有限元法
固定(群体遗传学)
流离失所(心理学)
内固定
断裂(地质)
口腔正畸科
材料科学
植入
经皮
医学
外科
生物医学工程
结构工程
复合材料
工程类
心理学
心理治疗师
环境卫生
人口
作者
Xuan Pei,Jincheng Huang,Zhixun Fang,Shenglong Qian,Wei Zhou,Guodong Wang,Jianyin Lei,Ximing Liu
标识
DOI:10.1038/s41598-025-00156-6
摘要
Abstract Plate fixation is a classic method for treating day II crescent fracture dislocation of the pelvic (CFDP). However, due to the advantages of minimally invasive techniques and reduced complications associated with internal fixation percutaneous cannulated screws have emerged as a promising alternative for treating Day II CFDP. In this study, we propose using an S 2 AI screw combined with an LC-2 screw (S 2 AI + LC-2) for the treatment of Day II CFDP. The aim of this study was to compare its biomechanical stability with that of two conventional fixation methods using finite element analysis (FEA). A finite element (FE) model of pelvic was developed and validated. Three fixation methods were applied: S 1 sacroiliac (SI) screws combined with LC-2 screw (S 1 + LC-2), S 1 and S 2 SI screws combined with LC-2 screw (S 1 + S 2 + LC-2), and S 2 AI + LC-2. A 500 N load was applied, and the displacement of the crescent fracture fragments, the stress distribution of the implants, the displacement of the SI joint, and the maximum stress on the bone surrounding the screws were analyzed across the three FE models. After loading 500 N stress, the maximum displacement of the crescent fracture fragment and the maximum stress of bone around the implant in the S 2 AI + LC-2 group were the smallest in three groups. The displacement of SI joint in S 2 AI + LC-2 group was less than that in S 1 + LC-2 and S 1 + S 2 + LC-2 (P < 0.001). The maximum stress of implants in each group is smaller than the yield stress of titanium. The maximum stress of the bone around the screws at SI joint in all models lower than the yield strength of cortical bone. The maximum stress of the bone around LC-2 screws in all models lower than the yield strength of cancellous bone. The S 2 AI + LC-2 group can achieve reliable stability of the SI joint, and the stress on the bone around the screw could be reduced. The S 2 AI + LC-2 group has good biomechanical stability and can be considered as a new implant to treat Day II CFDP.
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