Salicylate toxicity: Difference between revisions
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==Background== | == Background == | ||
*Fatal dose: | *Chronic toxicity can produce severe neuro changes that do not correlate w/ ASA levels | ||
**~10-30g by adult | *Fatal dose: | ||
**~3g by child | **~10-30g by adult | ||
*Levels: | **~3g by child | ||
**Therapeutic: 10-30mg/dL | *Levels: | ||
**Intoxication: >40-50 mg/dL | **Therapeutic: 10-30mg/dL | ||
**Peak occurs ~6hr after absorption | **Intoxication: >40-50 mg/dL | ||
**Peak occurs ~6hr after absorption (up to 60hr if enteric-coated or extended release) | |||
==Pathophysiology== | == Pathophysiology == | ||
*As level rises, hepatic | *As level rises, switches from hepatic to renal clearance (slower) | ||
* | *N/V | ||
**Stimulates chemoreceptor trigger zone | |||
*Respiratory alkalosis | |||
**Activates respiratory center of medulla | |||
** | |||
*Respiratory alkalosis | |||
**If have resp acidosis consider pulm edema, resp depressing co-ingestant, or fatigue | **If have resp acidosis consider pulm edema, resp depressing co-ingestant, or fatigue | ||
*Anion gap metabolic acidosis | |||
**Interferes w/ cellular metabolism | |||
*Hyperthermia | |||
**Uncouples oxidative phosphorylation | |||
**As pH drops more ASA is uncharged; able to cross BBB | |||
*Altered mental status | |||
**1. Direct toxicity of salicylate species in the CNS | |||
**2. Cerebral edema | |||
**3. Neuroglycopenia | |||
***May occur despite normal serum glucose levels | |||
*Pulmonary Edema | |||
**Usually occurs in elderly | |||
**Due to increased pulmonary vascular permeability | |||
== | == Clinical Features == | ||
#Mild (<150mg/kg) | |||
##Tinnitus | |||
##Hearing loss | |||
##Dizziness | |||
##N/V | |||
#Moderate (150-300mg/kg) | |||
##Tachypnea | |||
##Hyperpyrexia | |||
##Diaphoresis | |||
##Ataxia | |||
##Anxiety | |||
#Severe (>300mg/kg) | |||
##AMS | |||
##Seizure | |||
##Acute lung injury | |||
##N/V | |||
##Renal failure | |||
##Cardiac arrhythmias | |||
##Shock | |||
==Work-Up== | == Work-Up == | ||
*ASA level | *ASA level | ||
**Check q2hr until two | **Check q2hr until two consecutive levels show a decrease | ||
* | *APAP level | ||
*ETOH level | *ETOH level | ||
*Utox | *Utox | ||
*UA | *UA | ||
*VBG | **Proteinuria | ||
*CBC | *VBG | ||
*Chem | *CBC | ||
** | *Chem | ||
**Hypokalemia requires aggressive repletion | **Renal failure prevents ASA clearance | ||
***K+/H+ pump in distal tubule > decr | **Hypokalemia requires aggressive repletion | ||
*LFT | ***K+/H+ pump in distal tubule > decr urinary alkalinization | ||
*Coags | *LFT | ||
**Rarely may cause hepatotoxicity | *Coags | ||
*hCG | **Rarely may cause hepatotoxicity | ||
* | *hCG | ||
*ECG | |||
==Treatment== | == Treatment == | ||
===Airway=== | === Airway === | ||
*Avoid intubation unless absolutely necessary! | *Avoid intubation unless absolutely necessary! | ||
**Very difficult to achieve adequate minute ventilation on vent | **Very difficult to achieve adequate minute ventilation on vent | ||
***Leads to resp acidosis | ***Leads to resp acidosis > incr ASA crossing BBB | ||
**Sedation/paralysis | **Sedation/paralysis > incr ASA crossing BBB | ||
*Indications = Hypoxemia or hypoventilation | *Indications = Hypoxemia or hypoventilation | ||
*If intubate maintain pH 7.50 - 7.59, hyperventilate | *If intubate maintain pH 7.50 - 7.59, hyperventilate | ||
===Breathing=== | === Breathing === | ||
*Acute lung injury may lead to high O2 requirements | *Acute lung injury may lead to high O2 requirements | ||
===Circulation=== | === Circulation === | ||
*Hypotension is common due to systemic vasodilation | |||
**Give fluids if no cerebral edema, no pulmonary edema | *Hypotension is common due to systemic vasodilation | ||
**Give fluids if no cerebral edema, no pulmonary edema | |||
***If these are present consider pressors | ***If these are present consider pressors | ||
===Decontamination=== | === Decontamination === | ||
*Charcoal 1g/kg up to 50g PO | |||
**Effectively absorbs ASA | *Charcoal 1g/kg up to 50g PO | ||
**Give multiple doses if tolerated | **Effectively absorbs ASA | ||
**Give multiple doses if tolerated | |||
***25g PO q2hr x 3 doses OR 50g q4hr x 2 doses after initial dose | ***25g PO q2hr x 3 doses OR 50g q4hr x 2 doses after initial dose | ||
===Glucose=== | === Glucose === | ||
*Give D50 to altered pts regardless of serum glucose concentration | |||
*Give D50 to altered pts regardless of serum glucose concentration | |||
**ASA toxicity impairs glucose metabolism | **ASA toxicity impairs glucose metabolism | ||
<br> | |||
=== Alkalinization of plasma and urine === | |||
*Traps ASA in blood and in rental tubules | |||
*Traps ASA in blood and in rental tubules | **Increases elimination, prevents diffusion across BBB | ||
**Increases elimination, prevents diffusion across BBB | *Alkalemia from resp alkalosis is NOT a contraindication to NaHCO3 tx | ||
*Alkalemia from resp alkalosis is NOT a contraindication to NaHCO3 tx | **Blood pH goal = >7.5, <7.6 | ||
**Blood pH goal = | **Urine pH goal = 7.5-8 | ||
**Urine pH goal = 7.5-8 | *Consider bicarb if ASA>35 or suspect serious toxicity | ||
*Consider bicarb if ASA | **NaHCO3 1-2mEq/kg IV bolus then D5W w/ 3amps bicarb/L @ 2x maintenance for goal ur pH>7.5 | ||
**NaHCO3 1-2mEq/kg IV bolus then D5W w/ 3amps bicarb/L @ 2x maintenance for goal ur pH | |||
==Dialysis== | === Dialysis === | ||
Indicated for: | Indicated for: | ||
*[[AMS]] | *[[AMS]] | ||
*Coma | *Coma | ||
*[[Seizure]] | *[[Seizure]] | ||
*Refractory acidosis | *Refractory acidosis | ||
*Pulmonary edema | *Pulmonary edema | ||
*Acute/chronic [[Renal Failure]] | *Acute/chronic [[Renal Failure]] | ||
**Will not be able to clear ASA | **Will not be able to clear ASA | ||
*6hr level | *6hr level > 100 | ||
==See Also== | == See Also == | ||
*[[General Psych Workup]] | *[[General Psych Workup]] | ||
*[[Acetaminophen (Tylenol)]] | *[[Acetaminophen (Tylenol)]] | ||
*[[Antidotes]] | *[[Antidotes]] | ||
==Source== | == Source == | ||
UpToDate | *UpToDate | ||
*Tintinalli | |||
[[Category:Tox]] | [[Category:Tox]] | ||
Revision as of 01:57, 7 January 2012
Background
- Chronic toxicity can produce severe neuro changes that do not correlate w/ ASA levels
- Fatal dose:
- ~10-30g by adult
- ~3g by child
- Levels:
- Therapeutic: 10-30mg/dL
- Intoxication: >40-50 mg/dL
- Peak occurs ~6hr after absorption (up to 60hr if enteric-coated or extended release)
Pathophysiology
- As level rises, switches from hepatic to renal clearance (slower)
- N/V
- Stimulates chemoreceptor trigger zone
- Respiratory alkalosis
- Activates respiratory center of medulla
- If have resp acidosis consider pulm edema, resp depressing co-ingestant, or fatigue
- Anion gap metabolic acidosis
- Interferes w/ cellular metabolism
- Hyperthermia
- Uncouples oxidative phosphorylation
- As pH drops more ASA is uncharged; able to cross BBB
- Altered mental status
- 1. Direct toxicity of salicylate species in the CNS
- 2. Cerebral edema
- 3. Neuroglycopenia
- May occur despite normal serum glucose levels
- Pulmonary Edema
- Usually occurs in elderly
- Due to increased pulmonary vascular permeability
Clinical Features
- Mild (<150mg/kg)
- Tinnitus
- Hearing loss
- Dizziness
- N/V
- Moderate (150-300mg/kg)
- Tachypnea
- Hyperpyrexia
- Diaphoresis
- Ataxia
- Anxiety
- Severe (>300mg/kg)
- AMS
- Seizure
- Acute lung injury
- N/V
- Renal failure
- Cardiac arrhythmias
- Shock
Work-Up
- ASA level
- Check q2hr until two consecutive levels show a decrease
- APAP level
- ETOH level
- Utox
- UA
- Proteinuria
- VBG
- CBC
- Chem
- Renal failure prevents ASA clearance
- Hypokalemia requires aggressive repletion
- K+/H+ pump in distal tubule > decr urinary alkalinization
- LFT
- Coags
- Rarely may cause hepatotoxicity
- hCG
- ECG
Treatment
Airway
- Avoid intubation unless absolutely necessary!
- Very difficult to achieve adequate minute ventilation on vent
- Leads to resp acidosis > incr ASA crossing BBB
- Sedation/paralysis > incr ASA crossing BBB
- Very difficult to achieve adequate minute ventilation on vent
- Indications = Hypoxemia or hypoventilation
- If intubate maintain pH 7.50 - 7.59, hyperventilate
Breathing
- Acute lung injury may lead to high O2 requirements
Circulation
- Hypotension is common due to systemic vasodilation
- Give fluids if no cerebral edema, no pulmonary edema
- If these are present consider pressors
- Give fluids if no cerebral edema, no pulmonary edema
Decontamination
- Charcoal 1g/kg up to 50g PO
- Effectively absorbs ASA
- Give multiple doses if tolerated
- 25g PO q2hr x 3 doses OR 50g q4hr x 2 doses after initial dose
Glucose
- Give D50 to altered pts regardless of serum glucose concentration
- ASA toxicity impairs glucose metabolism
Alkalinization of plasma and urine
- Traps ASA in blood and in rental tubules
- Increases elimination, prevents diffusion across BBB
- Alkalemia from resp alkalosis is NOT a contraindication to NaHCO3 tx
- Blood pH goal = >7.5, <7.6
- Urine pH goal = 7.5-8
- Consider bicarb if ASA>35 or suspect serious toxicity
- NaHCO3 1-2mEq/kg IV bolus then D5W w/ 3amps bicarb/L @ 2x maintenance for goal ur pH>7.5
Dialysis
Indicated for:
- AMS
- Coma
- Seizure
- Refractory acidosis
- Pulmonary edema
- Acute/chronic Renal Failure
- Will not be able to clear ASA
- 6hr level > 100
See Also
Source
- UpToDate
- Tintinalli