骨质疏松性股骨颈骨折内固定术后股骨颈短缩对骨折愈合影响的有限元分析。

The Effect on the Fracture Healing following Femoral Neck Shortening after Osteoporotic Femoral Neck Fracture Treated with Internal Fixation: Finite Element Analysis.

机构信息

Department of Orthopedics, HwaMei Hospital, University of Chinese Academy of Sciences; Ningbo Institute of Life and Health Industry, University of Chinese Academy of Sciences, Ningbo 315000, China.

Ningbo University School of Medicine, Ningbo 315211, China.

出版信息

Biomed Res Int. 2021 Aug 4;2021:3490881. doi: 10.1155/2021/3490881. eCollection 2021.

DOI:10.1155/2021/3490881

PMID:34395612

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8360725/

Abstract

OBJECTIVE

To evaluate the stress status of fracture site caused by femoral neck shortening and to analyze the stress of fracture site and the implants from the finite element point of view.

METHODS

CT scan data of hip of a normal adult female were collected. Three-dimensional reconstruction MICs and related module function simulation was used to establish the postoperative shortening model of femoral neck fracture with Pauwels angle > 50°, which was treated with cannulated screws. The models were divided into four groups: normal femoral neck, shortening in 2.5 mm, shortening in 7.5 mm, and shortening in 12.5 mm. The finite element analysis software msc.nastran2012 was used, and the data of maximum stress and stress nephogram of fracture site and implants were carried out.

RESULTS

From normal femoral neck to shortening in 12.5 mm of the femoral neck, the maximum tensile stress increased gradually in the fracture site above the cannulated screws while compressive stress decreased gradually in the fracture site below the cannulated screws, and the maximum stress of the cannulated screws increased gradually with obvious stress concentration at the screw holes in the fracture site, and the peak value of stress concentration was about 179 MPa.

CONCLUSION

The biomechanical environment of the fracture site changed by femoral neck shortening. With the increasing of femoral neck shortening, the stress of the fracture site and implants would be uneven; then, the stability of fracture site would become worse, and the possibility of implant sliding or even breakage would be increased.

摘要

目的

评估股骨颈缩短引起的骨折部位的应力状态，并从有限元的角度分析骨折部位和植入物的应力。

方法

采集正常成年女性髋关节 CT 扫描数据，利用三维重建 MICs 及相关模块功能模拟，建立 Pauwels 角>50°的股骨颈骨折术后缩短模型（缩短 2.5、7.5、12.5mm），采用空心钉固定。利用有限元分析软件 msc.nastran2012 对骨折部位和植入物的最大应力和应力云图数据进行分析。

结果

从正常股骨颈到缩短 12.5mm 的股骨颈，空心钉上方骨折部位的最大拉伸应力逐渐增加，而空心钉下方骨折部位的压缩应力逐渐减小，空心钉的最大应力逐渐增加，骨折部位的螺孔处出现明显的应力集中，其峰值约为 179MPa。

结论

股骨颈缩短改变了骨折部位的生物力学环境。随着股骨颈缩短程度的增加，骨折部位和植入物的受力会变得不均匀，骨折部位的稳定性变差，植入物发生滑动甚至断裂的可能性增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0cd9/8360725/2dba27b40099/BMRI2021-3490881.001.jpg

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骨质疏松性股骨颈骨折内固定术后股骨颈短缩对骨折愈合影响的有限元分析。

The Effect on the Fracture Healing following Femoral Neck Shortening after Osteoporotic Femoral Neck Fracture Treated with Internal Fixation: Finite Element Analysis.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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