Biomechanical Study of Simulated Metastatic Peri-Acetabular Defects

Endoprosthetic Total Scapula Replacement Versus Suspension Arthroplasty Following Tumor Resection Pub Date : 2018-12-29 DOI:10.31487/J.JSO.2018.01.003

F. Patterson, J. Thomson, J. Benevenia, Kathleen S Beebe, Michael N. Kang

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Abstract

Peri-acetabular metastasis presents the risk of fracture. However, the relationship between bone loss and fracture risk is unknown. Utilizing fresh frozen intact cadaver pelves, Harrington class I lesions were simulated. Lesions were categorized as small ( 40%) Axial loading was applied in a quasistatic mechanism by a mechanical testing system to catastrophic failure, with the load-to-failure force being measured. There was statistical difference in the load-to-failure force between hemi-pelves with large defects and their matched controls. It was found that mean load-to-failure strength of a hemi-pelvis with a Class I defect was more than 2.3-2.45 times the calculated hip joint reactive force. Thus, it was concluded that a pelvis with a peri-acetabular defect of greater than 40% has a significantly lower load-to-failure strength compared to an intact pelvis. However, even this large Class I defect will fracture only at supraphysiologic loads and the hip joint may not normally be exposed to forces that high.

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模拟转移性髋臼周围缺损的生物力学研究

髋臼周围转移有骨折的危险。然而，骨质流失与骨折风险之间的关系尚不清楚。利用新鲜冷冻完整的尸体骨盆，模拟哈林顿I级病变。在准静态机构中，通过机械测试系统施加轴向载荷以达到灾难性破坏，并测量载荷-破坏力。有统计学差异的载荷到破坏力之间的半盆大缺陷和他们匹配的控制。结果发现，具有I类缺陷的半骨盆的平均载荷-失效强度大于计算髋关节反作用力的2.3-2.45倍。因此，我们得出结论，与完整骨盆相比，髋臼周围缺损大于40%的骨盆具有明显较低的载荷-失效强度。然而，即使是这种大的I级缺陷也只会在超生理负荷下发生骨折，而髋关节通常不会暴露在那么高的力下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Endoprosthetic Total Scapula Replacement Versus Suspension Arthroplasty Following Tumor Resection

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