• Our CiPA Instruments

    Patchliner & SyncroPatch 384PE (CiPA ion channel working group); CardioExcyte 96 (CiPA myocyte working group)

  • CiPA hERG Protocol

    This protocol was used for hERG studies on the Patchliner and SyncroPatch 384PE.

  • HTS CiPA hERG Assay

    Effects of Cisapride using the CiPA hERG protocol on the SyncroPatch 384PE

  • Myocyte & Ion Channel Effects

    Arrhythmic Field potentials in iPSC-derived Cardiomyocytes (CardioExcyte 96) and hERG current inhibition (SyncroPatch 384PE)

  • Gigaseal HTS patch clamp

    CiPA-specified cardiac ion channels recorded at high throughput

  • Gigaseal HTS patch clamp

    High throughput recordings of cardiac ion channels at physiological temperature

  • CardioExcyte 96 screening tool

    CardioExcyte 96 with integrated liquid handling for cardiac safety screening

2018 - Cross-site comparison of excitation-contraction coupling using impedance and field potential recordings in hiPSC cardiomyocytes

Icon CE   CardioExcyte 96 publication in Journal of Pharmacological and Toxicological Methods (2018)

Authors:
Bot C.T., Juhasz K., Haeusermann F., Polonchuk L., Traebert M., Stölzle-Feix S.

Journal:
Journal of Pharmacological and Toxicological Methods (2018) doi: 10.1016/j.vascn.2018.06.006


Abstract:

Introduction: Since 2005 the S7B and E14 guidances from ICH and FDA have been in place to assess a potential drug candidate's ability to cause long QT syndrome. To refine these guidelines, the FDA proposed the Comprehensive in vitro Proarrhythmia Assay (CiPA) initiative, where the assessment of drug effects on cardiac repolarization was one subject of investigation. Within the myocyte validation study, effects of pharmaceutical compounds on human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) were assessed and this article will focus on the evaluation of the proarrhythmic potential of 23 blinded drugs in four hiPSC-CM cell lines.
Methods: Experiments were performed on the CardioExcyte 96 at different sites. A combined readout of contractility (via impedance) and electrophysiology endpoints (field potentials) was performed.
Results: Our data demonstrates that hERG blockers such as dofetilide and further high risk categorized compounds prolong the field potential duration. Arrhythmia were detected in both impedance as well as field potential recordings. Intermediate risk compounds induced arrhythmia in almost all cases at the highest dose. In the case of low risk compounds, either a decrease in FPD⁠max was observed, or not a significant change from pre-addition control values.
Discussion: With exceptions, hiPSC-CMs are sensitive and exhibit at least 10% delayed or shortened repolarization from pre-addition values and arrhythmia after drug application and thus can provide predictive cardiac electrophysiology data. The baseline electrophysiological parameters vary between iPS cells from different sources, therefore positive and negative control recordings are recommended.


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