The in-vitro biological behavior of a newly-developed iron-containing hydroxyapatite/titanium(HA/Ti) composite was investigated by immersing the composites in the simulated body fluid(SBF) for up to 5 weeks.The ad...The in-vitro biological behavior of a newly-developed iron-containing hydroxyapatite/titanium(HA/Ti) composite was investigated by immersing the composites in the simulated body fluid(SBF) for up to 5 weeks.The addition of iron was observed to have a significant influence on the in-vitro biological behavior of the composites.The obtained results revealed that the stability of the composites in the physiological solution was markedly improved.The solubility decreased in the order of pure HA,HA/5(Ti-33Fe),and HA/15(Ti33Fe).Precipitation occurred on the surface of HA/5(Ti-33Fe) composite,showing a good combination of physiostability with bioactivity,while HA/15(Ti-33Fe) composite exhibited superior physiostability since there was no obvious change on the surface of HA/15(Ti-33Fe).展开更多
基金supported by the Fundamental Research Funds for the Central Universities (N090602001)the Natural Sciences and Engineering Research Council of Canada (NSERC)
文摘The in-vitro biological behavior of a newly-developed iron-containing hydroxyapatite/titanium(HA/Ti) composite was investigated by immersing the composites in the simulated body fluid(SBF) for up to 5 weeks.The addition of iron was observed to have a significant influence on the in-vitro biological behavior of the composites.The obtained results revealed that the stability of the composites in the physiological solution was markedly improved.The solubility decreased in the order of pure HA,HA/5(Ti-33Fe),and HA/15(Ti33Fe).Precipitation occurred on the surface of HA/5(Ti-33Fe) composite,showing a good combination of physiostability with bioactivity,while HA/15(Ti-33Fe) composite exhibited superior physiostability since there was no obvious change on the surface of HA/15(Ti-33Fe).
