Published October 10, 2024 | Version v1
Dataset Open

Safe cardiac action potential test (www.scaptest.com) : a database describing the in silico cardiac safety profile of drugs and their propensity to induce early afterdepolarization - Part II : description of 50 additional drugs

  • 1. scaptest

Description

This file describes the in silico cardiac safety profile of 50 additional drugs (in addition to the 150 drugs already described in the zenodo file 7541554) in order to complete the “scaptest” database.  The aim of this database is to describe the in silico cardiac safety profile of drugss and their propensity to induce early afterdepolarization.  This is based on the study of the effects of drugs on the non-failing human ventricular myocyte action potential (endo-, mid- and epicardial subtypes) reconstructed by computational simulation (O’Hara-Rudy dynamic algorithm) in order to identify cardiac action potential abnormalities such as high variations and/or occurrence of resting membrane potential, action potential amplitude, maximal rate of action potential rise, action potential duration, triangulation, early afterdepolarization, transmural dispersion of repolarization, reverse use dependence, qNet or minimal rate of action potential decrease at early afterdepolarization take-off voltage. These various parameters are useful in order to assume a more accurate predictability of pro-arrhythmic liabilities of new drug candidate in the cardiac safety pharmacology screening process, which is the aim of the comprehensive in vitro pro-arrhythmia assay (CiPA) initiative. The in silico cardiac safety profile of each drug is illustrated by a separate page describing the effects induced by each compound on these various parameters. The results are summarized regarding the expected pro-arrhythmia profile of the various compounds as described by the CredibleMeds classification evaluating their propensity to induce torsade de pointes.

Files

zenodo13913353.pdf

Files (9.8 MB)

Name Size Download all
md5:f7c190188dd48627d8561604859e26bb
9.8 MB Preview Download