Tricyclic antidepressant toxicity

Background

• Abbreviation: TCA
• Used in depression and neuropathic pain
• Serious toxicity is almost always seen within 6hr of ingestion
• Coingestants often increase severity of toxicity
  • Cocainecan produce the same sodium blockade effect and exacerbate a TCA overdose

Ingestion amount

• <1mg/kg: Nontoxic
• >10mg/kg: Life-threatening
• >1gm: Commonly fatal

Clinical Features

• Na Channel Blockade
  • Negative inotropy, heart block, hypotension, ectopy
• Anti-Histamine Effects
  • Sedation, coma
• Anti-Muscarinic Effects
  • Central
    • Agitation, delirium, confusion, hallucinations
    • Slurred speech, ataxia
    • Sedation, coma
    • Seizures
  • 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 with other serotonergic agents)

Differential Diagnosis

Anticholinergic toxicity

• Medications
  • Atropine
    • Lomotil toxicity
  • Antihistamines
  • Antidepressants
    • Tricyclic antidepressant (TCA) toxicity
    • SSRIs
  • Antipsychotics
  • Muscle relaxants
  • Anti-Parkinsonians
• Plants
  • Jimson weed (Devil's trumpet)
  • Amanita mushroom

Sodium Channel Blockade Toxidrome

• Phenothiazines
• Antihistamines
• Sotalol
• TCAs
• Antipsychotics
• Cocaine
• Anti-spasmodics, cyclobenzaprine
• Chloroquine
• Anti-malarials
• Class Ib antiarrhythmics
• Local anesthetic systemic toxicity

Evaluation

• Serious toxicity
  • Conduction delays, SVT, V-tach, hypotension
  • Respiratory depression
  • Seizures
  • Pulmonary Edema
• ECG
  • Sinus Tachycardia (most frequent dysrhythmia)
  • PR, QRS, QT Prolongation
    • Abnormal QRS morphology (deep slurred S wave in I and AVL)
    • Threshold of QRS>100 for seizures
    • Threshold of QRS>160 for ventricular dysrhymthmias
  • RBBB
  • Right axis deviation (of terminal 40ms)^[1]
    • Terminal R wave in aVR, S wave in I/aVL
    • R/S > 0.7
    • Otherwise, more simply put, tall R wave in aVR
  • Brugada pattern (15%)^[2][3]

ECG in TCA toxicity

Management

GI Decontamination

• Gastric lavage if <1hr after ingestion
• Activated charcoal 1gm/kg x1

Cardiac Toxicity^[4]

Sodium Bicarbonate

• Indications:
  • QRS >100ms, terminal RAD >120 deg, Brugada pattern, ventricular dysrhythmias
• Initial Dosing:
  • Give 1-2 mEq/kg as rapid IVP; may repeat as necessary (stop if pH > 7.50-7.55)
  • May give as 3ampules (132 mEq) of 8.4% NaHCO3
• Infusion Dosing^[5]
  • Mix 125-150 mEq of NaHCO3 in 1L of D5W; infuse at 250 mL/hr
• Treatment Goal:
  • QRS <100ms
  • pH 7.50-7.55
  • May continue for 12-24hrs due to the drugs redistribution from tissue
• Treatment Monitoring
  • Monitor for volume overload, hypokalemia, hypernatremia, metabolic alkalosis

Hyperventilation

• Consider in patients unable to tolerate NaHCO₃ (renal failure, pulm/cerebral edema)
• Hyperventilate to pH of 7.50 - 7.55 (same as bicarb administration)

Lidocaine

• At 1.5mg/kg, consider lidocaine for ventricular dysrhythmias if NaHCO₃ alone is ineffective

NOTE

avoid IA, IB, IC antiarrhythmics, Beta-Blockers, and Calcium Channel Blockers

Phenytoin

• Consider for ventricular dysrhythmias resistant to NaHCO₃ and lidocaine

Synchronized cardioversion

• Appropriate in patients with persistent unstable tachydysrhythmias

Seizures

• Benzodiazepines are 1st line
• Barbituates or propofol are 2nd line
• Phenytoin ineffective as no seizure focus in brain

Hypotension

• After repeat fluid boluses and with sodium load from NaHCO₃ norepinepherine should be the first line vasopressor
• ECMO is a successful adjunct for refractory hypotension after maximal therapy has failed
• May also consider hypertonic 3% saline for refractory hypotension

Dialysis

Not useful for enhancing elimination due to the large volume of distribution and high lipid solubility

Disposition

• Consider discharging patients who remain asymptomatic after 6hr of observation
• Patients with decreased level of consciousness or seizures should be admitted to ICU

See Also

• Toxicology (Main)
• Calcium Channel Blocker Toxicity
• Beta-Blocker Toxicity
• Antipsychotic Toxicity

Video

References

1. ↑ Liebelt EL, Francis PD, Woolf AD. ECG lead aVR versus QRS interval in predicting seizures and arrhythmias in acute tricyclic antidepressant toxicity. Ann Emerg Med. Aug 1995;26(2):195-201
2. ↑ Goldgran-Toledano D, Sideris G, Kevorkian JP. Overdose of cyclic antidepressants and the Brugada syndrome. N Engl J Med. May 16 2002;346(20):1591-2
3. ↑ Monteban-Kooistra WE, van den Berg MP, Tulleken JE. Brugada electrocardiographic pattern elicited by cyclic antidepressants overdose. Intensive Care Med. Feb 2006;32(2):281-5
4. ↑ Thanacoody HK, Thomas SH. Tricyclic antidepressant poisoning: cardiovascular toxicity. Toxicol Rev. 2005;24(3):205-14
5. ↑ Seger DL, Hantsch C, Zavoral T, Wrenn K. Variability of recommendations for serum alkalinization in tricyclic antidepressant overdose: a survey of U.S. Poison Center medical directors. J Toxicol Clin Toxicol. 2003;41(4):331-8