Hybrid Cell Analysis System to Assess Structural and Contractile Changes of Human iPSC-Derived Cardiomyocytes for Preclinical Cardiac Risk Evaluation

“…The methodology by Lickiss et al 2 presents a hybrid contractility and impedance/extracellular field potential (EFP) technology, adding significant pro-maturation features to an industry-standard 96-well platform by using a soft, flexible, silicon-based cell culture substrate. The approach proved successful by re-establishing the physiological positive inotropic response to isoproterenol in commercially available healthy hiPSC-CMs, which is knowingly absent in the standard (stiff substrate) culture without the need for a 3D system.…”

Comprehensive Collection of Current Methods for Contractility and Electrophysiology Recordings in Human Cardiac Cells

“…The methodology by Lickiss et al 2 presents a hybrid contractility and impedance/extracellular field potential (EFP) technology, adding significant pro-maturation features to an industry-standard 96-well platform by using a soft, flexible, silicon-based cell culture substrate. The approach proved successful by re-establishing the physiological positive inotropic response to isoproterenol in commercially available healthy hiPSC-CMs, which is knowingly absent in the standard (stiff substrate) culture without the need for a 3D system.…”

Comprehensive Collection of Current Methods for Contractility and Electrophysiology Recordings in Human Cardiac Cells

Success and Challenges with Models for Cardiac Translational Research

Success and Challenges with Models for Cardiac Translational Research