Patterned cardiomyocytes on microelectrode arrays as a functional, high information content drug screening platform

Abstract Cardiac side effects are one of the major causes of drug candidate failures in preclinical drug development or in clinical trials and are responsible for the retraction of several already marketed therapeutics. Thus, the development of a relatively high-throughput, high information content...

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Bibliographic Details
Published in:Biomaterials 2011-06, Vol.32 (18), p.4267-4274
Main Authors: Natarajan, Anupama, Stancescu, Maria, Dhir, Vipra, Armstrong, Christopher, Sommerhage, Frank, Hickman, James J, Molnar, Peter
Format: Article
Language:English
Subjects:
Action Potentials - drug effects
Action Potentials - physiology
Advanced Basic Science
Antitubercular Agents - pharmacology
Biosensor
Cardiac tissue engineering
Cardiomyocyte
Cells, Cultured
Clinical Trials as Topic
Culture Media, Serum-Free
Dentistry
Drug Evaluation, Preclinical - methods
Electrode
Fluoroquinolones - pharmacology
Heptanol - pharmacology
Humans
In vitro test
Microelectrodes
Micropatterning
Myocytes, Cardiac - cytology
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Summary:Abstract Cardiac side effects are one of the major causes of drug candidate failures in preclinical drug development or in clinical trials and are responsible for the retraction of several already marketed therapeutics. Thus, the development of a relatively high-throughput, high information content tool to screen drugs and toxins would be important in the field of cardiac research and drug development. In this study, recordings from commercial multielectrode arrays were combined with surface patterning of cardiac myocyte monolayers to enhance the information content of the method; specifically, to enable the measurement of conduction velocity, refractory period after action potentials and to create a functional re-entry model. Two drugs, 1-Heptanol, a gap junction blocker, and Sparfloxacin, a fluoroquinone antibiotic, were tested in this system. 1-Heptanol administration resulted in a marked reduction in conduction velocity, whereas Sparfloxacin caused rapid, irregular and unsynchronized activity, indicating fibrillation. As shown in these experiments, patterning of cardiac myocyte monolayers solved several inherent problems of multielectrode recordings, increased the temporal resolution of conduction velocity measurements, and made the synchronization of external stimulation with action potential propagation possible for refractory period measurements. This method could be further developed as a cardiac side effect screening platform after combination with human cardiomyocytes.
ISSN:0142-9612
1878-5905
DOI:10.1016/j.biomaterials.2010.12.022