3D Bioplotter Research Papers

Self-setting calcium phosphate cement (CPC) scaffold with interconnected macropores is hard to prepare without compromising its hydration reaction. Herein, an indirect 3D printing method is using to prepare CPC scaffolds. Detailedly, polycaprolactone (PCL)-sacrificed models with different strut sizes are first printed by 3D plotting technique, and then the CPC pastes are perfused into the PCL models and then self-setting. After the removal of the PCL models, the CPC scaffolds with different pore sizes are obtained. It is showed in the results that the prepared CPC scaffolds had uniform shape and 3D interconnected macropore structure. Meanwhile, the compressive strength of CPC…

Inefficient bone regeneration of self‐hardening calcium phosphate cement (CPC) increases the demand for interconnected macropores and osteogenesis‐stimulated substances. It remains a challenge to fabricate porous CPC with interconnected macropores while maintaining its advantages, such as plasticity. Herein, pastes containing CPC and wollastonite (WS) are infiltrated into a 3D plotted poly(lactic‐co‐glycolic acid) (PLGA) network to fabricate plastic CPC‐based composite cement (PLGA/WS/CPC). The PLGA/WS/CPC recovers the plasticity of CPC after being heated above the glass transition temperature of PLGA. The presence of the 3D PLGA network significantly increases the flexibility of CPC in prophase and generates 3D interconnected macropores in situ upon…