Three-dimensional finite element analysis of Kirschner wire fixation configuration for supracondylar fracture of humerus fracture in children.
10.12200/j.issn.1003-0034.2020.10.012
- Author:
Xiang-Fei LIU
1
;
Kamara ALLIEU
1
;
Chuang LIU
1
;
En-Bo WANG
1
;
Xiang-Lu JI
1
;
Tian-Jing LIU
1
;
Qi-Lin LI
1
Author Information
1. Shengjing Hospital of China Medical University, Shenyang 110000, Liaoning, China.
- Publication Type:Journal Article
- Keywords:
Child;
Finite element analysis;
Fracture fixation;
Humeral fractures
- MeSH:
Biomechanical Phenomena;
Bone Wires;
Child;
Finite Element Analysis;
Fracture Fixation, Internal;
Humans;
Humerus;
Male
- From:
China Journal of Orthopaedics and Traumatology
2020;33(10):948-953
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To establish a new mechanical model of distal humerus in children with epiphysial cartilage, stimulate supracondylar humerus fracture and perform three dimensional finite elements, and study effect of pins numbers, pin tract, outlet height and pin configurations on stability of fixation.
METHODS:Three dimensional computed tomography (CT) data of 6-year-old boy with distal humerus was downloaded from picture archiving and communications systems software (PACS), the data of picture was imported into Simpleware and SolidWorks 2016 software to establish distal humerus fracture in children contained ossific nucleus of the capitellum (ONC) and distal cartilage. Normal extense supracondylar humerus fracture model was established to stimulate configurations of crossed and lateral pinning fixation, 30 N was added on the direction of flexion extension and varus valgus, while 50 N was added on the direction of internal and external turning. Stability was analyzed by displacement degree of distal fracture.
RESULTS:Among 2-pin configurations, 2-crossed pins were more stable against rotation forces which could resist rotation stress over 2 585 Nmm/ °, while low position through ONC of 2-divergent lateral pins were more stable, which could resist stress of 45 N /mm and 190 N /mm during the test of resistant strains and varus-valgus stress. The third pins was added into the more stable lateral 2-pins, the stability in all directions were increased obviously, and 3 crossed pins is the most stable, stress of flexion-extension, varus-valgus and internal-external turning were 198 N /mm, 395 N /mm and 6 251 Nmm/ °.
CONCLUSION:Two-divergent lateral pins could provide enough stability for supracondylar humerus fracture in children. In two-crossed pins, the upper border of MDJ could provide the best stability. Three-crossed pins could offer the best stability against both translation and rotation forces.
