Nephrotic syndrome

Question 1

nephrotic syndrome

4 signs

Answer 1

inflammation and damage of the nephron (podocytes) (loose protein)

group of symptoms without a specific underlying cause.

1. peripheral oedema (frothy urine)
2. proteinuria >3g/24 hours
3. hypoalbuminaemia (serum albumin <256g/L)
4. hypercholesterolaemia (dyslipidaemia)

+/- haematuria
+/- loss of immunoglobulins

*predisposed to thrombosis, HTN, high cholesterol

in children: minimal change disease (treat with steroids)

in adults: focal segmental glomerulosclerosis

Question 2

signs and symptoms of nephrotic syndrome

Answer 2

dyslipidaemia:
xanthelasma
xanthoma

hypoalbuminaemia:
tiredness
leukonychia
oedema (reduced oncotic pressure)
periorbital oedema
ascites 
peripheral oedema of the lower limb (SOB)

urine:
frothy (protein)

Question 3

nephrotic syndrome investigations

Answer 3

diabetic nephropathy
autoimmune problems

urine dipstick
MSU
FBC, EUC, LFT, Ca2+, CRP, glucose. serum and urine immunoglobulins

autoimmune screen
hep b and c
HIV

CXR can show pleural effusoin / oedema

USS of the kidney

Renal biopsy

• light microscopy
• immunofluorescent
• electron microscopy (architecture of the glomerulus)

Question 4

primary nephrotic syndrome

Answer 4

MMF

1. minimal change disease
   minimal change in light microscopy
   IgM in the mesangium
   effacement of podocyte foot processes.

2. membranous glomerulus nephritis
nephrotic syndrome in adults
renal biopsy
mesangial expansion capillary wall thickening
IgG and C3 
GBM thickening

3. focal segmental glomerulosclerosis
   renal biopsy- focal segmental glomerular sclerosis
   ECM: GBM thickening

Question 5

secondary nephrotic syndrome

Answer 5

SLE
diabetic nephropathy most common cause
hep B, C, D
amyloidosis

Question 6

nephrotic syndrome pathophysiology

Answer 6

loss of protein due to damage to the podocytes

• mass proteinuria (protein in urine)
• haematuria
• immunoglobulinaemia

loss of protein stimulates the liver to create albumin and cholesterol. reduced plasma oncotic pressure = water and electrolytes move into the interstitium

this results in peripheral oedema (swelling of the feet)

decrease volume in the circulation = less vol returned to the heart = decrease in blood volume= decrease in renal blood flow = drop in GFR

low renal blood flow stimulates RAAS= results in further oedema (retention of Na+ and H2O)

Question 7

membranous glomeruonephritis

Answer 7

most common type of glomerulonephritis

There is a bimodal peak in age in the 20s and 60s
Histology shows “IgG and complement deposits on the basement membrane”
The majority (~70%) are idiopathic
Can be secondary to malignancy, rheumatoid disorders and drugs (e.g. NSAIDS)

Question 8

nephrotic syndrome pathophysiology

Answer 8

affects kidney glomeruli
type of nephrotic syndrome

glomeruli damaged- more permeable- plasma proteins enter the urine (proteinuria >3.5g/day)

hypo albumianemia (lowers oncotic pressure =oedema)

increased levels of lipid in the blood (lipidaemia) (lipiduria)

1. proteinura
2. hypoalbuminaemia
3. oedema
4. hyperlipidaemia
5. lipiduira

Question 9

minimal change disease

Answer 9

endothelial cells - basement membrane - foot procesess. foot processes- negatively. charged.

T cells release cytokines which damage the podocytes (effacement -flattened out) selective proteinuria.

causes: idiopathic. associated with Hodgkin’s lymphoma (general increase in cytokine production) or drugs (NSAIDs and lithium)

diagnosis:

• light microscopy and H&E stain so ‘minimal change’
• electron microscopy shows effacement of foot processess.
• immunoflurocence is -ve

treatment: corticosteroid therapy. prednisolone 4-16 weeks.

Question 10

focal segmental glomerulosclerosis

Answer 10

some segments of some glomeruli are affected with sclerosis.

proteins filter through to the urine- develop nephrotic syndrome.

protein plasma and lipids filter into the urine due to damage of the podocytes. build up in the glomerulus = hyalinosis (glassy appearance on histology)= develops into scar tissue.

can be the end result of lots of different pathological processess.

• sickle cell disease
• HIV- associated nephropathy
• heroin nephropathy
• kidney hyperperfusion and increased pressure in glomerular capillaries.

diagnosis:
histology- segmental sclerosis and hyalinosis

electron microscope- effacement of foot processess.

immunofluoresence
non specific focal deposits of IgM and complement

Question 11

list of all nephrotic syndromes

Answer 11

1. lupus nephritis
2. minimal change disease
3. focal segmental glomerulosclerosis
4. diabetic nephropathy
5. membrano prolfierative glomerulonephritis
6. membranous glomerulonephritis

Question 12

membranous glomerulonephritis

Answer 12

membranous nephropathy
glomerular basement membrane becomes inflamed and damage.

caused by immune complex (antigen-antibody) (auto antibodies targeting the GBM= M type phospholipase A2 receptor and neutral endopeptidase)

can form outside of the kidney and then deposited in the GBM= cationic bovine serum albumin.

• sub-epithelial deposits
• activates the complement cascade.
• damages the podocytes and mesangial cells
• damages the GBM
• GBM matrix becomes deposited= thickened on histoloy.

electron microscopy ‘spike and dome pattern’ and ephacement of the podocytes.

immunofluroscent: granular deposition of complex
tx: steroids

Question 13

membranoproliferative glomerulonephritis

MPGN

Answer 13

a type of nephrotic syndrome

3 types

type 1: circulating immune complex (antigen released from chronic infection). bind to glomerulus= activate the complement pathway

inappropriate activation of the alternate complement pathway. thickening of GBM and mesangial cell proliferation. (mesangial interposition)

type 2:
only complement deposits (no immune complex) ‘dense deposit disease’

type 3:
deposits in subendothelial and subepithelial space.

symptoms:
protein in urine and can also present as a nephritic syndrome (inflmmation= haematuria, oligouria, azotemia, HTN)

treatment: steroids

Question 14

lupus nephritis

Answer 14

inflammation of the kidney from having lupus
some cells DNA is badly damaged= apoptosis= exposes inside of the cells (DNA, histones, proteins) to the body. the immune system mistakes these nuclear antigens for foreign = attack.

antigen-antibody complex deposit in the kidneys and initiate an inflammatory reaction (type III hypersensitivity)

• majority of cases= nephrotic syndrome (proteinuria)
• some cases can be nephritic (blood in urine)
  biopsy: crecent shaped swelling, wire loop pattern
  tx: corticosteroids, meds for lupus (mycophenolate, cyclophosphamide)

Question 15

diabetic nephropathy

pathophysiology

Answer 15

kidney damaged caused by type I and II DM

leading cause of end-stage renal disease.

1. glucosuria
2. (glucose sticks to protein= non enzymatic glucosation)
3. glycation of the Basement membrane= thickens.
4. stiffening of the efferent arteriole (hyaline arteriosclerosis causes obstruction to blood flow)
5. afferent arteriole dilates
6. increase in eGFR= hyperfiltration

• thickened glomerular BM
• mesangial expansion]
• kimelsteil wilson nodules
• disruption of podocytes

eGFR eventually decreases

Question 16

diabetic nephropathy symptoms and tx

Answer 16

asymptomatic

glomerular filtration rate decreases = end-stage renal disease

regular screning

• microalbuminuria 3-300mg of albumin per day
• macroalbuminaemia >300mg

can be slowed down but not stopped.

• ACE inhbitors
• ARB’s

Question 17

rhabdomyolysis

Answer 17

skeletal muscle breakdown and the release of intracellular contents.

increased cytokines, decrease NO- renal vasoconstrction

myoglobin isfilitered by the glomeruli causing obstruction and inflammation

classic presentation
tea or cola coloured urine (myoglobinuria)
hx of trauma / immobility
CK>20000

manage:
hydrate, diuretics and fluids, alkalinsation of urine, reduce crsytalisation.

Question 18

nephrotic / nephritic

Answer 18

nephrotic: peripheral oedema, hyperlipidaemia, hypoabuminaemia
nephritic: oliguria, haematuria, hypertension

Question 19

fanconi syndrome

Answer 19

general impairment of the PCT
leads to glycosuria (non diabtic) phosphaturia, uricosuria, aminoaciduria and tubular proteinuria

positive urine PCR

phosphaturia = phosphate loss, bone deminieralisation and growht impairment

tx: phosphate replacemetn

Question 20

minimal change nephropathy triad

Answer 20

hypoalbuminaemia <30g/l
proteinuria >3-5g/24 hours
peripheral oedema

on electron microscopy: fusion of the monocytes with no associated glomerular changes

investgiations:
U+E, GFR, urine protein excretion (24 hours), creating ratio on spot morning Samp,e serum albumin, USS KUB, renal biopsy

therapeutic mx:
high dose oral steroids
cyclophosphamide