Abstract

IntroductionDrug-induced QT prolongation is a major safety issue during drug development because it may lead to lethal ventricular arrhythmias. In this study, we evaluated the utility of multi-electrode arrays (MEA) with human induced pluripotent stem cell-derived cardiomyocytes (hiPS-CMs) to predict drug-induced QT prolongation and arrhythmia. MethodsTen facilities evaluated the effects of 7 reference drugs (E-4031, moxifloxacin, flecainide, terfenadine, chromanol 293B, verapamil, and aspirin) using a MED64 MEA system with commercially available hiPS-CMs. Field potential duration (FPD), beat rate, FPD corrected by Fridericia's formula (FPDc), concentration inducing FPDc prolongation by 10% (FPDc10), and incidence of arrhythmia-like waveform were evaluated. ResultsThe inter-facility variability of absolute values before drug application was similar to the intra-facility variability for FPD, beat rate, and FPDc. The inter-facility variability of FPDc10 for 5 reference drugs ranged from 1.8- to 5.8-fold. At all 10 facilities, E-4031, moxifloxacin, and flecainide prolonged FPDc and induced arrhythmia-like waveforms at concentrations 1.8- to 6.1-fold higher than their FPDc10. Terfenadine prolonged FPDc and induced beating arrest at 8.0 times the FPDc10. The average FPDc10 values for E-4031, moxifloxacin, and terfenadine were comparable to reported plasma concentrations that caused QT prolongation or Torsade de Pointes in humans. Chromanol 293B, a IKs blocker, also prolonged FPDc but did not induce arrhythmia-like waveforms, even at 7.4 times the FPDc10. In contrast, verapamil shortened FPDc and aspirin did not affect FPDc or FP waveforms. DiscussionMEA with hiPS-CMs can be a generalizable method for accurately predicting both QT prolongation and arrhythmogenic liability in humans.

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