Improving prediction of torsadogenic risk in the CiPA in silico model by appropriately accounting for clinical exposure

Publication date: Available online 13 November 2019Source: Journal of Pharmacological and Toxicological MethodsAuthor(s): Derek J. LeishmanAbstractAny adverse event is reliant on three properties: the appropriate pharmacology to trigger the event, the appropriate exposure of compound, and intrinsic patient factors. Each alone is necessary but insufficient to predict the event. The Comprehensive in vitro Proarrhythmia Assessment (CiPA) initiative attempts to predict the risk of torsade de pointes (TdP) by focusing on an in-silico model with thresholds determined at modest multiples of the therapeutic exposure for the parent molecule. This emphasizes the pharmacologic properties necessary for TdP but does not account for situations where clinical exposure may be higher, or where hERG potassium channel active metabolites are involved. Could accounting for clinical worst-case scenarios and metabolites, as is already standard practice in thorough QTc studies, improve the prediction algorithm?Terfenadine, a drug classed as “Intermediate” risk by CiPA, was assessed differently in the in-silico model validation. The clinical concentration of terfenadine used for the model was the exposure in the presence of metabolic inhibition representing a 14 to 40-fold increase in exposure compared to the therapeutic plasma concentration. However, several other “Intermediate” risk compounds are also known to be sensitive to metabolic inhibition and/or to have therapeutically active major ...
Source: Journal of Pharmacological and Toxicological Methods - Category: Drugs & Pharmacology Source Type: research