Application of cardiac electrophysiology simulations to pro−arrhythmic safety testing

Abstract

Concerns over cardiac side effects are the largest single cause of compound attrition during pharmaceutical drug development. For a number of years, biophysically-detailed mathematical models of cardiac electrical activity have been used to explore how a compound, interfering with specific ion channel function, may explain effects at the cell-, tissue- and organ-scales. With the advent of high-throughput screening of multiple ion channels in the wet-lab, and improvements in computational modelling of their effects on cardiac cell activity, more reliable prediction of pro-arrhythmic risk is becoming possible at the earliest stages of drug development. In this article we review the current use of biophysically-detailed mathematical models of cardiac myocyte electrical activity in drug safety testing, and suggest future directions to employ the full potential of this approach.

This paper has an associated invited commentary: Gintant (2012).