假体周围骨折手术固定组件的力学行为

Mechanical behavior of fixation components for periprosthetic fracture surgery.

作者信息

Lenz Mark, Perren Stephan Marcel, Gueorguiev Boyko, Höntzsch Dankward, Windolf Markus

机构信息

AO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, Switzerland; Dept. of Trauma, Hand and Reconstructive Surgery, University Hospital Jena, Erlanger Allee 101, D-07747 Jena, Germany.

出版信息

Clin Biomech (Bristol). 2013 Nov-Dec;28(9-10):988-93. doi: 10.1016/j.clinbiomech.2013.09.005. Epub 2013 Sep 18.

DOI:10.1016/j.clinbiomech.2013.09.005

PMID:24080369

Abstract

BACKGROUND

Reliable periprosthetic fracture treatment needs detailed knowledge on the mechanical behavior of the fixation components used. The holding capacity of three conventional fixation components for periprosthetic fracture treatment was systematically investigated under different loading directions.

METHODS

Locking compression plates were fixed to a 7 cm long part of diaphyseal fresh frozen human femur with either a single 1.7 mm cerclage cable, a 5.0mm monocortical or a bicortical locking screw (n=5 per group). Constructs were loaded in lateral, torsional and axial direction with respect to the bone axis in a load-to-failure test. Corresponding stress distribution around the screw holes was analyzed by finite element modeling.

FINDINGS

Both screw fixations revealed significantly higher stiffness and ultimate strength in axial compression and torsion compared to the cerclage (all P<0.01). Ultimate strength in lateral loading and torsion was significantly higher for bicortical screws (mean 3968 N SD 657; mean 28.8 Nm SD 5.9) compared to monocortical screws (mean 2748 N SD 585; mean 14.4 Nm SD 5.7 Nm) and cerclages (mean 3001N SD 252; mean 3.2 Nm SD 2.0) (P≤0.04). Stress distribution around the screw hole varied according to the screw type and load direction.

INTERPRETATION

Fixation components may be combined according to their individual advantages to achieve an optimal periprosthetic fracture fixation.

摘要

背景

可靠的假体周围骨折治疗需要详细了解所使用固定部件的力学行为。系统研究了三种用于假体周围骨折治疗的传统固定部件在不同加载方向下的承载能力。

方法

使用单根1.7毫米环扎钢丝、5.0毫米单皮质或双皮质锁定螺钉将锁定加压钢板固定在7厘米长的骨干新鲜冷冻人股骨部分上（每组n = 5）。在失效载荷试验中，相对于骨轴在横向、扭转和轴向加载构建体。通过有限元建模分析螺钉孔周围的相应应力分布。

结果

与环扎相比，两种螺钉固定在轴向压缩和扭转方面均显示出明显更高的刚度和极限强度（所有P<0.01）。双皮质螺钉在横向加载和扭转方面的极限强度（平均3968 N，标准差657；平均28.8 Nm，标准差5.9）明显高于单皮质螺钉（平均2748 N，标准差585；平均14.4 Nm，标准差5.7 Nm）和环扎（平均3001N，标准差252；平均3.2 Nm，标准差2.0）（P≤0.04）。螺钉孔周围的应力分布根据螺钉类型和加载方向而变化。

解读

固定部件可根据其各自的优点进行组合，以实现最佳的假体周围骨折固定。

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假体周围骨折手术固定组件的力学行为

Mechanical behavior of fixation components for periprosthetic fracture surgery.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

结果

解读

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