一种用于椎体置换的新型可撑开植入物：四种胸腰椎植入物的生物力学测试

A new distractable implant for vertebral body replacement: biomechanical testing of four implants for the thoracolumbar spine.

作者信息

Reinhold M, Schmoelz W, Canto F, Krappinger D, Blauth M, Knop Christian

机构信息

Department of Trauma Surgery and Sports Medicine, Innsbruck Medical University, 6020 Innsbruck, Austria.

出版信息

Arch Orthop Trauma Surg. 2009 Oct;129(10):1375-82. doi: 10.1007/s00402-009-0823-y. Epub 2009 Feb 4.

DOI:10.1007/s00402-009-0823-y

PMID:19190924

Abstract

INTRODUCTION

Expandable titanium implants for vertebral body replacement in the thoracolumbar spine have been well established in the reconstruction of the anterior spinal column. Load transfer at the bone-implant interface remains a point of concern. The purpose of the study was to compare the performance in axial load transfer from the implant to the vertebral body in four different implants, all of them in clinical use to date.

MATERIALS AND METHODS

We tested a second generation implant (Synex II) in comparison to three different expandable titanium cages: Synex I, Obelisc and X-Tenz. Twenty-four intact fresh frozen human lumbar vertebrae (L1-L4) were distributed into four identical groups according to bone mineral density (BMD). The BMD was determined by quantitative computed tomography (qCT). Specimens were loaded in craniocaudal direction with a material testing machine (Mini Bionix II) at a constant speed of 5 mm/min. Load displacement curves were continuously recorded for each specimen until failure (diminishment of compressive force (F) and/or obvious implant migration through the vertebral body end plate). One-way analysis of variance (ANOVA) and post-hoc tests (Bonferroni) were applied to detect differences at 1, 2, 3, and 4 mm displacement (F (1-4 mm)) between implant groups.

RESULT

No significant differences were observed with regard to maximum compression force (F (max)) and displacement (d (max)) until failure: Synex II (1,782.3 N/4.67 mm); Synex I (1,645.3 N/4.72 mm); Obelisc (1,314.0 N/4.24 mm); X-Tenz (1470.3 N/6.92 mm). However, the mean compression force at 1-4 mm displacement (F (1-4 mm): 300-1,600 N) was highest for Synex II. The difference at 2 mm displacement was significant (p = 0.028) between Synex II (F (2 mm) = 879 N) and X-Tenz (F (2 mm) = 339 N).

CONCLUSION

The modified end plate design of Synex II was found to perform comparably at least with regard to the compressive performance at the implant-bone interface. The risk of the new implant for collapse into the vertebral body might be reduced when compared to the competitors.

摘要

引言

用于胸腰椎椎体置换的可膨胀钛植入物在脊柱前路重建中已得到广泛应用。骨-植入物界面处的载荷传递仍是一个关注点。本研究的目的是比较四种不同的、目前均在临床使用的植入物在从植入物到椎体的轴向载荷传递方面的性能。

材料与方法

我们将第二代植入物（Synex II）与三种不同的可膨胀钛笼进行了比较：Synex I、Obelisc和X-Tenz。根据骨密度（BMD）将24个完整的新鲜冷冻人腰椎椎体（L1-L4）分为四个相同的组。通过定量计算机断层扫描（qCT）测定骨密度。使用材料试验机（Mini Bionix II）以5 mm/min的恒定速度在头尾方向对标本进行加载。连续记录每个标本的载荷-位移曲线，直至失效（压缩力（F）减小和/或植入物明显穿过椎体终板迁移）。应用单因素方差分析（ANOVA）和事后检验（Bonferroni）来检测植入物组在1、2、3和4 mm位移（F（1-4 mm））时的差异。

结果

在失效前，Synex II（1,782.3 N/4.67 mm）、Synex I（1,645.3 N/4.72 mm）、Obelisc（1,314.0 N/4.24 mm）和X-Tenz（1470.3 N/6.92 mm）在最大压缩力（F（max））和位移（d（max））方面未观察到显著差异。然而，Synex II在1-4 mm位移（F（1-4 mm）：300-1,600 N）时的平均压缩力最高。Synex II（F（2 mm） = 879 N）和X-Tenz（F（2 mm） = 339 N）在2 mm位移时的差异具有统计学意义（p = 0.028）。