Zirconia-containing radiopaque mesoporous bioactive glasses
Copyright policy )Zirconia-containing radiopaque mesoporous bioactive glasses
A radiopaque mesoporous bioactive glass (named MBGZ-7) was obtained through a combined sol-gel and evaporation induced self-assembling (EISA) route, adding zirconium propoxide to the synthesis batch as the zirconia precursor. The nitrogen sorption analysis confirmed the mesoporous nature of the glass. The assessment of in vitro bioactivity by soaking in acellular simulated body fluid (SBF) and SEM observation showed the deposition of hydroxyapatite crystals on its surface after one week. The good radiopacity level was demonstrated by comparing X-ray images of MBGZ-7 and a blank sample that did not contain radiopaque additives. It is envisaged the use of MBGZ-7 as a promising dispersed phase in composite materials for minimally invasive surgery procedures, such as injectable bone cements, in order to allow the visualization of the implant under fluoroscopic control, during both injection and follow-up. © 2014 Elsevier B.V.
[SPI.MAT] Engineering Sciences [physics]/Materials, Mesoporous materials, Bone cement, Bone tissue engineering, Fluoroscopic control, Hydroxyapatite crystals, Minimally invasive surgery, Radiopacity, Sol-gels, Zirconia, Mesoporous bioactive glass, Tissue engineering, Sol-gel process, Bioactive glass, Sol gel preparations, Simulated body fluids
[SPI.MAT] Engineering Sciences [physics]/Materials, Mesoporous materials, Bone cement, Bone tissue engineering, Fluoroscopic control, Hydroxyapatite crystals, Minimally invasive surgery, Radiopacity, Sol-gels, Zirconia, Mesoporous bioactive glass, Tissue engineering, Sol-gel process, Bioactive glass, Sol gel preparations, Simulated body fluids
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