Finite element analysis of PMMA bone cement reinforced screw plate fixation for osteoporotic proximal humeral fracture.
10.12200/j.issn.1003-0034.2023.03.013
- Author:
Wei-Bin WANG
1
;
Xin-Hua YUAN
1
;
Qing-Song FU
1
;
Xin-You HAN
1
Author Information
1. Hwa Mei Hospital, University of Chinese Academy of Sciences, Ningbo 315010, Zhejiang, China.
- Publication Type:Journal Article
- Keywords:
Bone cement;
Finite element analysis;
Proximal humeral fracture;
Screw reinforcement
- MeSH:
Humans;
Finite Element Analysis;
Bone Cements;
Polymethyl Methacrylate;
Biomechanical Phenomena;
Shoulder Fractures/surgery*;
Fracture Fixation, Internal;
Humeral Head;
Bone Screws;
Bone Plates
- From:
China Journal of Orthopaedics and Traumatology
2023;36(3):262-267
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:With the help of finite element analysis, to explore the effect of proximal humeral bone cement enhanced screw plate fixation on the stability of internal fixation of osteoporotic proximal humeral fracture.
METHODS:The digital model of unstable proximal humeral fracture with metaphyseal bone defect was made, and the finite element models of proximal humeral fracture bone cement enhanced screw plate fixation and common screw plate fixation were established respectively. The stress of cancellous bone around the screw, the overall stiffness, the maximum stress of the plate and the maximum stress of the screw were analyzed.
RESULTS:The maximum stresses of cancellous bone around 6 screws at the head of proximal humeral with bone cement enhanced screw plate fixation were 1.07 MPa for No.1 nail, 0.43 MPa for No.2 nail, 1.16 MPa for No.3 nail, 0.34 MPa for No.4 nail, 1.99 MPa for No.5 nail and 1.57 MPa for No.6 nail. These with common screw plate fixation were:2.68 MPa for No.1 nail, 0.67 MPa for No.2 nail, 4.37 MPa for No.3 nail, 0.75 MPa for No.4 nail, 3.30 MPa for No.5 nail and 2.47 MPa for No.6 nail. Overall stiffness of the two models is 448 N/mm for bone cement structure and 434 N/mm for common structure. The maximum stress of plate appears in the joint hole:701MPa for bone cement structure and 42 0MPa for common structure. The maximum stress of screws appeared at the tail end of No.4 nail:284 MPa for bone cement structure and 240.8 MPa for common structure.
CONCLUSION:Through finite element analysis, it is proved that the proximal humerus bone cement enhanced screw plate fixation of osteoporotic proximal humeral fracture can effectively reduce the stress of cancellous bone around the screw and enhance the initial stability after fracture operation, thus preventing from penetrating out and humeral head collapsing.
