Additively manufactured bioceramic scaffolds based on triply periodic minimal surfaces for bone regeneration
Publication date
2024
Authors
Zhu, Hong
Wang, Jinsi
Wang, Shengfa
Yang, Yue
Chen, Meiyi
Luan, Qifei
Liu, Xiaochuan
Lin, Ziheng
Hu, Jiaqi
Man, Kenny
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
cc_by_nc
Abstract
The study focused on the effects of a triply periodic minimal surface (TPMS) scaffolds, varying in porosity, on the repair of mandibular defects in New Zealand white rabbits. Four TPMS configurations (40%, 50%, 60%, and 70% porosity) were fabricated with β-tricalcium phosphate bioceramic via additive manufacturing. Scaffold properties were assessed through scanning electron microscopy and mechanical testing. For proliferation and adhesion assays, mouse bone marrow stem cells (BMSCs) were cultured on these scaffolds. In vivo, the scaffolds were implanted into rabbit mandibular defects for 2 months. Histological staining evaluated osteogenic potential. Moreover, RNA-sequencing analysis and RT-qPCR revealed the significant involvement of angiogenesis-related factors and Hippo signaling pathway in influencing BMSCs behavior. Notably, the 70% porosity TPMS scaffold exhibited optimal compressive strength, superior cell proliferation, adhesion, and significantly enhanced osteogenesis and angiogenesis. These findings underscore the substantial potential of 70% porosity TPMS scaffolds in effectively promoting bone regeneration within mandibular defects.
Keywords
3D printer/additive manufacture, bone regeneration, mandibular defect, osteogenesis, TPMS bone scaffold, Medicine (miscellaneous), Biomaterials, Biomedical Engineering
Citation
Zhu, H, Wang, J, Wang, S, Yang, Y, Chen, M, Luan, Q, Liu, X, Lin, Z, Hu, J, Man, K & Zhang, J 2024, 'Additively manufactured bioceramic scaffolds based on triply periodic minimal surfaces for bone regeneration', Journal of Tissue Engineering, vol. 15, pp. 1-15. https://doi.org/10.1177/20417314241244997