bioRxivpreprint

Suspended Tissue Engineering with Assemblable Microfluidics (STEAM)

Suspended tissue culture systems enable cellular responses to mechanical forces critical for tissue development and function. Tissues develop in complex environments containing both mechanical and chemical cues that vary spatiotemporally; thus modeling both of these physiochemistries in vitro through integration of spatial patterning with mechanical manipulation simultaneously is an important aspect in microphysiological tissue modeling which has yet to be achieved. Here, we introduce Suspended Tissue Engineering with Assemblable Microfluidics (STEAM), a modular tissue fabrication platform that allows for spatially heterogeneous suspended tissue architectures. With STEAM, we achieve tissue c

bioengineeringcell biologydevelopment