Effect of three cannulated compression screws combined with an obstructing screw on the biomechanical performance of pauwels type III femoral neck fractures: a finite element analysis

Effect of three cannulated compression screws combined with an obstructing screw on the biomechanical performance of pauwels type III femoral neck fractures: a finite element analysis

Abstract Background Obstructing screws (OS) are an effective surgical method for treating Pauwels type III femoral neck fractures. This study compared the mechanical properties of various surgical techniques for treating such fractures using finite element analysis. Methods An ideal finite element m...

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Bibliographic Details
Main Authors: Er-dan Huang, Huo-huo Xue, Liang Chen, Yang Feng, Liang Zhao, Zhi-Hui Zhong, Ming Zheng
Format: Article
Language:English
Published: BMC 2025-05-01
Series:BMC Musculoskeletal Disorders
Subjects:
Obstructing screw
Pauwels type III femoral neck fractures
Finite element analysis
Online Access:https://doi.org/10.1186/s12891-025-08691-z
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Summary:Abstract Background Obstructing screws (OS) are an effective surgical method for treating Pauwels type III femoral neck fractures. This study compared the mechanical properties of various surgical techniques for treating such fractures using finite element analysis. Methods An ideal finite element model of the femur was established based on computed tomography scans of healthy individuals. Four internal fixation methods were designed: the three cannulated compression screws (3CCS) group, 3CCS + horizontal screw (3CCS + HS) group, 3CCS + OS (3CCS + OS) group, and 3CCS + medial buttress locking plate (3CCS + BL) group. The same pressure direction and magnitude were applied to observe the stress distribution in the femur under different surgical techniques. Results The stress distribution, fracture displacement, and femoral stiffness varied across the internal fixation groups. The 3CCS + OS group exhibited the most balanced femoral stress distribution (126.49 MPa), effectively dispersing stress on the CCS. Its overall femoral stiffness (510.95 N/mm) and fracture displacement (4.11 mm) were second only to the 3CCS + BL group (554.09 N/mm, 3.79 mm) and significantly better than the 3CCS (441.18 N/mm, 4.76 mm) and 3CCS + HS (449.68 N/mm, 4.67 mm) groups. Conclusions The combination of CCS and antishear OS demonstrated significant mechanical advantages and lower biological interference in the treatment of Pauwels type III femoral neck fractures. This method not only provides excellent mechanical stability but also ensures biological safety, offering benefits such as simplicity of operation, minimal invasiveness, and a low risk of complications. It holds great potential for widespread clinical application.
ISSN:1471-2474

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