Integrated biocompatible 3D printed isoporous membranes with 7 m pores

In this work, we present a new 3D printing technique that enables the realization of native digital micro-mirror device (DMD) resolution in negative features of a 3D printed part without improving 3D printer hardware and demonstrate the fabrication of fully integrated, biocompatible isoporous membranes with pore sizes as small as 7 mu m. We utilize this technique to construct a microfluidic device that mimics an established organ-on-a-chip configuration, including an integrated isoporous membrane. Two cell populations are seeded on either side of the membrane and imaged as a proof of concept for other organ-on-a-chip applications. These 3D printed isoporous membranes can be leveraged for a wide variety of other mechanical and biological applications, creating new possibilities for seamlessly integrated, 3D printed microfluidic devices. A new 3D printing method allows for fabrication of porous membranes with 7 mu m pores. A device mimicking an organ-on-a-chip design is fabricated and seeded with living cells, demonstrating potential for diverse biological and mechanical applications.