Acute kidney injury: Difference between revisions

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==Background==
==Background==
*Majority of cases of community-acquired ARF is secondary to volume depletion
*Majority of cases of community-acquired ARF is secondary to volume depletion although consideration of pre-renal, post renal, and renal causes are important.
===RIFLE Classification===
===AKI Staging===
#Risk - Serum Cr increased 1.5x baseline
{| {{table}}
#Injury - Serum Cr increased 2.0x baseline
| align="center" style="background:#f0f0f0;"|'''AKI Stage'''<ref>Moore PK, et. al. Management of acute kidney injury: core curriculum 2018. Am J Kidney Dis. 2018; 72: 136-148.</ref>
#Failure - Serum Cr increased 3.0x baseline OR Cr >4 and acute increase >0.5
| align="center" style="background:#f0f0f0;"|'''KDIGO'''
#Loss - Complete loss of kidney function for >4wk
| align="center" style="background:#f0f0f0;"|'''UOP'''
#ESRD - Need for renal replacement therapy for >3mo
|-
 
| 1||Cr 1.5-1.9x baseline over 7d '''or''' ≥0.3 mg/dL increase over 48hrs||<0.5 mL/kg/hr  for 6-12hrs
==Risk Factors==
|-
#Atherosclerosis
| 2||Cr 2.0-2.9x baseline||<0.5 mL/kg/hr for >12hrs
#Chronic hypertension
|-
#Chronic kidney disease
| 3||Cr ≥3.0x baseline '''or''' ≥4.0 mg/dL increase '''or''' initiation of RRT||<0.3 mL/kg/hr for >24hrs '''or''' anuria for >12hrs
#NSAIDs
|-
#ACEI/ARB
|}
#Sepsis
===Chronic Kidney Disease Stages===
#Hypercalcemia
*Useful if patient's baseline creatinine is unknown
#Hepatorenal syndrome
**Stage 1: Kidney damage (e.g. [[proteinuria]]) and normal GFR; GFR >90
#Radiocontrast agents
**Stage 2: Kidney damage (e.g. [[proteinuria]]) and mild decrease in GFR; GFR 60-89
 
**Stage 3: Moderate decrease in GFR; GFR >30-59
 
**Stage 4: Severe decrease in GFR; GFR 15-29
 
**Stage 5: Kidney failure (dialysis or kidney transplant needed); GFR <15
==Etiology==
#Prerenal (70%)
 
Excessive vomiting, diarrhea, urination, hemorrhage, fever, or sweating can reduce circulating volume enough to precipitate ARF. Causes of endothelial leak and third spacing, such as sepsis, pancreatitis, burns, and hepatic failure, can also result in prerenal disease. Progression of heart failure from any cause or overdiuresis of the patient with compensated congestive heart failure can result in ARF. Decreased fluid intake from physical or cognitive disability can result in hypovolemia sufficient to cause ARF, with vague mental status change as the presenting symptom.
 
 
 
##BUN/Cr ratio > 20
##FeNa <1%
##FeUN <35%
#Instrinsic (20%)
 
 
The most common cause of intrinsic renal failure is ischemic ARF. Traditionally known as acute tubular necrosis and now called acute kidney injury, it occurs when renal perfusion is decreased so much that the kidney parenchyma suffers ischemic injury. Individuals with chronic hypertension develop altered renal autoregulation, which establishes conditions under which renal ischemia can occur in spite of systemic blood pressures that would be normal for most patients. This condition is called normotensive ischemic ARF
 
***Often be anticipated because of symptoms of their precipitating cause
****Cardiac arrest
****Severe sepsis
****, or other cause of systemic hypotension or microvascular ischemia
 
##FeNa <>1%
##FeUN >50%
#Postrenal (10%)
 
failure should be suspected in patients with appropriate risk factors, including men with known prostatic disease or advanced age and patients with indwelling bladder catheters.


===Risk Factors===
*[[Contrast-Induced Nephropathy|Radiocontrast agents]]
**Especiallyif GFR <60, hypovolemic
*Atherosclerosis
*Chronic [[hypertension]]
*Chronic kidney disease
*[[NSAIDs]]
*[[ACEI]]/[[ARB]]
*[[Sepsis]]
*[[Hypercalcemia]]
*[[Hepatorenal syndrome]]


==Clinical Features==
==Clinical Features==
*Acute renal failure itself has few symptoms until severe uremia develops:
*Acute renal failure itself has few symptoms until severe uremia develops:
**N/V, drowsiness, fatigue, confusion, coma
**[[Nausea/vomiting]], drowsiness, fatigue, confusion, [[coma]], [[pericarditis]]
*Pts more likely to present w/ symptoms related to underlying cause:
*Patients more likely to present with symptoms related to underlying cause:
**Prerenal
**Prerenal
***Thirst, orthostatic light-headedness, decreasing urine output
***Thirst, orthostatic lightheadedness, decreasing urine output
**Intrinsic
**Intrinsic
***Flank pain, hematuria
***[[Flank pain]], [[hematuria]]
****Nephrolithiasis
****[[Nephrolithiasis]]
****Papillary necrosis
****Papillary necrosis
****Crystal-induced nephropathy
****Crystal-induced nephropathy
***Myalgias, seizures, recreational intoxication
***[[Myalgia]]s, [[seizures]], recreational intoxication
****Pigment-induced ARF (rhabdo)
****Pigment-induced ARF ([[rhabdomyolysis]])
***Darkening urine and edema (esp w/ preceding pharyngitis or cutaneous infection)
***Darkening urine and edema (esp with preceding pharyngitis or cutaneous infection)
****Acute glomerulonephritis
****Acute glomerulonephritis
***Fever, arthralgia, rash  
***[[Fever]], [[arthralgia]], [[rash]]
****Acute interstitial nephritis
****Acute interstitial nephritis
***Cough, dyspnea, hemoptysis
***[[Cough]], [[dyspnea]], [[hemoptysis]]
****Goodpasture, Wegener granulomatosis
****[[Goodpasture syndrome]], [[granulomatosis with polyangiitis]] (Wegener's)
**Postrenal
**Postrenal
***Alternating oliguria and polyuria is pathognomonic of obstruction
***Alternating oliguria and [[polyuria]] is pathognomonic of obstruction
***Anuria
***Anuria


==Etiologies==
[[File:Differential Diagnosis of Acute Kidney Injury.png|thumb]]
===Prerenal===
*[[Hypovolemia]]
**GI: decreased intake, [[vomiting]] and [[diarrhea]]
**[[Hemorrhage]]
**Pharmacologic: [[diuretics]]
**Third spacing
***[[Pancreatitis]]
**Skin losses: [[hyperthermia]], [[burns]]
**Miscellaneous
***Hypoaldosteronism
***Salt-losing nephropathy
***[[Postobstructive diuresis]]
*[[Hypotension]]
**[[Sepsis]]
**Decreased cardiac output: decompensated [[heart failure]], [[tamponade]], massive pulmonary embolus
**[[Hepatorenal Syndrome]]
***Ischemia/infarction
***[[Valvular Disease|Valvulopathy]]
**Pharmacologic
***[[Beta-blockers]]
***[[Calcium-channel blockers]]
***[[Antihypertensive medications]]
**[[High output heart failure]]
***[[Thyrotoxicosis]]
***AV fistula
*Renal artery and small-vessel disease
**Embolism: thrombotic, septic, cholesterol
**Thrombosis: atherosclerosis, [[vasculitis]], [[sickle cell disease]]
**Dissection
**Pharmacologic
***[[NSAIDs]]
***[[ACEI]]/[[ARB]]
****Observed shortly after initiation of therapy
**Microvascular thrombosis
***[[Preeclampsia]]
***[[Hemolytic Uremic Syndrome (HUS)]]
***[[Thrombotic Thrombocytopenic Purpura (TTP)]]
***[[Disseminated Intravascular Coagulation (DIC)]]
***[[Vasculitis]]
***[[Sickle Cell Disease]]
**[[Hypercalcemia]]
===Intrinsic===
*Tubular diseases
**Ischemic acute tubular necrosis
***Caused by more advanced disease due to the prerenal causes
*Nephrotoxins
**[[Aminoglycosides]], [[Contrast-Induced Nephropathy|radiocontrast]], [[amphotericin B]], heme pigments ([[rhabdomyolysis]], hemolysis)
**Obstruction
***Uric acid, calcium oxalate from [[Ethylene Glycol Toxicity]], [[Multiple myeloma]] (immunoglobin light chains), [[amyloidosis]]
***Pharmacologic: [[sulfonamides]], triamterene, [[acyclovir]], indinavir
*Interstitial diseases
**Acute interstitial nephritis: typically a drug reaction ([[NSAIDs]], [[Penicillins]] and antibiotics, [[Diuretics]], [[phenytoin]])
**Infection: bilateral pyelonephritis, [[Legionella]], [[Hantavirus]]
**Infiltrative disease: [[sarcoidosis]], [[lymphoma]]
**Autoimmune diseases: [[SLE]]
*Glomerular diseases
**Rapidly progressive glomerulonephritis
***[[Goodpasture syndrome]], [[granulomatosis with polyangiitis]] (Wegener's) [[HSP]], [[SLE]], membranoproliferative GN
**Postinfectious [[glomerulonephritis]]
*Small-vessel diseases
**Microvascular thrombosis
***[[Preeclampsia]], [[HUS]], [[DIC]], [[Thrombotic Thrombocytopenic Purpura (TTP)|TTP]], [[vasculitis]] (PAN, SCD, atheroembolism)
**[[Malignant hypertension]]
**[[Scleroderma]]
**Renal vein thrombosis
*[[Abdominal compartment syndrome]]
*[[Hepatorenal syndrome]]
*[[Cardiorenal syndrome]]
===Postrenal===
*Infants and children
**Urethra and bladder outlet
***Anatomic malformations
****Urethral atresia
****Meatal stenosis
****Anterior and posterior urethral valves
**Ureter
***Anatomic malformations
****Vesicoureteral reflux (female preponderance)
****Ureterovesical junction obstruction
****Ureterocele
****Retroperitoneal tumor
*All ages
**Various locations in GU tract
***Trauma
***Blood clot
**Urethra and bladder outlet
***[[Phimosis]] or urethral stricture (male preponderance)
***Neurogenic bladder
****[[Diabetes mellitus]], spinal cord disease, [[multiple sclerosis]], [[Parkinson's disease]]
****Pharmacologic: [[anticholinergics]], [[alpha antagonist|a-adrenergic antagonists]], [[opioids]]
*Adults
**Urethra and bladder outlet
***BPH
***Cancer of prostate, bladder, cervix, or colon
***Obstructed catheters
**Ureter
***[[Ureteral calculi]], uric acid crystals
***Papillary necrosis
****[[Sickle cell disease]], [[DM]], [[pyelonephritis]]
***Tumor: Ureter, uterus, prostate, bladder, colon, rectum; retroperitoneal lymphoma
***Retroperitoneal fibrosis: idiopathic, [[tuberculosis]], [[sarcoidosis]], [[propranolol]]
***Stricture: [[TB]], [[Radiation exposure|radiation]], [[schistosomiasis]], [[NSAIDs]]
***Miscellaneous
****[[Abdominal aortic aneurysm|Aortic aneurysm]]
****Pregnant uterus
****[[IBD]]
****[[Renal trauma|Renal]] or [[ureter trauma]]
==Evaluation==
===Work-up===
*Urine
*Prostate exam
*[[Urinalysis]], urine sodium, urine creatinine, urine urea
*[[ECG]] (hyperkalemia)
*Chronic renal failure features
**Anemia, thrombocytopenia
**Iron studies with low Fe, low TIBC, low iron saturation, normal ferritin
**Secondary rise in PTH, high phos, low calcium


===Imaging===
*[[CXR]]
**Evidence of volume overload, pneumonia
*US: [[renal ultrasound|renal]]/[[bladder ultrasound|bladder]]
**Test of choice in setting of acute renal failure
**Bladder size (post-void)
**Hydronephrosis
**IVC collapsibility (prerenal)
*CT
**Useful to determine cause of post renal failure (identification of abdominal masses etc.)
**Should generally not be used with IV contrast due to potential risk for [[Contrast-Induced Nephropathy|CIN]]
**Indicated if hydronephrosis found on [[ultrasound]] in order to define the location of obstruction


===Diagnosis===
{| {{table}}
| align="center" style="background:#f0f0f0;"|'''Finding'''
| align="center" style="background:#f0f0f0;"|'''Prerenal'''
| align="center" style="background:#f0f0f0;"|'''Intrinsic'''
| align="center" style="background:#f0f0f0;"|'''Postrenal'''
|-
| BUN/creatinine ratio||>20||< 12||12-20 (normal range)
|-
| [[FeNa]]^||
*<1%
*< 2% for neonates
||
* >1%
*> 2.5% for neonates
||
*>1%
|-
| Urine osm|| >500|| <350||
|-
| Urine sodium ||< 20 mEq/L||> 40 mEq/L||
|-
| Specific gravity ||> 1.020|| < 1.020||
|-
| Fractional excretion of urea ||< 35%|| > 50%||
|-
| Microscopic analysis||
*Hyaline casts
||
*Acute glomerulonephritis: RBCs, casts
*Acute tubular necrosis: protein, tubular epithelial cells
*Interstitial nephritis: eosinophils
||
|}


^ (urine sodium/plasma sodium) / (urine creatinine / serum creatinine)


==Work-up==
==Management==
#UA
''Treat underlying cause''
#Urine sodium, creatinine, urea (for those on diuretics)
*Prerenal: [[IVF]] (or [[pRBCs]] if bleeding)
#Foley
*Intrinsic: Depends on cause
*Obstruction:
**Note: Postobstructive diuresis can result in significant volume loss and death
***Typically occurs when obstruction has been prolonged / has resulted in renal failure
***Admit patients with persistent diuresis of >250 mL/h for >2hr
**Foley Catheter, consider [[Coude Catheter]]
**Suprapubic (if Coude fails)
 
===[[Dialysis]]===
*Indicated for:
**A: [[Acidosis]] (severe)
**E: [[Electrolyte abnormality]] (e.g. uncontrolled [[hyperkalemia]])
**I: Ingestions ([[lithium toxicity|lithium]], [[salicylate toxicity|ASA]], [[methanol]], [[ethylene glycol]], [[theophylline toxicity|theophylline]])
**O: [[fluid overload|Overload]] (volume) with persistent hypoxia
**U: [[uremia|Uremic]] [[pericarditis]]/[[encephalopathy]]/[[coagulopathy|bleeding dyscrasia]]
**Also:
***Na <115 or >165 mEq/L
***creatinine > 10
***BUN >100
*See [[Dialysis catheter placement]]
*See [[Austere peritoneal dialysis]]
 
===Phlebotomy to Treat [[Pulmonary Edema]]===
*Possible last ditch effort to tide patient over to formal dialysis if hours away
*If traditional pulmonary edema treatments are not working for [[Sympathetic crashing acute pulmonary edema (SCAPE)|SCAPE]] patient, one may attempt to remove 200-300 cc of blood as a bridge to dialysis<ref>Eiser AR et al. Phlebotomy for pulmonary edema in dialysis patients. Clin Nephrol. 1997 Jan;47(1):47-9.</ref>
*If Hb too low, may consider temporary venous tourniquets on each leg proximally q30 min to reduce preload volume to the heart, alternating legs


==Disposition==
==Disposition==
Admit
*Admit


==See Also==
==See Also==
[[Hyperkalemia]]
*[[Hyperkalemia]]
*[[Renal ultrasound]]
*[[Hypertensive emergency]]
 
== Calculators ==
{{FENa_Calculator}}
 
{{CrCl_Calculator}}
 
{{Schwartz_Calculator}}
 
==External Links==
*[http://ddxof.com/acute-kidney-injury/ DDxOf: Differential Diagnosis of Acute Kidney Injury]
 
==References==
<references/>


==Source==
Tintinalli


[[Category:GU]]
[[Category:Renal]]

Latest revision as of 15:06, 21 March 2026

Background

  • Majority of cases of community-acquired ARF is secondary to volume depletion although consideration of pre-renal, post renal, and renal causes are important.

AKI Staging

AKI Stage[1] KDIGO UOP
1 Cr 1.5-1.9x baseline over 7d or ≥0.3 mg/dL increase over 48hrs <0.5 mL/kg/hr for 6-12hrs
2 Cr 2.0-2.9x baseline <0.5 mL/kg/hr for >12hrs
3 Cr ≥3.0x baseline or ≥4.0 mg/dL increase or initiation of RRT <0.3 mL/kg/hr for >24hrs or anuria for >12hrs

Chronic Kidney Disease Stages

  • Useful if patient's baseline creatinine is unknown
    • Stage 1: Kidney damage (e.g. proteinuria) and normal GFR; GFR >90
    • Stage 2: Kidney damage (e.g. proteinuria) and mild decrease in GFR; GFR 60-89
    • Stage 3: Moderate decrease in GFR; GFR >30-59
    • Stage 4: Severe decrease in GFR; GFR 15-29
    • Stage 5: Kidney failure (dialysis or kidney transplant needed); GFR <15

Risk Factors

Clinical Features

Etiologies

Differential Diagnosis of Acute Kidney Injury.png

Prerenal

Intrinsic

Postrenal

Evaluation

Work-up

  • Urine
  • Prostate exam
  • Urinalysis, urine sodium, urine creatinine, urine urea
  • ECG (hyperkalemia)
  • Chronic renal failure features
    • Anemia, thrombocytopenia
    • Iron studies with low Fe, low TIBC, low iron saturation, normal ferritin
    • Secondary rise in PTH, high phos, low calcium

Imaging

  • CXR
    • Evidence of volume overload, pneumonia
  • US: renal/bladder
    • Test of choice in setting of acute renal failure
    • Bladder size (post-void)
    • Hydronephrosis
    • IVC collapsibility (prerenal)
  • CT
    • Useful to determine cause of post renal failure (identification of abdominal masses etc.)
    • Should generally not be used with IV contrast due to potential risk for CIN
    • Indicated if hydronephrosis found on ultrasound in order to define the location of obstruction

Diagnosis

Finding Prerenal Intrinsic Postrenal
BUN/creatinine ratio >20 < 12 12-20 (normal range)
FeNa^
  • <1%
  • < 2% for neonates
  • >1%
  • > 2.5% for neonates
  • >1%
Urine osm >500 <350
Urine sodium < 20 mEq/L > 40 mEq/L
Specific gravity > 1.020 < 1.020
Fractional excretion of urea < 35% > 50%
Microscopic analysis
  • Hyaline casts
  • Acute glomerulonephritis: RBCs, casts
  • Acute tubular necrosis: protein, tubular epithelial cells
  • Interstitial nephritis: eosinophils

^ (urine sodium/plasma sodium) / (urine creatinine / serum creatinine)

Management

Treat underlying cause

  • Prerenal: IVF (or pRBCs if bleeding)
  • Intrinsic: Depends on cause
  • Obstruction:
    • Note: Postobstructive diuresis can result in significant volume loss and death
      • Typically occurs when obstruction has been prolonged / has resulted in renal failure
      • Admit patients with persistent diuresis of >250 mL/h for >2hr
    • Foley Catheter, consider Coude Catheter
    • Suprapubic (if Coude fails)

Dialysis

Phlebotomy to Treat Pulmonary Edema

  • Possible last ditch effort to tide patient over to formal dialysis if hours away
  • If traditional pulmonary edema treatments are not working for SCAPE patient, one may attempt to remove 200-300 cc of blood as a bridge to dialysis[2]
  • If Hb too low, may consider temporary venous tourniquets on each leg proximally q30 min to reduce preload volume to the heart, alternating legs

Disposition

  • Admit

See Also

Calculators

Fractional Excretion of Sodium (FENa)

FENa — Fractional Excretion of Sodium
Parameter Value
Serum Sodium (mEq/L)
Serum Creatinine (mg/dL)
Urine Sodium (mEq/L)
Urine Creatinine (mg/dL)
FENa (%)  %
Interpretation (in setting of oliguria/AKI)
<1% Pre-renal azotemia — Kidneys are sodium-avid (hypoperfusion, hypovolemia, heart failure, cirrhosis). Consider volume resuscitation.
>2% Intrinsic renal disease — ATN, AIN, or glomerulonephritis. Kidneys unable to concentrate urine.
1–2% Indeterminate — May be seen in early ATN or with mixed etiologies. Clinical correlation required.
Important Caveats
  • FENa is unreliable on diuretics — use FEUrea instead
  • Low FENa (<1%) can be seen in contrast nephropathy, rhabdomyolysis, early obstruction
  • Not validated in CKD patients
References
  • Espinel CH. The FENa test: use in the differential diagnosis of acute renal failure. JAMA. 1976;236:579-581. PMID 947239.
  • Steiner RW. Interpreting the fractional excretion of sodium. Am J Med. 1984;77:699-702. PMID 6486145.


Creatinine Clearance (Cockcroft-Gault)

Creatinine Clearance (Cockcroft-Gault)
Parameter Value
Age (years)
Sex 1 Male   Female
Weight (kg)
Serum Creatinine (mg/dL)
CrCl (mL/min) mL/min
Interpretation
>90 Normal renal function.
60–89 Mildly decreased (CKD Stage 2).
30–59 Moderately decreased (CKD Stage 3). Adjust renally-dosed medications.
15–29 Severely decreased (CKD Stage 4).
<15 Kidney failure (CKD Stage 5). Consider dialysis.
References
  • Cockcroft DW, Gault MH. Prediction of creatinine clearance from serum creatinine. Nephron. 1976;16(1):31-41. PMID 1244564.
  • Formula: CrCl = [(140 − age) × weight (kg)] / [72 × serum Cr (mg/dL)] × 0.85 if female.
  • Note: Use IBW or adjusted BW in obese patients. Not validated in AKI or rapidly changing creatinine.


Schwartz Equation (Pediatric GFR)

Schwartz Equation — Pediatric eGFR
Parameter Value
Height (cm)
Serum Creatinine (mg/dL)
Estimated GFR mL/min/1.73m²
References
  • Schwartz GJ, Muñoz A, Schneider MF, et al. New equations to estimate GFR in children with CKD. J Am Soc Nephrol. 2009;20(3):629-637. PMID 19158356.
  • Bedside Schwartz (2009): eGFR = 0.413 × height (cm) / serum creatinine (mg/dL). Valid for ages 1-16 years.

External Links

References

  1. Moore PK, et. al. Management of acute kidney injury: core curriculum 2018. Am J Kidney Dis. 2018; 72: 136-148.
  2. Eiser AR et al. Phlebotomy for pulmonary edema in dialysis patients. Clin Nephrol. 1997 Jan;47(1):47-9.
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