Chronic kidney disease

Question 1

What is CKD?

Answer 1

• Reduced GFR and/or evidence of kidney damage

* It must be chronic (!) – CKD can’t be diagnosed from one measurement

Question 2

how is GFR assessed?

Answer 2

• Can be measured – nuclear medicine; time-consuming and expensive
This is only done as a one off e.g. if want to donate kidney
Not done e.g. every month as monitoring

¥ Can be estimated from serum creatinine, age, sex and race
¥ Creatinine - product of muscle breakdown; muscular people produce more creatinine
⇒ MDRD4 equation: GFR = 186 x creatinine (mg/dl)-1.154 x Age-0.203
For white/Asian males – correction factor for women and for black race

Question 3

When is eGFR inaccurate?

Answer 3

eGFR accurate for most people if <60ml/min… However
⇒ Over-estimates GFR if muscle mass is low
⇒ Under-estimates if muscle mass high
⇒ Only valid if serum creatinine is stable
⇒ Occasionally necessary to measure GFR

Question 4

What are the different stages of chronic kidney disease? how are they determined?

Answer 4

¥ Stage 1 – GFR >90ml/min, with evidence of kidney damage*
¥ Stage 2 – GFR 60-90ml/min, with evidence of kidney damage
*Such as proteinuria, haematuria (in absence of lower urinary tract cause), or abnormal imaging

Stages 3-5 defined on GFR alone

¥ Stage 3 – GFR 30-60ml/min
(3A – 45-60ml/min; 3B – 30-44ml/min)
¥ Stage 4 – GFR 15-30ml/min
¥ Stage 5 – GFR <15ml/min, or on renal replacement therapy

Question 5

What does CKD also increase the risk of?

Answer 5

cardiovascular risk

Question 6

Progression of CKD:

-what factors influence the progression of CKD?

Answer 6

Some people with early CKD (stage 1-3) will progress to advanced CKD; important to identify those likely to progress

¥ Patients with proteinuria more likely to progress
¥ More proteinuria – faster progression
¥ Younger patients have longer to progress – more likely to reach stage 5

Question 7

What are 7 common causes of CKD?

Answer 7

¥	Diabetes
¥	Hypertension
¥	Vascular disease
¥	Chronic glomerulonephritis
¥	Reflux nephropathy
¥	Polycystic kidneys
¥	Cause not always known

Question 8

What symptoms are experienced in CKD? 5

Answer 8

¥ Symptoms due to reduced GFR don’t occur until late – GFR<20ml/min
¥ Non-specific – tiredness, poor appetite, itch, sleep disturbance
¥ Impaired urinary concentrating ability – symptoms may occur earlier - nocturia

Question 9

Describe the management principles of CKD?

Answer 9

¥	Slow progression
¥	Reduce cardiovascular risk
¥	Identify and treat 
¥     complications of CKD
Prepare for renal replacement therapy

Question 10

What management can be done in slowing the progression of CKD? 4

Answer 10

¥ Proteinuria associated with progression, and reducing proteinuria slows progression
¥ Control blood pressure
¥ ACE-inhibitors and angiotensin receptor blockers reduce BP and proteinuria (ACEI initially reduce GFR and cause hyperkalaemia)
¥ Also evidence for spironolactone
¥ Caution – initial fall in GFR; hyperkalaemia

¥ Good glycaemic control in diabetes
¥ Stop smoking

Question 11

What are two main complications of CKD?

Answer 11

• Anaemia

- Bone disease and hyperparathyroidism

Question 12

Anaemia in CKD:

• why is there anaemia in CKD?
• how is this managed?

Answer 12

Pathophysiology:
¥ Erythropoietin produced by the kidneys
¥ Production declines in CKD

Management:
¥ Correct deficiencies; usually intravenous iron
¥ If still anaemic – erythropoietin (Epo) may be indicated
¥ Epo – by injection; every week or fortnight
¥ Target Hb – 10.5-12.5g/dl
¥ As Epo works, iron stores depleted – need regular top-ups
This is because the iron gets used up to make Hb

Question 13

Bone disease in CKD:

-why does this happen?

Answer 13

¥ Vitamin D hydroxylated in the kidney
¥ Impaired in CKD
¥ Leads to reduced calcium absorption, leading to secondary hyperparathyroidism – (Calcium decreases which causes PTH inscrease)
¥ In advanced CKD, serum phosphate rises – also increases PTH secretion
This is because the kidneys don’t excrete the phosphate as they fail, and PTH causes bone resorption = high phosphate

Question 14

Hyperparathyroidism in CKD:

- How can secondary hyperparathyroidims in CKD lead to tertiary hyperparathyroidism?

Answer 14

Hyperparathyroidism=
¥ Can maintain normal serum calcium, but at the expense of the bones
(causes bone resorption as can’t get calcium from anywhere else)
¥ Hyperplasia of all glands
¥ One gland may become autonomous – PTH secretion not suppressed by calcium – tertiary hyperparathyroidism
(as the glands undergo hyperplasia one gland can become autonomous and secrete PTH no matter what the calcium conc. Is)
3o hyper-PTH can lead to hypercalcaemia

Question 15

Describe the clinical features seen with bone disease in CKD?

Answer 15

¥ Severe bone disease (pain, radiological changes) – uncommon
¥ High phosphate and high calcium – Vascular calcification
¥ Calcified vessels – stiff
¥ Heart valves also calcified

Question 16

What is the management of bone disease in hyperparathyroidism?

Answer 16

• Alfacalcidol – hydroxylated vitamin D – doesn’t need activation by kidneys
• Phosphate lowering treatment – advice from dietician on intake
- Phosphate binders – bind to phosphate in the gut to reduce absorption; include calcium carbonate, calcium acetate, sevelamer

Question 17

When is a patient with CKD considered for dialysis? what two methods of dialysis exist?

Answer 17

• when GFR about 20ml/min
• resistant hyperkalaemia/unresponsive acidosis
• no better survival rate if start early
• symptom based: fatigue, itch, loss appetite, nausea, vomiting, unresponsive fluid overload

haemodialysis
peritoneal dialysis

Question 18

What other management options exist for end stage CKD?

Answer 18

• transplantation

- conservative treatment: EPO and symptom control

Question 19

Haemodialysis: what is removed and what is added to the blood?

Answer 19

urea, creatinine, potassium, toxins, water = out

sodium, bicarbonate, water, potassium, glucose = in

Question 20

Haemodialysis: how long does this take and how many times a week?

Answer 20

• 4hrs

- 3X a week

Question 21

How is haemodialysis given in a patient: what are the pros and cons of these?

Answer 21

Fistula:
pros - good blood flow, unlikely to cause infection
cons - surgery, 6 wk maturation, can block, can limit blood flow to distal arm

Tunnelled venous catheter:
pros - easy to insert, immediate use
cons - high risk infection, vein damage, blockage

Question 22

Why is an infected tunnelled venous catheter infection so serious? what investigations are performed? what is the treatment?

Answer 22

If left untreated risk of endocarditis or discitis

Ix: blood culture, CRP, FBC, exit site swab

Treatment: vancomycin, line removal/exchange

Question 23

How is haemodialysis initiated?

Answer 23

• gradual build up, first session 2 hours

- if too quick - disequilibrium syndrome = cerebral oedema

Question 24

What are the main risks of haemodialysis?

Answer 24

• fluid overload
• blood leaks
• loss vascular access
• hypokalaemia and cardiac arrest
• intradialytic hypotension

Question 25

What lifestyle restrictions apply when undergoing haemodialysis?

Answer 25

Fluid: restrict 1 litre per day
Salt: low salt diet
Potassium: low potassium diet (potatoes/bananas/choc,)
Phosphate: low phosphate diet and phosphate binders

Question 26

Peritoneal dialysis: how does this work?

Answer 26

solute removal across peritoneal membrane
water removal as high glucose concentration in peritoneal dialysate
-can be continuous ambulatory peritoneal dialysis (CAPD) or automated

Question 27

What is CAPD? risks?

Answer 27

4 bag exchanges per day:

Risks - membrane failure (inability to move water)

Question 28

What is Automated PD?

Answer 28

1 bag fluid stays in all day and machine exchanges fluid overnight 9-10hours:
Risks - infection, hernias