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Review
. 2010 Sep;5(3):227-32.
doi: 10.2174/157488810791824502.

Combination of functional cardiomyocytes derived from human stem cells and a highly-efficient microelectrode array system: an ideal hybrid model assay for drug development

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Review

Combination of functional cardiomyocytes derived from human stem cells and a highly-efficient microelectrode array system: an ideal hybrid model assay for drug development

Yasuyuki Asai et al. Curr Stem Cell Res Ther. 2010 Sep.

Abstract

Human pluripotential stem cells including both embryonic stem cells (hESC) and induced pluripotent stem cells (hiPSC) possess self-renewing potency and pluripotentency and can differentiate into virtually any somatic cell type. These features are a distinct advantage for the generation of specific types of human tissue cells in vitro for continuous use in drug development. Recently, an assay system for drug-induced QT interval prolongation using hESC/hiPSC-derived cardiomyocytes and microelectrode arrays (MEA) has been developed. Drug-induced QT interval prolongation (DIQTIP) can lead to sudden cardiac death and is a major safety concern for the drug industry. Regulatory authorities such as the US FDA and the European Medicines Agency require in-vitro testing of all drug candidates to identify potential risk of DIQTIP prior to clinical trials. To reduce the risk of DIQTIP, a routine assay system for in vitro electrophysiological properties using cell-based assays is effective and necessary in early phase of drug discovery. This review discusses developments over the last couple of years for a qualified drug testing method and provides some examples of how hESC/hiPSC-derived cardiomyocytes are beginning to find a practical use for drug discovery and development.

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