AKI

Question 1

where in the glomeruli is most of the filtrate reabsorbed?

Answer 1

• 80% is reabsorbed in the proximal tubule

Question 2

what is a stage 1 AKI

Answer 2

<0.5 ml/kh/hr urine output
>6 hrs- 8hrs for children and young people

1.5-2x increase in serum creatinine

Question 3

what is a stage 2 AKI?

Answer 3

<0.5 ml/kh/hr urine output
>12 hrs

2-3x increase in serum creatinine

Question 4

what is a stage 3 AKI?

Answer 4

Less than 0.3 ml/kg/hour for 24 hours or anuria for 12 hours
>3x increase in serum creatinine

Question 5

what is the normal creatine range?

Answer 5

60 - 100 micromoles/Litre

Question 6

what is oliguria

Answer 6

Oliguria
<0.5ml/Kg/Hour urine output
Usually <500ml/24 hours in adults

Question 7

what is anuria

Answer 7

Anuria
Officially would mean no urine output
Softly defined as <100ml/24 hours

Question 8

what are the 4 phases of an AKI?

Answer 8

Onset phase- (hrs -days)

Oliguric/Anuric phase- (8-14 days)

Polyuric/Diuretic phase (7-14 days)

Recovery phase (months -1yr)

Question 9

what electrolyte disturbance makes AKI a medical emergency?

Answer 9

hyperkalaemia
K+ > 6.0 = bad
K+ > 6.5 = medical emergency

Question 10

what ECG changes can be seen with hyperkalaemia?

Answer 10

• reduced p wave and widened QRS
• tented T waves
• sine wave pattern pre cardiac arrest

Question 11

why do px get fluid overload with AKI?

Answer 11

If your patient is oliguric/anuric – they won’t be able to get rid of this excess water

Symptoms:
Breathlessness
Orthopnea
Limb swelling

Question 12

why can fluid overload in AKI be dangerous?

Answer 12

The danger = pulmonary oedema -> severe tissue hypoxia

Question 13

what are the 4 main indications for dialysis?

Answer 13

1. refractory hyperkalaemia
2. pulmonary oedema
3. refractory acid base disturbance
4. uraemic complications such as coma and pericarditis

Question 14

what are examples of prerenal causes that are likely to cause AKI?
these are v likely

Answer 14

Bleeding
Septic shock
Dehydration
Myocardial Infarction 
Iatrogenic?
Renal artery stenosis

Question 15

what are renal causes of AKI-?

renal causes are unlikely

Answer 15

Direct toxic effects
Drugs
Calcium and other metals

Overproduction leading to blockage of the tubules
Rhabdomyolysis, myeloma,

Inflammation in the kidney
GN, interstitial nephrits, ATN

Question 16

post renal causes of AKI?

- these are relatively likely

Answer 16

Stones
Ureteric/Urethral strictures
BPH
Prostate Cancer 
Urinary Retention e.g. neurogenic, constipation

Question 17

what are chronic background risk factors for AKI?

Answer 17

Elderly
CKD
Cardiac Failure
Liver disease
Diabetes
Vascular disease
Background nephrotoxic medications

Question 18

what are acute risks to AKI?

Answer 18

S Sepsis and Hypoperfusion
T Toxins
O Obstruction
P Parenchyma

Question 19

what are 4 Ms to predict/prevent AKI?

Answer 19

Monitor
Obs/NEWS, regular blood tests, fluid balance charts, pathology alerts

Maintain Circulation
Hydration, resuscitation, oxygenation

Minimise Kidney Insults
Nephrotoxic meds, surgery, contrast, hospital acquired infection

Manage the acute illness
Sepsis, heart failure, liver failure

Question 20

what are red flags in AKI history?

Answer 20

Haemoptysis
Rashes
Joint pain/swelling
ENT – crusting of nose/acute hearing impairment
Significant acute limb swelling
Noticable urine frothiness
Jaundice

Question 21

what do you give to stabilise cardiac membrane during hyperkalaemia?

Answer 21

Administer intravenous calcium gluconate (10mls of 10% solution) if there are hyperkalaemia associated ECG changes present.

This should help to stabilise the myocardium temporarily for 30-60 minutes and reduce the risk of fatal arrhythmia.

Question 22

what treatment for hyperkalaemia pushes potassium back into the cells?

Answer 22

Administer an insulin-glucose intravenous infusion (typically 10 units of soluble insulin are added to 25g of glucose).
Insulin helps to shift potassium from the extracellular to the intracellular compartment, whilst the glucose helps to maintain capillary blood glucose levels.

Salbutamol is often used as adjuvant therapy for hyperkalaemia.
It promotes the movement of potassium into cells and therefore out of the serum.
The onset of action is approximately 15 – 30 minutes
The duration of effect is approximately 2 hours