Biochemical Assessment of Kidney Function and Damage

Question 1

What is the function of a nephron?

Answer 1

• NEPHRON = basic functional unit responsible for filtration of plasma and production of urine.
• There are around 1 000 000 nephrons per kidney

Question 2

What are major functions of the kidney?

Answer 2

• Nitrogen Excretion​
• Fluid (blood volume) Regulation
• Electrolyte regulation
• Acid-Base regulation
• Calcium Metabolism

Question 3

How does the kidney carry Red Blood Cell Production?

Answer 3

• Erythropoetin is secreted mainly by the peri-tubular cells of the renal cortex. It is required to stimulate rbc production.
• Levels of EPO are increased when O2 delivery to the kidney is low.
• EPO stimulate bone marrow to make more rbc.

Question 4

How is nitrogen excretion carried?

Answer 4

• Urea is major waste product. Filtered by the glomerulus.
• Some urea diffuses back into kidney from filtrate.

Question 5

How does the kidney regulate fluid?

Answer 5

• Dehydration may be significant enough to reduce blood pressure – reduces GFR and fluid loss.
• RENIN secretion results in ANGIOTENSIN II production
• ALDOSTERONE increases Na+ reabsorption (water follows).
• ADH increases aquaporins in collecting duct
• BNP counteracts this – prevents fluid overload by reducing renin secretion and causing vasodilation to reduce blood pressure.

Question 6

How does Electrolyte regulation take place?

Answer 6

• PTH regulates Ca2+ reabsorption and PO4- excretion
• Excretion of Mg2+ and other ions is largely passive – more being filtered = more being excreted
• In steady state, K+ is inversely related to Na+ (Aldosterone activity)
• Renal Failure – limited capacity to excrete potassium

Question 7

How does ACID-BASE regulation take place?

Answer 7

• Metabolic process result in acid production (phosphoric, sulfuric and carbonic – CO2 is excreted via lungs).
• Carbonic Anhydrase is key to HCO3-
• Reabsorption in the PCT.

Question 8

How is Calcium metabolism regulated?

Answer 8

• Cells in the kidney respond to PTH by increasing 1 α-hydroxylase activity
• Required to form 1, 25 (OH) Vit D (active form).
• This is required for normal bone metabolism and absorption of Ca2+ and PO4-
• PTH acts on the DCT to increase phosphate excretion and increase caclium reabsorption.

Question 9

What is the effect of Renal disease on the glomerulus?

Answer 9

Reduced filtration

• Reduced urine volume
• Increased plasma creatinine /urea
• Hyperkalaemia
• Hyperphosphataemia
• Metabolic acidosis

Damage to glomerular membrane

• Proteinuria – large proteins
• Haematuria

Question 10

What is the effect of renal disease on tubular?

Answer 10

Reduced reabsorption (general or specific inherited conditions).

• Polyuria, low urine osmolality
• Metabolic acidosis
• Proteinuria - small proteins (ß2 microglobulin, amino acids)
• Glycosuria

Question 11

What is the effect of renal disease on hormonal disease?

Answer 11

• Anaemia
• Hypocalcaemia

Question 12

What is the clinical presentation of Renal Disease?

Answer 12

Uraemic Syndrome

• Dermatological: Pruritus, Pigmentation, Slow wound healing
• Gastrointestinal: Vomiting, Nausea, Anorexia
• Genitourinary: Impotence, Polyuria/Nocturia
• Neurological: Lethargy, Headache, Peripheral neuropathy, Muscle weakness
• Immunological: Increased susceptibility to infection
• Cardiovascular: Hypertension, Percarditis, CCF, Anaemia
• Skeletal: Renal osteodystrophy, Stunted growth
• Azotaemia – increased urea

Question 13

What is Biochemical Assessment useful for?

Answer 13

• Detection and staging of renal disease
• Identification and management of biochemical complications.
• Prognosis
• Monitoring disease progression

Question 14

What is the use of kidney test?

Answer 14

Tests for Glomerular function

• Ability to remove waste products
• Integrity of glomerular membrane and ability to prevent large particles entering the filtrate

Tests for Tubular function

• Ability to adjust Na+, K+, H+ ions, water composition of filtrate & reabsorb small proteins, amino acids & glucose

Tests for hormonal production

• Vitamin D, erythropoietin

Urinalysis

• Detect disease
• Proteinuria

Question 15

What is Albuminuria and Microalbuminuria?

Answer 15

MICROALBUMINURIA: Predictor of CVD, increased risk of diabetic nephropathy

• 24 hour urine sample 30 – 300 mg/L albumin (not detectable using a dipstick, measured using turbidometric immuoassay)

ALBUMINURIA

• > 300 mg

Question 16

What is Albumin:Creatinie Ratio?

Answer 16

Used to screen diabetic patients, can use random urine sample.

• > 2.5 mg/mmol (male), > 3.5 mg/mmol (female)
• ACR 3 – 70 mg/mmol – confirm with early morning repeat
• ACR > 70 mg/mmol – no repeat required

MACR has high intraindividual variation (60 – 80 % CV)

Question 17

What is Clinical Proteinuria?

Answer 17

Clinical Proteinuria:

• > 500 mg/24 hour
• +ve dipstick
• Increased ACR or PCR

Question 18

What is overflow, tubular and Glomerular Proteinuria?

Answer 18

OVERFLOW (Mw ≤ Albumin)

• Abnormal small proteins over flow into urine (eg. multiple myeloma)
• Kappa/lambda light chains (Bence Jones Proteins)

TUBULAR

• Decreased reabsorption of filtered proteins
• N-Acetyl Glucosaminidase (NAG) – released from lysed tubular cells

GLOMERULAR (Mw ≥ Albumin)

• Increased glomerular permeability – larger proteins present
• IgG, Transferrin, retinol binding protein, α1-macroglobulin

Question 19

How is proteinuria, severe proteinuria, heavy proteinuria and nephrotic syndrome catgorised?

Answer 19

Question 20

What is clearance?

Answer 20

• Clearance (ability to remove waste products)
• The volume of plasma that is filtered by the kidneys and from which a substance is completely cleared per unit of time

Question 21

What is the equation?

Answer 21

Clearance (mL.min^{<span>-1​</span>} )= Urine Marker concentration (µmol/L) x Urine Volume (mL) / Plasma Marker concentration (µmol/L) x time (min)

Question 22

What makes an ideal marker of GFR?

Answer 22

Ideal Marker (clearance = GFR)

• Stable plasma concentration
• Freely filtered at the glomerulus
• Not secreted or reabsorbed by renal tubular cells
• Renal excretion ONLY (i.e. not metabolised by liver)
• Easy and cheap to measure

Question 23

How are exogenous markers delivered?

Answer 23

• Bolus injection: disappearance from plasma
• IV infusion: clearance

Question 24

What are some exogenous markers of GFR?

Answer 24

Inulin Clearance - gold standard.

• Difficult and expensive to measure

51Cr-EDTA - clinical standard

• Difficult and expensive to measure, not available for clinical use in the UK beyond March 2019
• IOHEXOL – non-ionic contrast media containing iodine.

99mTc-DTPA (diethylenetriaminepentacetic acid)

• Difficult and expensive to measure
• Allows imaging of kidney

P-aminohippuric acid

• Determines renal plasma flow
• Completely cleared in single passage through kidney

Question 25

What are some endogenous markers of GFR?

Answer 25

• Urea
• Creatinine
• Cystatin C

Question 26

What are characterisitics of Urea?

Answer 26

• End product of nitrogenous compound metabolism (esp amino acids)
• Freely filtered at glomerulus
• Quick, cheap & convenient
• NOT steady plasma levels: effected by diet and protein catabolism e.g. raised in GI bleed
• Low in liver disease
• Some passive reabsorption in renal tubules
• Under estimation of GFR

Question 27

What are characterisitics of Creatinine?

Answer 27

• From breakdown of skeletal muscle cells.
• Normally filtered and excreted in the urine.
• Small amount secreted by PCT – creatinine slightly overestimates GFR
• Quick, cheap & convenient
• Dependent on body mass /ethnicity/diet
• Assay Interferences with Jaffe method (ketones, bilirubin & glucose). Can use Jaffe kinetic method to reduce interference.
• Enzymatic method (creatinase and creatininase coupled method)

N.B. GFR falls to <50ml/min before creatinine rises

Question 28

What are characteristics of Cystatin C?

Answer 28

• Protein produced stadily by all nucleated cells
• Protease inhibitor: Lysosomal proteinases and extracellular cysteine proteinases
• Small MW 13kDa that is freely filtered by glomerulues
• Serum levels independant of age, muscle mass, weight, height and sex
• Expensive assay

Question 29

How is Cystatin C affected by thyroid disease?

Answer 29

• Hypothyroid - Lower serum levels overestimates GFR
• Hyperthyroid - Higher serum levels underestimates GFR

Question 30

How do you collect 24hr urine?

Answer 30

Day 1

• 8am empty bladder (discard output)
• Commence 24h urine collection
• All urine now passed until 8am next day must be collected into container.

Day 2

• 8am collect final urine output into container

Collect blood sample with 24 hr period

Question 31

What is the equation of Creatinine Clearance?

Answer 31

Creatinine clearance (mL/min) = [Creat]u x V (mL/min) / [Creat]p

Question 32

What is the eGFR (Estimated Glomerular Filtration rate)?

Answer 32

Calculated result based on [Creatinine] in plasma/serum

• Creatinine-based eGFR
• Should use CKD-EPI equation
• When Cystatin C requested, should use CKD-EPI cystatin C equation
• Calculated eGFR is added to all U&E profiles

Question 33

When is eGFR not validated?

Answer 33

NOT validated for use in

• Children
• Acute kidney injury
• Amputees
• Pregnancy
• Malnourished
• Odematous
• Muscle wasting

Question 34

What are variables for eGFR?

Answer 34

• creatinine
• age
• sex
• ethnicity

Question 35

What are features of MDRD equation?

Answer 35

• Study only included patients with known renal failure.
• Under-estimates GFR (>60 mL/min).
• The normal kidney patients have measured GFR that is slightly higher than the estimated GFR - MDRD equation underestimates GFR in persons with normal kidney function

Question 36

What are features of CKD-EPI?

Answer 36

• Study used CKD and normal renal function patients
• More accurate than MDRD esp when GFR >60 mL/min

Question 37

How is Tubular function assessed?

Answer 37

-Ability to excrete / retain water

• Determined by ability to concentrate / dilute urine
• Tests: Urine sodium, osmolality and volume/Serum sodium & osmolality/Fluid deprivation test

-Ability to maintain acid-base balance

• Usually see metabolic acidosis
• Renal tubular acidosis
• Urine / blood pH & Anion gap& Serum bicarbonate

-Ability to maintain electrolyte balance

• Serum sodium & potassium
• Random Urine sodium & potassium
• FRACTIONAL EXCRETION: Relative to creatinine, Excretion over same time and volume

-Ability to reabsorb small proteins, amino acids & glucose

• Tubular proteinuria – low molecular weight proteins (α1-microglobin, Retinol binding protein, RBP & β2-microglobin)
• Serum and urine aminoacids. (specific defects – aminoaciduria).
• Urine glucose – renal threshold = 11mmol/L

Question 38

What is Fanconi syndrome and causes?

Answer 38

• Decreased reabsorption of solutes by PCT.
• Hypophosphataemia, Glycosuria, Hypouricaemia, aminoaciduria, low Mw proteinuria, Type 2 RTA

Caused by: cystinosis, Wilsons, Gentamicin, Cisplatin, heavy metal intoxication

Question 39

What is the equation for Fractional Excretion?

Answer 39

FENa = 100 x(Urine [x] x Plasma [creat]) / (Plasma [x] x Urine [creat])

Question 40

How are hormone production assessed?

Answer 40

-Ability to produce active Vitamin D (1,25 (OH) Vit D)

• PTH
• Serum adjusted calcium

-Ability to secrete erythropoetin

• EPO and FBC

Question 41

What is Renal Osteodystrophy?

Answer 41

• Seen in dialysis patients/ CKD
• Hypocalcaemia and hyperphosphataemia
• Secondary hyperparathyroidism

Question 42

What are some microscopy in urinalysis?

Answer 42

• Red cell
• Granular (cell debris)
• Hyaline (Tamm-Horsfall protein)
• White cell

Question 43

What are types of Renal Stones?

Answer 43

Calcium oxalate ± phosphate (hypercalcaemia) - 67%

Triple phosphate/struvite (Mg, Ca, NH4) (UTI) - 12%

Calcium phosphate (alkaline urine) - 8%)

Uric acid (purine metabolism) - 8%

Cystine (cystinuria) - 1-2%

Question 44

How are Renal Stones induced?

Answer 44

• Increased concentration of urinary constituents above natural solubility
• Lack of physiological inhibitors of stone growth (e.g mucopolysaccarides,citrate & pyrophosphate)
• Changes in urine pH (alkaline pH favours NH4 ion formation → precipitate)
• Seeding (i.e stone formed can be different to the nucleus that the stone started from & colonisation of bacteria can accelerate stone growth)

Question 45

How is Urinalysis used for Renal Stones?

Answer 45

• Calcium
• Phosphate
• Urate
• Oxalate
• Cystine
• pH
• Sodium
• Magnesium
• Citrate
• Microbiology
• Stone Analysis

Question 46

What are novel biomarkers of Renal Function?

Answer 46

• Neutrophil Gelatinase-Associated Lipocalin (NGAL) – 25 kDa epithelial protein, covalently bound to gelatinase from human neutrophils. Forms a complex with MMP-9
• Kidney Injury Molecule 1 (KIM-1) – type 1 transmembrane protein, with immunoglobulin and mucin domains. Expression is upregulated in PCT post injury.
• Liver Fatty Acid Binding Protein (L-FABP) – localises in PCT and is excreted in urine in response to oxidative stress
• Tissue Inhibitor Metalloproteinase 2 (TIMP2) and Insulin-Like Growth Factor Binding Protein 7 (IGFBP7) - Nephrocheck (Astute Medical [TIMP2] x [IGFBP7] = < 0.3