锁骨骨折钢板固定技术的生物力学评估：锁定钢板能提供更好的稳定性吗？

Biomechanical evaluation of clavicle fracture plating techniques: does a locking plate provide improved stability?

作者信息

Celestre Paul, Roberston Claire, Mahar Andrew, Oka Richard, Meunier Matthew, Schwartz Alexandra

机构信息

Department of Orthopaedic Surgery, University of California - San Diego, San Diego, California, USA.

出版信息

J Orthop Trauma. 2008 Apr;22(4):241-7. doi: 10.1097/BOT.0b013e31816c7bac.

DOI:10.1097/BOT.0b013e31816c7bac

PMID:18404033

Abstract

OBJECTIVES

To evaluate the biomechanical properties of both plate location (superior versus anterior-inferior) and plate type Small Fragment Contourable Dual Compression Plate (CDCP) versus 3.5 mm Universal Locking System Contourable Dual Compression Plate (Locked CDCP) in a synthetic midshaft transverse clavicle fracture model.

METHODS

Twenty-four pre-osteomized synthetic clavicles were repaired with either CDCP or locked CDCP technology 3.5 mm plates in either the superior or anterior-inferior position to form 4 groups of 6 clavicles. These were subsequently tested to evaluate torsional and axial construct stiffness, as well as bending load to failure, bending failure stiffness, and method of failure.

RESULTS

In axial compression, locked CDCP constructs were significantly more stiff than CDCP constructs (p < 0.001), but no statistically significant effect of plate location was observed. Torsional tests demonstrated a significant 2-way interaction favoring locked CDCP plates in the superior position and standard CDCP plates in the anterior-inferior position (p < 0.001). Bending failure testing revealed that the superior plate location had higher load to failure and bending failure stiffness than the anterior-inferior location (p < 0.0001). In addition, the superior locked CDCP plates demonstrated significantly greater bending failure stiffness than superior CDCP plates (p < 0.0001).

CONCLUSIONS

Biomechanically, repairing a midshaft clavicle fracture with a superior plate was more favorable compared to anterior-inferior plating in terms of both load to failure and bending failure stiffness. Furthermore, superior locked CDCP plates show improved bending failure stiffness over superior CDCP plates.

摘要

目的

在合成的锁骨中段横行骨折模型中，评估钢板位置（上方与前下方）以及钢板类型（小型可塑形双加压钢板[CDCP]与3.5mm通用锁定系统可塑形双加压钢板[锁定CDCP]）的生物力学特性。

方法

将24根预先截骨的合成锁骨，采用CDCP或锁定CDCP技术，使用3.5mm钢板分别固定于上方或前下方位置，形成4组，每组6根锁骨。随后对其进行测试，以评估扭转和轴向结构刚度，以及弯曲破坏载荷、弯曲破坏刚度和破坏方式。

结果

在轴向压缩方面，锁定CDCP结构比CDCP结构明显更硬（p<0.001），但未观察到钢板位置的统计学显著影响。扭转试验显示存在显著的双向相互作用，上方位置有利于锁定CDCP钢板，前下方位置有利于标准CDCP钢板（p<0.001）。弯曲破坏试验表明，上方钢板位置比前下方位置具有更高的破坏载荷和弯曲破坏刚度（p<0.0001）。此外，上方锁定CDCP钢板的弯曲破坏刚度明显大于上方CDCP钢板（p<0.0001）。

结论

在生物力学方面，就破坏载荷和弯曲破坏刚度而言，用上方钢板修复锁骨中段骨折比前下方钢板更有利。此外，上方锁定CDCP钢板比上方CDCP钢板显示出更好的弯曲破坏刚度。

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锁骨骨折钢板固定技术的生物力学评估：锁定钢板能提供更好的稳定性吗？

Biomechanical evaluation of clavicle fracture plating techniques: does a locking plate provide improved stability?

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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