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Establishment of a heart-on-a-chip microdevice based on human iPS cells for the evaluation of human heart tissue function

Mosha Abulaiti, Yaxiaer Yalikun, Kozue Murata, Asako Sato, Mustafa M. Sami, Yuko Sasaki, Yasue Fujiwara, Kenji Minatoya, Yuji Shiba, Yo Tanaka, Hidetoshi Masumoto

2020Scientific Reports145 citationsDOIOpen Access PDF

Abstract

Human iPS cell (iPSC)-derived cardiomyocytes (CMs) hold promise for drug discovery for heart diseases and cardiac toxicity tests. To utilize human iPSC-derived CMs, the establishment of three-dimensional (3D) heart tissues from iPSC-derived CMs and other heart cells, and a sensitive bioassay system to depict physiological heart function are anticipated. We have developed a heart-on-a-chip microdevice (HMD) as a novel system consisting of dynamic culture-based 3D cardiac microtissues derived from human iPSCs and microelectromechanical system (MEMS)-based microfluidic chips. The HMDs could visualize the kinetics of cardiac microtissue pulsations by monitoring particle displacement, which enabled us to quantify the physiological parameters, including fluidic output, pressure, and force. The HMDs demonstrated a strong correlation between particle displacement and the frequency of external electrical stimulation. The transition patterns were validated by a previously reported versatile video-based system to evaluate contractile function. The patterns are also consistent with oscillations of intracellular calcium ion concentration of CMs, which is a fundamental biological component of CM contraction. The HMDs showed a pharmacological response to isoproterenol, a β-adrenoceptor agonist, that resulted in a strong correlation between beating rate and particle displacement. Thus, we have validated the basic performance of HMDs as a resource for human iPSC-based pharmacological investigations.

Topics & Concepts

Induced pluripotent stem cellHuman heartBiomedical engineeringMicrofluidicsCalcium in biologyChemistryComputer scienceMaterials scienceNanotechnologyIntracellularMedicineCardiologyEmbryonic stem cellBiochemistryGene3D Printing in Biomedical ResearchMicrofluidic and Capillary Electrophoresis ApplicationsNeuroscience and Neural Engineering
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