Tricyclic antidepressant toxicity: Difference between revisions
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==Background==
==Background==
#Serious toxicity is almost always seen within 6hr of ingestion
*[[Tricyclic antidepressants]] (TCAs) remain a '''leading cause of death from prescription drug overdose'''
#Ingestion amount:
*Common TCAs: amitriptyline, nortriptyline, imipramine, desipramine, doxepin, clomipramine
##<1mg/kg: Nontoxic
*Narrow therapeutic index — lethal dose is only 3-5x therapeutic dose
##>10mg/kg: Life-threatening
*Multiple mechanisms of toxicity:
##>1gm: Commonly fatal
**Sodium channel blockade → QRS widening → ventricular arrhythmias (most dangerous)
**Anticholinergic effects → tachycardia, mydriasis, urinary retention, hyperthermia, AMS
**Alpha-1 receptor blockade → hypotension
**Norepinephrine/serotonin reuptake inhibition → initial hypertension, tachycardia
**GABA-A antagonism → seizures
**Potassium channel blockade → QT prolongation
*Rapidly absorbed; toxicity can progress from alert to cardiac arrest within 1 hour


==Clinical Features==
==Clinical Features==
#Na Channel Blockade
===Anticholinergic Toxidrome===
##Negative inotropy, heart block, hypotension, ectopy
*Tachycardia, mydriasis, dry skin/mouth, urinary retention
#Anti-Histamine Effects
*Altered mental status (agitation → delirium → coma)
##Sedation, coma
*Decreased bowel sounds, ileus
#Anti-Muscarinic Effects
*Hyperthermia
##Central
###Agitation, delirium, confusion, hallucinations
###Slurred speech, ataxia
###Sedation, coma
##Peripheral
###Mydriasis, decreased secretions, dry skin, ileus, urinary retention
###Tachycardia, hyperthermia
#Alpha1 Receptor Blockade
##Sedation, orthostatic hypotension, miosis
#Inhibition of amine reuptake
##Sympathomimetic effects
##Myoclonus, hyperreflexia
##Serotonin syndrome (only when used in combination w/ other serotonergic agents)


==Diagnosis==
===Cardiovascular===
#Serious toxicity
*Sinus tachycardia (most common cardiac finding)
##Conduction delays, SVT, V-tach, hypotension
*Wide-complex tachycardia (sodium channel blockade)
##Respiratory depression
*Hypotension (alpha blockade, myocardial depression)
##Seizures
*Right axis deviation of terminal QRS
##Pulmonary edema
*Brugada-like pattern
#ECG
*'''Ventricular tachycardia/fibrillation''' (leading cause of death)
##Sinus tachycardia (most frequent dysrhythmia)
##PR, QRS, QT prolongation
##Right axis deviation (of terminal 40ms)
###Terminal R wave in aVR, S wave in I/aVL
##Brugada pattern (15%)
[[File:TCA_Toxicity.jpg]]


==Treatment==
===Neurologic===
#GI Decontamination
*Seizures (occur in 10-20% of significant ingestions; usually brief but may be refractory)
##Gastric lavage if <1hr after ingestion
*Myoclonus, tremor
##Activated charcoal 1gm/kg x1
*Coma
#Cardiac Toxicity
 
##Sodium Bicarbonate
===ECG Findings (Critical)===
###Indications:
*QRS >100 ms: increased risk of seizures
####QRS >100ms, terminal RAD >120deg, Brugada pattern, ventricular dysrhythmias
*QRS >160 ms: increased risk of ventricular arrhythmias
###Dosing
*R wave >3 mm in aVR (sensitive marker of sodium channel blockade)<ref>Liebelt EL, et al. ECG lead aVR versus QRS interval in predicting seizures and arrhythmias in acute tricyclic antidepressant toxicity. ''Ann Emerg Med''. 1995;26(2):195-201. PMID 7618784</ref>
####Give 1-2 mEq/kg as rapid IVP; may repeat as necessary (stop if pH > 7.55)
*R/S ratio >0.7 in aVR
#####May give as 2-3 vials or prefilled syringes (50mL each) of 8.4% NaHCO3
*Right axis deviation of terminal 40 ms QRS
####If effective, start infusion
*Sinus tachycardia, QT prolongation
#####Mix 125-150 mEq of NaHCO3 in 1L of D5W; infuse at 250 mL/hr
 
###Goal
==Differential Diagnosis==
####QRS <100ms
*Other sodium channel blocking agents: Class IA/IC antiarrhythmics, cocaine, diphenhydramine, carbamazepine
####pH 7.50-7.55
*[[Anticholinergic toxicity]]
###Monitoring
*Other causes of wide-complex tachycardia
####Monitor for volume overload, hypokalemia, hypernatremia, metabolic alkalosis
*[[Serotonin syndrome]] (if combined with serotonergic agents)
##Hyperventilation
*Mixed overdose (coingestion is common)
###Consider in pts unable to tolerate NaHCO3 (renal failure, pulm/cerebral edema)
 
##Lidocaine
==Evaluation==
###Consider for ventricular dysrhythmias if NaHCO3 alone is ineffective
*'''ECG''' ('''most important test — get immediately''')
##Phenytoin
**Repeat ECG every 15-30 minutes in first 2 hours
###Consider for ventricular dysrhythmias resistant to NaHCO3 and lidocaine
*BMP: monitor for metabolic acidosis (worsens sodium channel blockade)
##Synchronized cardioversion
*Blood gas: pH (acidosis worsens toxicity; alkalosis is protective)
###Appropriate in pts w/ persistent unstable tachydysrhythmias
*Acetaminophen and salicylate levels (coingestion screening)
##Avoid IA, IB, IC, BBs, and CCBs
*Urine drug screen: may detect TCA, but false positives common (diphenhydramine, cyclobenzaprine, carbamazepine, phenothiazines)
#Seizures
*'''TCA levels''' are NOT useful for acute management (do not correlate with toxicity)
##Benzodiazapines are 1st line
*Lactate, glucose
##Barbitutate are 2nd line
 
##Phenytoin is ineffective
==Management==
#Hypotension
===Immediate===
##IVF 10mL/kg; pulmonary edema can develop if excessive fluids given
*Continuous cardiac monitoring
##Give NaHCO3 if fluids ineffective (regardless of QRS duration)
*IV access, supplemental O2
##Give norepi if fluids/NaHCO3 ineffective
*GI decontamination: activated charcoal 1 g/kg if presenting within 1-2 hours and patient is alert with protected airway
###Start 1mcg/min; tirate up to 30mcg/min
**Anticholinergic effects delay gastric emptying → charcoal may be beneficial even at 2+ hours
#Dialysis not useful
*'''Do NOT induce emesis''' (rapid deterioration risk)
 
===Sodium Bicarbonate (Cornerstone of Treatment)===
*Indicated for:
**QRS >100 ms
**Ventricular arrhythmias
**Hypotension refractory to fluids
*Bolus: 1-2 mEq/kg IV push (repeat every 3-5 minutes until QRS narrows)
*Infusion: 150 mEq NaHCO3 in 1L D5W at 150-250 mL/hr after initial bolus
*Goal serum pH: 7.50-7.55 (alkalosis overcomes sodium channel blockade)
*Mechanism: increases serum sodium (competes for channel) AND alkalosis favors protein-bound (non-toxic) TCA form
*Continue until QRS normalizes
 
===Seizures===
*Benzodiazepines first-line: lorazepam 2-4 mg IV, repeat q5min
*'''Do NOT use phenytoin''' (also blocks sodium channels; may worsen cardiac toxicity)
*If refractory: propofol, phenobarbital, or intubation with neuromuscular blockade
*Treat aggressively — prolonged seizures cause acidosis which worsens cardiac toxicity
 
===Hypotension===
*IV fluid bolus (NS 1-2L)
*Sodium bicarbonate bolus
*Norepinephrine (first-line vasopressor; alpha agonism counteracts TCA alpha blockade)
*Avoid pure beta-agonists
*Refractory: consider lipid emulsion therapy (ILE)
 
===Refractory Ventricular Arrhythmias===
*Sodium bicarbonate is first-line
*Lidocaine (Class IB — may be used)
*Avoid Class IA (procainamide) and Class IC (flecainide) antiarrhythmics
*Avoid amiodarone if possible (sodium channel blockade)
*Lipid emulsion therapy: 20% Intralipid 1.5 mL/kg IV bolus then 0.25 mL/kg/min for refractory arrest
*ECMO for refractory cardiac arrest
 
===Monitoring===
*Serial ECGs every 15-30 min initially
*Continuous telemetry for minimum 6 hours after last ECG abnormality resolves
*ABG/VBG to guide bicarbonate therapy
*Serum pH goal 7.50-7.55


==Disposition==
==Disposition==
*Consider discharge for pts who remain asymptomatic after 6hr of observation
*'''ICU admission''' for: QRS widening, arrhythmias, seizures, hypotension, altered mental status
*Monitored bed for asymptomatic patients with normal ECG × 6 hours
*Psychiatric evaluation after medical clearance for all intentional ingestions
*Consider discharge only if:
**Asymptomatic for 6 hours
**Normal ECG with QRS <100 ms
**Normal mental status
**Psychiatric clearance obtained
*Poison control: 1-800-222-1222


==See Also==
==See Also==
*[[Toxidromes]]
*[[Anticholinergic toxicity]]
*[[Sodium channel blocker toxicity]]
*[[Serotonin syndrome]]
*[[Toxicology]]
*[[Cardiac arrest]]


==Source==
==References==
*Tintinalli
<references/>
*UpToDate
*Kerr GW, et al. Tricyclic antidepressant overdose: a review. ''Emerg Med J''. 2001;18(4):236-241. PMID 11435353
*Woolf AD, et al. Tricyclic antidepressant poisoning: an evidence-based consensus guideline for out-of-hospital management. ''Clin Toxicol''. 2007;45(3):203-233. PMID 17453872
*Body R, et al. Guidelines in Emergency Medicine Network (GEMNet): guideline for the management of tricyclic antidepressant overdose. ''Emerg Med J''. 2011;28(4):347-368. PMID 21436332


[[Category:Tox]]
[[Category:Toxicology]]
[[Category:Critical Care]]

Latest revision as of 09:28, 22 March 2026

Background

  • Tricyclic antidepressants (TCAs) remain a leading cause of death from prescription drug overdose
  • Common TCAs: amitriptyline, nortriptyline, imipramine, desipramine, doxepin, clomipramine
  • Narrow therapeutic index — lethal dose is only 3-5x therapeutic dose
  • Multiple mechanisms of toxicity:
    • Sodium channel blockade → QRS widening → ventricular arrhythmias (most dangerous)
    • Anticholinergic effects → tachycardia, mydriasis, urinary retention, hyperthermia, AMS
    • Alpha-1 receptor blockade → hypotension
    • Norepinephrine/serotonin reuptake inhibition → initial hypertension, tachycardia
    • GABA-A antagonism → seizures
    • Potassium channel blockade → QT prolongation
  • Rapidly absorbed; toxicity can progress from alert to cardiac arrest within 1 hour

Clinical Features

Anticholinergic Toxidrome

  • Tachycardia, mydriasis, dry skin/mouth, urinary retention
  • Altered mental status (agitation → delirium → coma)
  • Decreased bowel sounds, ileus
  • Hyperthermia

Cardiovascular

  • Sinus tachycardia (most common cardiac finding)
  • Wide-complex tachycardia (sodium channel blockade)
  • Hypotension (alpha blockade, myocardial depression)
  • Right axis deviation of terminal QRS
  • Brugada-like pattern
  • Ventricular tachycardia/fibrillation (leading cause of death)

Neurologic

  • Seizures (occur in 10-20% of significant ingestions; usually brief but may be refractory)
  • Myoclonus, tremor
  • Coma

ECG Findings (Critical)

  • QRS >100 ms: increased risk of seizures
  • QRS >160 ms: increased risk of ventricular arrhythmias
  • R wave >3 mm in aVR (sensitive marker of sodium channel blockade)[1]
  • R/S ratio >0.7 in aVR
  • Right axis deviation of terminal 40 ms QRS
  • Sinus tachycardia, QT prolongation

Differential Diagnosis

  • Other sodium channel blocking agents: Class IA/IC antiarrhythmics, cocaine, diphenhydramine, carbamazepine
  • Anticholinergic toxicity
  • Other causes of wide-complex tachycardia
  • Serotonin syndrome (if combined with serotonergic agents)
  • Mixed overdose (coingestion is common)

Evaluation

  • ECG (most important test — get immediately)
    • Repeat ECG every 15-30 minutes in first 2 hours
  • BMP: monitor for metabolic acidosis (worsens sodium channel blockade)
  • Blood gas: pH (acidosis worsens toxicity; alkalosis is protective)
  • Acetaminophen and salicylate levels (coingestion screening)
  • Urine drug screen: may detect TCA, but false positives common (diphenhydramine, cyclobenzaprine, carbamazepine, phenothiazines)
  • TCA levels are NOT useful for acute management (do not correlate with toxicity)
  • Lactate, glucose

Management

Immediate

  • Continuous cardiac monitoring
  • IV access, supplemental O2
  • GI decontamination: activated charcoal 1 g/kg if presenting within 1-2 hours and patient is alert with protected airway
    • Anticholinergic effects delay gastric emptying → charcoal may be beneficial even at 2+ hours
  • Do NOT induce emesis (rapid deterioration risk)

Sodium Bicarbonate (Cornerstone of Treatment)

  • Indicated for:
    • QRS >100 ms
    • Ventricular arrhythmias
    • Hypotension refractory to fluids
  • Bolus: 1-2 mEq/kg IV push (repeat every 3-5 minutes until QRS narrows)
  • Infusion: 150 mEq NaHCO3 in 1L D5W at 150-250 mL/hr after initial bolus
  • Goal serum pH: 7.50-7.55 (alkalosis overcomes sodium channel blockade)
  • Mechanism: increases serum sodium (competes for channel) AND alkalosis favors protein-bound (non-toxic) TCA form
  • Continue until QRS normalizes

Seizures

  • Benzodiazepines first-line: lorazepam 2-4 mg IV, repeat q5min
  • Do NOT use phenytoin (also blocks sodium channels; may worsen cardiac toxicity)
  • If refractory: propofol, phenobarbital, or intubation with neuromuscular blockade
  • Treat aggressively — prolonged seizures cause acidosis which worsens cardiac toxicity

Hypotension

  • IV fluid bolus (NS 1-2L)
  • Sodium bicarbonate bolus
  • Norepinephrine (first-line vasopressor; alpha agonism counteracts TCA alpha blockade)
  • Avoid pure beta-agonists
  • Refractory: consider lipid emulsion therapy (ILE)

Refractory Ventricular Arrhythmias

  • Sodium bicarbonate is first-line
  • Lidocaine (Class IB — may be used)
  • Avoid Class IA (procainamide) and Class IC (flecainide) antiarrhythmics
  • Avoid amiodarone if possible (sodium channel blockade)
  • Lipid emulsion therapy: 20% Intralipid 1.5 mL/kg IV bolus then 0.25 mL/kg/min for refractory arrest
  • ECMO for refractory cardiac arrest

Monitoring

  • Serial ECGs every 15-30 min initially
  • Continuous telemetry for minimum 6 hours after last ECG abnormality resolves
  • ABG/VBG to guide bicarbonate therapy
  • Serum pH goal 7.50-7.55

Disposition

  • ICU admission for: QRS widening, arrhythmias, seizures, hypotension, altered mental status
  • Monitored bed for asymptomatic patients with normal ECG × 6 hours
  • Psychiatric evaluation after medical clearance for all intentional ingestions
  • Consider discharge only if:
    • Asymptomatic for 6 hours
    • Normal ECG with QRS <100 ms
    • Normal mental status
    • Psychiatric clearance obtained
  • Poison control: 1-800-222-1222

See Also

References

  1. Liebelt EL, et al. ECG lead aVR versus QRS interval in predicting seizures and arrhythmias in acute tricyclic antidepressant toxicity. Ann Emerg Med. 1995;26(2):195-201. PMID 7618784
  • Kerr GW, et al. Tricyclic antidepressant overdose: a review. Emerg Med J. 2001;18(4):236-241. PMID 11435353
  • Woolf AD, et al. Tricyclic antidepressant poisoning: an evidence-based consensus guideline for out-of-hospital management. Clin Toxicol. 2007;45(3):203-233. PMID 17453872
  • Body R, et al. Guidelines in Emergency Medicine Network (GEMNet): guideline for the management of tricyclic antidepressant overdose. Emerg Med J. 2011;28(4):347-368. PMID 21436332
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