INH toxicity

Background

• INH used for latent and active TB treatment

Toxicology

• Isoniazid’s metabolites restrict the conversion of pyridoxine to pyrodoxal-5’-phosphate and binds to pyridoxine, facilitating its excretion in the urine
• Loss of pyridoxine leads to decreased GABA synthesis due to the decreased function of glutamic acid decarboxylase (GAD)
• Anion-gap acidosis likely results from lactic acid buildup as a consequence of persistent seizure activity
• Finally come due to decreased catecholamine synthesis secondary to pyridoxine depletion

Toxic Dose

• 2-3g ingested can lead to symptoms, 10-15g can lead to death^[1]

Pharmacology

• Absorbed via GI tract (small intestine), peak concentrations at 1-2 hours after ingestion
• Volume of Distribution: 0.6L/kg

Metabolism

• Clearance of 46mL/min, metabolized by acetylation.
  • T_1/2 for fast acetylators = 70 minutes
  • T_1/2 for slow acetylators = 3 hours

Excretion

• Via kidneys with levels successfully measured in urine^[1]

Clinical Features

Signs and Symptoms

• Seizure
• Metabolic Acidosis
• Coma
• Signs and symptoms can appear 30 minutes after ingestion, with more severe symptoms including persistent seizures, metabolic acidosis, and coma

• Hepatotoxicity
  • Most common side effect and more frequent with slow acetylators, the elderly, and those with preexisting liver disease
  • Approximately 20% of patients on isoniazid therapy can have elevated liver enzymes
  • Treatment is stopped when levels reach three times the upper limit of normal with symptoms or five times the limit of normal without^[1][2]

Evaluation

• Seizures refractory to conventional treatment are hallmarks of isoniazid toxicity
• Clinical history is extremely important in evaluating for isoniazid toxicity (i.e. dosing history, duration of treatment, estimated dose taken)
• Elevated anion-gap metabolic acidosis with elevated lactate in the appropriate clinical setting AND refractory seizures should raise suspicion
• INH levels can be measured but results may not immediately be available ^[1]

Management

• Focus is on aggressive supportive care and hemodynamic stabilization Focuses mainly on management of symptoms and stabilization of patient.

Activated Charcoal

• If ingestion occurred within an hour of presentation, activated charcoal with cathartics may be necessary to restrict absorption and to facilitate excretion via the GI tract

Benzos

• May not be effective but will activate the GABA receptors and halt seizure activity

Pyridoxine

• Known INH quantity ingested treat with with a 1:1 ingested isoniazid:administered pyridoxine dose ratio
• Unknown INH quantity ingested treat with empiric 5g of pyridoxine can be administered

• Children - start 70-300mg/kg and increase until seizure resolves^[3]

• IV Infusion rate is 0.5 g/min until the seizures stop or the maximum dose is reached. Remainder of dose infused over 4 to 6 hours
• Pyridoxine administration may temporarily worsen the metabolic acidosis
• Hemodialysis can clear lactate and isoniazid from the bloodstream effectively and can be used as a final measure to increase clearance if needed. ^[1]

Disposition

• Patient will likely require admission and potentially ICU care for continued monitoring and evaluation
• If the patient has active TB also keep in respiratory isolation

See Also

• Seizure (Peds)
• Seizures
• Antidotes

References

1. ↑ ^{1.0 1.1 1.2 1.3 1.4} Haddad and Winchester’s Clinical Management of Poisoning and Drug Overdose, 4th Ed. Chapter 55: Isoniazid.
2. ↑ Gent, WL et al. Factors in hydrazine formation from isoniazid by paediatric and adult tuberculosis patients. Eur J Clin Pharmacol (1992) 43: 131-136.
3. ↑ Minns, A. et al. Isoniazid-Induced Status Epilepticus in a Pediatric Patient After Inadequate Pyridoxine Therapy. Pediatric Emergency Care. 2010:26(5)380-381