Journal of Materials Science: Materials in Medicine (Mar 2024)

Porous Mg–Zn–Ca scaffolds for bone repair: a study on microstructure, mechanical properties and in vitro degradation behavior

  • Lei Huo,
  • Qiang Li,
  • Linlin Jiang,
  • Huiqin Jiang,
  • Jianping Zhao,
  • Kangjian Yang,
  • Qiangsheng Dong,
  • Yi Shao,
  • Chenglin Chu,
  • Feng Xue,
  • Jing Bai

DOI
https://doi.org/10.1007/s10856-023-06754-y
Journal volume & issue
Vol. 35, no. 1
pp. 1 – 8

Abstract

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Abstract Biodegradable porous Mg scaffolds are a promising approach to bone repair. In this work, 3D-spherical porous Mg–1.5Zn–0.2Ca (wt.%) scaffolds were prepared by vacuum infiltration casting technology, and MgF2 and fluorapatite coatings were designed to control the degradation behavior of Mg-based scaffolds. The results showed that the pores in Mg-based scaffolds were composed of the main spherical pores (450–600 μm) and interconnected pores (150–200 μm), and the porosity was up to 74.97%. Mg-based porous scaffolds exhibited sufficient mechanical properties with a compressive yield strength of about 4.04 MPa and elastic modulus of appropriately 0.23 GPa. Besides, both MgF2 coating and fluorapatite coating could effectively improve the corrosion resistance of porous Mg-based scaffolds. In conclusion, this research would provide data support and theoretical guidance for the application of biodegradable porous Mg-based scaffolds in bone tissue engineering. Graphical Abstract

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