Nephrology COPY Flashcards
Differential diagnosis of Haematuria?

A genetic susceptibility and an exaggerated immune response to an URTI is the cause of a primary IgA nephropathy, but what are the causes of a secondary IgA nephropathy.

Differential diagnosis for micro/macro scopic Haematuria in an otherwise asymptomatic patient who has had Urological malignancy ruled out?
Genetic disorders
Thin membrane disease (relatively benign - painless haematuria)
Alports disease (Rare genetically inherited disorder that causes hearing loss, eye problems and an abnormal Glomerular Basement Membrane) - can cause renal failure - most patients end up on dialysis.

How do you diagnose IgA nephropathy?
Kidney biopsy
Only indicated if:
- Haematuria and proteinuria
- Haematuria w/ decling kidney fnc

Kidney biopsy goes through 3 phases, what are they?
- Light Microscopy (first image shows classic crescent shape of IgA nephropathy)
- Immunofluorescence (IHC)
- Transmission electron microscopy (TEM)

Which scoring system can be used to classify prognosis in IgA nepropathy
Oxford Classification (basically characterizes the the mesangium)
MEST-C
Mesangial hypercellularity
Endothelial Hypercellularity
Segmental Glomeruloscelrosis
Tubular atrophy / Interstitial Fibrosis
Crescent formation

The hallmark of treatment in IgA nephropathy is ____.
ACE-i
*Not steroids unless acute decline in renal function*
Most common cause of Glomerulonephritis?
IgA nephropathy
- especially prevalent in Caucasians and East Asians
- Men 2:1 Women
- Most common in 2nd and 3rd decade of life
*Remember can present with loin pain and thus may mimic renal calculi*

Pathophysiology of IgA nephropathy?
Genetic Susceptibilty - URTI - Exaggerated Immune Response - Antibody Complex form in Mesangium - Endothelial/Tubular damage
(i.e Endothelium/GBM/Podocyte interface is damaged)

Prognostic markers for glomerulonephritis other than the Oxford histology score (MEST-C)?
BP
Proteinuria (Remember proteinuria is significant in nephrology if >1g / 24hrs)
Renal function

Glomerular Disease:
Nephrotic vs Nephritic Syndrome
The key with nephrotic syndrome is an excess amount of protein in the urine, whereas nephritic syndrome is where there is an excess amount of blood in the urine.
Nephrotic Syndrome:
Injury to Podocytes (Proteinuria)
Changed mesangial architecture
(ex. Minimal change disease/ Diabetic nephropathy/ Amyloid)
Nephritic Syndrome:
Inflammation
Reactive cell proliferation
GBM disruption (slit membrane) - blood leaks into urine
Crescent formation
(Ex. Post-Streptococcal infection/Anti-GBM aka goodpasture’s disease - affects lung BM aswell/ANCA small vessel vasculitis)
As outlines above nephrotic syndrome is characterised by very heavy proteinuria (> 3.5 g/24 hrs), hypoalbuminaemia and oedema.
The Nephritic syndrome is characterised by the presence of haematuria frequently in association with hypertension, oliguria, fluid retention and usually (but not always) reduced / declining renal function. Patients with nephritic syndrome may also exhibit varying degrees of proteinuria, including nephrotic-range proteinuria; the prominence of haematuria on
dipstick should, however, alert the physician to the possibility of a glomerulonephritis.
Indeed, it is important to recognise that the characteristic features of nephritic syndrome and nephrotic syndrome do not always present in isolation, but should be considered to be the extreme phenotypes at either end of a spectrum of presentations.
Students should learn that damage to the podocytes causes (heavy)
proteinuria (see graph above) whilst the glomerular injury caused by Autoantibodies or Immune complex deposition usually causes haematuria +/- mild to moderate proteinuria.
At the other end of the spectrum, inflammation leads to cell damage and proliferation, breaks form in the glomerular basement membrane (GBM) and blood leaks into urine. In its extreme form, with acute sodium retention and hypertension, such disease is labelled nephritic syndrome.
The histology to the right shows a **glomerulus with many extra nuclei from proliferating intrinsic cells**, and influx of inflammatory cells leading to crescent formation (arrows) in response to severe post-infectious glomerulonephritis.

A blood test can be used to screen for post-infectious (usually streptococcus) glomerulonephritis, which circulating proteins are looked for?
Anti-streptolysin O titre (ASOT)
C3, C4 (complement proteins)
Draw out the RAAS system.

____ and ___ are the two most common causes of CKD.
Diabetic Nephropathy
Hypertensive Nephropathy
*Both lead to nephrosclerosis*

What are the 3 ways in which multiple myeloma causes renal disease?
Light chain cast nephropathy (intralubular collection of light chain-protein complexes) - most common
Light chain deposition disease (deposits in the glomerulus)
AL Amyloidosis
Hypercalcaemia and Hyperuricaemia (Tumour lysis syndrome causes tubular crystallization of uric acid) also possible causes of MM induced nephropathy.

Pathophysiology of Diabetic Nephropathy
Glycylated basement membrane and endothelial cells (due to hyperglycaemia) thicken and harden the efferent arteriole of the glomerulus.
This leads to increased pressure within the glomerulus and reduced reabsorption in the collecting tubules. The kidney thinks it needs a great blood supply and the afferent arteriole dilates but this only serves to increase pressure in the glomerulus and this is why the 1st/early stage of diabetic nephropathy actually leads to hyperfiltration.
The increased pressure and size of the glomerulus only serves to disrupt its architecture more and this leads to increased space between podocytes (slit junctions) leading to proteinuria and mesangial expansion. Mesangial expansion leads to increased ECM production - leading to collagenous nodules called Kimmelstiel - Wilson Nodules.

4 main events that contribute to diabetic nephropathy
- Thickened Glomerular Basement membrane
- Mesangial expansion
- Kimmelstiel - Wilson nodules
- Podoctye disruption

Remember ANCA vasculitis is a small vessel vasculitis caused by antibodies to the cytoplasmic contents of granulocytes (i.e neutrophils/basophils/eosinophil/monocytes).
This is why it is called granulomatosis with polyangiitis
Remember C-ANCA means _____
whereas pANCA means ____
Cytoplasmic - Anti-Neutrophil Cytoplasmic Autoantibodies
Perinuclear - Anti Neutrophil Cytoplasmic Autoantibodies
*note - Neutrophilic not Nuclear*

How do we classify an AKI?
KDIGO Classification (Stage 1, 2, and 3)
Measures from baseline Creatinine and Urine output in 12/24hrs

3 drugs to avoid in renal impairment (lecture)
Lithium -100% RC
Gentamicin (aminoglycaside) - 100% RC
LMWH (70% renal clearance)
(unfractionated LMWH can be used in renal dysfunction as it has a greater molecular weight and thus is not filtered by the kidney - essentially this means that it is less dependent on the kidneys for clearance and so we ar eless worried about the drug in patients with renal dysfunction)

When taken as an overdose, the metabolism of paracetamol results in a buildup of a toxic substance called _____.
NAPQI (N-acetyl-p-benzoquinone-imine).
NAPQI is inactivated by glutathione. In an overdose, glutathione stores are rapidly depleted, and NAPQI is left un-metabolised. It can cause liver and kidney damage.

Stages of Chronic Kidney Disease and active monitoring?
KDIGO (Kidney Disease Improving Global Outcomes)

Causes of Hyperkalaemia?
Reduced excretion from kidneys:
AKI
ACE inhibitors
Potassium Sparing Diuretics (ex spironolactone) but also diuretics in general
NSAIDs
Beta Blockers
K+ containing laxatives (movicol/fybogel)
Heparin (which inhibits aldosterone release)
Ciclosporin
Addison’s
Cellular Release:
Rhabdomyolysis
Digoxin Toxicity (NB - Can be precipitated by hypokalemaia) - “Reverse tick sign” on ECG
Tumour Lysis Syndrome
Massive Haemolysis
Acidosis:
DKA or any other metabolic acidosis

Hyperkalaemia is a potentially life threatening electrolyte abnormality.
Treat K+ >___ mmol/L or any hyperkalaemia with ECG changes with the following;
Give 10ml of 10% _____ (or chloride) over 10 mins - this is cardioprotective
Intravenous ____ (10u soluble insulin) in 25g ____ (50mL of 50% or 125ml of 20% glucose) - insulin causes intracellular K+ shift and glucose to required to prevent hypoglycaemia
Nebulised salbutamol - also causes intracellular K+ shift
Treatment with sodium bicarbonate is controversial
Other aspects of management:
Check contributing drugs (e.g. ACE inhibitors, spironolactone)
Once initial measures completed, recheck urea and electrolytes and ECG and glucose
Urinary potassium
Hyperkalaemia is a potentially life threatening electrolyte abnormality.
Treat K+ >6.5mmol/L or any with ECG changes with the following;
Give 10ml of 10% calcium gluconate (or chloride) over 10 mins - this is cardioprotective
Intravenous insulin (10u soluble insulin) in 25g glucose (50mL of 50% or 125ml of 20% glucose) - insulin causes intracellular K+ shift and glucose to required to prevent hypoglycaemia
Nebulised salbutamol - also causes intracellular K+ shift
Treatment with sodium bicarbonate is controversial
Other aspects of management:
Check contributing drugs (e.g. ACE inhibitors, spironolactone)
Once initial measures completed, recheck urea and electrolytes and ECG and glucose
Urinary potassium





