模拟挥鞭样损伤过程中的小关节运动学及损伤机制

Facet joint kinematics and injury mechanisms during simulated whiplash.

作者信息

Pearson Adam M, Ivancic Paul C, Ito Shigeki, Panjabi Manohar M

机构信息

Biomechanics Research Laboratory, Department of Orthopaedics and Rehabilitation, Yale University School of Medicine, New Haven, Connecticut 06520-8071, USA.

出版信息

Spine (Phila Pa 1976). 2004 Feb 15;29(4):390-7. doi: 10.1097/01.brs.0000090836.50508.f7.

DOI:10.1097/01.brs.0000090836.50508.f7

PMID:15094535

Abstract

STUDY DESIGN

Facet joint kinematics and capsular ligament strains were evaluated during simulated whiplash of whole cervical spine specimens with muscle force replication.

OBJECTIVES

To describe facet joint kinematics, including facet joint compression and facet joint sliding, and quantify peak capsular ligament strain during simulated whiplash.

SUMMARY OF BACKGROUND DATA

Clinical studies have implicated the facet joint as a source of chronic neck pain in whiplash patients. Prior in vivo and in vitro biomechanical studies have evaluated facet joint compression and excessive capsular ligament strain as potential injury mechanisms. No study has comprehensively evaluated facet joint compression, facet joint sliding, and capsular ligament strain at all cervical levels during multiple whiplash simulation accelerations.

METHODS

The whole cervical spine specimens with muscle force replication model and a bench-top trauma sled were used in an incremental trauma protocol to simulate whiplash of increasing severity. Peak facet joint compression (displacement of the upper facet surface towards the lower facet surface), facet joint sliding (displacement of the upper facet surface along the lower facet surface), and capsular ligament strains were calculated and compared to the physiologic limits determined during intact flexibility testing.

RESULTS

Peak facet joint compression was greatest at C4-C5, reaching a maximum of 2.6 mm during the 5 g simulation. Increases over physiologic limits (P < 0.05) were initially observed during the 3.5 g simulation. In general, peak facet joint sliding and capsular ligament strains were largest in the lower cervical spine and increased with impact acceleration. Capsular ligament strain reached a maximum of 39.9% at C6-C7 during the 8 g simulation.

CONCLUSIONS

Facet joint components may be at risk for injury due to facet joint compression during rear-impact accelerations of 3.5 g and above. Capsular ligaments are at risk for injury at higher accelerations.

摘要

研究设计

在对具有肌肉力复制功能的全颈椎标本进行模拟挥鞭伤时，评估小关节运动学和关节囊韧带应变。

目的

描述小关节运动学，包括小关节压缩和小关节滑动，并量化模拟挥鞭伤期间关节囊韧带的峰值应变。

背景数据总结

临床研究表明小关节是挥鞭伤患者慢性颈部疼痛的一个来源。先前的体内和体外生物力学研究评估了小关节压缩和关节囊韧带过度应变作为潜在的损伤机制。尚无研究在多次挥鞭伤模拟加速过程中全面评估所有颈椎节段的小关节压缩、小关节滑动和关节囊韧带应变。

方法

采用具有肌肉力复制模型的全颈椎标本和台式创伤雪橇，按照递增创伤方案模拟严重程度不断增加的挥鞭伤。计算小关节峰值压缩（上关节面朝下关节面的位移）、小关节滑动（上关节面沿下关节面的位移）和关节囊韧带应变，并与完整柔韧性测试期间确定的生理极限进行比较。

结果

小关节峰值压缩在C4-C5处最大，在5g模拟过程中达到最大值2.6mm。在3.5g模拟过程中最初观察到超过生理极限（P<0.05）的情况。一般来说，小关节峰值滑动和关节囊韧带应变在下颈椎处最大，并随撞击加速度增加。在8g模拟过程中，C6-C7处的关节囊韧带应变达到最大值39.9%。

结论

在3.5g及以上的后向撞击加速过程中，小关节组件可能因小关节压缩而有受伤风险。在更高的加速度下，关节囊韧带存在受伤风险。

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模拟挥鞭样损伤过程中的小关节运动学及损伤机制

Facet joint kinematics and injury mechanisms during simulated whiplash.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

背景数据总结

方法

结果

结论

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