Abstract
Multi electrode arrays (MEAs) are increasingly used to detect external field potentials in electrically active cells. Recently, in combination with cardiomyocytes derived from human (induced) pluripotent stem cells they have started to become a preferred tool to examine newly developed drugs for potential cardiac toxicity in pre-clinical safety pharmacology. The most important risk parameter is proarrhythmic activity in cardiomyocytes which can cause sudden cardiac death. Whilst MEAs can provide medium- to high- throughput noninvasive assay platform, the translation of a field potential to cardiac action potential (normally measured by low-throughput patch clamp) is complex so that accurate assessment of drug risk to the heart is in practice still challenging. To address this, we used computational simulation to study the theoretical relationship between aspects of the field potential and the underlying cardiac action potential. We then validated the model in both primary mouse- and human pluripotent (embryonic) stem cell-derived cardiomyocytes showing that field potentials measured in MEAs could be converted to action potentials that were essentially identical to those determined directly by electrophysiological patch clamp. The method significantly increased the amount of information that could be extracted from MEA measurements and thus combined the advantages of medium/high throughput with more informative readouts. We believe that this will benefit the analysis of drug toxicity screening of cardiomyocytes using in time and accuracy.
Highlights
Multi electrode arrays (MEAs) have been developed to measure electrical activity in neural and cardiac cells
The field potential (FP) of a cell on a MEA electrode can be best understood from the electronic equivalent circuit (Fig. 1B)
The filter characteristics of a single MEA electrode is modelled by applying a second order Chybechev digital infinite impulse response (IIR) filter with a half maximal cut off frequency (Fc) of 30 Hz on an AP measured on a mouse E17.5 cardiomyocyte (Fig. 1E and C, respectively)
Summary
Multi electrode arrays (MEAs) have been developed to measure electrical activity in neural and cardiac cells They are being increasingly used to analyze pharmacological toxicity of newly developed or combinations of compounds on cardiomyocytes of the heart. In combination with cardiomyocytes derived from human (induced) pluripotent stem cells (hiPSC-CMs) they have started to emerge as powerful tools to examine the ability of certain compounds to induce arrhythmias in the heart, which can lead to “Sudden Cardiac Death”. This represents a major toxic hazard for new drugs in pre-clinical evaluation [1]. Crucial will be the ability to measure electrical responses of the cardiomyocytes in an accurate and predictive yet medium- to high- throughput platform
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