Glomerulonephritis

Question 1

pathogenesis

Answer 1

immunologically mediated disorder

• humoral - Ab driven
• cell mediated (T cells)
• involvement of inflammatory cells, mediators and complements

Question 2

define

Answer 2

immune mediated disorder of the kidneys affecting the glomeruli, with secondary tubulo-interstitial damage

Question 3

name 3 consequences of inflammation of the glomerulus

Answer 3

• damage to the glomerulus restricts blood flow, leading to compensatory increase in systemic BP
• damage to the filtration mechanism allows protein and blood to enter the urine
• loss of the usual filtration capacity leads to AKI

Question 4

what does damage to endothelial cells lead to

Answer 4

• vasculitis - most aggressive form of inflammation in the kidney, can lead to AKO
• haematuria

Question 5

what does damage to mesangial cells lead to

Answer 5

• proliferative lesion, release of angiotensin II which causes vasoconstriction
• chemokines are released which attract inflammatory cells
• haematuria

Question 6

what does damage to podocytes cause

Answer 6

• non-proliferative lesion - podocytes atrophy, lose filtration barrier
• protein in urine

Question 7

broad presentation of GN

Answer 7

• specific syndrome eg nephrotic or nephritic
• blood pressure
• urine dipstick: protein/blood
• renal function impairement

Question 8

compare the presentation of nephritic syndrome to nephrotic

Answer 8

• nephrotic syndrome: Defined as proteinuria >3g/d, hypoalbuminuria (<25g/L) and oedema with severe hyperlipidaemia (and cholesterol). This is indicative of a non-proliferative process affecting podocytes

Question 9

nephritic syndrome

Answer 9

syndrome comprising signs of nephritis, often occurs in GB

Question 10

aetiology

Answer 10

• the majority are primary with no underlying drive to disease
• 2y - infections, drugs, autoimmunity, malignancy, systemic disease

Question 11

define focal and diffuse

Answer 11

• focal <50% glomeruli affected
• diffuse >50%

Question 12

define global and segmental

Answer 12

all/part of glomerulus affected

focal lesions are often segmental

Question 13

crescenteric

Answer 13

presence of crescents:

• Glomerular disease leads to gaps or holes in the GBM resulting in epithelial cell proliferation with mononuclear infiltration in Bowman’s space. Ultimately, fibrocellular crescent formation
• these are associated with RPGN

Question 14

how does IgA nephropathy present

Answer 14

• macro or microscopic haematuria ± nephritic syndrome

Question 15

what is the most common GN in the developed world

Answer 15

IgA nephropathy

Question 16

pathology of IgA nephropathy

Answer 16

• there is raised abnormal IgA (possibly due to infection of mucosal membrane)
• target by the immune system and forms immune complexes with IgG
• these are deposited in mesangial cells
• accumulate and cause local immune ativation - proinflammatory cytokine release and macrophages come - and injury
• RBS pass through into urine

Question 17

when does IgA nephropathy typically develop

Answer 17

during infection of mucosal membrane eg resp/GI tract

Question 18

how does IgA nephropathy progress

Answer 18

• over time due to glomerular inflammation and injury, patients progress to renal failure
• 25% progress to ESRF in 10-30 years

Question 19

describe a typical patient with IgA nephropathy

Answer 19

• Typical patient: young man with episodic macroscopic haematuria after respiratory/G.I. infection, recovery is rapid between attacks

Question 20

what is IgA Nephropathy associated with systemically

Answer 20

Henoch Schonlein purpura

Question 21

biopsy of IgA Nephropathy

Answer 21

mesangial proliferation and expansion

Question 22

IF and EM of IgA Nephropathy

Answer 22

immune deposits (IgA and C3) are seen in mesangium

Question 23

H&E stain of IgA Nephropathy

Answer 23

mesangial cell proliferation and expansion

Question 24

treatment of IgA Nephropathy

Answer 24

the aim is to prevent further damage and avoid ESRF

• control BP: ACEi/ARB, fish oil
• prevent immune complex formation: corticosteroids

Question 25

common features of RPGN

Answer 25

• aggressive, potential to cause ESRF over days
• severe glomerular injury
• development of crescent shape

Question 26

crescent formation

Answer 26

• Glomerular disease leads to gaps or holes in the GBM resulting in epithelial cell proliferation with mononuclear infiltration in Bowman’s space.
• Ultimately, crescent is replaced by scar tissue
• lose filtration ability
• quickly leads to AKI

Question 27

Answer 27

crescent

Question 28

ANCA positive type of RPGN

Answer 28

• pauci-immune (no anti-GBM or immune complexes)
• cANCA (GPA) and pANCA (microscopic polyangiitis and eGPA)

Question 29

ANCA negative RPGN

Answer 29

• anti-GBM eg goodpastures disease
• immune complex disease: IgA, HSP, post-strep GN

Question 30

clinical presentation of RPGN

Answer 30

AKI ± systemic features

Question 31

what is seen on IF of RPGN

Answer 31

• Anti-GBM – linear as Ab bind to collagen of GBM
• Immune complex deposition: granular
• ANCA – negative on IF (Pauci-immune)

Question 32

usual age of onset of RPGN

Answer 32

50-60

Question 33

treatment of RPGN

Answer 33

prompt and supportive, prognosis is poor

• Anticoagulants to reduce fibrin build up in crescent
• Aggressive immunosuppression with high-dose IV steroids and cyclophosphamide ± plasma exchange

Question 34

ANCA

Answer 34

• circulate throughout bloodstream and adhere to neutrophils in endothelial cells
• PR3 and MPO are induced onto the surface of neutrophils when they are primed
• these promote the inflammatory process and perpetuate the vasculitis process

Question 35

define nephrotic syndrome

Answer 35

• proteinuria >3g/day
• hypoalbuminuria (<25g/L)
• oedema

severe hyperlipidaemia (total cholesterol>10mmol/l) is often present

Question 36

why is severe hyperlipidaemia often present in nephrotic syndrome

Answer 36

• may be a by product of the liver trying to produce more albumin
• often resolves with treatment of the syndrome
• the liver also produces more clotting factors, meaning the person is in a pro coagulant state - blood hyperviscosity

Question 37

renal function and BP in nephrotic syndrome

Answer 37

• renal function usually normal, normal creatinine
• BP nomral-mild increase

Question 38

pathophysiology of nephrotic syndrome

Answer 38

• non-proliferative process causing injury to podocytes, whichb atrophy
• this lets proteins through the barrier
• proteinuria means there are low protein concentrations in the blood, contributing to reduced oncotic pressure

Question 39

features of nephrotic syndrome

Answer 39

• periorbital oedema followed by full body oedema
  
  • periorbital oedema drains throughout the day
• a thrombotic compication (eg DVT, PE) may be the first sign

Question 40

why do you not see peri orbital oedema in patients with oedema 2y to heart failure

Answer 40

they cant lie flat due to fluid in lungs etc

Question 41

causes of nephrotic syndrome

Answer 41

• primary due to renal disease (listed further on)
• secondary to systemic disorders (hepatitis, SLE, paraneoplastic, drug related, diabetic nephropathy)

Question 42

treatment aims of nephrotic syndrome

Answer 42

• reduce oedema
• reduce proteinuria
• reduce risk of complications
• treat underlying cause
  
  • find and treat underlying infections
  • stop causative drugs
• immunosuppression

the aim is to induce sustained remission (complete remission: <300mg/day, partial: <3g/day)

Question 43

treatment of nephrotic syndrome: reduce oedema

Answer 43

• high doses of loop diuretics and salt restriction
  
  • gut oedema may prevent oral absorption so IV is useful
• fluid restriction to 1l a day
• IV albumin can be used if volume deplete and diuretics not working

Question 44

treatment of nephrotic syndrome: reduce proteinuria

Answer 44

start all patients on a ACEi/ARB

Question 45

treatement of nephrotic syndrome: reduce risk of complications

Answer 45

• anticoagulation
• statin to reduce cholesterol (although often resolves spontaneously when cause treated)

Question 46

complications of nephrotic syndrome

Answer 46

• infection
• thromboembolism
• volume depletion
• hyperlipidaemia
• vit D def
• subclinical hypothyroidism

Question 47

complications of nephrotic syndrome: infection

Answer 47

loss of opsonising Ab in urine and IS treatment

Question 48

complications of nephrotic syndrome: thromboembolism

Answer 48

patient is in a pro coagulant state due to increased clotting factors and platelet abnormalities

• renal vein thrombosis
• PE
• DVT

Question 49

complications of nephrotic syndrome: volume depletion

Answer 49

• can be due to aggressive use of diuretics, as most of the salt and water is trapped in the tissues and cant move into the vascular space quickly enough to be removed
• patient can be oedematous and volume depleted

Question 50

complications of nephrotic syndrome: vit D deficiency

Answer 50

• 25OH vitamin D is lost in the urine

Question 51

complications of nephrotic syndrome: subclinical hypothyroidism

Answer 51

• normal T3/4 and high TSH
• due to increasd urinary excretion of thyroid hormones
• if there is already a low thyroid reserve, the transition into overt hypothyroidism is inevitable

Question 52

nephrotic syndrome: minimal change disease

cause

Answer 52

• idiopathic
• associated with drugs eg NSAIDs, or paraneoplastic

Question 53

what is the most common cause of nephrotic syndrome in children

Answer 53

minimal change disease

Question 54

nephrotic syndrome: minimal change disease

pathophysiology

Answer 54

• cytokine damage to podocyte foot processes
  
  • IL-13 may be implicated
• the flatten out
• negative charge barrier is lost
• albumin passess through
• selective proteinuria (some larger proteins still cant pass through)

Question 55

nephrotic syndrome: minimal change disease

biopsy

Answer 55

• normal under light microscopy
• IF usually negative as there are no immune complexes
• EM shows fusion of foot processes of podocytes

Question 56

nephrotic syndrome: minimal change disease

treatment

Answer 56

• 94% experience total remission with oral steroids
  
  • adults respond slower than children
• some are steroid resistant or have multiple relapses

Question 57

nephrotic syndrome: minimal change disease

how is frequently relapsing or steroid-dependent disease treated

Answer 57

cyclophosphamide or ciclosporin

Question 58

prognosis of nephrotic syndrome: minimal change disease

Answer 58

1% progress to ESRF

Question 59

Answer 59

nephrotic syndrome: minimal change disease

Question 60

what is the most common cause of nephrotic syndrome in adults

Answer 60

FSGS

Question 61

nephrotic syndrome: FSGS

causes

Answer 61

• primary (idiopathic)
• 2y - HIV, heroin use, sickle cell disease, obesity, reflux)

Question 62

nephrotic syndrome: FSGS

pathophysiology

Answer 62

• podocytes are damaged and let plasma proteins and lipids through
• some of these are trapped and build up in the glomerulus
• these areas develop focal sclerosis

Question 63

nephrotic syndrome: FSGS

presentation

Answer 63

usually nephrotic syndrome or proteinuria

around half have impaired rnenal function

Question 64

nephrotic syndrome: FSGS

biopsy

Answer 64

segmental sclerosis of some glomeruli

Question 65

nephrotic syndrome: FSGS

EM

Answer 65

effacement of some podocyte foot processes

Question 66

nephrotic syndrome: FSGS

IF

Answer 66

there may be IgM and C3 (complement) deposits in affected areas

Question 67

nephrotic syndrome: FSGS

treatment

Answer 67

• there is an inconsistent response to steroids (around 30%)
• cyclophosphamide or ciclopsorin are considered if steroid resistant

Question 68

nephrotic syndrome: FSGS

prognosis

Answer 68

partially due to the inconsistent repsonse to steroids, and progressive sclerosis of glomeruli, around 50% progress to ESRF in ten years

Question 69

what is the 2nd most common cause of nephrotic syndrome in adults

Answer 69

nephrotic syndrome: membranous nephropathy

Question 70

nephrotic syndrome: membranous nephropathy

causes

Answer 70

• primary - idiopathic
• 2y to autoantibody generation in response to e.g. malignancy, hepatitis B, drugs (gold, pencillamine), connective tissue diseases (lupus)

Question 71

nephrotic syndrome: membranous nephropathy

pathophysiology

Answer 71

• basement membrane damaged by subepithelial immune complex deposits
• activate complement system and attract inflammatory cells
• damaged GBM is leaky - thickened in a spike and dome pattern

Question 72

nephrotic syndrome: membranous nephropathy

biopsy

Answer 72

diffusely thickened GBM

Question 73

nephrotic syndrome: membranous nephropathy

IF

Answer 73

immune complex deposition in subepithelial area - IgG and C3

granular appearance

Question 74

nephrotic syndrome: membranous nephropathy

treatment

Answer 74

• underyling cause in secondary
• in primary, general measures eg blood pressure and diuretics
• steroids, alkylating agents, B cell monoclonal Ab

Question 75

nephrotic syndrome: membranous nephropathy

prognosis

Answer 75

30% progress to ESRF in ten years

Question 76

which antibodies are found in around 80% of idiopathic membranous nephropathy

Answer 76

phospholipase A2 receptor antibodies

Question 77

clinical presentation of Goodpasture’s disease

Answer 77

• haemoptysis and haematuria

Question 78

good pasture’s disease

Answer 78

• anti-GBM disease
• autoimmune diseas primarily affecting the lungs and kidney, where the BM are made up of type IV collagen
• type II hypersensitivity reaction
• auto-antibodioes bind to type IV collagen and activate the complement system

Question 79

risk factors for Good pasture’s disease

Answer 79

genetic, infection, smoking, oxidative stress