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胸腰椎椎体切除术后的活动范围:使用新型低轮廓前路双棒系统和传统双棒系统对类似结构进行评估。

Range of motion after thoracolumbar corpectomy: evaluation of analogous constructs with a novel low-profile anterior dual-rod system and a traditional dual-rod system.

作者信息

Gehrchen Martin, Hegde Sajan K, Moldavsky Mark, Chinthukunta Suresh, Gudipally Manasa, Bucklen Brandon, Salloum Kanaan, Khalil Saif

机构信息

Spine Unit, Department of Orthopaedic Surgery, Rigshospitalet, National University Hospital of Copenhagen, Skolevej 14, Gentofte, 2820, Copenhagen, Denmark.

Apollo Hospital, 21 Greams Lane, Chennai, India.

出版信息

Eur Spine J. 2017 Mar;26(3):666-670. doi: 10.1007/s00586-015-3966-2. Epub 2015 Apr 28.

DOI:10.1007/s00586-015-3966-2
PMID:25917825
Abstract

STUDY DESIGN

An in vitro biomechanical study.

OBJECTIVES

To compare the biomechanical stability of traditional and low-profile thorocolumbar anterior instrumentation after a corpectomy with cross-connectors. Dual-rod anterior thoracolumbar lateral plates (ATLP) have been used clinically to stabilize the thorocolumbar spine.

METHODS

The stability of a low-profile dual-rod system (LP DRS) and a traditional dual-rod system (DRS) was compared using a calf spine model. Two groups of seven specimens were tested intact and then in the following order: (1) ATLP with two cross-connectors and spacer; (2) ATLP with one cross-connector and spacer; (3) ATLP with spacer. Data were normalized to intact (100 %) and statistical analysis was used to determine between-group significances.

RESULTS

Both constructs reduced motion compared to intact in flexion-extension and lateral bending. Axial rotation motion became unstable after the corpectomy and motion was greater than intact, even with two cross-connectors with both systems. Relative to their respective intact groups, LP DRS significantly reduced motion compared to analogous DRS in flexion-extension. The addition of cross-connectors reduced motion in all loading modes.

CONCLUSIONS

The LP DRS provides 7.5 mm of reduced height with similar biomechanical performance. The reduced height may be beneficiary by reduced irritation and impingement on adjacent structures.

摘要

研究设计

一项体外生物力学研究。

目的

比较椎体切除术后使用横连器的传统型和低外形胸腰椎前路内固定器械的生物力学稳定性。双棒胸腰椎外侧钢板(ATLP)已在临床上用于稳定胸腰椎脊柱。

方法

使用小牛脊柱模型比较低外形双棒系统(LP DRS)和传统双棒系统(DRS)的稳定性。两组各七个标本先进行完整测试,然后按以下顺序测试:(1)带有两个横连器和间隔器的ATLP;(2)带有一个横连器和间隔器的ATLP;(3)带有间隔器的ATLP。数据以完整状态(100%)进行归一化处理,并使用统计分析来确定组间差异。

结果

与完整状态相比,两种结构在屈伸和侧弯时均减少了活动度。椎体切除术后轴向旋转活动变得不稳定,即使两个系统都使用两个横连器,其活动度仍大于完整状态。相对于各自的完整组,LP DRS在屈伸时与类似的DRS相比显著减少了活动度。添加横连器在所有加载模式下均减少了活动度。

结论

LP DRS高度降低了7.5毫米,具有相似的生物力学性能。高度降低可能有利于减少对相邻结构的刺激和撞击。

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