Issue 26, 2019, Issue in Progress

Degradation and biocompatibility of a series of strontium substituted hydroxyapatite coatings on magnesium alloys

Abstract

There has been a surge in the research on magnesium (Mg) alloys as a promising selection for biomaterials application. However, as a foremost drawback, the fast degradation of Mg alloys limits its clinical use. In this study, a series of Sr-HA coatings with the Sr content ranging between 10–100% were prepared on Mg alloys, in order to control the degradation and enhance the osteoblast response. Microstructure analysis indicated the formation of Ca10−xSrx(PO4)6(OH)2 coatings with the thickness ranging between 28–35 μm. The degradation results suggested that an increase in the Sr content in the coatings led to the decreasing degradation rate of the Sr-HA coated Mg. 100% Sr-HA coatings provided the best corrosion protective effect with nearly no hydrogen evolution during 10 days' immersion in Hank's solution. The in vitro cell biocompatibility was evaluated with MC3T3-E1 osteoblasts using the extract assay. In each case the released Sr affected the osteoblast proliferation and the expression of osteogenesis markers including, ALP, Col-I and RUNX2, in a Sr concentration-dependent manner. These results suggest that Sr-HA coating is a promising combination for controlling the degradation and enhancing the cytocompatibility of Mg alloys. The degradation and osteoblast response could be simply controlled through the adjustment of Sr content in the coatings.

Graphical abstract: Degradation and biocompatibility of a series of strontium substituted hydroxyapatite coatings on magnesium alloys

Article information

Article type
Paper
Submitted
22 Mar 2019
Accepted
04 May 2019
First published
14 May 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 15013-15021

Degradation and biocompatibility of a series of strontium substituted hydroxyapatite coatings on magnesium alloys

X. Gu, W. Lin, D. Li, H. Guo, P. Li and Y. Fan, RSC Adv., 2019, 9, 15013 DOI: 10.1039/C9RA02210D

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