尸体退行性腰椎滑脱模型中外侧椎间融合器及辅助固定的生物力学稳定性

Biomechanical stability of lateral interbody implants and supplemental fixation in a cadaveric degenerative spondylolisthesis model.

作者信息

Fogel Guy R, Turner Alexander W L, Dooley Zachary A, Cornwall G Bryan

机构信息

*Spinepainbegone, San Antonio, TX; and †NuVasive Inc., San Diego, CA.

出版信息

Spine (Phila Pa 1976). 2014 Sep 1;39(19):E1138-46. doi: 10.1097/BRS.0000000000000485.

DOI:10.1097/BRS.0000000000000485

PMID:24979274

Abstract

STUDY DESIGN

In vitro cadaveric biomechanical study of lateral interbody cages and supplemental fixation in a degenerative spondylolisthesis (DS) model.

OBJECTIVE

To investigate changes in shear and flexion-extension stability of lateral interbody fusion constructs.

SUMMARY OF BACKGROUND DATA

Instability associated with DS may increase postoperative treatment complications. Several groups have investigated DS in cadaveric spines. Extreme lateral interbody fusion (XLIF) cages with supplemental fixation have not previously been examined using a DS model.

METHODS

Seven human cadaveric L4-L5 motion segments were evaluated using flexion-extension moments to ±7.5 N·m and anterior-posterior (A-P) shear loading of 150 N with a static axial compressive load of 300 N. Conditions were: (1) intact segment, (2) DS simulation with facet resection and lateral discectomy, (3) standalone XLIF cage, (4) XLIF cage with (1) lateral plate, (2) lateral plate and unilateral pedicle screws contralateral to the plate (PS), (3) unilateral PS, (4) bilateral PS, (5) spinous process plate, and (6) lateral plate and spinous process plate. Flexion-extension range of motion (ROM) data were compared between conditions and with results from a previous study without DS simulation. A-P shear displacements were compared between conditions.

RESULTS

Flexion-extension ROM after DS destabilization increased significantly by 181% of intact ROM. With the XLIF cage alone, ROM decreased to 77% of intact. All conditions were less stable than corresponding conditions with intact posterior elements except those including the spinous process plate. Under shear loading, A-P displacement with the XLIF cage alone increased by 2.2 times intact. Bilateral PS provided the largest reduction of A-P displacement, whereas the spinous process plate alone provided the least.

CONCLUSION

This is the first in vitro shear load testing of XLIF cages with supplemental fixation in a cadaveric DS model. The variability in sagittal plane construct stability, including significantly increased flexion-extension ROM found with most fixation conditions including bilateral PS may explain some clinical treatment complications in DS with residual instability.

LEVEL OF EVIDENCE

N/A.

摘要

研究设计

在退行性椎体滑脱（DS）模型中对外侧椎间融合器及辅助固定装置进行体外尸体生物力学研究。

目的

研究外侧椎间融合结构的剪切力及屈伸稳定性变化。

背景资料总结

与DS相关的不稳定性可能会增加术后治疗并发症。已有多个研究小组对尸体脊柱中的DS进行了研究。此前尚未使用DS模型对外侧椎间融合（XLIF）笼及辅助固定装置进行研究。

方法

使用屈伸力矩至±7.5 N·m以及在300 N静态轴向压缩载荷下150 N的前后（A-P）剪切载荷，对7个新鲜人尸体L4-L5运动节段进行评估。评估条件包括：（1）完整节段；（2）模拟DS并进行小关节切除及外侧椎间盘切除术；（3）单纯XLIF笼；（4）带（1）外侧钢板的XLIF笼；（2）外侧钢板及钢板对侧单侧椎弓根螺钉（PS）；（3）单侧PS；（4）双侧PS；（5）棘突钢板；（6）外侧钢板及棘突钢板。比较各条件下的屈伸活动度（ROM）数据，并与先前未进行DS模拟的研究结果进行比较。比较各条件下的A-P剪切位移。

结果

DS失稳后的屈伸ROM显著增加，达到完整ROM的181%。仅使用XLIF笼时，ROM降至完整ROM的77%。除包括棘突钢板的情况外，所有条件下的稳定性均低于具有完整后部结构的相应条件。在剪切载荷下，仅使用XLIF笼时的A-P位移增加至完整状态的2.2倍。双侧PS使A-P位移减少最多，而仅使用棘突钢板时减少最少。

结论

这是首次在尸体DS模型中对带有辅助固定装置的XLIF笼进行体外剪切载荷测试。矢状面结构稳定性的差异，包括在大多数固定条件下（包括双侧PS）发现的屈伸ROM显著增加，可能解释了DS伴有残余不稳定性时的一些临床治疗并发症。

证据水平

无。

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尸体退行性腰椎滑脱模型中外侧椎间融合器及辅助固定的生物力学稳定性

Biomechanical stability of lateral interbody implants and supplemental fixation in a cadaveric degenerative spondylolisthesis model.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

研究设计

目的

背景资料总结

方法

结果

结论

证据水平

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