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Microfluidic platforms for monitoring cardiomyocyte electromechanical activity

Wei Wang, Weiguang Su, Junlei Han, Wei Song, Xinyu Li, Chonghai Xu, Yu Sun, Li Wang

2025Microsystems & Nanoengineering18 citationsDOIOpen Access PDF

Abstract

Cardiovascular diseases account for ~40% of global deaths annually. This situation has revealed the urgent need for the investigation and development of corresponding drugs for pathogenesis due to the complexity of research methods and detection techniques. An in vitro cardiomyocyte model is commonly used for cardiac drug screening and disease modeling since it can respond to microphysiological environmental variations through mechanoelectric feedback. Microfluidic platforms are capable of accurate fluid control and integration with analysis and detection techniques. Therefore, various microfluidic platforms (i.e., heart-on-a-chip) have been applied for the reconstruction of the physiological environment and detection of signals from cardiomyocytes. They have demonstrated advantages in mimicking the cardiovascular structure and function in vitro and in monitoring electromechanical signals. This review presents a summary of the methods and technologies used to monitor the contractility and electrophysiological signals of cardiomyocytes within microfluidic platforms. Then, applications in common cardiac drug screening and cardiovascular disease modeling are presented, followed by design strategies for enhancing physiology studies. Finally, we discuss prospects in the tissue engineering and sensing techniques of microfluidic platforms.

Topics & Concepts

MicrofluidicsMicrofluidic chipComputer scienceContractilityOrgan-on-a-chipDrug discoveryNanotechnologyBiomedical engineeringMedicineBioinformaticsBiologyMaterials scienceCardiology3D Printing in Biomedical ResearchNeuroscience and Neural EngineeringMicrofluidic and Bio-sensing Technologies
Microfluidic platforms for monitoring cardiomyocyte electromechanical activity | Litcius