一种用于腰骶骨盆重建的新型四棒技术的生物力学测试

Biomechanical testing of a novel four-rod technique for lumbo-pelvic reconstruction.

作者信息

Kelly Brian P, Shen Francis H, Schwab John S, Arlet Vincent, Diangelo Denis J

机构信息

Department of Biomedical Engineering and Imaging, University of Tennessee Health Science Center, Memphis, TN 38163, USA.

出版信息

Spine (Phila Pa 1976). 2008 Jun 1;33(13):E400-6. doi: 10.1097/BRS.0b013e31817615c5.

DOI:10.1097/BRS.0b013e31817615c5

PMID:18520925

Abstract

STUDY DESIGN

A biomechanical testing protocol was used to study different lumbo-pelvic fixation techniques in a human cadaveric lumbar spine model.

OBJECTIVE

To compare the in vitro biomechanics of a novel four-rod lumbo-pelvic reconstruction technique with and with out cross-links, to that of a conventional cross-linked two-rod technique.

SUMMARY OF BACKGROUND DATA

Numerous lumbo-pelvic reconstruction methods based on the Galveston two-rod technique have been proposed for cases involving total sacrectomy. Recently a technique that proposes novel use of 4 supporting longitudinal rods across the lumbo-pelvic junction has been reported. No comparative in vitro biomechanical testing has been previously done to evaluate these different reconstruction methods.

METHODS

Five spines were evaluated in flexion, extension, left-right lateral bending and left-right axial rotation in a human total sacrectomy model. The model was comprised of cadaveric lumbar spines (L1-L5) with custom fabricated polyethylene blocks used to simulate pelvic fixation. Three conditions were evaluated: Linked Four-Rod, Linked Two-Rod, and Four-Rod (no cross-links). Flexibility and motion data were compared using a one-way repeated measures analysis of variance and SNK tests.

RESULTS

The Linked Four-Rod and Four-Rod conditions significantly decreased flexibility and reduced L5-Pelvic motion over the Linked Two-Rod construct in flexion and extension. The Linked Four-Rod condition significantly decreased flexibility in left-right axial rotation compared with the Four-Rod and Linked Two-Rod conditions. No significant differences occurred in relative lateral movement between left and right pelvic polyethylene blocks.

CONCLUSION

The four-rod technique improved fixation stability over the conventional linked two-rod technique in flexion and extension, and when cross-linked, in left-right axial rotation. The four-rod technique also significantly reduced L5-Pelvic junction movement in flexionand extension, which may have implications for bony fusion. The use of cross-links is recommended.

摘要

研究设计

采用生物力学测试方案，在人体尸体腰椎模型中研究不同的腰骶部固定技术。

目的

比较一种新型的带和不带横向连接的四棒腰骶部重建技术与传统的带横向连接的双棒技术的体外生物力学性能。

背景资料总结

对于涉及全骶骨切除术的病例，已经提出了许多基于加尔维斯顿双棒技术的腰骶部重建方法。最近有报道称一种技术提出在腰骶部连接处创新性地使用4根支撑纵向棒。此前尚未进行比较性的体外生物力学测试来评估这些不同的重建方法。

方法

在人体全骶骨切除模型中，对5个脊柱进行前屈、后伸、左右侧屈和左右轴向旋转评估。该模型由尸体腰椎（L1-L5）组成，使用定制的聚乙烯块模拟骨盆固定。评估了三种情况：带横向连接的四棒、带横向连接的双棒和四棒（无横向连接）。使用单向重复测量方差分析和SNK检验比较柔韧性和运动数据。

结果

在屈曲和伸展时，带横向连接的四棒和四棒情况与带横向连接的双棒结构相比，显著降低了柔韧性并减少了L5与骨盆之间的运动。与四棒和带横向连接的双棒情况相比，带横向连接的四棒情况在左右轴向旋转时显著降低了柔韧性。左右骨盆聚乙烯块之间的相对横向移动没有显著差异。

结论

在屈曲和伸展时，四棒技术比传统的带横向连接的双棒技术提高了固定稳定性，并且在有横向连接时，在左右轴向旋转时也是如此。四棒技术还显著减少了屈曲和伸展时L5与骨盆连接处的运动，这可能对骨融合有影响。建议使用横向连接。

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一种用于腰骶骨盆重建的新型四棒技术的生物力学测试

Biomechanical testing of a novel four-rod technique for lumbo-pelvic reconstruction.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

研究设计

目的

背景资料总结

方法

结果

结论

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