Renal 8/6/20

Question 1

diagnostic criteria of AKI

Answer 1

1. Rise in creatinine of 26 micromol/L or more in 48 hours
   OR
2. ≥ 50% rise in creatinine over 7 days
   OR
3. Fall in urine output to less than 0.5ml/kg/hour (for more than 6 hours in adults, 8 hours in children)
   OR
4. ≥ 25% fall in eGFR in children / young adults in 7 days

Question 2

symptoms of AKI

Answer 2

often asymptomatic at first

• reduced urine output
• pulmonary and peripheral oedema
• arrhythmias (secondary to changes in potassium and acid-base balance)
• features of uraemia (pericarditis/encephalopathy/pruritis)

Question 3

normal urine output

Answer 3

1.5-2ml/kg/hr

Question 4

causes of AKI

Answer 4

PRE-RENAL
- hypovolaemia secondary to dehydration/D&V/decreased cardiac output/sepsis
- renal artery stenosis
RENAL
- vascular eg. vasculitis
- tubular eg. rhabdomyolysis/tumour lysis/acute tubular necrosis/myeloma
- glomerular eg. glomerulonephritis
- interstitial eg. interstitial nephritis
POST-RENAL
- kidney stones
- compression of ureter/BPH

Question 5

drug causes of AKI

Answer 5

DIRECT EFFECT ON KIDNEY
- NSAIDs
- antibiotics (esp. aminoglycosides eg. gentamicin)
- chemo drugs
ACCUMULATION WITH RENAL DYSFUNCTION
- metformin
EFFECT ON RENAL/FLUID/ELECTROLYTE PHYSIOLOGY
- diuretics
- ACEIs
- ARBs

Question 6

management of hyperkalaemia

Answer 6

• insulin and dextrose (extracellular –> intracellular K+)
• IV calcium gluconate (stabilises cardiac membrane)
• salbutamol nebuliser (extracellular –> intracellular K+)
• calcium resonium enema or oral (enema better) (slow working - not for emergency mx - aids K+ excretion)

treat underlying cause
haemodialysis if persistent

Question 7

indications for dialysis

Answer 7

• CKD5
• refractory pulmonary oedema/fluid overload
• persistent hyperkalaemia
• severe metabolic acidosis
• uraemia (encephalopathy/pericarditis)
• drug overdose (BLAST - barbiturates, lithium, alcohol/ethylene glycol (antifreeze), salicylate (aspirin), theophylline)

Question 8

risk factors for AKI

Answer 8

• elderly
• comorbidity eg. DM, HF, liver disease
• previous AKI
• CKD
• cancer
• post operative
• medications
• neuro/cog impairment - more prone to dehydration etc.

Question 9

causes of false positive AKI

Answer 9

• pregnancy
• drugs - trimethoprim
• contaminated sample

Question 10

components of Fanconi syndrome

Answer 10

PPP AGO

• type 2 (proximal) renal tubular acidosis
• polyuria
• phosphaturia
• aminoaciduria
• glycosuria
• osteomalacia

Question 11

causes of Fanconi syndrome

Answer 11

• cystinosis (most common cause in children)
• Sjogren’s syndrome
• multiple myeloma
• nephrotic syndrome
• Wilson’s disease

Question 12

cANCA with haematuria

Answer 12

Wegener’s - crescentic glomerulonephritis

Question 13

sjogren’s autoantibodies

Answer 13

Mr Sjogren is a high (anti-)Ro(anti-)La

• Anti-Ro
• Anti-La

Question 14

test for Wilson’s syndrome

Answer 14

high caeruloplasmin (copper carrying protein)

Question 15

membranous glomerulonephritis markers

Answer 15

• antiphospholipase A2 antibodies
• basement membrane thickening on light microscopy
• subepithelial spikes
• low total T4

Question 16

haemolytic uraemic syndrome markers

Answer 16

Increased
- fragmented red cells
Decreased
- serum haptoglobins
- platelet count

Question 17

nephrotic syndrome features

Answer 17

1. Proteinuria (> 3g/24hr) causing
2. Hypoalbuminaemia (< 30g/L) (& hyperlipidaemia)
3. Oedema

Question 18

causes of nephrotic syndrome

Answer 18

• minimal change disease
• membranous glomerulonephritis
• focal segmental glomerulosclerosis
• diabetic nephropathy
• amyloidosis
• post-streptococcal glomerulonephritis (CAN PRESENT AS NEPHRITIC TOO)

Question 19

causes of minimal change disease

Answer 19

• idiopathic
• drugs: NSAIDs, rifampicin
• malignancy: Hodgkin’s lymphoma, thymoma
• infective: infectious mononucleosis

Question 20

management of minimal change disease

Answer 20

steroid responsive - cyclophosphamide in resistant cases

2/3 will relapse

Question 21

histology of minimal change disease

Answer 21

• normal glomeruli on light microscopy

- fusion of podocytes and effacement of foot processes

Question 22

causes of focal segmental glomerulosclerosis

Answer 22

typically affects young adults

• idiopathic
• secondary to other renal pathology e.g. IgA nephropathy, reflux nephropathy (kidney scarring secondary to vesicoureteric reflux)
• HIV
• heroin
• Alport’s syndrome
• sickle-cell

Question 23

histology findings for focal segmental glomerulosclerosis

Answer 23

• focal and segmental sclerosis and hyalinosis

- effacement of foot processes

Question 24

causes of membranous glomerulonephritis

Answer 24

• idiopathic: anti-phospholipase A2 antibodies
• infections: hepatitis B, malaria, syphilis
• malignancy: lung cancer, lymphoma, leukaemia
• drugs: gold, penicillamine, NSAIDs
• autoimmune diseases: systemic lupus erythematosus, thyroiditis, rheumatoid

Question 25

management of membranous glomerulonephritis

Answer 25

• fluid balance monitoring
• ACEI/ARB (reduce proteinuria), then often resolves spontaneously
• rituximab
• corticosteroid AND cyclophosphamide (not needed unless progressive/severe)
• anticoagulation in high risk pts

Question 26

causes of nephritic syndrome

Answer 26

• rapidly progressive glomerulonephritis (crescentic glomerulonephritis) due to Goodpasture’s, ANCA positive vasculitis, etc.
• IgA nephropathy - (usually post viral)

Question 27

post-strep glomerulonephritis vs IgA

Answer 27

both preceded by illness
- IgA = illness 1-2 days prior
- PSGN = illness ~2 weeks prior (and associated with proteinuria)
(post-strep GN = longer name longer onset)

Question 28

fibromuscular dysplasia

Answer 28

• cause of renal artery stenosis with ‘string of beads’ appearance
• usually in young females
• follows commencement of ACEI

Question 29

rate of infusion of maintenance fluids

Answer 29

Maintenance fluids should be prescribed at a rate of 30 ml/kg/24hr

Question 30

vitamin D deficiency in renal failure management

Answer 30

Alfacalcidol - used as a vitamin D supplement in end-stage renal disease because it does not require activation in the kidneys

Question 31

complications of too much 0.9% saline

Answer 31

hyperchloraemic metabolic acidosis

- too many chloride ions, produces HCl

Question 32

complications of Hartmann’s solution

Answer 32

contains K+ so can precipitate cardiac events in patients with deranged K+

Question 33

maximum recommended rate of potassium infusion via a peripheral line is…

Answer 33

10 mmol/hour

- cardiac monitoring above 20mmol/hr (central line)

Question 34

features of goodpasture’s syndrome

Answer 34

• pulmonary haemorrhage - haemoptysis
• followed by rapidly progressive glomerulonephritis
• lethargy
• anti-GBM antibodies

Question 35

management of goodpasture’s syndrome

Answer 35

• plasmapheresis
• corticosteroid therapy
• cyclophosphamide

Question 36

features of granulomatosis with polyangiitis (Wegener’s )

Answer 36

• URT: epistaxis, sinusitis, nasal crusting
• LRT: dyspnoea, haemoptysis
• rapidly progressive glomerulonephritis
• saddle nose deformity
• also: vasculitic rash, eye involvement (e.g. proptosis), cranial nerve lesions

Question 37

investigations for granulomatosis with polyangiitis (Wegener’s)

Answer 37

• cANCA positive in > 90%, pANCA positive in 25%
• chest x-ray: wide variety of presentations eg. cavitating lesions
• renal biopsy: epithelial crescents in Bowman’s capsule

Question 38

management of granulomatosis with polyangiitis (Wegener’s)

Answer 38

• plasmapheresis
• corticosteroid therapy
• cyclophosphamide

poor prognosis

Question 39

renal features of ADPKD

Answer 39

• hypertension
• abdominal pain
• chronic kidney disease
• renal stones
• haematuria
• recurrent UTIs

Question 40

extra-renal complications of ADPKD

Answer 40

• cysts: most commonly in liver but can get cysts in other organs particularly pancreas, seminal vesicles and vasculature
• berry aneurysms: SAH risk
• cardiovascular system: valvular dysfunction, murmur

Question 41

screening test for PKD (for family members)

Answer 41

US abdomen

• 2 cysts, unilateral or bilateral, if aged < 30 years
• 2 cysts in both kidneys if aged 30-59 years
• 4 cysts in both kidneys if aged > 60 years

Question 42

ADPKD type 1 or 2

Answer 42

Type 1 (chromosome 16)
- 85% cases
- develop renal failure earlier
Type 2 (chromosome 4)
- 15% cases

Question 43

management of PKD

Answer 43

• symptom relief, eg. ACEIs
• tolvaptan slows cyst growth in some
• kidney transplant
• dialysis

Question 44

ARPKD

Answer 44

chromosome 6

• rare compared to ADPKD
• ESRF in childhood, may have oligohydramnios due to poor kidney function in utero, can lead to Potter’s syndrome
• commonly congenital hepatic fibrosis - varices/splenomegaly
• picked up on US antenatal screening

Question 45

features of haemolytic uraemic syndrome

Answer 45

• diarrhoea history within previous 2 weeks
• acute kidney injury (high creatinine)
• microangiopathic haemolytic anaemia
• thrombocytopenia

Question 46

cause of haemolytic uraemic syndrome

Answer 46

• shiga-toxin producing E. coli (follows diarrhoea)

Question 47

management of haemolytic uraemic syndrome

Answer 47

• supportive
  > fluids
  > dialysis/blood transfusion if required
• no role for Abx
• plasma exchange in cases of severe HUS without diarrhoea

Question 48

thrombotic thrombocytopenic purpura features

Answer 48

The TRANF Pentad (TTP)

• Thrombocytopenia
• Renal failure
• Anaemia
• Neurological symptoms due to microemboli
• Fever

schistocytes on blood film due to high vWF

Question 49

causes of TTP (thrombotic thrombocytopenic purpura)

Answer 49

• post infection (typically urinary/GI)
• pregnancy
• drugs
• other: tumours, SLE, HIV

Question 50

drugs causing TTP (thrombotic thrombocytopenic purpura)

Answer 50

POCCA

• penicillin
• oral contraceptive pill
• ciclosporin
• clopidogrel
• aciclovir

Question 51

causes of DIC

Answer 51

• sepsis
• trauma
• obstetric complications eg. HELLP syndrome
• malignancy

Question 52

AKI or dehydration?

Answer 52

higher rise in urea than creatinine = likely dehydration

high rise in creatinine than urea = likely AKI

Question 53

causes of high anion gap acidosis

Answer 53

• diabetic ketoacidosis
• lactic acidosis (sepsis, salicylates (aspirin), shock)
• methanol poisoning
• ethlene glycol poisoning (antifreeze)

Question 54

high anion gap vs normal anion gap

Answer 54

high anion gap = increased organic acid production/ingestion

normal anion gap = loss of bicarbonate (eg. diarrhoea, renal tubular acidosis)

Question 55

causes of acute tubular necrosis

Answer 55

There are two main causes of ATN; ischaemia and nephrotoxins:
- ischaemia
     > shock
     > sepsis
- nephrotoxins
     > aminoglycosides eg. gentamicin
     > myoglobin secondary to rhabdomyolysis/compartment syndrome
     > radiocontrast agents

Question 56

features of acute tubular necrosis

Answer 56

- features of AKI: 
     > raised urea
     > creatinine
     > potassium
- muddy brown casts and high sodium in the urine

Question 57

causes of normal anion gap acidosis

Answer 57

• renal tubular acidosis
• diarrhoea
• hyperosmolar hyperglycaemic state
• Addison’s disease
• pancreatic fistula

Question 58

features of renal tubular acidosis (all types)

Answer 58

• hyperchloraemic metabolic acidosis (normal anion gap)
• abdo discomfort
• Kussmaul breathing

Question 59

renal tubular acidosis type 1 (distal)

Answer 59

• inability to secrete H+ in distal tubule so less acidification of urine (urine pH >5.5 with systemic acidosis)
• leads to hypokalaemia
• complications include nephrocalcinosis and renal stones
• causes include idiopathic, autoimmune, drugs

Question 60

renal tubular acidosis type 2 (proximal)

Answer 60

• decreased HCO3- reabsorption in proximal tubule
• leads to hypokalaemia
• complications include osteomalacia
• causes include Fanconi syndrome, Wilson’s disease, cystinosis, carbonic anhydrase inhibitors (acetazolamide, topiramate)

Question 61

renal tubular acidosis type 4 (hyperkalaemic)

Answer 61

• reduction in aldosterone leads to reduction in ammonium excretion
• causes hyperkalaemia
• causes include hypoaldosteronism (Addison’s), diabetes, hypovolaemia

Question 62

Henoch Schonlein Purpura features

Answer 62

• palpable purpuric rash (with localized oedema)
• abdominal pain
• polyarthritis
• features of IgA nephropathy may occur e.g. haematuria, renal failure
• raised ESR and WCC

Question 63

complications of nephrotic disease

Answer 63

1. DVT/PE/Renal vein thrombosis (reduced antithrombin)
2. Infection (Loss of Ig through urine)
3. Thromboembolism

Question 64

drugs to stop in AKI

Answer 64

STOP THE ‘DAMN’ DRUGS
Diuretics
ACE inhibitors/ARBs (reno-protective in non-acute setting but can lead to cardiac arrest in AKI)
Metformin
NSAIDs (except low dose/cardio-protective aspirin)

Question 65

AKI staging by creatinine increase

Answer 65

Stage 1 = increase of 1.5-1.9x baseline
Stage 2 = increase of 2.0-2.9x baseline
Stage 3 = increase of 3.0+ x baseline OR creatinine is >354

stage 1 in the 1s
stage 2 in the 2s
stage 3 in the 3s and over

Question 66

normal anion gap range:

sodium + potassium) - (bicarbonate + chloride

Answer 66

8-14mmol/L

Question 67

features of acute interstitial nephritis (AIN/TIN - tubulointerstitial)

Answer 67

• fever, rash, arthralgia
• eosinophilia
• mild renal impairment
• hypertension
• sterile pyuria, white cell casts (leukocytes in urine)

uveitis a complication (TINU)

Question 68

causes of acute interstitial nephritis (AIN/TIN - tubulointerstitial)

Answer 68

• drugs/allergy
• systemic disease: SLE, sarcoidosis, and Sjögren’s syndrome
• infection: Hanta virus , staphylococci

Question 69

requirement per day of K+, Na+ and Cl- is…

Answer 69

1 mmol/kg/day

Question 70

management of acute interstitial nephritis (AIN/TIN - tubulointerstitial)

Answer 70

remove/treat cause if identified

corticosteroids may provide benefit

Question 71

features of Alport’s syndrome

Answer 71

X-linked inheritance

• bilateral sensorineural hearing loss
• visual changes (lenticonus)
• haematuria/renal signs

Question 72

histological findings of Alport’s syndrome (renal biopsy)

Answer 72

splitting of lamina densa ( ‘basket-weave’ appearance)

Question 73

target haemoglobin for CKD patients

Answer 73

100-120 g/L

Question 74

most common viral infection following renal transplant

Answer 74

cytomegalovirus (EBV common too - prophylaxis should have been given for both)

Question 75

most common cancer risk in transplant patients (due to immunosuppressant meds)

Answer 75

squamous cell carcinoma of skin

- lymphoma and cervical cancer risks are also increased

Question 76

primary vs secondary aldosteronism

Answer 76

primary = high aldosterone levels compared to renin in renin:aldosterone ratio
secondary = high renin

Question 77

causes of primary aldosteronism

Answer 77

• idiopathic adrenal hyperplasia
• phaeochromocytoma
• Cushing’s

Question 78

causes of seconday aldosteronism

Answer 78

• renal hypoperfusion, eg. renal artery stenosis

- heart failure

Question 79

reason for hypercoagulable state in nephrotic syndrome

Answer 79

• antithrombin III is bound to albumin so in proteinuria/hypoalbuminaemia there is a deficiency of antithrombin III - hypercoagulable state

Question 80

proteinuria screening in diabetes

Answer 80

use ACR (albumin:creatinine ratio)
ACR>2.5 = microalbuminuria
- give ACEI if appropriate in CKD

Question 81

blood tests for rhabdomyolysis

Answer 81

• very high creatine kinase (>1000U/L)
• AKI with high creatinine
• myoglubinuria (hypocalcaemia as calcium binds to myoglobin)
• metabolic acidosis
• hyperkalaemia

Question 82

CKD and calcium/phosphate

Answer 82

• CKD leads to reduced vit D due to hydroxylation occurring in kidneys, low vit D therefore low Ca2+
• kidneys normally excrete phosphate, CKD kidneys do not effectively excrete phosphate, high phos in CKD
• high phosphate drags Ca2+ from bones, causing osteomalacia

Question 83

management of CKD secondary parathyroidism

Answer 83

• reduced dietary phosphate (cut down on chocolate, shellfish, nuts, cola)
• if ineffective, phosphate binding eg. sevelamer
• alfacalcidol (vit D)
• parathyroidectomy in resistant cases

Question 84

change in eGFR and creatinine after commencing ACEI

Answer 84

a decrease in eGFR of up to 25% or a rise in creatinine of up to 30% is acceptable, although any rise should prompt careful monitoring and exclusion of other causes

Question 85

CKD staging

Answer 85

15, 30, 60, 90

Stage eGFR Comments
1 90+ normal function but signs of
kidney disease in urine etc.
2 60-89 mildly reduced function
3 30-59 moderate dysfunction (can be
divided into a and b based on
eGFR<45 or not)
4 15-29 severe dysfunction
5 <15 very severe, dialysis

Question 86

protein:creatinine ratio conversion to daily protein loss in urine

Answer 86

divide by 100 for g/day from mg/mmol in protein:creatinine ratio

eg. P:C = 350mg/mmol = 3.5g/day proteinuria