A novel and cost-effective method for high-throughput 3D culturing and rhythmic assessment of hiPSC-derived cardiomyocytes using retroreflective Janus microparticles.
Huyen T M PhamDuc Long NguyenHyo-Sop KimEun Kyeong YangJae-Ho KimHyun C YoonHyun-Ji ParkPublished in: Biomaterials research (2023)
The integration of the 3D culture method and RJPs in this study establishes a platform for evaluating the rhythmic properties of 3D hiPSC-CMs. This approach holds significant potential for identifying arrhythmias or other cardiac abnormalities, ultimately contributing to the development of more effective therapies for heart diseases.