Boosting corrosion resistance and osteogenic activity of magnesium-based implants with metal ions chelated silk fibroin coating via binary solvent system
CHEMICAL ENGINEERING JOURNAL(2024)
摘要
The development of biofunctional coating is vital for the clinical application of implants. A persistent challenge with magnesium alloys implants, which are inherently prone to rapid degradation, is the simultaneously enhancement of corrosion resistance and bioactivity. This study introduces a novel protein coating for magnesium alloys, incorporating calcium and strontium ions with silk fibroin. By utilizing the microcrystal nucleation facilitated by a binary solvent system, the fl-sheet content is significantly increased to 45.4 % in silk fibroin. The increased fl-sheet bolsters the "labyrinth effect" at the nanoscale, resulting in a substantial improvement in corrosion resistance. This is evidenced by a three-order-of-magnitude reduction in the corrosion current density (Icorr) to 3.65 x 10-7 A cm-2, compared to that of the uncoated alloys. The meticulous doping of Ca2+ and Sr2+ ions ensures stable chelation with amorphous segments of silk fibroin. The controlled release activates the Wnt signaling pathway, boosting osteogenic activity. Such silk fibroin coating system, prepared through a straightforward method, enables a concurrent enhancement of both corrosion resistance and osteogenic potential in biomedical magnesium alloys.
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关键词
Magnesium alloys,Corrosion resistance,Silk,Coating,Biocompability
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