Nephrology

Question 1

Glomerular disease causes what?

Answer 1

Nephrotic syndrome

Nephritic syndrome

Question 2

AKI causes what?

Answer 2

HUS

Question 3

How much blood is received through the kidneys?

Answer 3

Very high blood

25% CO / min

Question 4

GFR in neonates compared to adults

Answer 4

20-30ml/min/1.73m2

So when dealing with neonates there is already compromised system

Question 5

5 functions of the kidney

Answer 5

Waste handling (urea, creatinine) 
Water handling 
Salt balance (Na, K, Ca, P)
Acid base control (bicarbonate)
Endocrine (red cells, BP, bone health)

Question 6

What part of the glomerular filtration barrier is vulnerable to immune mediated injury?

Answer 6

The endothelial cell

Question 7

Features of the endothelial cell of the glomerular filtration barrier

Answer 7

Fenestrated

Question 8

Two proteins of the glomerular filtration membrane

Answer 8

Type IV collagen (COL4)

Laminin

Question 9

How is the glomerular filtration membrane synthesised?

Answer 9

From

• podocytes
• endothelial cells

Question 10

Functions of mesangial cells

Answer 10

Glomerular structural support
Embedded in GBM
Regulates blood flow of glomerular capilaries

Question 11

Presentation of glomerulopathy

Answer 11

Haematuria

Proteinuria

Question 12

Indications towards nephritic syndrome

Answer 12

Increasing haematuria

Intravascular overload

Question 13

Indications towards nephrotic syndrome

Answer 13

Increasing proteinuria

Intravascular depletion

Question 14

Pathology of acquired glomerulopathy

Answer 14

White component affected

• epithelial cell (podocyte) - Minimal change disease, FSGS, lupus
• Basement membrane - membranous glomerulopathy, MGPN, PIGN
• Endothelial cell - HUS, MPGN, lupus, infection associated glomerulonephritis (PIGN)
• mesangial cell - HSP, IgA nephropathy, lupus

Question 15

Is acquired glomerulopathy common?

Answer 15

Yes

Question 16

Is congenital glomerulopathy common?

Answer 16

No - it is rare

Question 17

Layers involves in congenital glomerulopathy

Answer 17

Podocyte skeletal integrity
Basement membrane proteins
Endothelial / microvascular integrity

Question 18

Presentation of nephrotic syndrome

Answer 18

3 - 4 days
Nephrotic range proteinuria 
Frothy urine 
Blood in urine - not usually frank 
Hypoalbuminaemia 
Swollen face which is worse in the morning 
One eye closed in the morning 
Oedema
- Periorbital 
- legs (pitting)
- Ascites
- small pleural effusions 
Well but pale 
Weight up from baseline
BP can be raised  
Normal creatinine 
Protein creatinine ratio >250mg/mmol 
High levels of fat / lipids in the blood

Question 19

Pathology of nephrotic syndrome

Answer 19

Interaction between lymphocytes (T and B cells) and podocytes
Loss of size and charge barrier of the GFB
Oncotic (Osmotic) vs hydrostatic
Protein (osmotic) = magnet to water

Question 20

Can nephrotic syndromes have FH?

Answer 20

yes

Question 21

How do you test for proteinuria?

Answer 21

Dipstix
- gives concentration ; > 3+ usually abnormal
Protein creatinine ratio
- > 250 = nephrotic
24 hour urine collection (gold standard)
- normal < 60mg/m2/24hrs
- nephrotic = >1g/m2/24 hours in children

Question 22

Normal protein creatinine ratio

Answer 22

< 20mg/mmol

Question 23

Nephrotic range for protein creatinine ratio

Answer 23

> 250 mg/mmol

Question 24

What is the gold standard investigation for proteinuria?

Answer 24

24 hour urine collection

Question 25

Treatment of nephrotic syndrome

Answer 25

Prednisolone for 8 weeks

Question 26

S/Es of prednisolone

Answer 26

Behaviour (irritable, moody, dont sleep)
High BP
Facial change
Growth (only if recurrent courses)
GI distress

Question 27

Other considerations when treating nephrotic syndrome

Answer 27

Varicella status and pneumococcal vaccination as both act as immunosuppressants

Question 28

What indicates minimal change disease/

Answer 28

Response to steroids

Question 29

If steroid resistance / dependent when treating nephrotic syndrome, what does this indicate?

Answer 29

maybe not dealing with minimal change disease

Question 30

Presentation of minimal change disease

Answer 30

Resolving microscopic haematuria 
Proteinuria 
Oedema 
Weight gain 
Normal renal function 
Normal BP 
Atypical features
- suggestions of autoimmune disease
- abnormal renal function 
- steroid resistance 
Nephrotic syndromes

Question 31

What age gets minimal change disease?

Answer 31

2 - 5 y / o

Question 32

What presentation in minimal change disease would make you consider a renal biopsy?

Answer 32

Atypical features

• suggestions of autoimmune disease
• abnormal renal function
• steroid resistance

Question 33

Prognosis of Nephrotic syndrome

Answer 33

Remission 95% in 2 - 4 weeks
relapse 80%
- 50% frequent - 2 in 6 or 4 in a year
80% long term remission

Question 34

If really frequent recurrences of nephrotic syndrome, what may be the problem?

Answer 34

Prednisolone toxicity

Question 35

Acquired steroid resistant nephrotic syndrome condition and its pathology

Answer 35

Focal Segmental Glomeruloscerosis (FSG)

• podocyte loss
• progressive inflammation and sclerosis

Question 36

What type of haematuria should always be investigated?

Answer 36

Macroscopic

Question 37

When is microscopic haematuria investigated?

Answer 37

> trace on 2 occasions

Question 38

Important causes of macroscopic haematuria

Answer 38

Glomerulonephritis
Post infect GN
IGA / HSP 
UTI (dysuria)
Trauma 
Stones (pain)

Question 39

Important causes of microscopic haematuria

Answer 39

Glomerulonephritis 
Post infect GN
IGA / HSP 
UTI 
Trauma 
Stones / hypercalciuria

Question 40

Symptoms of nephritic syndrome

Answer 40

Haematuria 
Reduced GFR
oliguria 
fluid overload 
- raised JVP
- oedema
HTN
Worsening renal failure - rapidly progressive FN

Question 41

What is nephritic syndrome an intrarenal cause of?

Answer 41

AKI

Question 42

Causes of glomerulonephritis

Answer 42

Post infectious GN
HSP / IgA nephropathy 
Membranoproliferative GN
Lupus nephritis 
ANCA positive vasculitis

Question 43

Investigations of nephritic syndrome

Answer 43

Renal USS 
Chase the most likely diagnosis
- ASOT 
- throat swabs 
- complement tests 
ANA, ANCA testing 
Biopsy 
- not needing when have a secure diagnosis

Question 44

Age of onset of acute post infectious glomerulonephritis

Answer 44

2 - 5

Question 45

Causes of acute post infectious glomerulonephritis

Answer 45

Usually group A strep
- beta haemolytic so completely haemolysis
Post throat infection 7-10 days
Post skin infection 2 - 4 weeks (impetigo common)

Question 46

Investigations of acute post infectious glomerulonephritis

Answer 46

Bacterial culture
positive ASOT
Low C3 normalises

Question 47

Prognosis of acute post infectious glomerulonephritis

Answer 47

Self limiting
good prognosis
can have haematuria for 1 - 2 years after but the function will improve

Question 48

How does a e.g. Group A strep cause an AKI?

Answer 48

Nephrogenic antigens on the strep
Bind specific sites in the glomerulus
Also antibodies bind Ag forming circulating complexes with deposits in the kidney
Set up a humeral and cellular immune response
Activates alternative compliment pathway
—> AKI

Question 49

Treatment of acute post infectious glomerulonephritis

Answer 49

Antibiotics for infection
Support renal functions
Overload / HTN
- diuretics

Question 50

If post infectious glomerulonephritis is recurrent, what does this indicate?

Answer 50

It is not the right diagnosis

Question 51

What is the most common glomerulonephritis?

Answer 51

IgA nephropathy

Question 52

When does IgA nephropathy occur?

Answer 52

1 - 2 days after URTI

Question 53

Who gets IgA nephropathy?

Answer 53

Older children

Adults

Question 54

Genetics of IgA nephropathy

Answer 54

Genetic predisposition

- galactose deficient IgA

Question 55

Presentation of IgA nephropathy

Answer 55

Recurrent macroscopic haematuria
+ / - chronic microscopic haematuria
Varying degree of proteinuria

Question 56

Diagnosis of IgA nephropathy

Answer 56

Clinical picture
Negative autoimmune workup
Normal complement
Confirmation biopsy

Question 57

Treatment of IgA nephropathy

Answer 57

Mild disease = ACEIs

Moderate to severe = immunosuppression (KDIGO)

Question 58

Prognosis of IgA nephropathy

Answer 58

25% ESRF by 10 years post diagnosis

Outcome better in children

Question 59

Age of onset of HSP IgA related vasculitis

Answer 59

5 - 15 years

Question 60

Presentation of HSP IgA related vasculitis

Answer 60

Mandatory PALPABLE PURPURA
1 of
- abdominal pain 
- renal involvement 
- arthritis or arthralgia 
- biopsy (IgA deposition)

Question 61

What is the most common childhood vasculitis?

Answer 61

IgA vasculitis

Question 62

What vessels does IgA vasculitis affect?

Answer 62

Small vessels

Question 63

When does IgA vasculitis occur?

Answer 63

1 - 3 days post trigger

Question 64

Triggers of IgA vasculitis

Answer 64

Viral UTI in 70%
Streptococcus
Drugs

Question 65

Duration of symptoms of IgA vasculitis

Answer 65

4 - 6 weeks
1 / 3rd relapse
- skin and kidney relapse

Question 66

Pathology of IgA vasculitis

Answer 66

Nephritis - mesangial cell injury

Question 67

Treatment of IgA vasculitis

Answer 67

Symptomatic - joints, gut
Glucocorticoid therapy (not for renal disease, helps GI disease)
Immunosuppression

Question 68

Long term prognosis of IgA vasculitis and any screenings that are carried out

Answer 68

Very good

Hypertension and proteinuria screening

Question 69

Definition of AKI

Answer 69

Abrupt loss of kidney function, resulting in the retention of urea and other nitrogenous waste products and in the dysregulation of extracellular volume and electrolytes

Question 70

Causes of AKI

Answer 70

Perfusion problem
- drugs
- renal artery stenosis
Intrinsic
- Glomerular disease (HUS, glomerulonephritis)
- Tubular injury (acute tubular necrosis as a consequence of Hypoperfusion or drugs)
- interstitial nephritis (NSAIDs, autoimmune)
Post renal
- obstructive

Question 71

Presentation of AKI

Answer 71

HUS
Anuria / oliguria (<0.5ml/kg/hr) for 8 hours
HTN with fluid overload
Rapid rise in plasma creatinine >1.5x age

Question 72

AKI warning score

Answer 72

AKI 1; measured creatinine >1.5-2x reference creatinine/ULRI
AKI 2; measured creatinine 2-3x reference creatinine/ULRI
AKI 3; serum creatinine >3x reference creatinine/ULRI

Question 73

Management of AKI (the 3Ms)

Answer 73

Monitor 
- urine output
- PEWS 
- BP
- weight 
Maintain 
- good hydration 
Minimise
- further injury 
- particular with drugs

Question 74

What does PEWS stand for?

Answer 74

Paediatric Early warning score

Question 75

Long term consequences of AKI

Answer 75

BP
Proteinuria (has to be monitored)
Evolution to CKD

Question 76

When does HUS usually occur?

Answer 76

Post diarrhoea
- Entero-haemorrhagic E Coli
Either verotixin producing E coli or Shiga toxin

Question 77

Causes of HUS

Answer 77

Post diarrhoea
pneumococcal infection
drugs e.g. chemotherapeutic drugs
Congenital or acquired autoimmune processes

Question 78

How do toxins from bacteria cause HUS?

Answer 78

Toxins cross enterocytes and bind to white cells on the endothelium, causing endothelial damage calling an hypethrombic state causing haemolysis

Question 79

Triad of HUS

Answer 79

1. microangiopathic haemolytic anaemia
2. thrombocytopenia
3. acute renal failure / AKI

Question 80

Presentation of HUS

Answer 80

E coli 0157;H7 serotype 
Bloody diarrhoea
Neurological involvement 
- reduced consciousness
- seizures 
renal failure

Question 81

Where do you get E Coli 0157;H7?

Answer 81

Cattle

Sheep

Question 82

Period of risk of HUS after diarrhoea, and how many get HUS?

Answer 82

Up to 14 days after onset of diarrhoea

15 % develop HUS

Question 83

Management of HUS (3 Ms)

Answer 83

Monitor (the 5 kidney functions)
- fluid balance
- electrolytes
- acidosis 
- HTN
- aware of other organs
Maintain 
- IV normal saline and fluid 
- RRT 
minimise 
- no antibiotics

Question 84

What does CAKUT stand for?

Answer 84

Congenital anomalies of the kidney and urinary tract

Question 85

Presentation of CAKUT

Answer 85

Reflux nephropathy
Dysplasia
Obstructive uropathy

Question 86

Hereditary chronic kidney diseases

Answer 86

Cystic kidney disease

Cystinosis

Question 87

What can CAKUT be associated to?

Answer 87

Turner
Trisomy 21
Bracio-oto-renal
Prune belly syndrome

Question 88

Presentation of CKD

Answer 88

Variable depending on which function is altered

• bladder dysfunction
• salt wasting (low P, K high)
• renal tubular acidosis
• waste handling
• water handling
• endocrine

Question 89

What is needed to diagnose a UTI

Answer 89

Clinical signs PLUS

Bacterial culture midstream urine

Question 90

Most common presenting symptoms of neonates with a UTI

Answer 90

Fever
vomiting 
lethargy 
Irritability 
Poor feeding 
Failure to thrive

Question 91

Most common presenting symptoms of pre verbal children with a UTI

Answer 91

Fever
abdo / loin pain / tenderness
vomiting
poor feeding

Question 92

Most common presenting symptoms of verbal children with a UTI

Answer 92

Frequency 
Dysuria 
Dysfunctional voiding 
Changes to continence 
Abdominal / loin  pain / tenderness

Question 93

Septic shock secondary to UTI is more common in who?

Answer 93

Infants

Question 94

How can a urine specimen be obtained in children?

Answer 94

Normal social cleanliness - water
Clean catch urine or mid stream urine 
Collection pads or urine bags (easily contaminated)
Sick infants
- catheter samples
- suprapubic aspiration (USS)

Question 95

Suggestive tests of UTI

Answer 95

Dipstix
- leucocyte esterase activity, nitries 
Microscopy
- pyuria > 10 WBC per cubic mm
- bacteria 
Culture > 10 5 colony forming units
- E coli

Question 96

Why worry about UTIs?

Answer 96

UTI, VUR and vulnerable kidneys can lead to scarring

Question 97

Treatment of UTI

Answer 97

lower tract
- 3 days oral Ax
upper tract / pyelonephritis
- antibiotics 7 - 10 days (oral if systemically well)

Question 98

Prevention of UTI

Answer 98

Hygiene
Constipation
Voiding dysfunction

Question 99

Indications to use imaging to investigate the renal tract

Answer 99

Upper tract symptoms
 - temp > 38C
- vomiting 
- systemically unwell etc 
Younger
- younger you are = higher risk of renal dysplasia

Question 100

Renal imaging used

Answer 100

USS - first line
DMSA
Micturating cytourethrogram
MAG 3 scan

Question 101

Factors affecting the progression of CKD

Answer 101

late referral 
HTN
Proteinuria
High intake of protein, phosphate and salt 
Bone health 
- PTH 
- P
- Vitamin D 
Acidosis
Recurrent UTIs

Question 102

What is used to investigate BP?

Answer 102

Doppler (gold standard < 5s)
Sphigmanomter
oscillometry

Question 103

Factors affecting BP

Answer 103

Sex
age
height

Question 104

Management of CKD

Answer 104

Nutrition / protein intake 
- low K diet
- avoid hypercalcaemia
- reduce P in diet 
Give / restrict fluids 
Bicard if needed for acid base control 
Support for anaemia 
ACEIS
Bone health 
Bladder dysfunction

Question 105

Treatment for metabolic bone disease

Answer 105

Low phosphate diet
Phosphate binders
Active Vit D
If ongoing poor growth - growth hormone

Question 106

Why is metabolic bone disease involved with the kidneys?

Answer 106

The kidneys pee out phosphate
High phosphate - increases PTH
High PTH is associated with CVS in adults and IHD

Question 107

Types of cystic renal disease

Answer 107

Simple
Developmental 
- dysplasia 
- multicystic dysplastic 
Genetic
- autosomal recessive (ARPKD)
- autosomal dominant (ADPKD)
- syndromic 
Acquired 
- cancer

Question 108

Pathology of multicystic dysplastic kidney (MCDK)

Answer 108

Non functioning kidney
ureteric atresia
Hypertrophy of normal collateral kidney - usually unilateral (75%)

Question 109

Pathology of ARPKD and potters sequences

Answer 109

Antenatally large bright kidneys

Question 110

Presentation of ARPKD and potters sequence

Answer 110

Oligohydramnios
Severe respiratory distress
- pulmonary hyperplasia 
- nephromegaly mass effect
Potters sequence
- decreased amniotic fluid
- pulmonary hyperplasia 
- foetal compression of faces, contracture 
- bilateral renal agenesis (absent uteteric bud) 
- AR polycystic kidney disease 
Loss of function

Question 111

What is Renal cysts and diabetes (RCAD)?

Answer 111

autosomal dominant glomerulocystic kidney disease
early onset DM (MODY)
US = cortical cysts 
Genetic heterogenecity 
= HNF1B mutations

Question 112

What is Alport syndrome?

Answer 112

Glomerular basement membrane disease

Question 113

Pathology of Alport syndrome

Answer 113

Collagen 4 abnormalities

X linked dominant inheritance

Question 114

Presentation of Alport syndrome

Answer 114

Haematuria - micro and macroscopic 
Proteinuria 
HTN
deafness - high tone and senori neural loss 
Renal failure in early adult life (20-30 yrs) 
eye changes 
- lenticonous 
- macular changes in retina

Question 115

Investigation for renal scarring in a child with VUR

Answer 115

Radionucleotide scan using dimercaptosuccinic acid (DMSA)

Question 116

What does VUR look like on a micturating cystourethrogram?

Answer 116

Gross dilatation of the ureter, pelvis and calyces with ureteral tortuosity

Question 117

Features of an atypical UTI in children

Answer 117

Seriously ill
Poor urine flow
Abdominal or bladder mass
Raised creatinine
Septicaemia
Failure to respond to treatment with suitable antibiotics within 48 hours
Infection with non E coli organisms

Question 118

Investigation to diagnose VUR

Answer 118

Micturating cystourethrogram