Perfuse and Reuse: A Low-Cost 3D-Printed Perfusion Bioreactor for Tissue Engineering.

Overview

This article describes fabrication of a customizable bioreactor comprised of a perfusion system and coverslip-based tissue culture chamber that allow centimeter-scale vascularized or otherwise canalized tissue constructs to be maintained in weeks long static and/or perfusion culture at exceptionally low cost, with intermittent live imaging and media sampling capabilities. The perfusion system includes a reusable poly-dimethylsiloxane (PDMS) lid generated from a 3D-printed poly-lactic acid (PLA) mold and several lengths of perfusion tubing. The coverslip tissue culture chamber includes PDMS components built with 3D-printed PLA molds, as well as 3D-printed PLA frames and glass coverslips that house perfusable hydrogel constructs. As proof of concept, we fabricated a vascularized hydrogel construct, which was subjected to static and perfusion tissue culture, as well as flow studies using fluorescent beads and widefield fluorescent microscopy. This system can be readily reproduced, promoting the advancement of tissue engineering and regenerative medicine research.