9 Poisoning
Etiology and Pathogenesis
The mechanism of toxicity varies from one agent to another, yet there are some classic presentations that can be seen with particular ingestions (Table 9-1). Ingestions that can be lethal in small doses are reviewed in more depth here.
Ingestion | Clinical Findings |
---|---|
Acetaminophen | Nausea, vomiting, anorexia early in course; late findings of jaundice and liver failure |
Antihistamines | Initially CNS depression but stimulation in higher doses (hyperactivity, tremors, hallucinations, seizures) |
Aspirin | Tachypnea, respiratory alkalosis, metabolic acidosis, tinnitus, coagulopathy, slurred speech, seizures |
β-Blockers | Bradycardia, hypotension, coma or convulsions, hypoglycemia, bronchospasm |
Calcium channel blockers | Bradycardia, hypotension, junctional arrhythmias, hyperglycemia, metabolic acidosis |
Caustics | Coagulation necrosis (acid) or liquefaction necrosis (alkali), scarring, strictures, burning, dysphagia, glottic edema |
Digoxin | Nausea, vomiting, visual disturbances, lethargy, electrolyte disturbances, hyperkalemia, prolonged AV dissociation and heart block, arrhythmias |
Disc batteries | Corrosive when in contact mucosal surfaces |
Ethanol | Nausea, vomiting, stupor, anorexia; late toxicity: triad of coma, hypothermia, hypoglycemia Lethal (cardiorespiratory depression) if >400-500 mg/dL (life-threatening hypoglycemia may occur at much lower levels in young children) |
Ethylene glycol | CNS depression, metabolic acidosis, convulsions and coma, hypocalcemia, renal failure Laboratory findings: anion gap metabolic acidosis, osmolal gap, urine oxalate crystals |
Hypoglycemic agents | Hypoglycemia, coma, seizures |
Iron | Hemorrhagic necrosis of GI mucosa, hypotension, hepatotoxicity, metabolic acidosis, coma, seizure, shock |
Isopropyl alcohol | Altered mental status, gastritis, hypotension Laboratory findings: elevated osmolal gap, ketonuria (no metabolic acidosis or hypoglycemia) |
Lead | Abdominal pain, constipation, anorexia, listlessness, encephalopathy (peripheral neuropathy; rare in children), microcytic anemia |
Methanol | CNS depression, delayed metabolic acidosis, optic disturbances Laboratory findings: anion gap metabolic acidosis, osmolal gap |
Tricyclic antidepressants | Lethargy, disorientation, ataxia, urinary retention, decreased GI motility, coma, seizures Cardiovascular alterations: sinus tachycardia, widened QRS complex; may progress to hypotension, ventricular dysrhythmias, cardiovascular collapse |
AV, atrioventricular; CNS, central nervous systeml; GI, gastrointestinal.
Compiled from Eldridge DL, Van Eyk J, Kornegay C: Pediatric toxicology. Emerg Med Clin North AM 15:283-308, 2007 and Osterhoudt K, Shannon M, Burns Ewald M, Henretig F: Toxicologic emergencies. In Fleisher GR, Ludwig S (eds): Textbook of Pediatric Emergency Medicine, ed 6. Philadelphia, Lippincott Williams & Wilkins, 2010, pp 1171-1223.
Calcium Channel Blockers and Beta-Adrenergic Blockers
Calcium channel blockers are most often used to treat hypertension, angina, migraines, and glaucoma, and they work by antagonizing L-type voltage-gated calcium channels in vascular smooth muscle and cardiac tissue. By preventing calcium influx into these cells, calcium antagonists cause vasodilatation as well as depression of both myocardial conduction and contractility. In large doses, this can lead to life-threatening bradycardia, heart block, and hypotension. Beta-adrenergic blockers can have similar cardiotoxicity in overdose (Table 9-1).
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