Comparison of Two Bone Surrogates for Interbody Device Subsidence Testing

A. Aiyangar, A. Au, P. Anderson, H. Ploeg
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引用次数: 1

Abstract

Bone surrogates are proposed alternatives to human cadaveric vertebrae for assessing interbody device subsidence. Polyurethane foam blocks are an accepted surrogate for cancellous bone but do not share their heterogeneous bone density distribution. Synthetic vertebrae have been recently developed as an alternative bone surrogate with representations of cortices, endplates, and cancellous bone. The efficacy of each surrogate was evaluated by uniaxially indenting it with an interbody device. The force-displacement curve profiles, failure forces, and depth of implant subsidence were compared for devices seated centrally and peripherally on the surrogates. The synthetic endplate mimicked human endplates through a gradually increasing endplate thickness toward the periphery. This enabled the synthetic vertebrae to provide additional subsidence resistance to implants seated at the periphery. By contrast, the foam block was insensitive to implant placement. Absence of failure in synthetic vertebrae from peripheral implant indentation suggests the synthetic endplate is stronger than human endplates but further study with human cadaveric vertebrae is needed.
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两种骨替代物在体间装置沉降试验中的比较
骨替代物被提议替代人类尸体椎骨来评估体间装置沉降。聚氨酯泡沫块是公认的替代松质骨,但不共享其异质骨密度分布。合成椎骨最近被发展为替代骨替代物,具有皮质、终板和松质骨的表征。用体间装置单轴缩进评估每个替代物的疗效。比较了安装在代物中心和外围的装置的力-位移曲线剖面、破坏力和植入物下沉深度。合成终板通过向外围逐渐增加终板厚度来模拟人体终板。这使得合成椎体能够提供额外的抗沉降能力,使植入物位于周围。相比之下,泡沫块对植入物的放置不敏感。人造椎体在周围植入物压痕中没有失败,这表明人造终板比人类终板更强,但需要进一步研究人类尸体椎骨。
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