3D Bioplotter Research Papers

Three-dimensional (3D) printing has evolved to incorporate controlled delivery systems to guide the regeneration of complex tissues, with limited clinical translation. The challenges include the limited precision in spatiotemporal delivery and poorly understood in vivo scaffold degradation rates. Here, we report auspicious preclinical outcomes in the functional regeneration of temporomandibular joint (TMJ) discs of mini-pigs. TMJ disc has been an extremely challenging target for regenerative engineering given the uniquely heterogeneous matrix distribution and region-variant anisotropic orientation. We optimally implemented advanced 3D printing technologies with micro-precise spatiotemporal delivery to build anatomically correct, bioactive scaffolds with native-like regionally variant microstructure and mechanical…

Calcium phosphate cement (CPC) is widely used in orthopedics, dentistry and spine surgery because of its excellent biocompatibility, osteoconductivity, arbitrary shaping and self-setting ability. However, slow degradation rate of CPC decreases its bone regeneration efficacy. Herein, poly (lactic co-glycolic acid) microspheres (PLGAm) and wollastonite (WS) were mixed with CPC powder to prepare CPC composite pastes, and then the composite pastes were perfused into poly (lactic co-glycolic acid) network (PLGAnw) to construct composite bone repair materials. The degradation of PLGAnw generated interconnected macropores with the short side of about 468 μm along horizontal axis and the long side of about 785…