Salicylate toxicity: Difference between revisions

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==Background==
==Background==
*Aspirin (acetylsalicylic acid) is the most common salicylate
*Other salicylate sources: bismuth subsalicylate (Pepto-Bismol), oil of wintergreen (most concentrated — 1 teaspoon = ~7g aspirin), topical agents (Ben-Gay)
*Therapeutic level: 10-30 mg/dL
*Toxic ingestion: >150 mg/kg
*Lethal dose: ~500 mg/kg
*Mechanism of toxicity:
**Uncouples oxidative phosphorylation → impaired aerobic metabolism, heat generation
**Direct CNS stimulation of respiratory center → respiratory alkalosis (early)
**Accumulation of organic acids → anion gap metabolic acidosis (late)<ref>Palmer BF, Clegg DJ. Salicylate Toxicity. N Engl J Med. 2020;382(26):2544-2555. PMID 32579814</ref>
**Inhibits Krebs cycle, disrupts lipid and amino acid metabolism
*Pharmacokinetics change in overdose:
**Zero-order kinetics at toxic levels (saturable metabolism)
**Delayed absorption with enteric-coated or sustained-release formulations
**Bezoar formation possible with massive ingestion


==Clinical Features==
===Acute Toxicity===
*Early: tinnitus, nausea, vomiting, [[tachypnea]] (respiratory alkalosis)
*Moderate: diaphoresis, [[tachycardia]], [[hyperthermia]], agitation, confusion
*'''Severe''': '''altered mental status''', [[seizures]], '''pulmonary edema''' (noncardiogenic), [[cerebral edema]], coma
*Classic acid-base pattern:
**Adults: mixed respiratory alkalosis + metabolic acidosis
**Children: metabolic acidosis predominates (may not have initial respiratory alkalosis phase)


*therapeutic: 15mg/kg, 15-30mg/dL, peak level 2-4 h
===Chronic Toxicity===
*More insidious and often misdiagnosed (especially in elderly)
*Presents with confusion, tinnitus, dehydration, metabolic acidosis
*May be diagnosed as [[sepsis]], altered mental status workup


*large ingestion- peak levels 18-24h (2/2 bezoar/pylorospasm), enteric or SR peak lev up to 60hr
==Differential Diagnosis==
*[[Sepsis]] (similar presentation with tachypnea, metabolic acidosis, AMS)
*Other causes of anion gap metabolic acidosis (MUDPILES: methanol, uremia, DKA, propylene glycol, INH/iron, lactic acidosis, ethylene glycol, salicylates)
*[[Theophylline toxicity]] (similar features)
*[[Acetaminophen toxicity]] (common coingestion)
*[[Iron toxicity]]


*1/2 life longer if toxic: 2-4 hr (therapeutic), up to 20hr (toxic)
==Evaluation==
*Salicylate level:
**Therapeutic: 10-30 mg/dL
**Toxic: > 30 mg/dL
**Severe: >90 mg/dL
**Repeat level every 2 hours until declining (delayed absorption, bezoar)
**Done nomogram (not well validated for chronic or enteric-coated ingestions)
*ABG/VBG: assess pH (acidemia dramatically worsens toxicity by driving salicylate into CNS)
*BMP: anion gap, glucose (CNS hypoglycemia may occur despite normal serum glucose), potassium, bicarbonate, creatinine
*Acetaminophen level (common coingestion)
*LFTs, coagulation studies (hepatotoxicity, coagulopathy)
*Lactate
*Urine pH: target alkalinization to pH 7.5-8.0
*CXR if concern for pulmonary edema


*decr protein bind: 90% therap, 75% toxic, increases apparent Vd
==Management==
===GI Decontamination===
*Activated charcoal 1 g/kg (max 50g): effective if within 1-2 hours of ingestion
**May benefit later with large ingestions, enteric-coated tablets, or bezoar
**Multiple doses may be considered
*Whole bowel irrigation for massive ingestions or sustained-release/enteric-coated tablets


===Alkalinization (Cornerstone of Treatment)===
*IV sodium bicarbonate
*Goal: urine pH 7.5-8.0 and serum pH 7.50-7.55
**Alkaline urine traps ionized salicylate in renal tubules → enhanced elimination
**Alkaline serum prevents salicylate from crossing blood-brain barrier
*Protocol:
**Bolus: 1-2 mEq/kg IV NaHCO3
**Infusion: 150 mEq NaHCO3 in 1L D5W at 150-250 mL/hr
**Add 20-40 mEq KCl per liter (hypokalemia impairs urinary alkalinization)
*CRITICAL: alkalinization will NOT work without adequate potassium replacement
*Monitor serum pH, urine pH, and potassium every 1-2 hours


Pathophys
===Dextrose===
*'''Give D50W (50 mL IV)''' empirically if any CNS symptoms (altered mental status, seizures)
*CNS glucose may be low even with normal serum glucose (salicylate impairs CNS glucose transport)
*Add dextrose to maintenance fluids


1.mixed acid-base: primry resp alkalosis & merab acidosis. if have resp acidosis consider a. pulm edema, b. resp depressing co-ingestant, c. resp fatigue
===Hemodialysis===
*Most effective method of salicylate removal
*EXTRIP Workgroup Indications<ref>Juurlink DN, et al. Extracorporeal treatment for salicylate poisoning: systematic review and recommendations from the EXTRIP workgroup. ''Ann Emerg Med''. 2015;66(2):165-181. PMID 25986310</ref>:
**Recommended: salicylate level > 90 mg/dL (acute) or > 80 mg/dL (chronic)
**'''Recommended''': altered mental status, new hypoxemia requiring supplemental O2
**Recommended: pH ≤ 7.20 despite bicarbonate therapy
**Suggested: salicylate level > 80 mg/dL (acute), renal failure limiting salicylate clearance, clinical deterioration despite treatment
*Also dialyzes out the metabolic acidosis
*Consult nephrology early


2. fluid loss, lytes off: emesis, tachypnea, kidneys excrete bicarb/K,nonolig RF vs oligur (SIADH)
===What to Avoid===
*'''Do NOT intubate unless absolutely necessary'''
**Salicylate patients compensate with profound hyperventilation
**'''Loss of respiratory compensation''' (even brief during intubation) causes '''rapid acidemia → CNS salicylate accumulation → cardiac arrest'''
**If intubation required: '''maximize bicarb, match minute ventilation''' to pre-intubation rate
*Avoid acetazolamide (causes metabolic acidosis)
*Avoid excessive IV fluids without bicarb (dilutes serum alkalinity)


3. abnml gluc metabolism
==Disposition==
*ICU admission for: level >50 mg/dL, acidemia, AMS, pulmonary edema, renal failure
*Monitored bed for moderate toxicity with improving levels
*Serial salicylate levels every 2 hours until clearly declining
*Poison control: 1-800-222-1222
*Psychiatric evaluation for intentional ingestions


4. non-cards pulm & cerebral edema
==See Also==
*[[Toxicology]]
*[[Acetaminophen toxicity]]
*[[Metabolic acidosis]]
*[[Anion gap]]


5. plt dysfxn, anemia (chronic tox)
==References==
<references/>
*Palmer BF, Clegg DJ. Salicylate toxicity. ''N Engl J Med''. 2020;382(26):2544-2555. PMID 32579815
*O'Malley GF. Emergency department management of the salicylate-poisoned patient. ''Emerg Med Clin North Am''. 2007;25(2):333-346. PMID 17482022
*Pearlman BL, Gambhir R. Salicylate intoxication: a clinical review. ''Postgrad Med''. 2009;121(4):162-168. PMID 19641282


6. n/v/gastritis/decr gastric motility
[[Category:Toxicology]]
 
7.tinnitus/hear loss (>20-45mg/dL)
 
 
==Diagnosis==
 
 
*ASA level, tyl, etoh, utox, UA, icon, ABG, cbc, chem 7, lfts, coag
 
*ekg
 
 
*level >30mg/dL s/s of tox
 
or, >35 at any time
 
 
==Treatment==
 
 
1. sdac 1-2 gm/kg, in right context
 
2. WBI- consider if enteric/SR
 
3. IVFs: NS boluses for uop 1-2cc/k/h
 
4. lytes: consider 40mEq KCl/L, hypoK will prevent urine alkaliniz
 
5. urine alkaliniz-fxn of flow & pH, consider bicarb if ASA>35 or suspect serious toxicity. 1-2mEq/kg IV bolus then D5W c 3amps bicarb/L @1.5-2x maintenance adjust for goal urine pH>7.5
 
6. HD: consider if elderly, chronic, AMS, acidemia, severe comorbid
 
-renal failure
 
-CHF(relative)
 
-NCPE, ARDS
 
-unstable VS
 
-acid-base/lyte problem p rx
 
-failed urine alkaliniz
 
-hepatic failure c coagulopathy
 
-acute>100, chronic>60 (relative)
 
**maintain hypervent if intubated
 
 
==Dialysis==
 
 
If-
 
- severely AMS
 
- coma
 
- sz
 
- refractory acidosis
 
- pulm edema, chf
 
- renal failure, anuric
 
- 6hr lvl > 100- 120 in acute OD
 
 
==Source==
 
 
Casillas '05
 
 
 
 
[[Category:Tox]]

Latest revision as of 09:59, 22 March 2026

Background

  • Aspirin (acetylsalicylic acid) is the most common salicylate
  • Other salicylate sources: bismuth subsalicylate (Pepto-Bismol), oil of wintergreen (most concentrated — 1 teaspoon = ~7g aspirin), topical agents (Ben-Gay)
  • Therapeutic level: 10-30 mg/dL
  • Toxic ingestion: >150 mg/kg
  • Lethal dose: ~500 mg/kg
  • Mechanism of toxicity:
    • Uncouples oxidative phosphorylation → impaired aerobic metabolism, heat generation
    • Direct CNS stimulation of respiratory center → respiratory alkalosis (early)
    • Accumulation of organic acids → anion gap metabolic acidosis (late)[1]
    • Inhibits Krebs cycle, disrupts lipid and amino acid metabolism
  • Pharmacokinetics change in overdose:
    • Zero-order kinetics at toxic levels (saturable metabolism)
    • Delayed absorption with enteric-coated or sustained-release formulations
    • Bezoar formation possible with massive ingestion

Clinical Features

Acute Toxicity

  • Early: tinnitus, nausea, vomiting, tachypnea (respiratory alkalosis)
  • Moderate: diaphoresis, tachycardia, hyperthermia, agitation, confusion
  • Severe: altered mental status, seizures, pulmonary edema (noncardiogenic), cerebral edema, coma
  • Classic acid-base pattern:
    • Adults: mixed respiratory alkalosis + metabolic acidosis
    • Children: metabolic acidosis predominates (may not have initial respiratory alkalosis phase)

Chronic Toxicity

  • More insidious and often misdiagnosed (especially in elderly)
  • Presents with confusion, tinnitus, dehydration, metabolic acidosis
  • May be diagnosed as sepsis, altered mental status workup

Differential Diagnosis

  • Sepsis (similar presentation with tachypnea, metabolic acidosis, AMS)
  • Other causes of anion gap metabolic acidosis (MUDPILES: methanol, uremia, DKA, propylene glycol, INH/iron, lactic acidosis, ethylene glycol, salicylates)
  • Theophylline toxicity (similar features)
  • Acetaminophen toxicity (common coingestion)
  • Iron toxicity

Evaluation

  • Salicylate level:
    • Therapeutic: 10-30 mg/dL
    • Toxic: > 30 mg/dL
    • Severe: >90 mg/dL
    • Repeat level every 2 hours until declining (delayed absorption, bezoar)
    • Done nomogram (not well validated for chronic or enteric-coated ingestions)
  • ABG/VBG: assess pH (acidemia dramatically worsens toxicity by driving salicylate into CNS)
  • BMP: anion gap, glucose (CNS hypoglycemia may occur despite normal serum glucose), potassium, bicarbonate, creatinine
  • Acetaminophen level (common coingestion)
  • LFTs, coagulation studies (hepatotoxicity, coagulopathy)
  • Lactate
  • Urine pH: target alkalinization to pH 7.5-8.0
  • CXR if concern for pulmonary edema

Management

GI Decontamination

  • Activated charcoal 1 g/kg (max 50g): effective if within 1-2 hours of ingestion
    • May benefit later with large ingestions, enteric-coated tablets, or bezoar
    • Multiple doses may be considered
  • Whole bowel irrigation for massive ingestions or sustained-release/enteric-coated tablets

Alkalinization (Cornerstone of Treatment)

  • IV sodium bicarbonate
  • Goal: urine pH 7.5-8.0 and serum pH 7.50-7.55
    • Alkaline urine traps ionized salicylate in renal tubules → enhanced elimination
    • Alkaline serum prevents salicylate from crossing blood-brain barrier
  • Protocol:
    • Bolus: 1-2 mEq/kg IV NaHCO3
    • Infusion: 150 mEq NaHCO3 in 1L D5W at 150-250 mL/hr
    • Add 20-40 mEq KCl per liter (hypokalemia impairs urinary alkalinization)
  • CRITICAL: alkalinization will NOT work without adequate potassium replacement
  • Monitor serum pH, urine pH, and potassium every 1-2 hours

Dextrose

  • Give D50W (50 mL IV) empirically if any CNS symptoms (altered mental status, seizures)
  • CNS glucose may be low even with normal serum glucose (salicylate impairs CNS glucose transport)
  • Add dextrose to maintenance fluids

Hemodialysis

  • Most effective method of salicylate removal
  • EXTRIP Workgroup Indications[2]:
    • Recommended: salicylate level > 90 mg/dL (acute) or > 80 mg/dL (chronic)
    • Recommended: altered mental status, new hypoxemia requiring supplemental O2
    • Recommended: pH ≤ 7.20 despite bicarbonate therapy
    • Suggested: salicylate level > 80 mg/dL (acute), renal failure limiting salicylate clearance, clinical deterioration despite treatment
  • Also dialyzes out the metabolic acidosis
  • Consult nephrology early

What to Avoid

  • Do NOT intubate unless absolutely necessary
    • Salicylate patients compensate with profound hyperventilation
    • Loss of respiratory compensation (even brief during intubation) causes rapid acidemia → CNS salicylate accumulation → cardiac arrest
    • If intubation required: maximize bicarb, match minute ventilation to pre-intubation rate
  • Avoid acetazolamide (causes metabolic acidosis)
  • Avoid excessive IV fluids without bicarb (dilutes serum alkalinity)

Disposition

  • ICU admission for: level >50 mg/dL, acidemia, AMS, pulmonary edema, renal failure
  • Monitored bed for moderate toxicity with improving levels
  • Serial salicylate levels every 2 hours until clearly declining
  • Poison control: 1-800-222-1222
  • Psychiatric evaluation for intentional ingestions

See Also

References

  1. Palmer BF, Clegg DJ. Salicylate Toxicity. N Engl J Med. 2020;382(26):2544-2555. PMID 32579814
  2. Juurlink DN, et al. Extracorporeal treatment for salicylate poisoning: systematic review and recommendations from the EXTRIP workgroup. Ann Emerg Med. 2015;66(2):165-181. PMID 25986310
  • Palmer BF, Clegg DJ. Salicylate toxicity. N Engl J Med. 2020;382(26):2544-2555. PMID 32579815
  • O'Malley GF. Emergency department management of the salicylate-poisoned patient. Emerg Med Clin North Am. 2007;25(2):333-346. PMID 17482022
  • Pearlman BL, Gambhir R. Salicylate intoxication: a clinical review. Postgrad Med. 2009;121(4):162-168. PMID 19641282
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