聚醚醚酮垫块后凸成形术联合 StaXx FX 治疗后脊柱对线和椎间盘力学的恢复。

Restoration of spinal alignment and disk mechanics following polyetheretherketone wafer kyphoplasty with StaXx FX.

机构信息

Department of Veterans Affairs, Edward Hines Jr. VA Hospital, Hines, Illinois, USA.

出版信息

AJNR Am J Neuroradiol. 2011 Aug;32(7):1295-300. doi: 10.3174/ajnr.A2484. Epub 2011 Jun 16.

DOI:10.3174/ajnr.A2484

PMID:21680656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7966031/

Abstract

BACKGROUND AND PURPOSE

EPFs sustained during VCFs degrade the disk's ability to develop IDP under load. This inability to develop pressure in combination with residual kyphotic deformity increases the risk for adjacent vertebral fractures. We tested the hypothesis that StaXx FX reduces kyphosis and endplate deformity following vertebral compression fracture, restoring disk mechanics.

MATERIALS AND METHODS

Eight thoracolumbar, 5-vertebrae segments were tested. A void was selectively created in the middle vertebra. The specimens were compressed until EPF and to a grade I-II VCF. PEEK wafer kyphoplasty was then performed. The specimens were then tested in flexion-extension (±6 Nm) under 400-N preload intact, after EPF, VCF, and kyphoplasty. Endplate deformity, kyphosis, and IDP adjacent to the fractured body were measured.

RESULTS

Vertebral body height at the point of maximal endplate deformity decreased after EPF and VCF and was partially corrected after StaXx FX, remaining less than intact (P = .047). Anterior vertebral height decreased after VCF (P = .002) and was partially restored with StaXx FX, remaining less than intact (P = .015). Vertebral kyphosis increased after VCF (P < .001) and reduced after StaXx FX, remaining greater than intact (P = .03). EPF reduced IDP in the affected disk in compression-flexion loading (P < .001), which was restored after StaXx FX (P = 1.0). IDP in the unaffected disk did not change during testing (P > .3).

CONCLUSIONS

StaXx FX reduced endplate deformity and kyphosis, and significantly increased anterior height following VCF. Although height and kyphosis were not fully corrected, the disk's ability to pressurize under load was restored.

摘要

背景与目的

在椎体骨折（VCF）过程中持续存在的 EPF 会降低椎间盘在负荷下产生 IDP 的能力。这种无法产生压力的情况，加上残余的后凸畸形，会增加相邻椎体骨折的风险。我们验证了这样一个假设，即 StaXx FX 可减少椎体压缩性骨折后后凸畸形和终板变形，从而恢复椎间盘力学。

材料与方法

测试了 8 个胸腰椎 5 节段。在中间椎体选择性地制造一个空洞。标本被压缩至 EPF 并达到 I-II 度 VCF。然后进行 PEEK 瓦状后凸成形术。在完整、EPF 后、VCF 后和 StaXx FX 后，在 400-N 预载下，标本在屈伸（±6 Nm）下进行测试。测量骨折体相邻终板变形、后凸畸形和 IDP。

结果

最大终板变形点处的椎体高度在 EPF 和 VCF 后降低，在 StaXx FX 后部分纠正，但仍低于完整状态（P =.047）。VCF 后椎体前缘高度降低（P =.002），StaXx FX 后部分恢复，仍低于完整状态（P =.015）。VCF 后后凸角增加（P <.001），StaXx FX 后减少，仍大于完整状态（P =.03）。EPF 在压缩-屈曲加载时降低了受累椎间盘的 IDP（P <.001），StaXx FX 后恢复（P = 1.0）。在测试过程中，未受累椎间盘的 IDP 没有变化（P >.3）。

结论

StaXx FX 减少了 VCF 后的终板变形和后凸畸形，并显著增加了椎体前缘高度。尽管高度和后凸畸形没有完全纠正，但椎间盘在负荷下产生压力的能力得到了恢复。

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