稳定植入物情况下人工关节周围或人工关节间股骨骨折的钢板定位——一项生物力学研究

Plate Positioning in Periprosthetic or Interprosthetic Femur Fractures With Stable Implants-A Biomechanical Study.

作者信息

Walcher Matthias G, Giesinger Karlmeinrad, du Sart Ryan, Day Robert E, Kuster Markus S

机构信息

Department of Orthopaedic Surgery, Orthopädische Klinik König-Ludwig-Haus, University of Würzburg, Würzburg, Germany.

Department of Orthopaedic Surgery, Kantonsspital St. Gallen, St. Gallen, Switzerland.

出版信息

J Arthroplasty. 2016 Dec;31(12):2894-2899. doi: 10.1016/j.arth.2016.05.060. Epub 2016 Jun 3.

DOI:10.1016/j.arth.2016.05.060

PMID:27381372

Abstract

BACKGROUND

Angular stable plate fixation is a widely accepted treatment option for interprosthetic or periprosthetic femoral fractures with stable implants. This biomechanical study tries to establish a safe distance of the plate from the tip of a femoral prosthesis.

METHODS

A total of 38 composite femurs were reamed to an inner diameter of 23 mm to create an osteoporotic bone model. A Weber hip stem was cemented into each and a distal femoral NCB plate applied with the distance to the stem varying from 8 cm apart to 6 cm overlap in 2-cm steps. Each specimen was tested in cyclic axial loading (400 N-1500 N) and then cyclic torsion (0.6 Nm-50 Nm). Peak strain on the femur around the tip of the plate was measured with a 3D image correlation system and averaged over 26 cycles (excluding the first 3 and the last cycles). Finally, each femur was axially loaded to failure.

RESULTS

Strain increased with decreasing overlap or gap. Seven specimens failed early between 2-cm overlap and 2-cm gap. Results were divided into a far group with a distance of >4 cm and a close group of <4 cm. Strain was significantly higher in the close group for axial (P < .001) and torsional (P < .001) loading. Failure load was significantly lower in the close group (P = .002).

CONCLUSION

A minimal gap and/or overlap of at least 6 cm is recommended in osteoporotic bone to avoid stress risers.

摘要

背景

角稳定钢板固定术是治疗假体周围或假体间股骨骨折且植入物稳定的一种广泛接受的治疗选择。本生物力学研究试图确定钢板与股骨假体尖端之间的安全距离。

方法

总共38根复合股骨被扩髓至内径23毫米，以创建骨质疏松骨模型。将Weber髋关节柄骨水泥固定于每根股骨中，并应用股骨远端NCB钢板，钢板与柄之间的距离以2厘米的步长从相距8厘米变化至重叠6厘米。每个标本先进行循环轴向加载（400牛至1500牛）测试，然后进行循环扭转（0.6牛米至50牛米）测试。使用三维图像相关系统测量钢板尖端周围股骨的峰值应变，并在26个循环（不包括前3个和最后一个循环）中进行平均。最后，对每根股骨进行轴向加载直至失效。

结果

应变随着重叠或间隙的减小而增加。7个标本在2厘米重叠至2厘米间隙之间早期失效。结果分为距离大于4厘米的远侧组和距离小于4厘米的近侧组。近侧组在轴向（P <.001）和扭转（P <.001）加载时应变显著更高。近侧组的失效载荷显著更低（P =.002）。

结论

对于骨质疏松骨，建议最小间隙和/或重叠至少为6厘米，以避免应力集中。

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稳定植入物情况下人工关节周围或人工关节间股骨骨折的钢板定位——一项生物力学研究

Plate Positioning in Periprosthetic or Interprosthetic Femur Fractures With Stable Implants-A Biomechanical Study.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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