Nephrology

Question 1

Water and electrolytes are taken in by food and water and lost in urine and sweat. What other, insensible water losses are there?

Answer 1

500ml lost by expiration per day

Question 2

What percentage of an adult’s body weight is water?

Answer 2

50-60%

Question 3

In the healthy 70kg male, total body water is approx. how many litres?

Answer 3

42L

Question 4

What are the three major body fluid compartments?

Answer 4

Intracellular, extracellular and plasma

Question 5

Which is the largest of the body fluid compartments?

Answer 5

Intracellular

Approx. 28L (35% of lean body weight)

Question 6

Describe the extracellular fluid compartment

Answer 6

The extracellular fluid compartment comprises of the interstitial fluid that bathes the cells (9.4L/12% of body weight)

Question 7

What is osmotic pressure?

Answer 7

The primary determinant of the distribution of water among the three major compartments

Question 8

What is osmolality?

Answer 8

Defined as the number of osmoles per KILOGRAM of solution

Measurement of the osmotic concentration

Question 9

What is osmolarity?

Answer 9

Defined as the number of osmoles per LITRE of solution

Question 10

What electrolyte predominates in the intracellular compartment?

Answer 10

Potassium

Question 11

What electrolytes predominates in the interstitial fluid?

Answer 11

Sodium salts

Question 12

What molecules determine the oncotic pressure within the plasma?

Answer 12

Proteins

Question 13

What are the daily water requirements?

Answer 13

25-30ml/kg/day

Question 14

What are the daily requirements for sodium, potassium and chloride?

Answer 14

1mmol/kg/day

Question 15

What are the daily requirements for glucose?

Answer 15

50-100 grams/day

Question 16

What two forces balance to maintain plasma within the vasculature?

Answer 16

Hydrostatic pressure (forcing plasma into the interstitium)

Oncotic pressure (pressure exerted by plasma proteins to retain fluid in the vasculature)

Question 17

What is the definition of oedema?

Answer 17

Increase in the interstitial fluids due to one of a number of different aetiologies

Question 18

Outline some causes of oedema

Answer 18

Increased hydrostatic pressure e.g. sodium and water retention in cardiac failure

Reduced oncotic pressure e.g. as a result of nephrotic syndrome with hypoalbuminaemia

Obstruction to lymphatic flow

Increased permeability of the blood vessel wall e.g. local inflammation

Question 19

What are crystalloids?

Answer 19

Sodium chloride 0.9% containing low molecular weight salts or sugars that dissolve completely in water and pass freely between intravascular and interstitial compartments

Question 20

What are colloids?

Answer 20

E.g. dextran 70, gelatin

Contain larger molecular substances and remain for a longer period in the intravascular space than crystalloids

Question 21

What are colloids used for?

Answer 21

Used to expand circulating volume in haemorrhage, burns and sometimes septicaemia

Question 22

What side effects may accompany administration of colloids?

Answer 22

Hypersensitivity reactions including anaphylaxis and a transient increase in bleeding time

Question 23

What clinical observations may indicate a patient is ‘dry’ (hypovolaemic)?

Answer 23

Skin turgor, capillary refill, jugular venous pressure, pulse, lying and standing blood pressure

Question 24

Why should urine output not be considered alone in the assessment of fluid balance post-operatively?

Answer 24

Post-operatively there is a physiological oliguria and an impaired ability of the kidneys to dilute urine; increasing the risk of dilutional hyponatraemia

Question 25

Before the prescription of IV fluids, clinical assessment of what needs to be undertaken?

Answer 25

Establish fluid and electrolyte needs

Identify the type of fluid needed

Does the patient need resuscitation, maintenance etc

Work out the appropriate rate of administration

Question 26

Regulation of the extracellular volume is determined by the tight control of what electrolyte in particular?

Answer 26

Sodium

Question 27

What is the effective arterial blood volume (EABV)?

Answer 27

The fullness of the vasculature; determines the control of renal sodium and water excretion

Question 28

What two types of volume receptors detect changes in the effective arterial blood volume?

Answer 28

Extrarenal: in the large vessels near the heart
Intrarenal: in the afferent renal arteriole

Question 29

Intrarenal volume receptors have direct control over what hormonal system?

Answer 29

The renin-angiotensin-aldosterone system (RAAS)

Question 30

What hormones counteract the effects of the renin-angiotensin-aldosterone system?

Answer 30

Atrial natriuretic peptide - increases sodium excretion

Question 31

Increased extracellular volume is a result of increased sodium retention/impaired excretion by the kidneys. Outline the symptoms.

Answer 31

Interstitial volume overload - ankle oedema, pulomary oedema, pleural effusion and ascites

Intravascular volume overload - raised JVP, cardiomegaly and a raised arterial pressure

Question 32

List some aetiologies of extracellular volume expansion

Answer 32

Cardiac failure
Cirrhosis
Nephrotic syndrome
Sodium retention

Question 33

How does cirrhosis lead to extracellular volume expansion?

Answer 33

Complex pathophysiology leading to vasodilation and under perfusion of the volume receptors.

Hypoalbuminaemia may contribute

Question 34

List some common causes of decreased extracellular volume?

Answer 34

Haemorrhage
Plasma loss in burns
Pathological diuresis

Question 35

Signs of volume depletion may occur in a patient with a normal volume. Give an example of when this occurs?

Answer 35

Sepsis (due to vasodilation and increased capillary wall permeability)

Question 36

What is the most potent class of diuretics? Give an example

Answer 36

Loop diuretics e.g. furosemide

Question 37

What is the mechanism of action of loop diuretics?

Answer 37

Reduce Na+/Cl- reabsorption from the ascending loop of Henle in the glomeruli

Question 38

What is the mechanism of action of thiazide diuretics? Give an example

Answer 38

Reduced Na+ reabsorption at the distal convoluted tubule of the glomeruli

Bendroflumethiazide

Question 39

Spironolactone is an example of what class of diuretics?

Answer 39

Aldosterone antagonists

Question 40

Give an example of a potassium-sparing diuretic

Answer 40

Amiloride

Question 41

Give common signs and symptoms of volume depletion

Answer 41

Symptoms - thirst, nausea, dizziness (postural)

Signs - loss of skin tugor, peripheral vasoconstriction, tachycardia, low JVP, postural hypotension

Question 42

What are the dangers of severe volume depletion?

Answer 42

Impaired cerebral perfusion leading to confusion and eventual coma

Question 43

What device allows the measurement of the central venous pressure?

Answer 43

Central venous line

Question 44

If the kidneys are working well, what is the expected normal value of urinary sodium?

Answer 44

<20mmol/L

Question 45

How is circulating volume depletion treated?

Outline the specific treatments for haemorrhage, loss of plasma, loss of sodium/water and loss of water alone

Answer 45

Overall principle: Replace what is lost.

Haemorrhage - initial treatment with crystalloid/colloid until packed red cells are available

Loss of plasma (burns/peritonitis) - replace with human plasma/colloid

Loss of sodium and water (vomiting/diarrhoea) - saline or glucose electrolyte solutions

Loss of water - water w. 5% glucose solution to avoid osmotic lysis of red cells

Question 46

What is the normal value for plasma osmolality?

Answer 46

285-300 mosmol/kg

Question 47

What receptors sense changes in plasma osmolality? Where are they located?

Answer 47

Osmoreceptors in the hypothalamus

Question 48

What mechanisms does the hypothalamus activate on detection of a raised osmolality?

Answer 48

Thirst mechanism and release of anti-diuretic hormone (ADH)

Question 49

What is the action of anti-diuretic hormone?

Answer 49

Increases renal reabsorption of water from the collecting ducts

Question 50

What non-osmotic stimuli may also cause secretion of ADH?

Answer 50

Hypovolaemia
Stress (surgery/trauma)
Nausea

Question 51

What is the other name for the hormone ADH?

Answer 51

Vasopressin

Question 52

What physiological phenomena occurs at a plasma osmolality of less than 275 mosmol/kg?

Answer 52

Complete suppression of ADH secretion

Question 53

What is the definition of hyponatraemia?

Answer 53

Reflects too much water in relation to sodium.

Serum sodium < 135 mmol/L

Question 54

List four aetiologies of hyponatraemia

Answer 54

1. Water excess (dilutional hyponatraemia)
2. Salt loss e.g. diarrhoea
3. Pseudohyponatraeia (hyperlipidaemia causing spuriously low sodium - no treatment required)
4. Artefactual hyponatraemia - blood sample taken from an arm where a low sodium drip is being infused e.g. glucose

Question 55

What is the essential distinction a clinician must make when assessing the hyponatraemia patient?

Answer 55

Is the patient either:

Hypovolaemia
Euvolaemic
Hypervolaemic

Question 56

How is hypovolaemic hyponatraemia treated?

Answer 56

Restoration of extracellular volume crystalloids or colloids normalises serum sodium

Question 57

What is the most common cause of hypovolaemia hyponatraemia?

Answer 57

Diuretics over-use

Question 58

What is the most common cause of dilutional hyponatraemia (hypovolaemic)?

Answer 58

Overuse of 5% glucose in post-operative patients

Question 59

What three pathologies often precipitate dilutional hyponatraemia?

Answer 59

Severe cardiac failure, cirrhosis, nephrotic syndrome

Question 60

What are the consequences of not correcting dilutional hyponatraemia?

Answer 60

Due to the movement of water into brain cells (cerebral oedema)

Headache, confusion, convulsions and coma

Question 61

How is dilutional hyponatraemia managed?

Answer 61

Most cases managed by water restriction

Review of diuretic treatment may be indicated

Vasopressin V2 receptor antagonists e.g. tolvaptan produces free water diuresis

Question 62

What is central pontine myelinolysis?

Answer 62

Over-rapid correction of sodium concentration leading to severe neurological damage causing quadriparesis, respiratory arrest, pseudobulbar palsy, mutism, seizure

Question 63

What is the most common cause of hypernatraemia?

Answer 63

Reduced water intake or water loss in excess of sodium

Question 64

What are the clinical features of hypernatraemia?

Answer 64

Nausea, vomiting, confusion

Question 65

Serum levels of potassium are regulated by what three factors?

Answer 65

1. Uptake of K+ into cells
2. Renal excretion - mainly controlled by aldosterone
3. Extrarenal losses e.g. gastrointestinal

Question 66

What is the definition of hypokalaemia?

Answer 66

Serum potassium concentration of <3.5 mmol/L

Question 67

What are the most common causes of hypokalaemia?

Answer 67

Diuretic treatment

Hyperaldosteronism

Question 68

What are the clinical features of hypokalaemia?

Answer 68

Usually asymptomatic

Muscle weakness and cardiac arrhythmias if severe

Question 69

How is hypokalaemia managed?

Answer 69

Assessment of diuretic treatment

Replacement with oral potassium chloride

Question 70

What other electrolyte must be normalised before hypokalaemia can be normalised?

Answer 70

Magnesium

Hypomagnesaemia makes hypokalaemia difficult/impossible to correct

Question 71

Under what circumstances may IV potassium be indicated?

Answer 71

Severe hypokalaemia associated with cardiac arrhythmias and hypokalaemia diabetic ketoacidosis

Question 72

What is the definition of hyperkalaemia?

Answer 72

> 5mmol/L

Question 73

What are the most common causes of hyperkalaemia?

Answer 73

Renal impairment (e.g. AKI)
Diabetic ketoacidosis 
Addison's disease

Question 74

What are the clinical features of hyperkalaemia?

Answer 74

Produces few symptoms until it causes cardiac arrest

Causes progressive ECG changes

Question 75

How is mild hyperkalaemia managed?

Answer 75

Mild disturbance causes dietary potassium restriction

Question 76

What ECG changes may be seen in hyperkalaemia?

Answer 76

Reduced P wave
Wide QRS complex
Tented T waves
‘Sine wave’ pattern

Question 77

How is severe hyperkalaemia treated?

Answer 77

Protection of myocardium - 10ml of 10% calcium gluconate

Drive K+ into cells - Soluble 10 units of insulin and 50ml of 50% dextrose

Deplete body K+ - polystyrene sulphonate resin orally

Question 78

What are the two effects magnesium has on potassium and PTH?

Answer 78

Increases renal excretion of potassium

Leads to parathyroid hormone resistance

Question 79

What is the management of hypomagnesaemia?

Answer 79

Underlying causes must be corrected

Oral supplements in mild disease

IV supplementation in severe disease (plus loading dose)

Question 80

What is the most common cause of hypermagnesaemia?

Answer 80

Usually iatrogenic in patients with renal failure who have been given magnesium-containing antacids/laxatives

Question 81

What are the clinical features of hypermagnesaemia?

Answer 81

Neurological,respiratory and cardiovascular depression

Question 82

How is hypermagnesaemia treated?

Answer 82

Mild - stopping magnesium-containing drugs

Severe - IV calcium gluconate with dextrose/insulin to lower plasma magnesium

Question 83

What is the normal range of pH?

Answer 83

7.35-7.45

Question 84

What molecule is the main plasma and extracellular fluid buffer?

Answer 84

Bicarbonate

Question 85

Where is bicarbonate excreted and reabsorbed respectively?

Answer 85

Filtered out at the glomerulus and reabsorbed at the proximal and distal renal tubules

Question 86

What enzyme facilitates the bicarbonate equilibrium?

Answer 86

Carbonic anhydrase

Question 87

What compensatory mechanism is triggered by metabolic acidosis? What receptors detect and trigger this?

Answer 87

Hyperventilation

Via medullary chemoreceptors

Question 88

What compensatory mechanism is triggered by respiratory acidosis?

Answer 88

Renal bicarbonate retention

Question 89

The measurement of what three things reveal the nature of an acid/base disturbance? What clinical procedure does this describe?

Answer 89

pH
PaCO2
[HCO3-]

All measured in an arterial blood gas sample

Question 90

What is metabolic acidosis? What is the most common cause?

Answer 90

Accumulation of any acid other than carbonic acid.

Most commonly lactic acidosis following shock or cardiac arrest

Question 91

What are the clinical features of metabolic acidosis?

Answer 91

Hyperventilation, hypotension and cerebral dysfunction (fits and confusion)

Question 92

What is the first step in the differential diagnosis of metabolic acidosis?

Answer 92

Measure the anion gap.

Essentially tells you whether the acidosis is due to retention of HCl or another acid.

Question 93

What are the most common causes of metabolic acidosis with a normal anion gap?
(ABCD)

Answer 93

Addison’s
Bicarbonate loss e.g. diarrhoea or renal tubular damage
Chloride
Drugs- acetazolamide

Question 94

What are the most common causes of metabolic acidosis with an increased anion gap?

Answer 94

Lactic acidosis (sepsis)
Uraemic acidosis
Diabetic ketoacidosis
Alcohol
Acid poisoning (methanol, Salicylates)

Question 95

Outline lactic acidosis

Answer 95

Occurs when cellular respiration is anaerobic (type A) or due to metabolic abnormality (type B).

Type A occurs in septicaemia and cardiogenic shock

Question 96

Outline diabetic ketoacidosis

Answer 96

Accumulation of acetoacetic and hydroxybutyric acids

Question 97

Outline renal tubular acidosis

Answer 97

Failure of the kidney to acidify urine properly

Question 98

Outline uraemic acidosis

Answer 98

Reduction of the capacity to secrete H+ and NH4+.

Associated with hypercalcaemia and renal osteodystrophy

Question 99

Metabolic alkalosis is most often associated with what two pathologies?

Answer 99

1. Volume depletion

2. Potassium depletion

Question 100

What are the main causes of metabolic alkalosis?

Answer 100

Persistent vomiting, diuretic therapy or hyperaldosteronism

Question 101

What is one of the earliest signs of alkalosis?

Answer 101

Cerebral dysfunction

Question 102

How is metabolic alkalosis managed?

Answer 102

Fluid replacement

Question 103

What is the functional unit of the kidney?

Answer 103

Nephron

Question 104

What structure regulates elimination of potassium and non-volatile hydrogen ions?

Answer 104

Distal tubules

Question 105

What are the two most common diseases of the kidney or urinary tract in men and women respectively?

Answer 105

Men - BPH

Women - UTI

Question 106

List some symptoms indicative of renal tract disease?

Answer 106

Dysuria, frequency of micturition, haematuria, urinary retention, alteration of urine volume (oliguria, polyuria)

Question 107

What may be the presenting symptoms/incidental findings of chronic kidney disease?

Answer 107

Lethargy, anorexia, pruritis

Incidental finding of hypertension, raised serum urea, proteinuria/ haematuria

Question 108

What are the vasa recta?

Answer 108

Vessels supplying the loop of Henle

Question 109

List the causes of dysuria

Answer 109

1. Inflammation of urethra (urethritis) or bladder (cystitis)
2. Inflammaiton of the vagina/glans by candida albicans or gardnerella vaginalis

Question 110

Outline management of the oliguric patient

Answer 110

1. Exclude obstruction - due to acute retention (great discomfort, dull blader to percussion)
2. Assess for hypovolaemia (BP, pulse, JVP, urinary electrolytes)
3. Management of established AKI (diagnosed after 1. and 2. have been ruled out)

Question 111

Outline some causes of loin/flank pain

Answer 111

Acute pyelonephritis
Upper urinary tract obstruction
Occlusion of the renal artery
Thrombosis/emboli

Question 112

How is renal function assessed?

Answer 112

Estimation of glomerular filtration rate (eGFR)

Question 113

What equation is used to calculate eGFR from serum creatinine?

Answer 113

Cockrof-Gault equation

Question 114

Outline what is possible to test for with urinary dipstick testing

Answer 114

Blood, protein, glucose, ketones, bilirubin, urobilinogen, pH, nitrates, leukocytes

Question 115

What is considered to be normal urinary protein excretion?

Answer 115

<150mg/day

Question 116

What is the nephrotic range of proteinuria?

Answer 116

> 3.5g per day (PCR >350mg/mm)

Question 117

What is microalbuminuria?

Answer 117

Increase above the normal range of urinary albumin excretion that is undetectable by conventional dipsitcks

Question 118

What is the clinical usefulness of testing for microalbuminuria?

Answer 118

Predictor in the development of diabetic nephropathy

Question 119

How is microalbuminuria measured?

Answer 119

Albumin/creatinine ratio (ACR) >2.5mg/mmol in men and >3.5mg/mmol in women

Question 120

Haematuria can arise from several sites. Outline how the bleeding pattern can indicate different sites

Answer 120

Blood at the beginning of micturition - urethral disease

Blood at the end of micturition - bladder/prostate disease

Blood seen as even discolouration - bleeding above the bladder (e.g. ureters/kidneys)

Question 121

List some transient causes of haematuria

Answer 121

UTI

Contamination of urine from menstruation

Question 122

List some imaging techniques of renal pathology

Answer 122

Plain X-ray 
US
MRI
Excretion Urography (IVU)
Renal angiography 
Anterograde pyelography (outlines 
Retrograde pyelography
Renal scintigraphy

Question 123

What is the difference between glomerulonephritis and glomerulopathy?

Answer 123

On microscopic examination of renal biopsies, if inflammation is predominant, it can be described as glomerulonephritis. Otherwise, it is glomerulopathy

Question 124

In term of renal disease description, what is meant by the term ‘focal’?

Answer 124

Some, but not all of the glomeruli are affected

Question 125

In term of renal disease description, what is meant by the term ‘diffuse’?

Answer 125

Approx. >75% of glomeruli contain the lesion

Question 126

In term of renal disease description, what is meant by the term ‘segmental’?

Answer 126

Only a part of the glomerulus is affecte

Question 127

In term of renal disease description, what is meant by the term ‘global’?

Answer 127

All glomeruli involved

Question 128

In term of renal disease description, what is meant by the term ‘proliferative’?

Answer 128

An increase in cell numbers due to hyperplasia of one or more of the resident glomerular cells

Question 129

In term of renal disease description, what is meant by the term ‘membrane alterations’?

Answer 129

Capillary wall thickening due to deposition of immune complexes in the basement membrane

Question 130

In term of renal disease description, what is meant by the term ‘crescentic’?

Answer 130

Epithelial cell proliferation with mononuclear infiltration in Bowmann’s space

Question 131

What is the typical history of a person with glomerular disease?

Answer 131

Suspected in patients presenting with haematuria, red cell casts and proteinuria

Question 132

Glomerular disease can be classified into four main syndromes; what are they?

Answer 132

1. Nephrotic syndrome
2. Acute glomerulonephritis (acute nephritic syndrome)
3. Rapidly progressive glomerulonephritis
4. Asymptomatic haematuria/ proteinuria (or both)

Question 133

What is nephrotic syndrome?

Answer 133

Massively increased filtration fo macromolecules resulting in:

1. Hypoalbuminaemia - a consequence of massive proteinuria
2. Oedema (due to sodium retention in renal collecting tubules)
3. Hypercholesterolaemia (due to increased synthesis)

Question 134

What is the difference between active and bland sediments?

Answer 134

Sediments are precipitates in your urine. Active sediments have cellular components e.g. RBCs, WBCs, casts - usually indicate an active process of renal damage

Bland sediments are proteins, crystals or casts

Question 135

What are the differential diagnoses for a patient with nephrotic syndrome and bland urinary sediments?

Answer 135

Membranous nephropathy and focal segmental glomerulosclerosis in adults

Minimal-change nephropathy in children

Question 136

What is membranous nephropathy?

Answer 136

Deposition of IgG and C3 in the basement membrane attributed to a number of causes including drugs (e.g. NSAIDs, penicillamine etc.), autoimmune processes (e.g. SLE), malignancy, infections (hepatitis B/C, schistosomiasis)

Question 137

What is focal segmental glomerulosclerosis?

Answer 137

A particularly common cause of nephrotic syndrome in black adults. Similar histological types in HIV infection

Question 138

What is minimal change nephropathy?

Answer 138

Accounts for over 90% of nephrotic syndrome in children.

Unknown pathogenesis with no immunofluorescent immune complexes.

Glomeruli appear normal on light microscopy

Question 139

Outline some non-immune mediated causes of nephrotic syndrome

Answer 139

Renal amyloid and diabetes mellitus

Question 140

What are the differential diagnoses for a patient with nephrotic syndrome and active urinary sediments?

Answer 140

Mesangiocapillary (membranoproliferazive glomerulonephritis)
Mesangial Proliferative Glomerulonephritis

Question 141

What is Mesangiocapillary (membranoproliferazive glomerulonephritis)?

Answer 141

Occurs with chronic infection (e.g. abscesses, infective endocarditis, hepatitis C) and leads to progressive renal failure

Question 142

What is Mesangial Proliferative Glomerulonephritis?

Answer 142

Heavy proteinuria with minimal changes on microscopy. Glomerular mesangium deposition of IgM and/or complement

Question 143

What are the clinical features of nephrotic syndrome?

Answer 143

Oedema of the ankles, genitals, abdominal wall

Question 144

What are the differential diagnoses for nephrotic syndrome?

Answer 144

Other causes of oedema and hypoalbuminaemia e.g. heart failure, cirrhosis

Question 145

How is nephrotic syndrome managed?

Answer 145

General oedema - salt restriction, thiazide diuretic e.g. bendroflumethiazide (followed by furosemide and amiloride in unresponsive patients)

Proteinuria reduced by ACEIs

Specific treatment - minimal change is always steroid-responsive in children

Question 146

What baseline investigations are indicated in glomerular disease?

Answer 146

eGFR, urinary protein, serum ureas and electrolytes, serum albumin

Question 147

What are some diagnostically useful tests in glomerular disease?

Answer 147

Urine microscopy (to look for red cell casts)
Throat/skin swab culture (for recent strep. infection)
Serum antistreptolysin-O titre (for recent strep. infection)

Question 148

List three complications of glomerular disease (or its treatment) which may occur:

Answer 148

1. Venous thrombosis (renal pain, haematuria, decreasing kidney function - Dx by US)
2. Sepsis (due to loss of immunoglobulins)
3. AKI (usually consequence of diuretic therapy)

Question 149

What is acute glomerulonephritis?

Answer 149

Often caused by an immune response triggered by an infection or other diseases.

Typically a post-streptococcal GN develops 1-3wks after infection (pharyngitis/cellulitis) with a group A beta-haemolytic strep. bacteria

Question 150

What are the clinical features of acute GN?

Answer 150

Haematuria (visible or non-visible)
Proteinuria 
Hypetension and oedema
Oliguria
Uraemia

Question 151

What diseases are associated with acute GN?

Answer 151

Post-infective GN (strep. or others including staph, malaria etc.)

SLE

Infective endocaritis

Henloch-Schönlein Purpura

Question 152

How is acute GN managed?

Answer 152

Hypertension treated with salt restriction, loop diuretics and vasodilators

Fluid balance monitored (fluid restriction may be necessary if oedematous)

Question 153

What are the three main causes of rapidly progressive glomerulonephritis?

Answer 153

1. On a background of acute nephritic syndrome
2. ANti-glomerular basement membrane disease (lung involvement = Goodpasture’s syndrome)
3. Antibeutrophilic cytoplasmic antibody (ANCA)-associated antibodies

Question 154

List some causative organisms for UTIs

Answer 154

E. coli
Proteus mirabilis
Klebsiella aerogenes
Enterococcus faecalis

Question 155

What is meant by the term ‘uncomplicated UTI’?

Answer 155

UTI in the otherwise healthy, non-pregnant woman with a functionally normal urinary tract

Question 156

What is urethral syndrome?

Answer 156

Occurs in women and presents with dysuria and frequency but in the absence of bacteriuria

May be associated with vaginitis in post-menopausal women, irritant chemicals (e.g. soaps) and sexual intercourse

Question 157

What is bacterial prostatitis?

Answer 157

A relapsing infection which presents as perineal pain, recurrent epididymo-orchitis and prostatic tenderness, with pus in expressed prostatic secretion

Question 158

How is bacterial prostatitis treated?

Answer 158

Treatment is for 4-6 weeks with drugs that penetrate into the prostate, such as trimethoprim or ciprofloxacin.

Question 159

What are the complications associated with bacterial prostatitis?

Answer 159

Prostadynia (prostatic pain in the absence of active infection)

Question 160

What is tubulointerstitial nephritis?

Answer 160

Primary injury to the renal tubules and interstitium that results in decreased renal function.

Both acute and chronic

Question 161

Describe acute tubulointerstitial nephritis

Answer 161

Mostly due to drug allergy (e.g. NSAIDs, penicillins)

Patients present with fever, eosinophilia and eosinophiluria. proteinuria

Renal biopsy show intense interstitial cellular infiltrate and variable necrosis

Treated by removing the offending drug and high dose prednisolone

Question 162

What is chronic tubulointerstitial nephritis?

Answer 162

Many causes including prolonged consumption of large doses of analgesics (particularly NSAIDs)

Presentation is with polydipsia, polyuria and uraemia

Question 163

What are the two main mechanisms by which hypertension complicated bilateral renal disease?

Answer 163

1. Activation of the renin-angiotensin-aldosterone system

2. Retention of salt and water

Question 164

How does renal vascular disease increase blood pressure?

Answer 164

Renal perfusion pressure is reduced and renal ischaemia results in increased renin production and blood pressure

Question 165

How is renal artery stenosis investigated and managed?

Answer 165

Renal arteriography

Treated with transluminal angioplasty and stent placement

Question 166

What is nephrocalcinosis?

Answer 166

Diffuse renal parenchymal calcification that is detectable radiologically

Sx: Painless, hypertension and renal impairment

Question 167

List some causes of nephrocalcinosis

Answer 167

Hypercalcaemia
Renal tubular acidosis
Tuberculosis