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腰椎前路短节段椎间融合术对相邻未融合节段生物力学的影响。

Effects of short anterior lumbar interbody fusion on biomechanics of neighboring unfused segments.

作者信息

Chow D H, Luk K D, Evans J H, Leong J C

机构信息

Jockey Club Rehabilitation Engineering Centre, Hong Kong Polytechnic University.

出版信息

Spine (Phila Pa 1976). 1996 Mar 1;21(5):549-55. doi: 10.1097/00007632-199603010-00004.

DOI:10.1097/00007632-199603010-00004
PMID:8852308
Abstract

STUDY DESIGN

Segmental mobility and intradiscal pressure were measured and the data compared in six cadaveric lumbar spine specimens before and after in vitro simulated single level L4-5 and double level L4-5-S1 anterior interbody fusions.

OBJECTIVE

The experimental objective was to study the biomechanical effects of single level L4-5 and double level L4-5-S1 anterior interbody fusions on the neighboring unfused segments.

SUMMARY OF BACKGROUND DATA

The relationship between the local rigidity created by fusion mass and accelerated degeneration reported at the neighboring unfused intervertebral discs is not clear.

METHODS

Six cadaveric lumbar spine specimens were biomechanically tested in flexion and extension. Segmental mobility and intradiscal pressure of the specimens were measured before and after in vitro simulation of single level L4-5 and double level L4-5-S1 anterior interbody fusions.

RESULTS

The mobility of the motion segments immediately above and below an L4-5 fusion was increased in flexion. When the L5-S1 segment was also fused, the loss of segmental motion in both flexion and extension at the L4-5 and L5-S1 were compensated for by increased motion in all levels above the fusion. In both flexion and extension, the intradiscal pressures of all unfused intervertebral discs were increased after a single level L4-5 fusion and this increase was even more marked after a double level L4-5-S1 fusion.

CONCLUSIONS

There is no evidence that the neighboring unfused segments are loaded beyond their physiological limits due to the fusion. However, the neighboring unfused segments have to work more frequently toward the extremes of their functional ranges of motion after fusion and these effects will be more marked after a double level L4-5-S1 fusion.

摘要

研究设计

在体外模拟单节段L4 - 5和双节段L4 - 5 - S1前路椎间融合术前后,对六个尸体腰椎标本测量节段活动度和椎间盘内压力,并比较数据。

目的

实验目的是研究单节段L4 - 5和双节段L4 - 5 - S1前路椎间融合术对相邻未融合节段的生物力学影响。

背景数据总结

融合块产生的局部刚度与相邻未融合椎间盘加速退变之间的关系尚不清楚。

方法

对六个尸体腰椎标本进行屈伸生物力学测试。在体外模拟单节段L4 - 5和双节段L4 - 5 - S1前路椎间融合术前后,测量标本的节段活动度和椎间盘内压力。

结果

L4 - 5融合节段上下紧邻的运动节段在屈曲时活动度增加。当L5 - S1节段也融合时,L4 - 5和L5 - S1节段在屈伸时的节段运动损失通过融合节段上方所有节段运动增加得到补偿。在屈伸时,单节段L4 - 5融合后所有未融合椎间盘的椎间盘内压力均升高,双节段L4 - 5 - S1融合后这种升高更为明显。

结论

没有证据表明由于融合相邻未融合节段承受的负荷超出其生理极限。然而,融合后相邻未融合节段必须更频繁地在其功能运动范围的极限处工作,双节段L4 - 5 - S1融合后这些影响将更明显。

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