三枚空心螺钉采用斜三角形构型与倒等边三角形构型治疗不稳定型股骨颈骨折的比较:有限元分析
Comparison of oblique triangular configuration and inverted equilateral triangular configuration of three cannulated screws in treating unstable femoral neck fracture: A finite element analysis.
作者信息
Zhang Ru-Yi, Li Jian-Tao, Zhao Jing-Xin, Zhao Zhe, Zhang Li-Cheng, Yun Cai, Su Xiu-Yun, Tang Pei-Fu
机构信息
Department of Orthopaedics, Shijingshan Teaching Hospital of Capital Medical University, Beijing Shijingshan Hospital, No. 24, Shijingshan Road, Beijing 100043, China.
Department of orthopaedics, The Fourth Medical Center, Chinese PLA General Hospital, Beijing, China; National Clinical Research Center for Orthopaedics, Sports Medicine & Rehabilitation, Beijing 100853, China.
出版信息
Injury. 2022 Feb;53(2):353-361. doi: 10.1016/j.injury.2021.10.029. Epub 2021 Nov 9.
BACKGROUND
The cross-sectional area of three parallel screws might affect the stability of the internal fixation of femoral neck fractures. The screws fixed in the oblique-triangle configuration (OTC) were assumed to have a larger cross-sectional area, but the biomechanical stability has not yet been validated. In this study, finite element analyses were performed to compare the biomechanical properties of the internal fixation fixed by the OTC and the traditional Inverted Equilateral Triangle Configuration (IETC).
METHOD
Pauwels type III fracture was established on the three-dimensional femoral model and three cannulated screws with the OTC and traditional IETC methods were applied. The oblique-triangle configuration with the largest area inscribed the femoral neck isthmus by the three screws was determined, the area and circumference of the cross-section formed by the OTC and IETC model were compared. Stress, strain, and displacement peaks of the two configuration models under different loads were compared. Twelve pairs of nodes on the fracture ends were selected and the displacement of the fracture ends was evaluated through the displacement between these nodes.
RESULTS
The area and circumference of the cross-section formed by the OTC were larger than those in the IETC model. The degree of stress dispersion around the screw holes in the OTC model was better than that of the IETC, but the stress distribution order of the three screws in the two models was consistent. The maximum stress, strain, displacement, and displacement of the fracture end in the OTC model were smaller than those in the IETC model. The stress, strain, displacement, and fracture end displacement peaks of the two fixed models gradually increase with the increase of loads.
CONCLUSION
The oblique-triangle configuration showed superior mechanical properties than the IETC in finite element analyses. This study suggests that when three screws are fixed in parallel method, the larger the cross-sectional area of the screw configuration, the better stability of the internal fixation might be obtained. Furthermore, the biomechanical properties of various spatial configurations and screw holes of the three parallel screws need to be considered before clinical practice.
背景
三枚平行螺钉的横截面积可能会影响股骨颈骨折内固定的稳定性。采用斜三角形构型(OTC)固定的螺钉被认为具有更大的横截面积,但尚未得到生物力学稳定性的验证。在本研究中,进行有限元分析以比较采用OTC和传统倒等边三角形构型(IETC)固定的内固定的生物力学性能。
方法
在三维股骨模型上建立 Pauwels III 型骨折,并采用OTC和传统IETC方法应用三枚空心螺钉。确定通过三枚螺钉内切于股骨颈峡部的面积最大的斜三角形构型,比较OTC和IETC模型形成的横截面的面积和周长。比较两种构型模型在不同载荷下应力、应变和位移峰值。选择骨折端的十二对节点,并通过这些节点之间的位移评估骨折端的位移。
结果
OTC形成的横截面面积和周长大于IETC模型。OTC模型中螺钉孔周围的应力分散程度优于IETC,但两种模型中三枚螺钉的应力分布顺序一致。OTC模型中的最大应力、应变、位移和骨折端位移均小于IETC模型。两种固定模型的应力、应变、位移和骨折端位移峰值均随载荷增加而逐渐增大。
结论
在有限元分析中,斜三角形构型显示出比IETC更好的力学性能。本研究表明,当三枚螺钉采用平行方法固定时,螺钉构型的横截面积越大,内固定的稳定性可能越好。此外,在临床实践前需要考虑三枚平行螺钉的各种空间构型和螺钉孔的生物力学性能。
Zotero 插件