Multidirectional Filamented Light Biofabrication Creates Aligned and Contractile Cardiac Tissues
Lewis S. Jones, Miriam Filippi, Mike Y. Michelis, Aiste Balciunaite, Öncay Yaşa, Gal Aviel, Maria Narciso, Susanne Freedrich, Melanie Generali, Eldad Tzahor, Robert K. Katzschmann
- Year
- 2024
- Citations
- 13
Abstract
Abstract Biofabricating 3D cardiac tissues that mimic the native myocardial tissue is a pivotal challenge in tissue engineering. In this study, we fabricate 3D cardiac tissues with controlled, multidirectional cellular alignment and directed or twisting contractility. We show that multidirectional filamented light can be used to biofabricate high‐density (up to 60 × 10 6 cells mL −1 ) tissues, with directed uniaxial contractility (3.8x) and improved cell‐to‐cell connectivity (1.6x gap junction expression). Furthermore, by using multidirectional light projection, we can partially overcome cell‐induced light attenuation, and fabricate larger tissues with multidirectional cellular alignment. For example, we fabricate a tri‐layered myocardium‐like tissue and a bi‐layered tissue with torsional contractility. The approach provides a new strategy to rapidly fabricate aligned cardiac tissues relevant to regenerative medicine and biohybrid robotics.
Keywords
Related papers
Statistical Learning Theory
Yuhai Wu, Vladimir Vapnik
1999
Fractional Differential Equations
Igor Podlubný
2025
Applied Nonlinear Control
Jean-Jacques Slotine, Weiping Li
1991
Genetic Programming: On the Programming of Computers by Means of Natural Selection
John R. Koza
1992