Design and experimental study of new type of external fixation device for bone fracture
10.7687/j.issn1003-8868.2018.02.034
- VernacularTitle:一种新型骨折外固定装置的设计和实验验证
- Author:
Shen LIU
1
;
Xiang-Dang LIANG
;
Xin-Hao WANG
;
Chuan-Zhong HU
;
Zhan-She GUO
;
Geng SUN
Author Information
1. 解放军总医院骨科
- Keywords:
fracture;
external fixation device;
FEM;
stress force;
healing
- From:
Chinese Medical Equipment Journal
2018;39(2):34-36
- CountryChina
- Language:Chinese
-
Abstract:
Objective To design a new type of external fixator for bone fracture and verify its rationality and feasibility. Methods The frame and screw of stainless steel achieved fracture fixation in vitro with a threaded locking structure.At the same time the increasing thickness of body frame, the inclined nail holes and the raised bottoms were designed to greatly enhance the strength and overall stability of body frame.FEM (finite element method),measuring the relative displacement and stress distribution after axial load,was used to verify the rationality of the design.An animal experiment with sheep was used to verify the feasibility of fracture treatment. Results Simulated result of FEM indicated that the biggest relative displacement between the separated bones was 0.04 mm,which was much less than the minimum value 1 mm required for fracture healing.The maximum stresses applied on the frame of the fixator,fixator screw,and bone were 35,26,and 6 MPa, respectively, which was much less than the allowable stress. In the animal experiment, fracture site was fixed firmly after operation and was well cured 3 months later.Conclusion The design of this new device is feasible and it can be used as a new method of fracture treatment.
