摘要
目的:探讨半环形外固定支架治疗C型桡骨远端骨折的稳定性。方法:选取1名健康成年男性志愿者,分别采用CT和MRI扫描腕关节。基于CT和MRI扫描数据,建立正常腕关节的三维有限元模型,并对模型有效性进行验证。基于正常腕关节的三维有限元模型,建立C1、C2、C3型桡骨远端骨折有限元模型,制作并装配半环形外固定支架。分别在装配半环形外固定支架的C1、C2、C3型桡骨远端骨折有限元模型上施加轴向、旋前及掌屈载荷,记录不同载荷下3种桡骨远端骨折有限元模型桡腕关节面的轴向最大相对位移及骨折块的最大应力和最大位移。结果:(1)正常腕关节有限元模型构建和验证结果。本研究建立的正常腕关节有限元模型涉及1 094 717个单元,387 763个节点。在尺骨近端施加完全约束后,对模型施加100 N的轴向载荷,桡腕关节面最大应力为10.7 MPa;桡骨远端关节面主要应力分布于桡舟关节面和桡月关节面,且桡舟关节面所承受的应力较大;该结果与文献中尸体实验结果一致,提示正常腕关节有限元模型构建成功。(2)3种桡骨远端骨折有限元模型桡腕关节面的轴向最大相对位移。在轴向载荷下,C1、C2、C3型桡骨远端骨折有限元模型桡腕关节面的轴向最大相对位移依次为0.27 mm、0.14 mm、0.64 mm;在旋前载荷下,C1、C2、C3型桡骨远端骨折有限元模型桡腕关节面的轴向最大相对位移依次为0.21 mm、0.29 mm、0.36 mm;在掌屈载荷下,C1、C2、C3型桡骨远端骨折有限元模型桡腕关节面的轴向最大相对位移依次为0.11 mm、0.08 mm、0.24 mm。(3)3种桡骨远端骨折有限元模型骨折块的最大应力。在轴向载荷下,C1、C2、C3型桡骨远端骨折有限元模型骨折块的最大应力依次为5.58 MPa、20.93 MPa、40.91 MPa;在旋前载荷下,C1、C2、C3型桡骨远端骨折有限元模型骨折块的最大应力依次为1.45 MPa、11.31 MPa、11.89 MPa;在掌屈载荷�
Objective:To explore the stability of a semi-circular external fixator in treating type C distal radius fractures.Methods:A healthy adult male volunteer was selected for wrist joint scanning by using CT and MRI,respectively.Based on the CT and MRI scanning data,a three-dimensional(3D)finite element model of the normal wrist joint was established,and the validity of the model was verified.Based on the successfully established 3D finite element model,the finite element models of type C1,C2,and C3 distal radius fractures were established,and a semi-circular external fixator was fabricated and assembled.The axial,pronation and palmarflexion loads were applied to the finite element models of type C1,C2 and C3 distal radius fractures assembled with semi-circular external fixators,respectively.The maximum relative axial displacement of the radiocarpal articular surface,and the maximum stress and maximum displacement of the fractured bone in the three finite element models under the different loads were recorded.Results:①The established 3D finite element model of normal wrist joint involved 1094717 elements and 387763 nodes.The maximum stress was 10.7 MPa on the radiocarpal articular surface when a 100 N axial load was applied to the model after applying a full constraint to the proximal end of the ulna.The main stress acted on the distal radius articular surface was mainly distributed on the radionavicular and radiolunate articular surfaces,with the radionavicular articular surface experiencing greater stress.This result was consistent with the results previously reported in the cadaver experiments,indicating the successful establishment of a 3D finite element model of normal wrist joint.②The maximum relative axial displacements of the radiocarpal articular surface in the finite element models of type C1,C2,and C3 distal radius fractures were 0.27,0.14,and 0.64 mm under the axial load;0.21,0.29,and 0.36 mm under the pronation load;and 0.11,0.08,and 0.24 mm under the palmarflexion load,respectively.③The maximum str
作者
王文
蒋科卫
成永忠
林晴
尹晓冬
钱秀清
刘广伟
WANG Wen;JIANG Kewei;CHENG Yongzhong;LIN Qing;YIN Xiaodong;QIAN Xiuqing;LIU Guangwei(Graduate School of Beijing University of Chinese Medicine,Beijing 100029,China;Wangjing Hospital of CACMS,Beijing 100102,China;School of Biomedical Engineering,Capital Medical University,Beijing 100069,China;Beijing Key Laboratory of Orthopedics of Traditional Chinese Medicine,Beijing 100102,China)
出处
《中医正骨》
2024年第6期1-9,36,共10页
The Journal of Traditional Chinese Orthopedics and Traumatology
基金
首都临床特色诊疗技术研究及转化应用项目(Z221100007422075)
国家自然科学基金项目(82274561)
中国中医科学院科技创新工程项目(CI2021A02008)。
关键词
桡骨骨折
骨折固定术
外固定器
限定因素分析
生物力学现象
radius fractures
fracture fixation
external fixators
finite element analysis
biomechanical phenomena
