具有形状记忆合金结构的自膨胀椎弓根螺钉对脊柱固定强度的影响:有限元研究

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Mahdi Mohammad Asghari, Aisa Rassoli, Hedayeh Mehmanparast
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引用次数: 0

摘要

在许多脊柱手术中,椎弓根螺钉通常用于稳定椎骨,但松动可能是一种并发症。不同的设计显示了固定强度的提高,其中采用形状记忆合金(SMA)结构的可自动膨胀螺钉尤其引人关注。本研究旨在评估使用 SMA(特别是镍钛)板制成的可自动膨胀椎弓根螺钉的固定强度。研究评估了三种类型的螺钉:表面光滑的 SMA 自膨胀螺钉、表面多孔的 SMA 自膨胀螺钉和标准设计螺钉。每种螺钉都进行了拉拔测试,以进行比较。测试结果表明,表面多孔的自膨胀螺钉的拉拔力最大(1141.83 N),而光滑自膨胀螺钉的拉拔力为 1056.86 N,标准螺钉的拉拔力为 1104.25 N。不同螺钉耗散的塑性应变能各不相同,多孔自膨胀螺钉为 0.073 J,光滑自膨胀螺钉为 0.065 J,标准椎弓根螺钉为 0.089 J。值得注意的是,多孔自膨胀螺钉降低了骨-螺钉界面的应力。改进椎弓根螺钉的机械设计可显著提高螺钉与骨的固定强度。使用带有多孔表面 SMA 片的自膨胀椎弓根螺钉具有卓越的性能,有可能减轻松动等并发症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of self-expandable pedicle screws with shape memory alloy structures on spinal fixation strength: A finite element study.

In many spine surgeries, pedicle screws are commonly used to stabilize vertebrae, however, loosening can be a complication. Different designs have shown improvements in fixation strength, with self-expandable screws featuring shape memory alloy (SMA) structures being of particular interest. This study aimed to assess the fixation strength of self-expandable pedicle screws made with SMA (specifically Nickel-Titanium) sheets. Three types of screws were evaluated: self-expandable screws with a smooth SMA surface, self-expandable screws with a porous SMA surface, and standard design screws. Each screw underwent pullout tests for comparison. Following the tests, the self-expandable screw with a porous surface exhibited the highest pullout force (1141.83 N), compared to 1056.86 N for the smooth self-expandable screw and 1104.25 N for the standard screw. The dissipated plastic strain energy differed among the screws, with values of 0.073 J for the porous self-expandable screw, 0.065 J for the smooth self-expandable screw, and 0.089 J for the standard pedicle screw. Notably, the porous self-expandable screw showed reduced stress on the bone-screw interface. Improving the mechanical design of pedicle screws could significantly enhance screw-bone fixation strength. The utilization of self-expandable pedicle screws with porous surface SMA sheets demonstrates superior performance, potentially mitigating complications like loosening.

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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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