Litcius/Paper detail

Concentration-dependent mortality of chloroquine in overdose

James A Watson, Joel Tärning, Richard M. Hoglund, Frédéric J. Baud, Bruno Mégarbane, Jean-Luc Clemessy, Nicholas J. White

2020eLife32 citationsDOIOpen Access PDF

Abstract

Hydroxychloroquine and chloroquine are used extensively in malaria and rheumatological conditions, and now in COVID-19 prevention and treatment. Although generally safe they are potentially lethal in overdose. In-vitro data suggest that high concentrations and thus high doses are needed for COVID-19 infections, but as yet there is no convincing evidence of clinical efficacy. Bayesian regression models were fitted to survival outcomes and electrocardiograph QRS durations from 302 prospectively studied French patients who had taken intentional chloroquine overdoses, of whom 33 died (11%), and 16 healthy volunteers who took 620 mg base chloroquine single doses. Whole blood concentrations of 13.5 µmol/L (95% credible interval 10.1-17.7) were associated with 1% mortality. Prolongation of ventricular depolarization is concentration-dependent with a QRS duration >150 msec independently highly predictive of mortality in chloroquine self-poisoning. Pharmacokinetic modeling predicts that most high dose regimens trialled in COVID-19 are unlikely to cause serious cardiovascular toxicity.

Topics & Concepts

ChloroquineMedicineHydroxychloroquineDrug overdoseToxicityMalariaPharmacokineticsQRS complexQT intervalPharmacologyInternal medicineCoronavirus disease 2019 (COVID-19)AnesthesiaPoison controlEmergency medicineDiseaseImmunologyInfectious disease (medical specialty)COVID-19 Clinical Research StudiesDrug-Induced Ocular ToxicityMalaria Research and Control