpha-blocker e.g. phenoxybenzamine.

Excision of paraganglioma.

Biochemistry: measure plasma and serum metanephrines.

Question 295

Give 3 causes of hyponatraemia.

Answer 295

1. SIADH.
2. Sodium deficiency.
3. Renal failure.
4. Malignancy.

Question 296

Define hyponatraemia.

Answer 296

Serum sodium <135mmol/L.

Question 297

Give 3 signs of hyponatraemia.

Answer 297

1. Anorexia.
2. Confusion.
3. Headache.
4. Lethargy.
5. Weakness.

Question 298

What is the treatment for acute hyponatraemia?

Answer 298

Give a bolus dose of saline.

Question 299

What are the units for osmolality?

Answer 299

mOsmol/Kg.

Question 300

What is the primary cation in ICF?

Answer 300

K+.

Question 301

What is the primary cation in the ECF?

Answer 301

Na+.

Question 302

what are the primary anions in the ECF?

Answer 302

Cl- and HCO3-.

Question 303

What is the effect of water excess on thirst and ADH secretion?

Answer 303

Decreased thirst and decreased ADH -> reduced intake and increased excretion.

Question 304

What is the effect of water deficit on thirst and ADH secretion?

Answer 304

Increased thirst and increased ADH -> increased water intake and reduced secretion.

Question 305

What GPCR does ADH bind to on renal tubules?

Answer 305

V2.

Question 306

Do you have hypernatraemia or hyponatraemia in diabetes insipidus?

Answer 306

Hypernatraemia.

Question 307

Give 3 causes of cranial diabetes insipidus.

Answer 307

1. Tumours.
2. Trauma.
3. Infections.
4. Idiopathic.
5. Genetic - AR.

Question 308

Give 3 causes of nephrogenic diabetes insipidus.

Answer 308

1. Osmotic diuresis - diabetes mellitus.
2. Drugs.
3. CKD.
4. Metabolic e.g. hypercalcaemia and hypokalaemia.

Question 309

In what class of drugs does metformin belong?

Answer 309

Biguanide.

Question 310

Give an example of a sulfonylurea.

Answer 310

Tolazamide and gliclazide.

Question 311

Give a sign of Cushing’s syndrome that is due to impairments in carbohydrate metabolism.

Answer 311

Diabetes mellitus.

Question 312

Give a sign of Cushing’s syndrome that is due to electrolyte disturbances.

Answer 312

1. Sodium retention.

2. Hypertension.

Question 313

People with Cushing’s syndrome may have immune dysfunction. Give a consequence of this.

Answer 313

Increased susceptibility to infection.

Question 314

Why is it important to take a drug history when speaking to someone with potential Cushing’s?

Answer 314

To exclude exogenous glucocorticoid exposure as a potential cause.

Question 315

Name 2 drugs that suppress cortisol synthesis and so can be used in the treatment of Cushing’s disease.

Answer 315

1. Metyrapone.

2. Ketoconazole.

Question 316

When might you see signs of hypercortisolism without Cushing’s disease?

Answer 316

1. Pregnancy.
2. Depression.
3. Alcohol dependence.
4. Obesity.

Question 317

Would you expect a patient with SIADH to be hypovolaemic, euvolaemic or hypervolaemic?

Answer 317

Euvolaemic.

Question 318

Describe 5 features of the essential criteria for SIADH.

Answer 318

1. Hyponatreamia (<135mmol/L).
2. Plasma hypo-osmolality.
3. High urine osmolality.
4. Clinical euvolaemia.
5. Increased urinary sodium excretion with normal salt and water intake.

Question 319

Name 3 diseases that you must exclude in someone who you suspect could have SIADH.

Answer 319

1. Renal disease.
2. Hypothyroidism.
3. Hypocortism.
4. Recent diuretic use.

Question 320

Would you associate SIADH with hyponatraemia or hypernatraemia?

Answer 320

Hyponatraemia <135mmol/L.

Question 321

Would you associate SIADH with plasma hypo-osmolality or hyper-osmolality?

Answer 321

Plasma hypo-osmolality <275mOsm/Kg.

Question 322

Would you associate SIADH with a high or low urine osmolality?

Answer 322

High urine osmolality.

Question 323

Give 2 clinical signs of hypervolaemia.

Answer 323

1. Ascites.

2. Oedema.

Question 324

Give 3 clinical signs of hypovolaemia.

Answer 324

1. Hypotension.
2. Tachycardia.
3. Decreased skin turgor.
4. Dry mucus membranes.

Question 325

Define puberty.

Answer 325

Puberty describes the physiological, morphological and behavioural changes as the gonads switch from infantile to adult forms.

Question 326

What is the first sign of puberty in girls?

Answer 326

Menarche.

Question 327

What hormone is responsible for regulating the growth of the breasts and female genitalia?

Answer 327

Ovarian oestrogen.

Question 328

Which hormones are responsible for controlling the growth of pubic and axillary hair in females?

Answer 328

Ovarian and adrenal androgens.

Question 329

What is the first sign of puberty in boys?

Answer 329

First ejaculation, often nocturnal.

Question 330

What are the roles of testicular androgens in male puberty?

Answer 330

1. Development of external genitalia.
2. Growth of pubic and axillary hair.
3. Deepening of voice.

Question 331

What scale is used to describe physical development based on external sex characteristics?

Answer 331

Tanner scale.

Question 332

What is thelarche?

Answer 332

Breast development.

- Takes about 3 years and is controlled by oestrogen.

Question 333

Describe the 3 stages of thelarche.

Answer 333

1. Ductal proliferation.
2. Adipose deposition.
3. Enlargement of areola and nipple.

Question 334

What is adrenarche?

Answer 334

Maturation of the adrenal gland - the development of the zona reticularis cells.

Peri-pubertal adrenal androgen production -> body odour and mild acne.

Question 335

Give 2 signs of adrenarche.

Answer 335

1. Body odour.

2. Mild acne.

Question 336

What is pubarche?

Answer 336

Growth of pubic hair.

Question 337

What term is used to describe the onset of secondary sexual characteristics before 8/9 y/o?

Answer 337

Precocious puberty.

Question 338

What must you rule out as a cause of precocious puberty in boys?

Answer 338

Brain tumour!

Question 339

What is the treatment for precocious puberty?

Answer 339

GnRH super agonist to suppress pulsatility of GnRH secretion.

Question 340

What is delayed puberty?

Answer 340

The absence of secondary sexual characteristics by 14y/o or 16y/o.

Question 341

What is precocious puberty?

Answer 341

The onset of secondary sexual characteristics before 8/9 y/o.

Question 342

What is the most likely cause of delayed puberty in boys?

Answer 342

Constitutional delay - runs in the family; late menarche in mum or delayed growth spurt in father.

Question 343

Give 3 consequences of delayed puberty.

Answer 343

1. Psychological problems.
2. Reproduction defects.
3. Reduced bone mass.

Question 344

What must you rule out in girls with delayed puberty and short stature?

Answer 344

Turner Syndrome (45X)!

They might also have recurrent ear infections.

Question 345

Give 5 functional causes of delayed puberty.

Answer 345

1. Anorexia.
2. Bulimia.
3. Over exercising.
4. CKD.
5. Drugs.
6. Stress.
7. Sickle cell.

Question 346

What investigations might you do in someone with delayed puberty?

Answer 346

1. FBC - red cell count especially.
2. U+E.
3. LH/FSH measurements.
4. TFT’s.
5. Karyotyping for Turners.

Question 347

What is hypergonadotropic hypogonadism?

Answer 347

Primary gonadal failure!

- Testes or ovarian failure.

Question 348

What is the affect of hypergonadotropic hypogonadism on FSH/LH and oestrogen/testosterone?

Answer 348

High FSH/LH low oestrogen/testosterone.

Question 349

Give 2 examples of hypergonadotropic hypogonadism.

Answer 349

1. Turner Syndrome (45X).

2. Klinefelter’s syndrome (47XXY).

Question 350

What is hypogonadotropic hypogonadism?

Answer 350

Secondary gonadal failure!

- Hypopituitary or problems with the hypothalamus.

Question 351

What is the affect of hypogonadotropic hypogonadism on FSH/LH and oestrogen/testosterone?

Answer 351

Low FSH/LH and low testosterone/oestrogen.

Question 352

Give an example of hypogonadotropic hypogonadism.

Answer 352

Kallman syndrome.

Question 353

What is Turner syndrome?

Answer 353

In Turner syndrome the patient is missing an X chromosome - 45X. It is an example of primary gonadal failure (hypergonadotropic hypogonadism).

Question 354

Give 3 signs of Turner syndrome.

Answer 354

1. Short stature.
2. Delayed puberty.
3. CV and renal malformations.
4. Recurrent otitis media.

Question 355

What is Klienfelter’s syndrome?

Answer 355

In Klinefelter’s syndrome the patient has an extra X chromosome - 47XXY. It is an example of primary gonadal failure (hypergonadotropic hypogonadism).

Question 356

Give 2 signs of Klinefelter’s syndrome.

Answer 356

1. Azoospermia.
2. Gynaecomastia (enlargement of male breast tissue).
3. Increased risk of breast cancer.
4. Testicular size <5ml.

Question 357

Why might someone with Klinefelter’s syndrome have fertility problems?

Answer 357

Azoospermia - semen contains no sperm.

Question 358

Give 4 symptoms of Klinefelter’s syndrome.

Answer 358

1. Reduced pubic hair.
2. Tall stature.
3. Reduced IQ.
4. Small testicles (<5ml).

Question 359

What cancer is someone with Klinefelter’s at an increased risk of developing?

Answer 359

Breast cancer.

Question 360

What is Kallman syndrome?

Answer 360

Congenital deficiency of GnRH. It is an example of secondary gonadal failure -
hypogonadotropic hypogonadism.

Question 361

What must you test in a person who you suspect has Kallman syndrome?

Answer 361

Smell! 75% are ansomia.

Question 362

How is Kallman syndrome inherited?

Answer 362

X linked recessive or dominant.

Question 363

How do you treat asymptomatic SIADH?

Answer 363

Fluid restriction.

Question 364

How do you treat symptomatic SIADH of acute onset?

Answer 364

Give 3% saline.

Question 365

Name 2 drugs that can be used to treat acromegaly. What class of drugs do they belong to?

Answer 365

1. Cabergoline - dopamine agonist.

2. Octreotide - somatostatin analogue.