Biofunctionalisation strategies of material surface and the inspired biological effects for bone repair

Author:

Duan Guowen12ORCID,Chang Dongbiao23ORCID,Zhang Chengdong23,Li Siyu23,Liu Xinyao3,Wang Zian23,Chen Long23,Li Jinsheng23,Bai Zhenfan23,Weng Jie23

Affiliation:

1. School of Life and Engineering Southwest Jiaotong University Chengdu China

2. Key Laboratory of Advanced Technologies of Materials Ministry of Education School of Materials Science and Engineering Southwest Jiaotong University Chengdu China

3. College of Medicine (Institute of Biomedical Engineering) Southwest Jiaotong University Chengdu China

Abstract

AbstractDue to trauma and disease, bone defects endanger the healthy life of human beings. At present, the gold standard for bone defect repair is still autologous bone transplantation and allogeneic bone transplantation. However, its insufficient source, potential disease transmission and immune rejection limit its clinical application. Therefore, the development of bone repair materials plays an important role in promoting bone repair. As the interface between material and tissue, the surface of the material plays an important role in the reaction after implantation, which determines the effectiveness of defect repair treatment. With the development of surface engineering and technology, bone repair materials have developed from biological inertia to biological activity by endowing various biological functions by controlling the composition, topological morphology and structure of the material surface etc. The inspired biofunctionalisation of material surface includes the capacities of inducing osteogenesis, promoting angiogenesis, antibacterial, immune regulation etc., as well as integration of postoperative repair and treatment. The authors review the biofunctionalisation of biomaterial surface and the inspired biological effects for bone repair, mainly including physical and chemical properties of material surface to regulate osteogenesis, and functional strategy of bone repair material surface.

Funder

National Natural Science Foundation of China

Publisher

Institution of Engineering and Technology (IET)

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