Recent advances in 3D-printing-based organ-on-a-chip

Organ-on-a-chip(OOC)facilitates precise manipulation of fluids in microfluidic chips and simulation of the physiological,chemical,and mechanical characteristics of tissues,thus providing a promising tool for in vitro drug screening and physiological modeling.In recent decades,this technology has advanced rapidly because of the development of various three-dimensional(3D)printing techniques.3D printing can not only fabricate microfluidic chips using materials such as resins and polydimethylsiloxane but also construct biomimetic tissues using bioinks such as cell-loaded hydrogels.In this review,recent advances in 3D-printing-based OOC are systematically summarized based on materials used for direct or indirect 3D printing of OOC,3D printing techniques for the construction of OOC,and applications of 3D-printing-based OOC in models of the heart,blood vessels,intestines,liver,and kidney.Moreover,the paper outlines prospective vistas and hurdles within the field,intended to catalyze innovative use of 3D printing methodologies to propel OOC advancements.