Case 9

Question 1

What is glomerular filtration based on?

Answer 1

Size and charge

Question 2

What occurs in reabsorption?

Answer 2

Epithelial cell of renal tubules perform reabsorption.
In PCT, large amounts of electrolytes, glucose and filtered proteins are reabsorbed by active transport/passive diffusion
In DCT and collecting duct, epithelial cells respond to hormonal influences to reabsorb water and electrolytes

Question 3

What occurs in secretion?

Answer 3

Tubules secrete substances from bloodstream into urine via tubular cells

Question 4

Whta is excretion

Answer 4

Anything filtered and not reabsorbed is excreted as waste in urine

Question 5

What is high creatinine levels indicative of?

Answer 5

Means there is a problem with the nephrons

Question 6

Why is proteinuria unnatural?

Answer 6

Low molecular weight proteins pass easily through glomerular filtration barrier. Large proteins shouldn’t be able to pass through.
Proteins which pass the barrier are carried through renal tubules wit filtrate. Proteins are usually reabsorbed by endocytosis by renal epithelial cell (particularly in PCT) where they are hydrolysed into AAs and return to circulation.
Almost all filtered protein is reabsorbed but a very tiny amount is excreted (eg Tamm- Horsfall protein aka uromodulin)

Question 7

How much protein is lost in a healthy individual in 24hrs?

Answer 7

<150mg

Question 8

What are the classifications of proteinuria?

Answer 8

Overflow e.g. Rhabdomyolysis
Glomerular eg diabetic nephropathy
Tubular eg acute tubulointestinal nephritis

Question 9

What is overflow proteinuria?

Answer 9

Excess low molecular proteins means more proteins are crossing the glomerular barrier so more is being excreted
Can be excess myoglobin, haemoglobin (due to rapid intravascular haemolysis)

Question 10

What is rhabdomyolysis?

Answer 10

Rhabdomyolysis is a rapid breakdown of excess skeletal muscle - can cause excess myoglobin to be released (myoglobin is toxic so can cause acute kidney injury)

Question 11

Whats the difference between haematuria and haemoglobinuria?

Answer 11

Haemaglobinurea is due to overflow

Haematurea is due to bleeding in the urinary tract

Question 12

What is glomerular proteinuria?

Answer 12

Due to damage to the glomerulus allowing larger than normal proteins to be let through
Albumin is predominantly lost (its about the same size as the normal glomerular pores and has flexible ellipsoid shape)

Question 13

What is diabetic nephropathy?

Answer 13

A secondary glomerulopathy

glomerular damage occurs secondary to something else

Question 14

What is tubular proteinuria?

Answer 14

Can occur f tubules are diseased or damaged and not able to reabsorb filtered proteins as well as normal

Question 15

What is tubulointerstitial nephritis?

Answer 15

Tubulointerstitial = kidney disease that involve structures around glomerulus
Can lead to tubular dysfunction with or without renal failure
Can be acute or chronic. Acute caused by drugs (nephrotoxic drugs)

Question 16

What are 4 nephrotoxic drugs that are the most common cause of acute kidney injury in hospitalised patients?

Answer 16

NSAIDs
ACE inhibitors
Aminoglycoside antibiotics eg gentamicin
Contrast agents

Question 17

What mechanism leads to the greatest protein loss?

Answer 17

Glomerular proteinurea

Question 18

How does hyperglycaemia affect the kidneys?

Answer 18

Mainly effects efferent arteriole where non-enzymatic glycation of endothelial cells can lead to stiffening and narrowing of the vessel.
It can also directly activate the renin-angiotensin-aldosterone system in the kidney
Angiotensin II has vasoconstrictive action on efferent arteriole increasing upstream pressure in the glomerulus

Question 19

How does hypertension affect the kidneys?

Answer 19

Leads to increased flow in afferent arteriole increasing glomerular pressure further
Auto-regulation which normally protects from increased pressure, is altered in diabetes

Question 20

How does diabetes effect sodium levels?

Answer 20

PCT work hard to reabsorb excess glucose which leads to increased Na reabsorption (co-transported).
Less sodium is delivered to macula dense in DCT meaning less stimulation if afferent arteriole vasoconstriction

Question 21

What happens over time with hypertensive changes in the afferent arteriole?

Answer 21

Can result in vessel thickening and reduced lumen diameter meaning less blood supply to kidneys so ischaemia

Question 22

What occur in relative ischaemia?

Answer 22

It recruited macrophages which secrete TGF-B causing menengial cells to secrete more ECM.
Excessive ECM leads to hardening and scarring in the glomerulus- glomerulosclerosis- which can lead to reduced capacity for filtration

Question 23

What makes up the glomerular filtration barrier?

Answer 23

The glomerular capillary endothelial cells
Glomerular basement membrane
Podocytes

Question 24

How is the glomerular filtration barrier effected in diabetic nephropathy?

Answer 24

Hypertension and hyperglycaemia changes can result in damage to glomerular endothelial cells
Can also cause changes in the glomerular basement membrane- can become thickened and leaky

Question 25

How are podocytes affected in diabetic nephropathy?

Answer 25

Podocytes have foot processes (projections) connected by silt (nephrin is a key component)- damage to silt diaphragm can contribute to protein leak and mesangial expansion.
Reduced nephrin has been observed in diabetic nephropathy.
Podocytes can be damaged directly by advanced glycation end-products as a result of hyperglycaemia

Question 26

The presence of what indicates a defect n one of the glomerular barrier layers?

Answer 26

Albuminurea

Question 27

What are the three most common causes of chronic kidney disease?

Answer 27

Diabetes
Hypertension
Glomerulonephritis

Question 28

What happens when you have damaged nephrons in the kidneys?

Answer 28

Damaged nephrons will filter poorly
The functional nephrons will undergo adaptive hyperfiltration where blood flow is shunted to them.
Adaptive hyperfiltatration in working nephrons puts excessive pressure on their glomerular capillaries leading to glomerulosclerosis -> ischaemic nephron injury -> loss of filtration and eventually nephron loss
Adaptive hyperfltation can be maladaptive because it can lead to accelerated damage to working nephron

Question 29

What is the best way to monitor and screen for proteinuria in diabetes?

Answer 29

Albumin creatinine ratio of urine sample
Accounts for differences in urine conc.
Provides reasonable estimate of protein loss
ACR is used in diabetes- greater sensitivity (PCR is used as alternative to ACR in those without diabetes and with high levels of proteinuria)

Question 30

Why is a urine dipstick test not used to screen for proteinuria?

Answer 30

Poor sensitivity

Might miss causes

Question 31

Why is a 24 hour urine test not primarily used to screen for proteinuria?

Answer 31

Total protein should be <150g per 24hr
Total albumin should be <30mg per 24hr
Impractical, often not collected accurately

Question 32

Why is random albumin conc. not used to test for proteinuria?

Answer 32

Unreliable as depends on conc. of urine

Depends on patients hydration

Question 33

Why check for albuminuria in diabetes?

Answer 33

Albumin feels are a good predictive and prognostic marker of CKD
Moderate albuminuria that persists for 3 months + is a diagnosis of CKD
Can reflect the integrity and health of the systemic vascular endothelium- predictor of CVD mortality in T1 and T2 diabetes

Question 34

What is microalbuminuria?

Answer 34

AKA. moderate albuminuria

Albumin loss between 30 and 300mg a day

Question 35

What is macroalbuminuria?

Answer 35

AKA. Severe albuminuria

Albumin loss greater than 300mg a day

Question 36

Wha is GFR?

Answer 36

Tells us volume of fluid filtered from glomerular capillaries into bowman’s capsule per unit time
Its proportional to the clearance rate of any substance that is freely filtereted and neither reabsorbed or secreted by the kidneys

Question 37

How is GFR calculated?

Answer 37

Clearance = urinary substance conc x urine production rate / plasma substance conc

Question 38

Why is creatinine used to measure GFR?

Answer 38

Its freely filtered from the kidney and is not reabsorbed. A little of it is secreted but this is accepted
Clearance of creatinine is roughly proportional to GFR
We use evidence based formulas that use serum creatine without need for urinary creatinine to estimate GFR

Question 39

What formula is commonly used to measure creatinine clearance?

Answer 39

MDRD formula

Question 40

By what method is GFR tested?

Answer 40

Isotopic method where radioactive tracer is injected into patient through IV and serum conc. of tracer measured sequentially to measure GFR
This is done in renal clinics when creatinine estimation aren’t reliable

Question 41

What does the MDRD formula take into account?

Answer 41

-Age
-Ethnicity
-Gender
(muscle mass differs between gender, age and ethnicity- young males of afro-caribbean descent have greater muscle mass so greater creatine levels)
-ACR
-Creatinine

Question 42

What group of patients should you be cautious of when measuring creatinine levels?

Answer 42

Dietary consumption- some AAs are creatine precursors

Should be careful using formula in individuals with extras in weight or nutrition e.g. body builders

Question 43

What are markers of CKD?

Answer 43

Albuminuria
Electrolyte abnormalities
Abnormalities on histology
Structural abnormalities
Kidney transplantation

Question 44

In what patient is using a creatinine based formula less reliable?

Answer 44

An elderly patient with acute kidney injury
A pregnancy lady
A patient with end stage renal failure about to start dialysis

Question 45

Why can’t we measure serum creatinine in an acutely unwell patient?

Answer 45

rate of increase in serum creatinine doesn’t parallels fall in GFR (can take time for serum creatinine to build up)
Trauma, certain drugs (eg trimethoprim which can inhibit secretion of creatinine in tubules) malnutrition or muscle waste or sepsis can impact serum creatinine

Question 46

How does pregnancy affect serum creatinine?

Answer 46

GFR increases so drop in serum creatinine may not be seen

Question 47

Why can creatinine measurements be unreliable in a patient with end stage CKD

Answer 47

Creatinine calculations are overestimations as they take into account the amount of creatinine secreted
As GFR falls, proportion of creatinine that comes from secretion increases and becomes less form what is filtered
With a very low true GFR, creatinine clearance may be unreliable

Question 48

What drugs should be given to Mr Stanworth for optimal management?

Answer 48

Insulin
Ramipril
Atorvastatin
These taget hypertension, hyperglycaemia and dyslipidaeia which all contribute to CKD

Question 49

What is ramipril?

Answer 49

An ACE inhibitor and one of the first line treatments for CKD- has a dual benefit in patients with proteinuria CKD as it has a general effect on hypertension and a specific positive effect in the kidney
Ramipril reduces arterial perfusion pressure and relax efferent arterial so can reduce glomerular pressure, glomerular injury and reduce proteinuria
Has anti-inflammatory effects

Question 50

Why is insulin used to treat CKD?

Answer 50

Used to treat hyperglycaemia which can cause damage to the microvasculature

Question 51

Why is atorvastatin used int he treatment of CKD?

Answer 51

High blood cholesterol is associated with atherosclerosis and sclerotic glomeruli are observed in CKD
Atorvastatin can treat this by lowering blood cholesterol
Has anti-inflammatory effects

Question 52

What are the consequences of CKD?

Answer 52

Decreased excretion
Decreased biosynthesis
Altered metabolism

Question 53

What are the consequences of decreased excretion?

Answer 53

A patient with mild- moderate CKD is less able to respond to rapid intake of sodium therefore more prone to fluid overload
Patients with volume overload respond to fluid restriction, slat restriction and a daily loop diuretic
Potassium levels are normally maintained but hyperkalaemia develops in patients with advanced CKD who don’t make much urine or have high potassium diet- ACE inhibitors can worsen hyperkalaemia
Increased tendency to retain H ions in CKD can lead to metabolic acidosis- may be treated with bicarbonate supplements
Levels of urea rise with CKD- may need dialysis treatment if serious
Other molecules that can be retained as filtration falls: uric acid (builds up in joints and cause gout), phosphate (increased production in PTH)

Question 54

What are consequences of decreased biosynthesis?

Answer 54

Kidney produces erythropoietin- CKD can lead to normocytic, normochromic anaemia (don’t produce enough RBCs)
Treatment means replete lives of vit B12, folate and iron

Kidney performs second hydroxylation of vitamin D
CKD can lead to a lack of vit D
Can be treated with administration of alphacalcidiol (1-alpha-hydroxycholecalcifero)

Question 55

What are consequences of altered metabolism

Answer 55

CKD is associated with elevated levels of lipids

Altered metabolism of sex hormones can lead to reproductive function abnormalities

Question 56

What is the impact of CKD on calcium levels in the body?

Answer 56

The kidney releases vitamin D which acts on the gut to please calcium into the blood (in CKD less vit D is released so less calcium is released in the blood)
If calcium levels are low in the body this is detected by the parathyroid gland which leads to increased secretion of parathyroid production which acts on the bone to cause increase release of calcium in the blood.
The kidney also releases phosphate which binds to PTH to reduce levels of free calcium in circulation (in CKD phosphate is increased because it isn’t filtered)
Phosphate also stimulates the release of PTH from the parathyroid gland (secondary hyperparathyroidism)-in CKD this leads to reduced calcium in bone known as osteitis fibrosa (bone replaced by fibrous tissue)
In CKD FGF-23 is also elevated which leads to increased secretion and decreased absorption of phosphate
Ongoing stimulation of parathyroid glands can lead to PTH being released autonomously and spontaneously

Question 57

How may Mr Stanworth’s CKD progress over the next 10 yrs?

Answer 57

He would progress to stage 3A very quickly (within 2 yrs) and will progress to CKG 3B within 10 yrs

Question 58

How do different types of albuminuria progress over time?

Answer 58

Theres not a large difference in progression with those with normoalbuminurea and moderate albuminirea whereas severe albuminuria have much faster decline in kidney dysfunction
Slight improvement in kidney function in the first year or two is most likely due to initiation of drug treatment- drugs don’t prevent the eventual progression of kidney dysfunction, just slow it