3D Bioplotter Research Papers

Organ-on-a-chip (OOC) is now becoming a potential alternative to the classical preclinical animal models, which reconstitutes in vitro the basic function of specific human tissues/organs and dynamically simulates physiological or pathological activities in tissue and organ level. Despite of the much progress achieved so far, there is still an urgent need to explore new biomaterials to construct a reliable and efficient tissue–tissue interface and a general fabrication strategy to expand from single-organ OOC to multi-organ OOC in an easy manner. In this paper, we propose a novel strategy to prepare double-compartment organ-on-a-chip (DC-OOC) using electrospun poly(l-lactic acid)/collagen I (PLLA/Col I)…

Inspired by stimuli-tailored dynamic processes that spatiotemporally create structural and functional diversity in biology, a new hierarchical patterning strategy is proposed to induce the emergence of complex multidimensional structures via dynamic sacrificial printing of stimuli-responsive hydrogels. Using thermally responsive gelatin (Gel) and pH-responsive chitosan (Chit) as proof-of-concept materials, we demonstrate that the initially printed sacrificial material (Gel/Chit-H+ hydrogel with a single gelatin network) can be converted dynamically into non-sacrificial material (Gel/Chit-H+–Citr hydrogel with gelatin and an electrostatic citrate–chitosan dual network) under stimulus cues (citrate ions). Complex hierarchical structures and functions can be created by controlling either the printing patterns of…