Endocrinology Flashcards

Question 1

Q

List symptoms of T2DM patient

Answer

A

Insidious - may have diabetes for a long time before diagnosis

Frequent urination
Polyuria and polydipsia
Waking in the night to pee
Blurred vision
Weight loss
Tiredness, lethargy

Question 2

Q

Describe management of type 2 diabetes mellitus

Answer

A

First line is lifestyle
Biguianide (eg. Metformin) first line. Add another drug if this doesnt control blood glucose. SGLT2 inhibitors, GLP1 analogues and DPP4 inhibitors are preferred as second line
Sulponylureas first line if patient is not overweight (eg.gliclazide)
Insulin sensitiser (thiozolidinediones such as pioglitazone)
Insulin itself (long acting glargine once a day, rapid acting with meals)
Incretins (GLP-1 analogue)
Gliptins (DPP4 inhibitor)
SGLT2 inhibitor (causes glycosurea)
Treat aggressively when first diagnosed
If high risk, already experienced MI or stroke, highly controlling diabetes can cause sudden death due to risk of hypos (BP, lipid, antiplatelets to reduce CVD risk where appropriate)

Question 3

Q

Describe diagnosis of T2DM

Answer

A

HbA1C over 48mmol
Fasting blood glucose measurement on multiple occasions over 7mmol/L
Random blood glucose over 11mmol/l

Question 4

Q

List side effects of metformin

Answer

A

Diarrhoea

- Lactic acidosis (don’t use in end stage kidney disease)

Question 5

Q

Describe adrenal insufficiency

Answer

A

Failure of the adrenal glands to produce enough corticosteroids and mineralocorticoids, due to Addisons disease or disease of the hypothalamus.

Question 6

Q

List causes of adrenal insufficiency

Answer

A

Addisons (TB most common worldwide, autoimmune most common western world)
Long term corticosteroid administration (secondary)
Disorders of the hypothalamus/pituitary
Adrenal mets
Lymphoma
HIV patients with opportunistic infections

Question 7

Q

Describe epidemiology of adrenal insufficiency

Answer

A

About 8,400 people are currently diagnosed with Addison’s disease in the UK.

0.8 per 100000
Rare but can be fatal

Question 8

Q

List patients in whom you would consider adrenal insufficency

Answer

A

Patients with hypothyroidism whose symptoms worsen when thyroxine is started
Type 1 diabetes mellitus with recurrent unexplained hypoglycaemic episodes
Other autoimmune diseases
Low sodium and high potassium levels on blood biochemistry.

Question 9

Q

List signs and symptoms of adrenal insufficiency

Answer

A

A person with Addison’s disease may present with a sudden crisis precipitated by intercurrent infection or stress. Features include hypotension, hypovolaemic shock, acute abdominal pain, low-grade fever, and vomiting.
Addison’s disease should also be considered in a person with persistent, non-specific symptoms, such as: fatigue; hyperpigmentation/vitiligo; gastrointestinal symptoms; cravings for salt, soy sauce, or liquorice; musculoskeletal symptoms; or postural dizziness due to hypotension.
Weight loss, depression, psychosis

Question 10

Q

Describe investigations in adrenal insufficiency

Answer

A

If suspected, a blood test is performed to look at serum cortisol (morning), urea and electrolytes (low na, high k, low glucose, uraemia, high Ca, eosinophilia, anaemia)
High acth in addisons, low in secondary cayses
21hydroxylase adrenal antibodies positive in autoimmune disease
Synacthen test is performed to confirm addisons (plasma cortisol before and 30min after tetracosactide, excludes addisons if cortisol increases)

Question 11

Q

Describe management of adrenal insufficiency

Answer

A

If the serum cortisol level is less than 100 nanomol/L, the person should be admitted to hospital. Adrenal insufficiency is highly likely.
If the serum cortisol level is 100–500 nanomol/L, the person should be referred to an endocrinologist for further investigations.
Treated with hydrocortisone for glucocorticoid replacement (15-25mg daily in 2-3 doses) and fludrocortisone for mineralocorticoid replacement
Bracelet for steroid use, extra before strenuous activity/if ill

Question 12

Q

Define acromegaly

Answer

A

A condition in which benign pituitary adenomas lead to an excess secretion of growth hormone (GH) and insulin-like growth factor 1 (IGF-1).

Question 13

Q

Describe epidemiology of acromegaly

Answer

A

Acromegaly is a rare disease with a prevalence estimated at 40 per million
Mean age of diagnosis is 40-45
More common in males than females

Question 14

Q

List signs and symptoms of acromegaly

Answer

A

Headache, vision loss (bitemporal hemianopsia), cranial nerve palsies
In women, oligomenorrhea, secondary amenorrhea, galactorrhea, vaginal atrophy
In men, erectile dysfunction, decreased libido, decreased testicular volume
Doughy skin texture, hyperhidrosis
Deepening of the voice, macroglossia with fissures, obstructive sleep apnea
Coarsening of facial features slowly progressing with age: enlarged nose, forehead, and jaw (macrognathia) with diastema
Sweating
Widened hands, fingers, and feet
Painful arthropathy (ankles, knees, hips, spine)

Question 15

Q

Describe aetiology of acromegaly

Answer

A

Benign growth hormone-secreting pituitary adenoma (> 95% of cases)
Very rare: neuroendocrine or hypothalamic tumors, paraneoplastic syndromes
Ectopic secretion of growth hormone by neuroendocrine tumors (e.g., small cell lung carcinoma, pancreatic islet-cell tumor (as found in MEN1)
Increased Secretion of growth hormone-releasing hormone (GHRH) from a hypothalamic tumor or in paraneoplastic syndromes (e.g., small cell lung carcinoma, medullary thyroid cancer)

Question 16

Q

Describe investigations performed in acromegaly

Answer

A

Serum IGF-1 concentration: the best single test
Elevated IGF-1 level: acromegaly suspected; conduct oral glucose tolerance test (OGTT).
In oral glucose tolerance test a positive result is no suppression of IGF1
Conduct pituitary MRI to determine the source of excess GH, usually shows a visible mass to confirm pituitary adenoma
Screen for an extrapituitary cause (e.g., CT scan of the chest and abdomen, measure GHRH)

Question 17

Q

Describe management of acromegaly

Answer

A

Transsphenoidal adenomectomy (preferred method)
Surgical debulking (in patients with parasellar disease and inoperable tumors)
Somatostatin analogs (e.g., octreotide, lanreotide)
Dopamine agonists (e.g., cabergoline): reduce tumor size and GH secretion
GH receptor antagonists (e.g., pegvisomant)
Conventional fractionated radiotherapy
Stereotactic radiosurgery
Assessing IGF-1 and random GH level 12 weeks after the surgery and then annually
Annual hormonal testing for hypopituitarism
Performing MRI at least 12 weeks after the surgery

Question 18

Q

Define hypothyroidism

Answer

A

Inability of the thyroid gland to produce appropriate amounts of T4 and T3.

Question 19

Q

Describe aetiology of hypothyroidism

Answer

A

Hashimotos disease (autoimmune)
Iatrogenic (eg. lithium, post radioiodide therapy, amiodarone)
Post partum
Congenital (aplasia, hypoplasia, dysplasia)
DeQuervain thyroiditis (subacute)
Secondary - pituitary adenoma
Tertiary - hypothalamic disorders

Question 20

Q

List risk factors for hypothyroidism

Answer

A

Pre-existing autoimmune disease
Female
Amiodarone/ lithium
Pregnancy
Turner/downs syndrome
Any history of brain cancer, head trauma, surgery

Question 21

Q

Describe epidemiology of hypothyroidism

Answer

A

Primary is more common. In the UK, prevalence is 1-2% and 10 times more common in women than men
Total prevalence in europe 3%
Secondary hypothyroidism is rare, between 1 in 20000 and 1 in 80000
Post partum hypothyroidism affects around 7% of women

Question 22

Q

List symptoms of hypothyroidism

Answer

A

Fatigue/lethargy, cold intolerance; weight gain, constipation.
Non-specific weakness, arthralgia, and myalgia.
Menstrual irregularities; infertility or subfertility.
Depression, impaired concentration and memory.
Dry skin and hair loss (such as loss of lateral eyebrows).
Thyroid pain, for example in subacute thyroiditis.

Question 23

Q

List signs of hypothyroidism

Answer

A

Changes to appearance such as coarse dry hair and skin, and hair loss.
Oedema, including swelling of the eyelids
Hoarseness or deepening of the voice; goitre.
Bradycardia and diastolic hypertension; pericardial effusion.
Delayed relaxation of deep tendon reflexes.
Paraesthesia (due to carpal tunnel syndrome) or peripheral neuropathy.

Question 24

Q

Describe diagnosis of hypothyroidism

Answer

A

Check TSH levels, if high check T4 levels
Consider checking FBC, serum B12, HbA1c, coeliac and lipids
Is autoimmune disease suspected, check serum thyroid peroxidase and thyroglobulin
Radioactive iodine uptake test
Ultrasound

Question 25

Q

Define thyroid nodule(s)

Answer

A

Thyroid nodules are abnormal growths within the thyroid gland.

Question 26

Q

Describe epidemiology of thyroid cancer

Answer

A

Over 2500 new thyroid cancers are diagnosed each year in the UK.
1% of all malignancies. 5% incidence in thyroid nodules
It is seen in both sexes. Approximately 70% of new diagnoses are in females.
The 5 year survival is over 90%.

Question 27

Q

Describe prognosis of thyroid cancer

Answer

A

5 year survival rate is 90%

Question 28

Q

Describe signs and symptoms of thyroid cancer

Answer

A

Neck lump which moves on swallowing, firm and painless
Early stages often asymptomatic

Late stages

Dyspnea
Dysphagia
Hoarseness (vocal cord paresis)
Horner syndrome
Possible obstruction of the superior vena cava

Question 29

Q

List risk factors for thyroid cancer

Answer

A

Exposure to ionizing radiation and genetic predisposition
Thyroid cancers also disproportionately affect women
Family history

Question 30

Q

Describe investigations of thyroid cancer

Answer

A

Ultrasound (grade U1-4)
Fine needle aspirate (U3+ or high risk pt)
Synctography
Uptake scan showing cold nodules (FDG-PET)
Laryngoscopy
TSH
Calcitonin (medullary)
CT (lymph node imaging and retrosternal extent)

Question 31

Q

Describe aetiology of thyroid nodule(s)

Answer

A

Benign thyroid nodules (∼ 95% of cases)

Thyroid adenomas
Follicular adenoma (most common)
Hürthle cell adenoma
Toxic adenoma
Papillary adenoma (least common)
Thyroid cysts
Dominant nodules of multinodular goiters
Hashimoto thyroiditis

Malignant thyroid nodules (∼ 5% of cases)

Thyroid carcinoma
Thyroid lymphoma
Metastatic cancer from breast/renal carcinoma (rare)

Question 32

Q

Describe epidemiology of thyroid nodule(s)

Answer

A

Males more than females
Incidence: increases with age (30-50% in over 55s)
Geographic distribution: most common in inland regions without iodine fortification programs, where iodine content in food and water is low

Question 33

Q

List signs and symptoms of thyroid nodules

Answer

A

Usually asymptomatic, with often a palpable lump in the neck that moves on swallowing but not when sticking out tongue

Severe causes can cause:

Goiter.
Pain at the base of your neck.
Dysphagia
Dyspnoea
Hoarse voice.

Question 34

Q

Describe investigations of thyroid nodule(s)

Answer

A

TSH blood test and free T4 if abnormal
Radioiodide uptake test
Ultrasound
Fine needle aspirate

Question 35

Q

Define graves disease

Answer

A

Hyperthyroidism is a biochemical diagnosis which occurs when there is pathologically increased thyroid hormone production and secretion by the thyroid gland
Graves disease is autoimmune condition against the thyroid. Type 2 hypersensitivity reaction. Antithyroid peroxidase

Question 36

Q

Risk factors and aetiology of graves disease

Answer

A

Women are more likely to develop Graves’ disease.
Family history
Current smokers have a three-fold increased risk of developing Graves’ orbitopathy compared with non-smokers.
If a person has Graves’ disease, the most significant modifiable risk factor for developing Graves’ orbitopathy is smoking
Autoimmune disease — co-existent autoimmune conditions are a risk factor for developing Graves’ orbitopathy, hyperthyroidism, and postpartum thyroiditis

Question 37

Q

Describe epidemiology of graves disease

Answer

A

Autoimmune hyperthyroidism (Graves’ disease) is the most common form, accounting for 60 to 80% of cases.
Thyrotoxicosis is a common endocrine disorder with a prevalence of around 2% in UK women and 0.2% in men.

Question 38

Q

List symptoms of graves disease

Answer

A

Rapid-onset malaise, fever, and thyroid pain
Agitation, emotional lability, insomnia, irritability, anxiety, palpitations.
Exercise intolerance, fatigue, muscle weakness.
Heat intolerance, increased sweating.
Increased appetite with unintentional weight loss, diarrhoea.
Subfertility, oligomenorrhoea, amenorrhoea.
Polyuria, thirst, generalized itch.
Reduced libido, gynaecomastia in men.

Question 39

Q

List signs of graves disease

Answer

A

Agitation, fine tremor, warm moist skin, palmar erythema.
Sinus tachycardia, atrial fibrillation, heart failure, pretibial myxoedema (non-pitting, due to glycosaminoglycans, bilateral)
In Graves’ disease, the thyroid gland is usually diffusely symmetrically enlarged without nodules, and there may be a bruit.
Pruritus, urticaria, vitiligo, diffuse alopecia.
Muscle wasting, proximal myopathy, hyper-reflexia.
Splenomegaly, lymphadenopathy.
Gynaecomastia in men.
Thyroid acropachy (clubbing and swelling of the distal fingers and toes).
Thyroid dermopathy (slightly pigmented thickened skin and swelling of both legs, usually in the pretibial area)
Graves opthalmology (Eyelid retraction -sclera is visible above the superior corneal limbus), Lid lag, Proptosis (exophthalmos, eyeball protrusion, an inability to fully close the eyes as the upper and lower lids do not fully appose).)

Question 40

Q

Describe investigations for graves disease

Answer

A

History and signs
Measure TSH, free T3 and T4
TSH receptor antibodies (antithyroid peroxidase is les specific, can be raised by many things)
LFTs and FBCs before starting antithyroid drugs
Diffuse increased uptake on NM uptake scan

Question 41

Q

Define diabetes insipidus

Answer

A

Diabetes insipidus is a condition characterised by the passage of large volumes of dilute urine (>3L) due to impaired water resorption by the kidney, because of reduced ADH secretion from the posterior pituitary (cranial DI) or impaired response of the kidney to ADH (nephrogenic DI).

Question 42

Q

List signs and symptoms of diabetes insipidus

Answer

A

Polyuria – excessive urination unaffected by reduction of fluid intake.
Polydipsia – can be uncontrollable and all consuming with patients drinking anything and everything to hand.
Dehydration since the body cannot conserve much, if any, of the water it takes in.

Symptoms of hypokalaemia:

Muscle weakness
Hypotonia
Hyporeflexia
Cramps
Tetany
Palpitations
Light-headedness (arrhythmias)

Symptoms of hypernatraemia:

Lethargy
Thirst
Weakness
Irritability
Confusion
Coma
Fits
Signs of dehydration.

Question 43

Q

Describe aetiology of diabetes insipidus

Answer

A

Cranial DI

Disease of the hypothalamus
Neurosurgery
Trauma
Primary/ secondary tumours
Infiltrative disease (sarcoidosis, histiocytosis)
Idiopathic

Nephrogenic DI

Hypokalaemia
Hypercalcaemia
Drugs: lithium chloride, dimeclocycline, glibenclamide
Renal tubular acidosis
Sickle cell disease
Prolonged polyuria of any cause
Familial (mutation in ADH receptors)

Question 44

Q

Describe epidemiology of diabetes insipidus

Answer

A

The combined prevalence of cranial DI and nephrogenic DI combined is estimated at 1 in 25,000.
DI can complicate up to 1 in 30,000 pregnancies.
Nephrogenic DI is the most common adverse effect of lithium and occurs in up to 40% of patients.

Question 45

Q

Describe investigations of diabetes insipidus

Answer

A

Urine volume must be measured to confirm polyuria (>3L in 24h)
U and E: normal to high Na+.
Ca2+
Glucose (exclude DM)

Measure urine and serum osmolality:

In DI, urine osmolality is inappropriately low for the high plasma osmolality.
Significant DI is excluded if urine: plasma ratio is >2:1 (as is the normal situation in health), provided plasma osmolality is no greater than 295mOsmol/kg.
In DI, despite raised plasma osmolality, urine is dilute with a U:P ratio of <2.
In primary polydipsia, there may be dilutional hyponatraemia.
Diagnose with water deprivation test. Urine remains dilute despite deprivation. Desmopressin is then given (in central urine is concentrated then, in nephrogenic it is not)

Question 46

Q

Describe treatment of diabetes insipidus (cranial, nephrogenic and acute)

Answer

A

Cranial DI

Find the cause – MRI (head); test anterior pituitary function.
Give desmopressin, a synthetic analogue of ADH.

Nephrogenic

Treat the cause.
If it persists, try bendroflumethiazide 5mg PO/24h. Thiazide diuretics sensitise the renal tubules to endogenous vasopressin.
NSAIDs lower urine volume and plasma Na+ by inhibiting prostaglandin synthase: prostaglandins locally inhibit the action of ADH.
Treatment of the cause usually does improve nephrogenic diabetes insipidus.

Emergency management

Do urgent plasma UandE, and serum and urine osmolalities. - Monitor U/O carefully and check U and E twice daily initially.
IVI to keep up with U/O. If severe hypernatraemia, do not lower Na+ rapidly as this may cause central oedema and brain injury. If Na+ is >170, use 0.9% saline initially – this contains 150mmol/L of sodium. Aim to reduce Na+ at a rate of <12mmol/L per day. Use of 0.45% saline can be dangerous.
Desmopressin 2ug IM (lasts 12-24h) may be used as a therapeutic trial.

Question 47

Q

List complications of diabetes insipidus

Answer

A

Dehydration

- Hypotension (syncope, renal failure, brain damage)

Question 48

Q

Describe prognosis of diabetes insipidis

Answer

A

Usually, cranial affects people for life as treatment of cause does not remove insipidus
Nephrogenic usually cured by treatment of cause (eg. stop medication)

Question 49

Q

Define Cushings syndrome

Answer

A

The term Cushing’s syndrome is used to describe state of excess free circulating glucocorticoid (cortisol).

Administered ACTH or glucocorticoid.
Excessive ACTH from the pituitary gland (cushings disease - pituitary adenoma)
ACTH producing tumours (e.g. from lung cancer)
Adrenal tumours (non-ACTH dependent pathway)

Question 50

Q

Describe epidemiology of cushings syndrome

Answer

A

The incidence of spontaneous Cushing’s syndrome is 10 per 1,000,000 per year
Peak incidence is between age of 25 and 40 – when associated with an adrenal or pituitary tumour
ACTH dependent 80% due to pituitary adenomas,
20% due to small cell lung ca, or carcinoid tumours, or any other endocrine tumour
ACTH independent Adrenal adenoma – 60%, Adrenal carcinoma – 40%

Question 51

Q

List risk factors for cushings syndrome

Answer

A

Female (F:M 5:1)
Diabetes – especially if poor glycemic control
Prevalence fo 2-5% amongst patients with T2DM
Obesity
Oral corticosteroids

Question 52

Q

List symptoms of cushings syndrome

Answer

A

Weight gain
Change of appearance
Depression
Insomnia
Amenorrhoea / oligomenorrhoea
Poor libido
Thin skin / easy bruising
Hair growth
Acne
Slow growth in children
Back pain
Reduced libido
Polyuria
Dyspepsia

Question 53

Q

List signs of cushings syndrome

Answer

A

“Moon face”
Frontal balding (female)
Pigmentation
Skin infections
Hypertension
Osteoporosis / osteopenia
Pathological fractures – particularly vertebrae and ribs
“Buffalo hump” – a dorsal fat pad
Kyphosis – hunch back
Striae – stretch marks – can be purple or red- occur mainly on the abdomen
Supraclavicular fat pads
Oedema
Proximal myopathy
Glycosuria
Diabetes / impaired glucose tolerance

Question 54

Q

Describe investigations of cushings

Answer

A

48hr low dose dexamethasone suppression test (suppresses cortisol in normal patients, not in patients with ACTH dependent cushings - also called overnight dex given at night then measure cortisol in morning)
24 hour urinary free cortisol measurements (measure complete urine over 24 hours and look for cortisol)
In hospital, take blood at 9am and midnight. Should be significantly lower at midnight
Very low ACTH suggests adrenal tumour
Measure plasma ACTH and cortisol
MRI, CT (pituitary/adrenal adenoma or carcinoma), chest X ray for lung tumour
High dose dexamethasone suppression test (lack of suppression adrenal tumour or ectopic ACTH, however 25% chance it is incorrect, used in identification of the cause of Cushings syndrome)
Inferior petrosal sinus sampling measures ACTH levels from the veins that drain the pituitary

Question 55

Q

List complications of cushings syndrome

Answer

A

MI
Hypertension
Infection
Heart failure
Osteoporosis
Diabetes

Question 56

Q

Describe treatment of cushings syndrome

Answer

A

Surgery or radiotherapy
Controlled initially medically with metyraprone (11b hydroxylase antagonist) or ketoconazole (Cyp450 blocker)
Cushings disease transsphenoidal removal of tumour, irradiation or as last resort bilateral adrenalectomy

Question 57

Q

Describe prognosis of cushings syndrome

Answer

A

Poor if untreated

- Adrenal carcinoma 5 year survival 30%

Question 58

Q

Define PCOS

Answer

A

Polycystic ovary syndrome (PCOS) is a heterogeneous endocrine disorder that appears to emerge at puberty.
The clinical features may include hyperandrogenism (with the clinical manifestations of oligomenorrhoea, hirsutism, and acne), ovulation disorders, and polycystic ovarian morphology.

Question 59

Q

Describe aetiology and risk factors of PCOS

Answer

A

Genetic and environmental factors
Insulin resistance and hyperinsulinaemia (resulting in reduced SHBG and increased free testosterone, increased androgen production and weight gain)
Hormonal imbalance (LH high relative to FSH increasing androgen precursors, increased oestrogen unopposed by progesterone resulting in hyperplastic endometrium)
Weight gain exacerbates symptoms

Question 60

Q

List symptoms of PCOS

Answer

A

In adults

Infrequent or no ovulation — for example, infertility, oligomenorrhoea, or amenorrhoea.
Hyperandrogenism — for example, hirsutism and acne vulgaris occurring after adolescence.

In adolescents

Signs and symptoms of hyperandrogenism (such as acne and hirsutism), and
Irregular menstrual cycles, defined as:
Normal in the first year post-menarche as part of the pubertal transition.
More than 1 year to less that 3 years of irregular cycles (more than 45 days or less than 21 days) after the onset of menarche.
More than 3 years of irregular cycles (more than 35 days or less than 21 days, or less than 8 cycles every year) post menarche to perimenopause.
More than 1 year of irregular cycles (more than 90 days for any one cycle) post menarche.
Primary amenorrhea by age 15 years or more than 3 years of irregular cycles post thelarche (breast development).

Question 61

Q

List signs of PCOS

Answer

A

Obesity
Hirsutism
Acanthosis nigricans, characterized by dry, rough skin that has grey-brown pigmentation, is palpably thickened, and is covered by a papillomatous elevation (giving it a velvety texture). The condition commonly affects the axillae, perineum, or extensor surfaces of the elbows and knuckles. When the neck is affected, there is often a thin necklace of warty fissures that can spread as a wide band.

Question 62

Q

Describe diagnosis of PCOS

Answer

A

Diagnosed if 2/3 not explained by other causes

Infrequent or no ovulation (usually manifested as infrequent or no menstruation).
Clinical and/or biochemical signs of hyperandrogenism (such as hirsutism, acne, or elevated levels of total or free testosterone).
Polycystic ovaries on ultrasound scan, defined as the presence of 12 or more follicles (measuring 2–9 mm in diameter) in one or both ovaries and/or increased ovarian volume (greater than 10 cm3).

Question 63

Q

Describe investigation of PCOS

Answer

A

Measure total testosterone — this is normal to moderately elevated in women with polycystic ovary syndrome (PCOS).
Measure sex hormone-binding globulin (SHBG) — this is normal to low in women with PCOS and provides a surrogate measurement of the degree of hyperinsulinaemia.
Calculate free androgen index (100 multiplied by the total testosterone value divided by the SHBG value) to assess the amount of physiologically active testosterone present — this is normal or elevated in women with PCOS
To eliminate other causes measure LH, Prolactin (mildly elevated in PCOS), TSH
Refer adults for ultrasound scan to look for the presence of 12 or more follicles in at least one ovary (measuring 2–9 mm diameter) or increased ovarian volume (greater than 10 cm3).
Ultrasound scan should not be used for the diagnosis of PCOS in adolescents.
Exclude cushings or androgen producing tumour if hirsutism.ect

Question 64

Q

Define phaeochromocytoma

Answer

A

A neuroendocrine tumour of the medulla of the adrenal glands. It secretes large quantities of the catecholamines noradrenaline, and to a lesser extent, adrenaline.

Answer 65

A

10% familial
10% bilateral
10% extra-renal
10% malignant
1 in 100000 people in UK diagnosed anually
0.1-0.6% patients with hypertension, 0.05% autopsy series prevalence

Answer 66

A

25% due to inherited condition

Multiple endocrine neoplasia type 2 (MEN 2)
Neurofibromatosis 1 (NF1)
Familial paraganglioma syndromes, which are mostly caused by changes in the succinate dehydrogenase (SDH) gene
Von Hippel Lindau disease

Answer 67

A

Severe headaches
A plethora of other symptoms, including flushing, unwell, weight loss (like in hyperthyroid), panic/anxiety, sweating, pallor, hyperglycaemia, pyrexia, abdominal pain
May be worsened by TCA (if you thought it was ps-somatic), beta-blockers, IV contrast
Attacks may last less than 15 mins or up to 1 hour

Answer 68

A

Severe hypertension (eg 210/100) and orthostatic hypotension, both fluctuating
Cardiac tachyarrythmias (eg SVTs)
Pallor

Answer 69

A

Initial best test to rule out phaeochromocytoma: metadrenaline from blood.
Confirmed by 3x 24-hour collection of urine catecholamines. (DO URINE FIRST UNLESS SCREENING FOR HEREDITARY CAUSE)
CT abdomen
Nuclear imaging: MIBG: chrommafin-seeking isotope scan, for extra-renal tumours imaging is performed post-diagnosis purely for surgical management planning)

Answer 70

A

An otherwise benign adenoma of the anterior pituitary gland – which produces prolactin outside of the normal controls.

Answer 71

A

Prevalence is about 0.25%
Increasing – thought to be drug related
More common in women
M:F – 1 : 3.5
Typical age of onset 25-45

Answer 72

A

About half of cases are due to a pituitary adenoma
- Usually a micro adenoma (<10mm diameter) – 90% of adenomas
- Less commonly a macro adenoma (>10mm) – 10% of adeomas
- Rarely, other types of pituitary tumour (nonfunctioning tumours) can cause hyperprolactinaemia through compression of the pituitary stalk – which decreases the flow of dopamine to the pituitary and thus reduces the dopamine suppression feedback
- Multiple Endocrine Neoplasia (MEN) causes about 20% of cases of hyperprolactinaemia
Drug – account for about 45% of cases
- Anti-psychotics (e.h. haloperidol, risperidone)
- Methyldopa
- Opioids
- Antidepressants including TCAs and SSRIs
- Verapamil
- Hypothyroidism – about 5% of cases due to increased production of TRH
- Pregnancy
- Nipple stimulation
- Stress
- Excessive exercise
- In neonates (<3m old)

Answer 73

A

Galactorrhoea – milk production – is the most common symptoms
Can occur in man as well as women
Often intermittent and sporadic

Women may also exhibit
- Amenorrhoea or oligomenorrhea

Men are more likely to present with:

Headaches
Reduced libido
Erectile dysfunction
Symptoms in men tend to be more subtle and have slower onset

Answer 74

A

Signs of hirsutism in women (male pattern hair growth, increased musculature) – which can make it difficult to distinguish from PCOS
Visual disturbance (bitemporal hemianopia)

Answer 75

A

Pregnancy test
Prolactin level >5x normal usually required to confirm diagnosis
Usually correlate to the size of the tumour – bigger tumour = greater prolactin level
TFTs to rule out hypothyroidism as the cause
CT or MRI to confirm the presence of adenoma, MRI preferred (higher resolution than CT, the pituitary gland is small!)

Answer 76

A

Patients who are asymptomatic, with prolactin levels <100ng/ml can usually be observed with repeat prolactin levels every 3 months, and repeat imaging every 12 months
Dopamine agonists are mainstay of treatment (e.g. bromocriptine 1.25 – 5 mg BD, or cabergoline 0.25 – 1mg weekly or twice weekly)
Cabergoline has been shown to be more effective than bromocriptine
Have been associated with valvular heart disease when given long-term in high doses (usually only seen in Parkisnon’s disease, because doses used in hyperprolactinaemia are lower)
Consider echocardiogram monitoring
Other side effects include psychiatric effects – such as increased impulsive behaviour, and rarely, psychosis
Consider exogenous oestrogen for women who have low estradiol levels
Dopamine agonists usually result in shrinkage of the adenoma
Treatment is required long term, but particularly for microadenomas, remission may occur if treatment is ceased. Advice is to consider a trial of treatment cessation after 3 years if prolactin levels are normal and the tumour has decreased in size. It important to continue to monitor the prolactin levels and the tumour size after cessation of treatment
Surgery considered for macroadenomas – particularly if they don’t shrink with medical therapy
Radiation therapy considered for large nonfunctioning tumours to shrink them, usually a last resort
Hypopituitarism is common – onset usually occurs several years after therapy

Answer 77

A

In women, 30% of cases spontaneously resolve
In 95% of cases, tumours will not show any signs of growth after 4-6 years
Macroadenomas require more aggressive treatment

Answer 78

A

Bone loss (osteoporosis). Too much prolactin can reduce production of the hormones estrogen and testosterone, resulting in decreased bone density and an increased risk of osteoporosis.
Pregnancy complications. During a normal pregnancy, the production of estrogen increases. If you are pregnant and have a large prolactinoma, these high levels of estrogen may cause tumor growth and associated signs and symptoms, such as headaches and changes in vision.
Vision loss. Left untreated, a prolactinoma may grow large enough to compress your optic nerve. This can cause a loss of peripheral vision.
Low levels of other pituitary hormones. With larger prolactinomas, pressure on the normal pituitary gland can lead to lower levels of other hormones controlled by the pituitary, including thyroid hormones and cortisol (a stress-response hormone).

Answer 79

A

cations + anions + glucose+ urea
=2(cations) + glucose + urea
= 2(Na + K) + glucose + urea
Normal is 296mOsm/Kg

Answer 80

A

Microvacular due to glycosylation of basement membrane proteins causing leaky capillaries (retinopathy, nephropathy, neuropathy)
Macrovascular due to dyslipidaemia, hypertension and hypercholesterolaemia
IHD (ischaemic heart disease)
CVA
Peripheral gangrene
HHS
Charcots foot (inflammation leading to weakness of the foot, rockerbottom foot)
Hyperosmolar hyperglycaemic state

Answer 81

A

Hard exudates
Blot haemorrhages
Microaneurysms

Answer 82

A

If background (blot and dot haemorrhages, hard exudates), improve blood glucose control
If pre-proliferative (cotton wool spot), or proliferative (new vessels on disk), Pan retinal photocoagulation to destroy vessels in the periphery and preserve the macula
If maculopathy (hard exudates eg. background retinopathy near macula) grid of photocoagulation

Answer 83

A

Diabetic control
BP control
Inhibition of activity of RAS system (ACEi/ARB)
Stop smoking

Answer 84

A

Hyperkalaemia, hyponatraemia
Acidosis
Fluid retention
Retention of waste
Secretory failure (vit D, erythropoietin)

Answer 85

A

Itredness, lethargy
SOB, oedema
Pruritis, nocturia, feeling cold, twitching, nausea, loss of taste, weight loss
Anaemia
Renal bone disease

Answer 86

A

Hyperkalaemia causes arrythmias, cardiac arrest
Pulmonary oedema
Nausea, vomiting
Malnutrition/ cachexia
Fits
Increasing coma
Death

Answer 87

A

Dialysis eGFR<6ml/min and no reversible features
Consider if eGFR<10
Peritoneal at home, uses the lining of the peritoneum
Haemodialysis hospital based, 3 times a week 4 hours
Transplantation
Vitamin D

Answer 88

A

Benefits

Improve symptoms
Correct fluid balance
Avoid severe acidoss, hyperkalaemia, and pulmonary oedema resistant to diuretics

Risks

Infection, hypotension, arrythmias, access related
Adverse QOL (work, family life, travel)

Answer 89

A

Benefits

Better renal replacement
Improvement in metabolic disorders
Costs less log term
Prolonged survival and improved QOL

Risks

Older and sicker patients not eligible
Immunosuppression (increased infection, increased malignancy)
Not a cure (surgical complications, hospital visits)
Often worse off if the transplant fails

Answer 90

A

Diabetes mellitus is a metabolic disorder characterized by persistent hyperglycaemia (random plasma glucose more than 11 mmol/L) with disturbances of carbohydrate, protein, and fat metabolism resulting from defects in insulin secretion (leading to insulin deficiency), insulin action (leading to insulin resistance), or both.
Type 1 diabetes is an absolute insulin deficiency
Type 2 diabetes is insulin resistance and a relative insulin deficiency

Answer 91

A

Obesity and inactivity
Family history
Ethnicity (asian, african and black communities)
History of gestational diabetes
Poor dietary habits
Drug treatments (statins, corticosteroids, thiazide diuretic plus beta blocker)
PCOS
Metabolic syndrome
Low birth weight for gestational age

Answer 92

A

Absolute insulin deficiency due to autoimmune destruction of insulin producing beta cells of the pancreas
Genetic factors (polygenic)
Environmental factors (diet, vitamin D exposure, obesity, viruses, gut microbiome)

Answer 93

A

2.5 million with diagnosed diabetes in UK
500,000 with undiagnosed diabetes
90% of adults diagnosed have type 2
8% people with diabetes type 1
90% of children in UK with diabetes have type 1
1.9% children diagnosed have type 2
Type 1 5-15 peak age

Answer 94

A

Acanthosis nigricans (dark skin around neck and axila)
Skin tags
Central obesity
Hirsutism

Answer 95

A

Polyuria, thirst
Weight loss
Weakness
Nausea/vomiting
Leg cramps
Tiredness
Abdominal pain
Confusion/ drowsiness/ coma

Answer 96

A

Kussmaul breathing
Dehydration
Hypotension
Peripheral cyanosis
Tachycardia
Hypothermia
Smell of acetone

Answer 97

A

Without insulin, patients with T1DM would die within weeks
With replacement, patients can live a normal life but are at risk of complications
Lifestyle can be used initially with T2, but eventually usually insulin is required

Answer 98

A

CNS pathology (SAH, stroke, tumour, TBI)
Lung pathology (pneumonia, bronchiectasis, small cell lung cancer)
Drugs (SSRI, TCA, opiates, PPIs, carbamezepine)

Answer 99

A

Trauma
Thyrotoxicosis
Fungal infection
Psoriasis

Answer 100

A

Capillary ketones
Random plasma glucose >11mmol/L
Fasting plasma glucose >6.9mmol/L
2 hour plasma glucose >11mmol/L
Plasma or urine ketones high
HbA1c >48mmol/mol
Fasting C peptide low
Autoimmune markers positive

Answer 101

A

Metformin

- Diet and exercise is the best for prevention

Answer 102

A

Primary hyperparathyroidism is an endocrine disorder in which autonomous overproduction of parathyroid hormone results in derangement of calcium metabolism.
In approximately 80% of cases, over-production of PTH is due to a single parathyroid adenoma and, less commonly, multi-gland involvement may occur.

Answer 103

A

Any disorder that results in hypocalcaemia will elevate parathyroid hormone levels and can serve as a cause of secondary hyperparathyroidism.
The most frequent causes of the condition are chronic kidney disease (CKD), malabsorption syndromes, and chronic inadequate sunlight exposure, acting via alterations in vitamin D, phosphorus, and calcium.
CKD causes reduced 1,25-hydroxy vitamin D, decreased calcium and phosphate

Answer 104

A

Primary

0.015-0.4% prevalence
1 in 500 women and 1 in 2000 men aged over 40 years.
A population-based study suggested 2% of post-menopausal women have PHPT, with the disorder being the most common cause of hypercalcaemia in outpatients.

Secondary

CKD or vitamin D deficiency
6% of the population low vit D

Answer 105

A

Ageing
Chronic renal failure
Inadequate sunlight exposure
Nutritional deficiency (especially absence of dairy products and fish - most common cause)
Malabsorption
Hepatic dysfunction
Genetic disorder
Obesity
Medication use

Answer 106

A

Female sex
Age ≥50-60 years
Family history of PHPT
Multiple endocrine neoplasia (MEN) 1, 2A, or 4
Hypertension
Current or historical lithium treatment
Hyperparathyroidism-jaw tumour syndrome
History of head and neck irradiation

Answer 107

A

Nephrolithiasis (polyuria and polydipsia)
Bone pain
Poor sleep
Fatigue
Anxiety
Depression
Memory loss
Myalgias
Paraesthesias
Muscle cramps
Constipation
Overt neuromuscular dysfunction
Abdominal pain (cause of pancreatitis)
Cardiovascular and metabolic dysfunction
Hard and dense neck mass

Stones, bones, thrones, abdominal groans and psychiatric overtones

Answer 108

A

Signs of renal failure (discoloured skin, bruising, pruritus, evidence of fluid overload (lung rales, pericardial rub, and peripheral oedema), elevated BP, fatigue, nausea, poor concentration/memory, and myoclonus.)
Muscle cramps and bone pain
Tingling in the fingers or toes

CATS go numb (convulsions, arrhythmias, tetany, paraesthesia)

Answer 109

A

Chovseks sign (twitching of the face after tapping on the cheek)
Trousseaus sign (Inflating blood-pressure cuff above diastolic for about 3 minutes causes muscular flexion of the wrist, hyperextension of the fingers, and flexion of the thumb)
Bowed legs
Bone pain (looser fractures - pseudofractures)
Arrythmias (long QT interval)

Answer 110

A

Serum calcium (high)
Serum intact PTH with immunoradiometric or immunochemical assay
25-hydroxyvitamin D level (low)
Serum alkaline phosphatase (raised)
Serum phosphorus (low)
24-hour urinary calcium (high)
Dual-energy x-ray absorptiometry (DXA) scan
Trabecular bone score
Tc-99m sestamibi scanning and ultrasonography
Single photon emission CT + sestamibi scanning
CT neck
4-Dimensional (4D) CT neck
MRI neck

Answer 111

A

Serum calcium (Low/normal)
Serum intact parathyroid hormone (iPTH) (high)
Serum creatinine (high in CKD)
Serum urea nitrogen (high in CKD)
Serum phosphorus (high in CKD)
Serum 25-hydroxyvitamin D (low)
ALP high
Serum magnesium
Ultrasound neck
Sestamibi scan
High-resolution contrast CT scan neck and upper chest
MRI neck and upper chest

Answer 112

A

Symptomatic/ surgical indications

1st line parathyroidectomy (recovery 1-2 weeks, leave hospital day 1) + vitamin D supplementation
2nd line monitoring + bisphosphonate + cinacalcet (used in patients who have severe HPT and dont fit surgical criteria, or to reduce size before surgery) + vitamin D supplementation
Post surgery follow up: measure Ca and PTH 2 weeks and 6 weeks post surgery, check histology.

Asymptomatic with no surgical indications

1st line monitoring + vitamin D supplementation
2nd line parathyroidectomy + vitamin D supplementation

Answer 113

A

Lack of sunlight
- 1st line UV radiation exposure, vitamin D supplementation, calcium supplementation

Malabsorption-related
- Optimised management of underlying disease, vitamin D supplementation, calcium supplementation (cholecalciferol)

CKD stage 3 or 4

Dietary phosphate restriction, phosphate binder (low vit D)
Alphacalciferol (normal serum 25-hydroxyvitamin D)
Vitamin D sterol (with hypercalcaemia)
Reduction of calcium load (with hypocalcaemia)
Calcium salt and/or vitamin D sterol

CKD stage 5: PTH 300-800 ng/L (300-800 pg/mL)

Vitamin D sterol
Calcimimetic
Dialysis control of calcium

CKD stage 5: PTH >800 ng/L (>800 pg/mL)
- Parathyroidectomy

Answer 114

A

Neck haematoma following surgery
Recurrent and superior laryngeal nerve injury following surgery
Hypocalcaemia following surgery
Pneumothorax following surgery
Osteoporosis
Bone fractures
Nephrolithiasis

Answer 115

A

Osteodystrophy
Osteoporosis
Uraemia
Calciphylaxis

Answer 116

A

For asymptomatic patients who do not meet the criteria for surgical intervention, 75% have stable disease for up to 10 years.
25% of patients progress to meeting criteria for parathyroidectomy.
Patients <50 years of age tend to progress to meeting criteria for parathyroidectomy in up to 70%.
The most common cause of mortality is (stroke, myocardial infarction).
Hypercalcaemic dysrhythmias are rare.
Parathyroidectomy cure rate of 95%

Answer 117

A

Outlook mirrors the underlying disease

- Surgery or renal transplantation may help

Answer 118

A

135 and 145mEq/L

Answer 119

A

3.5 and 5.5mmol/l

Answer 120

A

2.5-7mmol/L

Answer 121

A

60-120µmol/L

Answer 122

A

Pregnancy
Hypothalamic (excessive exercise, low BMI)
Pituitary (excess prolactin)
Thyroid (hyper or hypo)
Ovaries (PCOS, ovarian failure)

Answer 123

A

Weakness
Arythmia
Polyuria (hypokalameia causes resistance to ADH)

Answer 124

A

Vomiting
Diuretics
Primary hyperaldosteronism (bilateral hyperplasia or Conns)

Answer 125

A

Low ca, low phosphate, high PTH (vitamin D deficiency)
High ca, low phosphate, high PTH (primary hyperparathyroidism)
High ca, normal phosphate, low PTH (hypercalcaemia of malignancy)
Low ca, high phosphate, low PTH (hypoparathyroidism)
Low ca, high phosphate, high PTH (renal failure)

Answer 126

A

Characterised by hypotonic hyponatraemia, concentrated urine, and a euvolaemic state.
The impairment of free water excretion is caused by increased arginine vasopressin (antidiuretic hormone or AVP) release.

Answer 127

A

Hyponatraemia occurs in 15-22% of hospitalised patients and 7% of outpatients
SIADH most commonly found in hospitalised patients.
8% of hyponitraemia cases

Answer 128

A

Age >50 years
Pulmonary conditions (e.g., pneumonia)
Nursing home residence
Malignancy
Medicine associated with SIADH induction
Central nervous system (CNS) disorder
Postoperative state
Endurance exercise

Answer 129

A

Ma be asmpomaic
Absence of signs of adrenal insufficiency or hypothyroidism
Nausea
Vomiting
Altered mental status
Headache
Seizure
Coma

Answer 130

A

Serum sodium (low)
Serum osmolality (low)
Serum urea (low)
Urine osmolality (elevated)
Urine sodium
Investigations to consider
Diagnostic trial with normal saline infusion (does not improve)
Serum uric acid
Fractional excretion of sodium
Fractional excretion of urea
Serum TSH
Serum cortisol level
Serum arginine vasopressin (AVP)
CXR and brain MRI for tumour

Answer 131

A

Intravenous hypertonic 3% saline + fluid restriction
Treat underlying cause
Furosemide

Chronic (onset >48 hours or unknown)

Intravenous 3% hypertonic saline + vasopressin receptor antagonist (conivaptan). Oral demeclocycline if ineffective
Treat underlying cause
Furosemide

Answer 132

A

Central pontine myelinolysis (CPM or osmotic demyelination syndrome)
Occurs in people with longstanding SIADH who undergo overaggressive treatment of hyponatraemia.
CPM is characterised by demyelination of pontine, basal ganglion, and cerebellar regions with resultant neurological symptoms, including behaviour disturbances, lethargy, dysarthria, dysphagia, paraparesis or quadriparesis, and coma.

Answer 133

A

Typically resolves once underlying cause is found.
Due to reports of potentially fatal liver injury in patients with autosomal dominant polycystic kidney disease, tolvaptan should not be used for more than 30 days, and it should be avoided in patients with underlying liver disease including cirrhosis.

Answer 134

A

Carcinoid syndrome occurs due to release of serotonin (5-hydroxytryptamine) and other vasoactive peptides into the systemic circulation from a carcinoid tumour.
Twenty percent to 30% of midgut neuroendocrine tumours (NETs), 5% of bronchial carcinoid tumours, and approximately 1% of pancreatic NETs secrete 5-hydroxytryptamine and other peptides.

Answer 135

A

2.85 per 100000 US
Slight male sex bias
Most common in 6th to 7th decade
Greater incidence in black people, lower in asians and hispanics than white people

Answer 136

A

Midgut tumours that lead to carcinoid syndrome vary from benign, well-differentiated endocrine tumours to low-grade malignant endocrine tumours. Occasionally, some midgut tumours can be poorly differentiated endocrine carcinomas.
Approximately 40% of neuroendocrine tumours (NETs) are functional.
Carcinoid syndrome occurs in 20% to 30% of patients with midgut carcinoid tumours and approximately 5% of bronchial carcinoids. - - Common in liver metastasis and foregut tumours. Rare in hindgut tumours

Answer 137

A

Neuroendocrine tumours are associated with MEN-1 in about 10% of cases.
However, very few of these tumours cause carcinoid syndrome.

Answer 138

A

Diarrhoea (mediated by serotonin)
Flushing (stress and alcohol association, face and upper trunk)
Palpatations
Abdo cramps
Telangiectasia
Signs of right heart failure
Cardiac murmurs
Hepatomegaly
Wheeze
Pellagra (diarrhoea, dermatitis, dementia)
Abdominal masses

Answer 139

A

Serum chromogranin A/B (elevated)
Urinary 5-hydroxyindoleacetic acid (elevated - HIAA levels)
Metabolic panel (raised creatinine if dehydrated)
Liver function tests (variably, depending on site of tumour)
FBC
CT chest abdo pelvis every 4-6 months for staging
Broncosopy (primary tumour)
Endoscopy
Somatostatin receptor scintigraphy/SPECT (somatostatin receptor positive tumour)
MIBG scintigraphy
Histology
PET

Answer 140

A

Hypogonadism is a clinical syndrome associated with impaired functional activity of the gonads. Both males and females can be affected. It is classified as either primary or secondary:
Primary hypogonadism (hypergonadotropic hypogonadism) is typically caused by congenital disorders of sex development affecting the gonads (e.g., Turner syndrome, Klinefelter syndrome) or acquired gonadal injury (e.g., irradiation, infection).
Secondary hypogonadism (hypogonadotropic hypogonadism) is most often caused by pituitary or hypothalamic disorders (e.g, craniopharyngioma, Kallmann syndrome).

Answer 141

A

Primary hypogonadism is insufficient sex steroid production in the gonads (primary gonadal insufficiency is turner syndrome, klinefelter, anorchia, secondary gonadal insufficiency is damage to leydig cells or ovarian tissue)
Secondary hypogonadism is insufficient GnRH and or gonadotrophin release at the HPA (eating disorders, genetic eg. Prader Willi, hypothalamic or pituitary lesions)

Answer 142

A

The prevalence of hypogonadism increases with age.
About a quarter of the US male population have total testosterone levels that are below 10.4 nanomol/L (<300 nanograms/dL) (considered by many experts to be the lower end of normal)
Between 40 and 69 years incidence is approximately 481,000 new cases per year
The European Male Aging Study (EMAS) reports a prevalence of late-onset hypogonadism of 2.1% in men aged between 40 and 79 years.
1 in 7 UK couples have difficulty conceiving

Answer 143

A

Men

Type 2 diabetes
Obesity
Renal failure
HIV
Hypertension
Chronic obstructive pulmonary disease (COPD)
Taking glucocorticoid (steroids)
Opioid or antipsychotic medication therapy

Women

Stress
Low weight and excessive exercise
High BMI
Physiological - pregnncy

Answer 144

A

Delayed puberty in men

Testicular hypoplasia
Low body hair growth
High pitched voice
Smooth skin
Lean body mass

Delayed puberty in women
- Primary amenorrhoea

Other:

Developmental abnormalities of the genitalia
Infertility, impotence, decreased libido
Secondary amenorrhoea
Klinefelter gynaecomastia
Turner syndrome webbed and short stature
Kallman anosmia, absent breast development, syndactyly, cleft palate or lip
Prafer willi syndrome muscular hypotonia, short stature, facial dysmorphia
Gaucher diease hepatomegaly, splenomegaly, painful bone crises

Answer 145

A

Serum testosterone/oestrogen levels (low)
GnRH, LH/FSH (determine if primary or secondary hypogonadism), TFTs
Bone scan (decreased bone density, delayed epiphyseal closure)
Genetic testing
Serum prolactin
Pelvic ultrasound
Brain MRI (for CNS lesion
ACRH stimulation test to exclude congenital adrenal hyperplasia
Pregnancy test in women

Answer 146

A

Addition of strong acid that is buffered by and consumes bicarbonate ion
Loss of bicarbonate ion from the body fluids, usually through the GI tract or kidneys
Rapid addition to the extracellular fluid of a non-bicarbonate solution.

Answer 147

A

Bicarbonate (HCO₃-) is lost or diluted, an anion is not generated, and electroneutrality is preserved by reciprocal increases in serum chloride concentration.
Also referred to as hyperchloraemic metabolic acidosis.
Commonly caused by GI or renal loss of HCO₃-.
GI causes include diarrhoea, GI drainage and fistulas, surgical urinary diversion of bowel, and intake of chloride-containing anion-exchange resins.
Renal causes include renal tubular acidosis, carbonic anhydrase inhibitors, hypoaldosteronism, and use of potassium-sparing diuretics.
Other causes include addition of acid by total parenteral nutrition, ingestion of elemental sulfur, or addition of hydrogen chloride (HCl) or other related chemicals such as ammonium chloride.

Answer 148

A

An organic acid consumes HCO₃-, and the anion that is produced is often retained in extracellular fluid and serum.
Serum chloride concentration does not increase.
Caused by diabetic ketoacidosis, alcoholic ketoacidosis, lactic acidosis, kidney disease,
Ingestion of methanol, ethanol, ethylene glycol, propylene glycol (diluent in lorazepam), 5-oxoproline (toxic levels may occur in patients with chronic ingestion of paracetamol), salicylic acid, paraldehyde, phenformin, metformin, iron, isoniazid, hydrogen sulfide, carbon monoxide, toluene, or ethylene glycol.

Answer 149

A

Arterial pH (normal 7.35 to 7.45, low indicates acidosis)
Measure HCO3- and PaCO2. Low pH and HCO3- indicates metabolic acidosis. Decreased PaCO2 means compensation
Serum anion gap (Sodium + - (Cl- + HCO2-)
Urine AG (Na+K)-Cl if negative non-renal causes
Test for lactate, ketones, toxicology
If diabetes review medication

Answer 150

A

Blocks 1a hydroxylase
Increased Ca reabsorption
Increased phsophate excretion

Answer 151

A

PTH (mainly increase)
Calcitriol (vitamin D- this increases calcium the most)
Calcitonin (decrease)

Answer 152

A

Bone mets
Multiple myeloma
Paraneoplastic syndromes (eg. lung SCC)
Sarcoidosis
Thiazide diuretics

Answer 153

A

Saponification

- Autolysis of the pancreas forming breakdown products which calcium binds to

Answer 154

A

MEN1

Pituitary
Parathyroid
Pancreas

MEN2

Parathyroid
Pituitary
Medullary thyroid cancer

Answer 155

A

Primary hyperparathyroidism

Subperiosteal bone resorption
Acro-oseolysis (fingertip erosion)
Pepper pot skull

Secondary hyperparathyroidism

Rachitic rosary (swelling of costochondral junctions in children)
Loosers pseudofractures

Answer 156

A

Primary defects in the hypothalamic-pituitary axis, postulating increased amplitude and frequency of pulses of LH, or defects involving the ovaries through an intrinsic problem leading to androgen over-production.
Defects in insulin sensitivity with insulin resistance leading to compensatory hyper-insulinaemia.
Multiple genes, each with mild or moderate effects on overall disease risk, are likely to be involved.

Answer 157

A

Physiological (pregnancy, breast feeding, stress)
Drugs (haloperidol, methodopa, oestrogens, chronic renal failure)
Diseases (micro or macroadenoma; stalk damage including piruitary adenomas, surgery, trauma; hypothalamic disease, hypothyroidism, chronic renal failure

Answer 158

A

MEN1 or FIPA
Female gender, 20 to 50 years of age
Oestrogen therapy
Male gender, 30 to 60 years of age

Answer 159

A

Excess production of aldosterone independent of the renin angiotensin system, causing sodium and water retention and decreased renin release
Sodium mildly raised or normal

Answer 160

A

2/3 due to a solitary aldosterone producing adenoma (conns syndrome)
1/3 due to bilateral adrenocortical hyperplasia
Rarely adrenal carcinoma or glucocorticoid remedial aldosteronism

Answer 161

A

In the UK there were 316 inpatient admissions with hyperaldosteronism in the 1-year period 2013 to 2014, predominantly in the 15 to 59 year age group (215 cases).

Answer 162

A

Risk factors include: family history of PA and family history of early onset (e.g., <40 years)
Hypertension and/or stroke.

Answer 163

A

Hypertension
Commonly asymptomatic
Nocturia, polyuria
Lethargy
Mood disturbance (irritability, anxiety, depression)
Difficulty concentrating
Paraesthesias, muscle cramps, muscle weakness, palpitations (if hypokalaemic)

Answer 164

A

Plasma potassium
Aldosterone to renin ratio
Fludrocortisone suppression test (failure to suppress aldosterone)
Saline infusion test (fails to suppress aldosterone)
Oral salt loading
Genetic testing
Adrenal CT
Adrenal venous sampling (to see whether aldosterone production is bilateral or lateral)
Adrenal MRI
Adrenal aelenocholesterol scanning
Posture simulation testing
Angiotesnin II infusion testing
24 hours urinary hybrid steroids
Dexamethasone suppression testing

Answer 165

A

Unilateral laparoscopic adrenalectomy, preoperative aldosterone antagonists and postoperative aldosterone antagonists (eg. spironolactone, amiloride)
Bilateral spironolactone and consider surgery if bilateral. Lesions over 2.5cm surgically removed due to malignant potential
Familial hyperaldosteronism dexamethasone or prednisolone will reduce aldosterone, or can use aldosterone antagonists second line
Amiloride used in children

Answer 166

A

Unilateral adrenalectomy 50-60% cure
If aldosterone agonists improved hypertension and hypokalaemia reduced, but not as good as adrenalectomy
Patients with FHI treatment with low dose glucocorticoids is very effective

Answer 167

A

Bleeding, infection, wound hernia, cardiovascular events (perioperative)
Stroke
MI
HF
AF
Impaired renal function
Aldosterone antagonist or mineralocorticoid receptor antagonist induced hyper halaemia

Answer 168

A

Low mineral content of bone following complete growth plate closure
Called rickets in children
Vitamin D deficiency is 25-hydroxyvitamin D of less than 30 nmol/L is deficient. 25-hydroxyvitamin D of 30-50 nmol/L may be inadequate in some people

Answer 169

A

Vitamin D deficiency due to low UV-B exposure, insufficient dietary supplementation or inability to absorb vit D
CKD can cause increased vit D output
Drugs such as bisphosphonates

Answer 170

A

In the US, Europe, and East Asia, more than 40% of the adult population older than age 50 years are vitamin D deficient
In developing countries, 60% prevenlance in infants

Answer 171

A

Dietary calcium and vitamin D deficiency
Chronic kidney disease
Limited sunlight exposure
Inherited disorders of vitamin D and bone metabolism
Hypophosphatasia
Anticonvulsant therapy
Mesenchymal tumours
Fanconi’s syndrome (low phosphate)
CF (reduced absorption)

Answer 172

A

Fractures (especially common in femoral neck, insufficiency fractures)
Diffuse bone pain and tenderness
Proximal muscle weakness
Waddling gait
Steatorrhoea (malabsorption)

Answer 173

A

Serum calcium, 25-hydroxyvit D, phosphate, urea and creatinine, PTH, alk phos (low Ca, low phosphate, high PTH, high alk phos, high vit D)
24 hr urinary calcium
Bone X rays
24 hour urinary phosphate
DEXA
Iliac crest biopsy with tetracycline labelling (incomplete mineralisation)

Answer 174

A

Calcium carbonate and vitamin D (ergocalciferol)
Alfacalcidiol in patients with renal disease
May need phosphate too

Answer 175

A

Insufficiency fractures or pseudofractures
Secondary hyperparathyroidism
Metastatic calcification in renal failure
Hypercalcaemia
Hypercalciuria and kidney stones

Answer 176

A

Depends on underlying cause and treatment compliance

- Most recover with medication, oncogenic recover with surgery

Answer 177

A

Adrenal crises and infections do cause excess deaths
Mean age of death for men is 65 years
Replacement therapy for life

Answer 178

A

Bloods for cortisol and ACTH, u and e, ECG
Give hydrocortisone 100mg IV stat
IV fluid bolus (500ml)
Monitor BG
Blood urine and sputum for culture (often present with sepsis)
Glucose IV may be needed if hypoglycaemia, continue steroids may switch to oral if patient condition includes. Fludrocortisone may be needed

Answer 179

A

Scondary cushings
Osteopenia/porosis
Treatment-related hypertension
Crisis

Answer 180

A

Hyperosmolar hyperglycaemic state
Profound hyperglycaemia (glucose >30 mmol/L [>540 mg/dL]), hyperosmolality (effective serum osmolality >320 mOsm/kg [>320 mmol/kg]), and volume depletion in the absence of significant ketoacidosis (pH >7.3 and bicarbonate >15 mmol/L [>15 mEq/L]), and is a serious complication of diabetes (type 2)

Answer 181

A

Infecion (UTI and pneumonia especially)
Acute illness (stroke, MI, trauma, compromised water intake)
Bed ridden
Post op
Rarely hyperthyroudism and acromegaly
Non-adherence to medication
Initiation of steroids without adjusting insulin dose

Answer 182

A

Acute cognitive impairment
Polyuria
Polydipsia
Weight loss
Nausea and vomiting
Weakness
Dry mucous membranes
Poor skin turgor
Tachycardia
Hypotension
Hypothermia
Oligouria
Abdo pain
Focal neuro signs
Seizures

Answer 183

A

Blood glucose, ketones (high glucose, low ketones)
Venous blood gas (mild acidosis, lactic acidosis)
Serum osmolality (ocer 320mOsm/kg)
Urea, electroclytes, creatinine (renal impairment, abnormal electrolytes)
FBC (leukocytosis)
ECG (abnormal T or Q waves, ST segment changes)
Urinalysis (UTI)
Cardiac enzymes (MI)
CXR (pneumonia, pulmonary oedema)
LFT
CRP
Blood urine, sputum cultures

Answer 184

A

Serum potassium <3.5mmol/L, 3.5-5.5 mmol/L

IV fluids with potassium replacement
Supportive care
Insulin
Treat precipitating illness
Monitor bichem markers
Monitor and treat complications
Thromboprophylaxia

Serum potassium over 5.5
- Same but no potassium replacement until necessary

Answer 185

A

Cushings
Osteomalacia
Thyrotoxicosis

Answer 186

A

Cardiac complications (cardiomyopathy, ischaemic heart disease)
Hypertension
Sleep apnoea
Osteoarticular complications
Impaired glucose tolerance and diabetes
Pre-cancerous colon polyps
Carpal tunnel
Hypopituitarism

Answer 187

A

Assoicated with premature death
Now, life expectancy close to general population
Reduced quality of life specially indiagnostic delay
Surgery results in control of 70-90% microadenomas and 30-60% macrodenomas
Somatostatin analogues control disease in 30-40%

Answer 188

A

Aranulocytosis
Maculopapular rash
Pruritis
Jaundice

Answer 189

A

Thyroid surgery
Infection
MI
Diabetic ketoacidosis
Radioactive iodine administration
Hip replacement

Answer 190

A

Dont wait for results
Measure freeT3, T4 and TSH
Seek endo advice
IV acess and fluids
NG if vomiting
Blood cultures
Propanolol 60mg
High dose digoxin
Carbimazole
Hydrocortisol, co-amoxiclav
Cannot perform surgery when thyrotoxic

Answer 191

A

Hereditary tumour syndromes of variable neoplastic patterns characterised by development of multiple endocrine tumours
Include parathyroid adenomas, piruitary, enterohepatic, facial lipomas, phaeochromocytomas and more

Answer 192

A

MEN1

1 in 50000- 1 in 500000 worldwide prevalence
90% patients primary hyperparathyroidism by age 50
30-75% pancreatic tumours
Prolactinomas most common, then GH secreting adenomas and non functioning
ACTH secreting less common, TSH rare
25% gastrinomas MEN1 related
Pituitary least common
Thymic and bronchial occur

MEN2

1000 families worldwide
Most MEN2a
Medullary thyroid cancers most common, nearly all carriers
Phaeochromocytoma 50% MEN2A
Multigland parathyroid adenomas 20%
Rare varients include hirschsprungs and cutaneous lichen amyloidosis
MEN2B is rare and notable for aggressive phaechromocytoma and medullary thyroid cancer at earlier ages, and a marfanoid body habitus

Answer 193

A

Autosomal dominant mutations
RET proto-oncogene responsible for almost all MEN2
MEN1 gene mutations responsible for 80-90% men1

Answer 194

A

MEN1

Facial angiofirbomas or collagenomas
Irregular menses
VIsual changes (bitemporal hemionopia)
Infertility
Acromegaly (excess sweating, oversized)
Thyrotoxicosis (tachycardia, lid lag, tremour)
Fractures (cushings)
Erectile dysfunction

MEN2

Sweating, palpitations, headache
2B mucosal neuromas, marfanoid
Palpable thyroid nodule
Unexplained flushing
Heat intolerance
GI bleeding

MEN1/2

Kidney stones (excess PTH - colicky pain)
weight changes, hypertension, abdo pain
Headache
Altered bowel habit (calcitonin, gastrin)
Palpitations, easy bruising, slow wound healing
Anxiety
Confusion, dehydration

Answer 195

A

MEN1 - PTH, calcium, gastrin, chromogranin A, prolactin, insulin-like growth factor 1, glucose/insulin, serum C peptide, calcium stimulated gastrin, proinsuln, pancreatic polypeptide, glucagon, TFTs, imaging, endoscopy
MEN2 - serum calcitonin, serum carcinonoembryonic antigen, plasma metanephrines, PTH and ca, metanephrines, dexa suppression test, MIBG, CT abodo pelvit/ PET, imaging

Answer 196

A

MEN1

Parathyroid hyperplasia/adenoma
Pancreas endocrine (gastrinoma/insulinoma/somatostatinoma, VIPoma, glucagonoma)
Pituitary prolactinoma or GH secreting tumour, adrenal and carcinoid tumours

MEN2a

Thyroid (medullary thyroid carcinoma)
Phaeochromocytoma
Parathyroid hyperplasia

MEN2b
- Similar to MEN2a, with mucosal neuromas and marfanoid appearance. No hyperparathyroidism

Answer 197

A

Obesity can be defined as a chronic adverse condition due to an excess amount of body fat.
While there are many methods to determine the relative amount of body fat, the most widely used method to determine obesity is the body mass index (BMI), defined as weight divided by height squared ([weight in kg]/[height in m]^2]

Answer 198

A

Worldwide <10% in Africa and Southeast Asia, 20-40% in Europe and america, >40% in some pacific islands
26% in men and women over 16 in england
Highest proportion men age 45-64 and women age 45-54
2/3 of Americans overweight or obese

Answer 199

A

Calorie intake greater than calories out
Genetic predisposition, behavioural dynamics, hormonal disturbances, cultural influences and environmental circumstances
Genetic
Behavioural (larger portion, sedentary lifestyle, ED, mental illness)
Cultural
Environmental (low socioeconomic status, adverse nutritional environment in utero)
Poor sleep, postmenopause, heavy alcohol
Leptin deficiency
Hormonal (hypothyroidism, hypercortisolism, insulinoma)

Answer 200

A

High BMI (over 30)

- Increased weight circumference

Answer 201

A

Clinical exam (BMI over 30)

- FBC, transaminases (liver), TFTs, ECG, abdo ultrasound (fatty liver), sleep study (sleep apnoea)

Answer 202

A

<4mM in a patent with diabetes

- <2.2mM in a patient without diabetes (neuroglycopaenia)

Answer 203

A

Deficiency of one or more pituitary hormones

- Partial or complete deficiency

Answer 204

A

Rare
45 per 100000 prevalence, 4 per 100000 incidence
In contrast, high pituitary adenomas/incidntalomas on autopsy
1.8 fold higher mortality (CVD)

Answer 205

A

Neoplastic (pituitary adenoma most common cause in adulthood. May be micro <10mm, or macro >10mm. Craniopharyngiomas, meningiomas, mets, plasmacytomas)
Pituitary apoplexy (sudden spontaneous haemorrhage of the pituitary, can be of a tumour), sheehan syndrome (post blood loss or child birth causing hypotension), intrasellar aneurysm of the carotid arteries
Lymphocytic hypophysitis, hypophysitis and hypopituitarism, haemochromatosis, sarcoid/TB
Infection - abscess, TB, fungal
Congenital - transcription factor defects, PROP1, TIPT
Radiotherapy
Pituitary surgery
TBI

Answer 206

A

Headaches
Failure to thrive, short stature (GH)
Infertility (gonadotrophin)
Hypoglycaemia (adrenal)
Amenorrhoea/oligomenorrhoea (gonadotrophin)
Galactorrhoea (prolactin)
Delayed puberty (gonadotrophin def)
Hypotension
Bilateral hemianopia
Opthalmoplegia
Cold intolerance, weight gain
ED/ reduced libido
Nausea
Vomiting
Fatigue
Weakness, dizziness
Constipation
Dry skin
Reduced bone and muscle mass

Answer 207

A

U and E
Serum and urine osmolarity
8am cortisol and ACTH
TFT
8am testosterone, FSH, LH
Oestrogen, FSH, LH in women
Prolactin
Insulin like GF1
Cosyntropin/ tetracosactide stimulation test (inadequate cortisol response)
Insulin tolerance test (cortisol and GH)
Water deprivation/ desmopressin test
MRI/ CT pituitary (CT for craniopharyngioma)

Answer 208

A

Pituitary apoplexy IV hydrocortisone (50-100mg IV every 6-8 hrs)
Hypopituitarism - treat underlying cause, oral corticosteroids (hydrocortisone), IV or IM steroids for stress events, levothyroxine, oestrogen, progesterone, gonadotrophins (for fertility), tesosterone
Desmopressin

Answer 209

A

Male infertility
Female infertility
Corticosteroid over-replacement
Thyroxine over-replacement
Desmopressin over-replacement
GH overreplacement
Testosterone over-replacement

Answer 210

A

1.8 fold higher mortality compared with age and sex matched population
Cardiovascular and cerebrovascular death rates are higher in patients with hypopituitarism compared with normal population (GH deficiency especially - associated with atherogenic lipid profile and increased body fat)

Answer 211

A

A benign tumour in the pituitary gland which does not produce and hormones
Non-secretory destroy surrounding normal pituitary tissue and so can result in hypopituitarism

Answer 212

A

10% of all intracranial tumours in adults, 3rd most common intracranial neoplasm
19-28 cases per 100000 in the UK
Increases with age
Peak age 30-60, present earlier in women
Non-functional account for 14-54% of pituitary adenomas (5.6 per mill per year). 2nd most common adenoma, following prolactinomass

Answer 213

A

Monoclonal - intrinsic genetic alterations

- Unknown aetiology

Answer 214

A

MEN-1
Familial isolated pituitary adenomas
Carney complex

Answer 215

A

Microadenomas (<10mm)
- Mostly asymptomatic

Macroadenomas

Hypopituitarism (symptoms depend on hormone deficient)
Mass effects (headache, bitemporal hemianopia, diplopia)

Answer 216

A

Cranial contrast MRI single best imaging - intrasellar mass
CT scan where MRI contraindicated, better at craniopharyngioma detection
Hormone assays (prolactin, IGF-1, 24h urine cortisol, TFTs) normal/low
Perimetry for visual field

Answer 217

A

Levothyroxine (1.6mg/kg/day), monitor TSH

- If coronary artery disease, use lower starting dose

Answer 218

A

Angina
Resistant hypothyroidism
AF
Osteoporosis
Myxoedema coma (confusion, hypothermia, treat with IV thyroid hormone replacement, corticosteroids and supportive therapy)
Complications in pregnancy

Answer 219

A

Good prongosis with thyroid hormone replacement

- Dose may need to be adjusted over time

Answer 220

A

Sudden headache, vomiting, visual disturbances

- Superior quadrantopia bilaterally

Answer 221

A

Papillary (80%, good prognosis, young females)
Follicular 10%
Medullary 4% (secrete calcitonin, parafollicular cells, MENII)
Anaplastic (elderly women, compression symptoms)
Lymphoma (associated with Hashimotos)

Answer 222

A

Primary

Gonadal dysgenesis eg. turners
Gonadal damage
Primary ovarian failure
PCOS

Secondary

Kallmans
Pituitary adenoma, haemochromatosis
Hyperprolactinaemia
Functional (weight loss, stress, eating disorders)
Post OCP

Answer 223

A

Primary

Gonadal dysgenesis (klinefelters, crytorchidism)
Gonadal damage (torsion, irradiation, trauma)
Post orchitis (mumps, autoimmune)

Secondary

Kallman
Pituitary/hypothalamic lesions
Hyperprolactinaemia
Prader Willi syndrome

Answer 224

A

ALL children and young people
Patients of any age suspected of having Type 1 diabetes
Patients with symptoms of diabetes for less than 2 months
Patients at high risk who are acutely ill (e.g. those requiring hospital admission)
Patients taking medication that may cause rapid glucose rise e.g. steroids, antipsychotics
patients with acute pancreatic damage, including pancreatic surgery
In pregnancy
Presence of genetic, haematologic and illness-related factors that influence HbA1c and its measurement

Answer 225

A

Insulin
Basal-bolus (long acting (eg. insulin glargine, subcut injection OD) + short acting before meals (eg. insulin lispro or aspart subcut pre-meal)
Monitor using cap glucose, and over time with HbA1c

Answer 226

A

Hypoglycaemia
Diabetic ketoacidosis
Long term microvascular (neuropathy, retinopathy, neuropathy) and macrovascular (IHD, CVD, peripheral artery disease)

Answer 227

A

Missed meals/inadequate snacks
Alcohol
Unaccustomed exercise
Inappropriate insulin regime
Some drugs (sulfonylureas, SGLT-2i)

Answer 228

A

Palpitations
Tremor
Sweating
Pallor
Anxiety
Drowsiness
Confusion
Altered behaviour
COma

Answer 229

A

If conscious oral glucose and complex carbs

- Impaired consciousness: 1mg glucagon IM, if this fails IV dextrose eg. 10% glucose infusion

Answer 230

A

Urinalysis (proteinuria/raised ACR)
eGFR
Biopsy is gold standard, shows kimmelsteil wilson nodules
Management: improve glycaemic control, ACE1/ARB

Answer 231

A

Peripheral neuropathy (loss of sensation peripherally, monofilament examination used, loss of ankle jerk/vibration sense, charcots joint)
Mononeuropthy (sudden motor loss eg. wrist drop, foot drop, 2rd nerve palsy)
Autonomic neuropathy (GI difficulty swallowing, delayed gastric emptying, bladder dysfunction. Postural hypotension, cardiac effects)

Answer 232

A

Glycaemic control

- Neuropathic pain agent (duloxetine, pregabalin or gabapentin)

Answer 233

A

Correct water deficient - 5% dextrose
Correct ECF depletion 0.9% saline
Measure Na+ every 4-6 hours

Answer 234

A

Low t4 and TSH in patients with previously normal thyroid function, caused by a systemic illness.

Answer 235

A

Thyroid surgery
Infection
MI
Diabetic ketoacidosis
Radioactive iodine administration
Hip replacement

Answer 236

A

A cancer of the thyroid gland

Answer 237

A

Sulphonylureas (eg. glimepiride)

Answer 238

A

Venlafaxine

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Endocrinology Flashcards

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