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Direct laser writing for cardiac tissue engineering: a microfluidic heart on a chip with integrated transducers

Rachael K. Jayne, M. Çağatay Karakan, Kehan Zhang, Noelle Pierce, Christos Michas, David J. Bishop, Christopher S. Chen, Kamil L. Ekinci, Alice E. White

2021Lab on a Chip54 citationsDOIOpen Access PDF

Abstract

We have developed a microfluidic platform for engineering cardiac microtissues in highly-controlled microenvironments. The platform is fabricated using direct laser writing (DLW) lithography and soft lithography, and contains four separate devices. Each individual device houses a cardiac microtissue and is equipped with an integrated strain actuator and a force sensor. Application of external pressure waves to the platform results in controllable time-dependent forces on the microtissues. Conversely, oscillatory forces generated by the microtissues are transduced into measurable electrical outputs. We demonstrate the capabilities of this platform by studying the response of cardiac microtissues derived from human induced pluripotent stem cells (hiPSC) under prescribed mechanical loading and pacing. This platform will be used for fundamental studies and drug screening on cardiac microtissues.

Topics & Concepts

MicrofluidicsMaterials scienceTransducerBiomedical engineeringActuatorLaserChipPhotolithographyNanotechnologyTissue engineeringHuman heartOptoelectronicsHuman Induced Pluripotent Stem CellsSoft lithographyMicrofluidic chipLithographyInduced pluripotent stem cellNative tissueMechanical engineeringElectronic engineering3D Printing in Biomedical ResearchNonlinear Optical Materials StudiesLaser Material Processing Techniques
Direct laser writing for cardiac tissue engineering: a microfluidic heart on a chip with integrated transducers | Litcius