Acute Kidney Injury (AKI)

NICE guideline [NG148] Acute kidney injury: prevention, detection and management. Last updated: Oct 2024.

Article Last Updated:06/01/2026

Background Information

Aetiology

Causes of AKI can be grossly categorised into the following 3 groups:

Group	Mechanism	Common causes
Pre-renal	↓ Kidney perfusion	Hypovolaemia (e.g. haemorrhage, dehydration, diarrhoea and vomiting) Hypotension (e.g. sepsis, shock) ↓ Effective arterial volume Heart failure (cardiorenal syndrome) Hypoalbuminaemia (e.g. cirrhosis, nephrotic syndrome) Acute pancreatitis Renal vasoconstriction Renal artery stenosis Nephrotoxic drugs (those that reduce renal perfusion)
Renal	Intrinsic (direct) kidney damage	Acute tubular necrosis – most common Acute interstitial nephritis Glomerulonephritis Acute tubular necrosis causes Drugs that cause direct tubular toxicity – Aminoglycosides (e.g. gentamicin, amikacin) – Vancomycin – Cisplatin – Iodinated contrast agent Endogenous toxins – Rhabdomyolysis – Haemoglobinuria – Uric acid – Multiple myeloma Ischaemia (prolonged / severe pre-renal causes can lead to intrinsic damage) Acute interstitial nephritis causes Acute interstitial nephritis is a type IV hypersensitivity. Drugs (most common cause) – Antibiotics – esp. beta-lactams, rifampicin – 5Ps – pain killers (NSAIDs), PPIs, pee pills (loop diuretic), phenytoin, allopurinol Systemic diseases (e.g. SLE, sarcoidosis) Infection (e.g. Hanta virus, staphylococci)
Post-renal	Obstruction of urinary flow to the urethra	BPH Stones Strictures Tumours Posterior urethral valves

Group

Mechanism

Common causes

Pre-renal

↓ Kidney perfusion

Hypovolaemia (e.g. haemorrhage, dehydration, diarrhoea and vomiting)

Hypotension (e.g. sepsis, shock)

↓ Effective arterial volume
- Heart failure (cardiorenal syndrome)
- Hypoalbuminaemia (e.g. cirrhosis, nephrotic syndrome)
- Acute pancreatitis

Renal vasoconstriction
- Renal artery stenosis
- Nephrotoxic drugs (those that reduce renal perfusion)

Renal

Intrinsic (direct) kidney damage

Acute tubular necrosis – most common
Acute interstitial nephritis
Glomerulonephritis

Acute tubular necrosis causes

Drugs that cause direct tubular toxicity
– Aminoglycosides (e.g. gentamicin, amikacin)
– Vancomycin
– Cisplatin
– Iodinated contrast agent

Endogenous toxins
– Rhabdomyolysis
– Haemoglobinuria
– Uric acid
– Multiple myeloma

Ischaemia (prolonged / severe pre-renal causes can lead to intrinsic damage)

Acute interstitial nephritis causes

Acute interstitial nephritis is a type IV hypersensitivity.

Drugs (most common cause)
– Antibiotics – esp. beta-lactams, rifampicin
– 5Ps – pain killers (NSAIDs), PPIs, pee pills (loop diuretic), phenytoin, allopurinol

Systemic diseases (e.g. SLE, sarcoidosis)

Infection (e.g. Hanta virus, staphylococci)

Post-renal

Obstruction of urinary flow to the urethra

BPH
Stones
Strictures
Tumours
Posterior urethral valves

Nephrotoxic Drugs

“Nephrotoxic drug” is a broad and often misused term. In practice, such drugs can be classified into two main groups: those associated with CKD, and those associated with AKI.

1) CKD-associated drugs are those that can cause intrinsic renal damage with prolonged use / repeated exposure:

NSAIDs
Analgesic nephropathy
Lithium
Calcineurin inhibitors (ciclosporin, tacrolimus)
Cisplatin
Tenofovir disoproxil

Note that although ACE inhibitors / ARBs need to be temporarily stopped in AKI, they are renoprotective in the context of CKD (in fact, used as 1st line management for proteinuria in CKD).

2) AKI-associated drugs. This is often a source of confusion. In practice, AKI-associated drugs can be grouped into 3 distinct categories based on their mechanism.

Drugs that cause pre-renal AKI

NSAIDs (apart from cardio-protective dose aspirin) (↓ prostaglandin synthesis → afferent arteriolar constriction → ↓ renal blood flow and ↓ GFR)
ACE inhibitors / ARB (angiotensin II normally constricts the efferent arteriole → efferent arteriolar dilation → GFR)
Diuretics (intravascular volume depletion → ↓ renal perfusion)

Drugs that cause intrinsic AKI

Drugs that cause acute tubular necrosis (direct tubular toxicity):

Aminoglycosides (e.g. gentamicin, amikacin)
Vancomycin
Cisplatin
Iodinated contrast agent

Drugs that cause acute interstitial nephritis:

Antibiotics – esp. beta-lactams, rifampicin
5Ps – pain killers (NSAIDs), PPIs, pee pills (loop diuretic), phenytoin, allopurinol

Drugs that should be withheld in AKI due to accumulation or toxicity risk, rather than direct nephrotoxicity

Metformin (risk of lactic acidosis)
Lithium (risk of lithium toxicity)
Digoxin (risk of digoxin toxicity)
LMWH (risk of bleeding) (change to UFH)

The most exam-relevant “nephrotoxic drugs” to temporarily withhold in the acute setting of AKI:

NSAIDs (apart from cardio-protective dose aspirin), ACE inhibitors, ARBs, diuretics (the ones that reduce renal perfusion)
Aminoglycosides, vancomycin (the ones that cause direct tubular toxicity)
LMWH (use UFH instead), metformin, lithium

Drugs associated with acute tubular necrosis can directly cause intrinsic AKI.

In contrast, drugs that cause pre-renal AKI typically impair renal haemodynamics and precipitate AKI in the presence of an additional insult, such as dehydration, sepsis, or hypotension.

Diagnosis

Diagnostic Criteria

AKI can be diagnosed if ANY of the following is present:

↑ Creatinine ≥26 mmol/L within 48 hours
↑ Creatinine ≥50% within 7 days
↓ Urine output to <0.5 mL/kg/hour for >6 hours in adults, >8 hours in children and young people
↓ eGFR ≥25% within 7 days in children and young people

Note that a simple raised serum creatinine does NOT diagnose AKI. AKI is a time-based definition, where there is a sudden reduction in kidney function, thus needing multiple tests showing a trend.

A single raised serum creatinine result might just be due to CKD. AKI can occur on top of CKD.

Investigating the Underlying Cause

Key tests:

Urine dipstick – initial test of choice, perform in all patients
Bladder scan – if urinary retention is suspected
Urinary tract ultrasound – if obstruction is suspected / no identifiable cause

Note that NICE recommends NOT to offer an ultrasound routinely if an underlying cause of AKI has already been identified

The following are not mentioned in NICE guidelines and are not widely used in practice. However, it is important in exams to help identify the underlying cause.

Post-renal AKI can usually be easily distinguished based on clinical presentation and/or imaging findings. Pre-renal and renal AKI causes are more challenging to distinguish, often relying on the following information to answer a question.

AKI category	Urea:creatinine ratio	Urinalysis	Urine microscopy
Pre-renal AKI	>100 (the kidney is still able to retain urea)	The kidney is still able to retain sodium (thus water) and concentrate urine to compensate: ↓ Urinary sodium (<20 mmol/L) ↑ Urine osmolality	Usually normal Possible findings: Hyaline casts Bland urinary sediment
Renal AKI	<40 (the kidney is unable to retain urea)	The kidney can no longer retain sodium (thus water) and cannot concentrate urine due to intrinsic damage: ↑ Urinary sodium (>40 mmol/L) ↓ Urine osmolality	Various findings depending on underlying cause: Acute tubular necrosis → brown granular casts Acute interstitial nephritis → white cell cast Nephritic syndrome → red cell casts
Post-renal AKI	40-100 (normal) Note that bilateral obstruction is needed for serum creatinine to be deranged	Imaging of the renal tract has greater diagnostic value

AKI category

Urea:creatinine ratio

Urinalysis

Urine microscopy

Pre-renal AKI

>100 (the kidney is still able to retain urea)

The kidney is still able to retain sodium (thus water) and concentrate urine to compensate:

↓ Urinary sodium (<20 mmol/L)
↑ Urine osmolality

Usually normal

Possible findings:

Hyaline casts
Bland urinary sediment

Renal AKI

<40 (the kidney is unable to retain urea)

The kidney can no longer retain sodium (thus water) and cannot concentrate urine due to intrinsic damage:

↑ Urinary sodium (>40 mmol/L)
↓ Urine osmolality

Various findings depending on underlying cause:

Acute tubular necrosis → brown granular casts
Acute interstitial nephritis → white cell cast
Nephritic syndrome → red cell casts

Post-renal AKI

40-100 (normal)

Note that bilateral obstruction is needed for serum creatinine to be deranged

Imaging of the renal tract has greater diagnostic value

Management

Management Approach

Management is mainly supportive and treating underlying cause

Optimise volume status – to optimise kidney perfusion
- If hypovolaemic → IV isotonic fluid (e.g. 0.9% NaCl) to rehydrate
- If fluid overload → consider loop diuretic

Stop nephrotoxic medications (see above)

Treat underlying cause (e.g. fluid resuscitation in rhabdomyolysis, steroids for rapidly progressive glomerulonephritis, relieving any urological obstruction)

Monitoring:

Volume status assessment
Weight
U&E
Urine input and output (insert urinary catheter)

Do not routinely offer the following to manage AKI

Loop diuretics (only consider if there is fluid overload or oedema)
Low-dose dopamine

Renal Replacement Therapy (RRT)

Indications

If patients have ANY of the following NOT responding to medical therapy → refer immediately for RRT

Acidosis (metabolic)
Electrolyte – hyperkalaemia
Ingested toxin (BLAST – barbiturates, lithium, alcohol, salicylate, theophylline)
Oedema (fluid overload)
Uraemia (pericarditis / encephalopathy)

Choice of RRT

Stable patients → intermittent haemodialysis
Haemodynamically unstable → continuous renal replacement therapy (CRRT)
- Modalities include: haemofiltration, haemodialysis, hemodiafiltration

References

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