AO/OTA 33-A3型股骨远端骨折三种内固定结构的比较：一项生物力学研究

Comparison of Three Internal Fixation Constructs for AO/OTA 33-A3 Distal Femoral Fractures: A Biomechanical Study.

作者信息

Xie Wei, Liu Hui, Chen Shufen, Xu Weizhen, Lin Weibin, Chen Tianlai, Zhu Lingqi, Zhai Wenliang, Wu Jin

机构信息

Department of Orthopaedics, The 909th Hospital, School of Medicine, Xiamen University, Zhangzhou 363000, China.

出版信息

Bioengineering (Basel). 2024 Nov 4;11(11):1110. doi: 10.3390/bioengineering11111110.

DOI:10.3390/bioengineering11111110

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11591326/

Abstract

BACKGROUND

To compare the biomechanical performance of three internal fixation constructs for AO/OTA 33-A3 distal femoral fractures.

METHODS

Thirty AO/OTA 33-A3 synthetic distal femoral fracture models were constructed and randomly divided into three groups. Group A (dual-plate construct) was fixed with a medial locking plate combined with a less invasive stabilization system (LISS). Group B was fixed with a retrograde femoral nail (RFN) combined with an LISS (RFN + LISS construct), and Group C was fixed with a retrograde tibial nail (RTN) combined with an LISS (RTN + LISS construct). The axial displacement, axial stiffness, torsional displacement, torsional stiffness and maximum failure load of different internal fixation constructs were recorded and statistically analyzed.

RESULTS

In the axial compression test, the average stiffness of Group C was significantly higher than that of Groups A and B, and the average displacement of Group C was significantly smaller than that of Groups A and B. In the torsion test, the torsion degree of Group C was significantly lower than that of Groups A and B, and Group C had a higher torsional stiffness than Groups A and B. In the axial compression failure test, the average ultimate load (a displacement greater than 5 mm) of Group C was significantly higher than that of Groups A and B.

CONCLUSION

The biomechanical strength of the RTN combined with a plate is higher than that of the RFN combined with plate and dual-plate constructs, which can be used as an internal fixation option for the treatment of comminuted distal femoral fractures.

摘要

背景

比较三种用于AO/OTA 33 - A3型股骨远端骨折的内固定结构的生物力学性能。

方法

构建30个AO/OTA 33 - A3型人工股骨远端骨折模型，并随机分为三组。A组（双钢板结构）采用内侧锁定钢板联合微创稳定系统（LISS）固定。B组采用逆行股骨钉（RFN）联合LISS固定（RFN + LISS结构），C组采用逆行胫骨钉（RTN）联合LISS固定（RTN + LISS结构）。记录并统计分析不同内固定结构的轴向位移、轴向刚度、扭转位移、扭转刚度和最大破坏载荷。

结果

在轴向压缩试验中，C组的平均刚度显著高于A组和B组，C组的平均位移显著小于A组和B组。在扭转试验中，C组的扭转角度显著低于A组和B组，且C组的扭转刚度高于A组和B组。在轴向压缩破坏试验中，C组的平均极限载荷（位移大于5 mm）显著高于A组和B组。

结论

逆行胫骨钉联合钢板的生物力学强度高于逆行股骨钉联合钢板及双钢板结构，可作为治疗股骨远端粉碎性骨折的一种内固定选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5f8/11591326/45ef1bc0fb2f/bioengineering-11-01110-g001.jpg

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