3D printing of PEGDA/bioceramic for guiding cell adhesion and migration

Abstract

The adhesion and migration characteristics of osteocytes on the surface of bone materials are crucial for bone tissue regeneration, which is conducive to the directional repair of bone defects. Herein, the adhesion and migration characteristics of MC3T3-E1 cells on the surface of SLA-3D printed PEGDA/bioceramic materials were analyzed in detail. The results indicated that, in comparison to the cured PEGDA matrix, the pseudopods of cells preferred to adhere to ceramic particles, demonstrating the characteristics of hard drive migration. Furthermore, on a wavy surface with a surface roughness (Ra=2 μm) fabricated by the laser of the SLA-3D printer, MC3T3-E1 cells could grow directionally along the rough channel via contact guidance. Therefore, by controlling the distribution of ceramic particles and adjusting the surface morphology of the printed PEGDA/bioceramic materials, the migration direction of cells can be dominated, which is of great significance for the targeted repair of bone tissue.