期刊
出版社
ELSEVIER
DOI: 10.1016/j.msec.2020.111789
关键词
Additive manufacturing; Printing parameters; Ti6Al4V; Bone tissue engineering; Cellular behavior
资金
- National Key Research and Development Program of China [2018YFC1106800, 2018YFB1105600]
- National Natural Science Foundation of China [31971251]
- Sichuan Province Science & Technology Department Projects [2019YFH0079, 2016CZYD0004, 2019JDTD0008, 2020YFS0036]
Customization of porous scaffolds with different micro-topological structures can be achieved by adjusting 3D printing parameters. The structure of the scaffolds significantly impacts cell adhesion and proliferation, with regularly arranged pores and pore sizes suitable for cells playing a crucial role in regulating cell behavior.
Scaffold micro-topological structure plays an important role in the regulation of cell behavior in bone tissue engineering. This paper investigated the effect of 3D printing parameters on the scaffold micro-topological structure and its subsequent cell behaviors. By setting of different 3D printing parameters, i.e., the 3D printing laser power, the scanning interval and the thickness of sliced layers, the highest resolution up to 20 mu m can be precisely fabricated. Scaffolds' characterization results indicated that the laser power affected the forming quality of melt tracks, the scanning interval distance determined the size of regularly arranged pores, and the thickness of sliced layers affected the morphological and structural characteristics. By regulating of these printing parameters, customized porous Ti6Al4V scaffold with varied hierarchical micro-topological structure can be obtained. In vitro cell culturing results showed that the regular porous micro-topological structure of scaffolds with the aperture close to cell size was more suitable for cell proliferation and adhesion. The overall distribution of cells on regular porous scaffolds was similar to the orderly arrangement of cultivated crops in the field. The findings suggested that customization of the scaffold provided an effective way to regulate cellular behavior and biological properties.
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