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马蹄环式外固定架固定AO-C2型Pilon骨折在轴向载荷下的稳定性
引用本文:陈洋,刘广伟,成永忠,黄晓宇,陈奕历,陈泓颖,汪雄伟,赵继阳,史长龙. 马蹄环式外固定架固定AO-C2型Pilon骨折在轴向载荷下的稳定性[J]. 医用生物力学, 2022, 37(3): 498-503
作者姓名:陈洋  刘广伟  成永忠  黄晓宇  陈奕历  陈泓颖  汪雄伟  赵继阳  史长龙
作者单位:中国中医科学院望京医院 创伤一科;北京中医药大学 临床医学院;中医正骨技术北京市重点实验室;北京中医药大学第三附属医院 创伤关节科
基金项目:中国中医科学院科技创新工程项目(C12021A02008),首都临床特色应用研究与成果推广(Z161100000516111),2020 年度北京中医药大学中央高校基本科研业务费研究生创新创业类自主选题(2020-jxs-022)
摘    要:目的 在传统环形外固定架构型基础上进行重新设计,使其更适合关节内Pilon骨折的固定。通过定量分析负重载荷下应用马蹄环形外固定架固定Pilon骨折端位移以验证该外固定架的稳定性。方法 采用摆锯依据预先制定的截骨线制备AO-C2型Pilon骨折模型,应用马蹄环形外固定架对其固定,然后于力学加载机上进行轴向载荷力学加载。轴向载荷加载方式为从0 N开始依次加载至150、300、450 N。用动态捕捉仪记录轴向载荷加载过程中骨折块在X(左右)、Y(上下)、Z(前后)轴的移位变化。结果 腓骨左右、上下、前后方向整体移位范围分别为0.32~0.70、-0.27~-0.23、0.23~0.32 mm,最大差值为0.09 mm。胫骨内踝侧骨折块左右、上下、前后方向整体移位分别为0.02~0.14、-0.80~-0.19、-0.78~-0.13 mm。胫骨外踝侧骨折块左右、上下、前后方向整体移位范围分别为-0.07~0.05、-0.36~-0.03、0.27~0.47 mm。结论 马蹄环形外固定架不仅能实现骨折端的稳定固定且能产生有利于骨折愈合的微动,符合骨折愈合的生物力学特点。该外固定架构型简单,适合...

关 键 词:Pilon骨折  马蹄环  外固定架
收稿时间:2021-05-07
修稿时间:2021-08-22

Stability of Fixation for AO-C2 Pilon Fracture with Horseshoe Ring External Fixator under Axial Loading
CHEN Yang,LIU Guangwei,CHENG Yongzhong,HUANG Xiaoyu,CHEN Yili,CHEN Hongying,WANG Xiongwei,ZHAO Jiyang,SHI Changlong. Stability of Fixation for AO-C2 Pilon Fracture with Horseshoe Ring External Fixator under Axial Loading[J]. Journal of Medical Biomechanics, 2022, 37(3): 498-503
Authors:CHEN Yang  LIU Guangwei  CHENG Yongzhong  HUANG Xiaoyu  CHEN Yili  CHEN Hongying  WANG Xiongwei  ZHAO Jiyang  SHI Changlong
Affiliation:No.1 Department of Traumatology, Wangjing Hospital, Chinese Academy of Chinese Medical Sciences; School of Clinical Medicine, Beijing University of Chinese Medicine;Beijing Key Laboratory of Bone Setting Technology of Traditional Chinese Medicine;No.2 Department of Traumatology, Wangjing Hospital, Chinese Academy of Chinese Medical Sciences; School of Clinical Medicine, Beijing University of Chinese Medicine;Department of Traumatic Joint, the Third Affiliated Hospital of Beijing University of Chinese Medicine
Abstract:Objective The traditional circular external fixation structure was redesigned to make it more suitable for intraarticular Pilon fracture fixation. The stability of the horseshoe annular external fixator was verified by analyzing fracture displacement of the Pilon bone after fixation with the external fixator under loading.MethodsAO-C2 Pilon fracture model was prepared by pendulum saw according to predetermined osteotomy line, and then fixed by horseshoe ring external fixator. The fixed ankle model was subjected to axial loading on mechanical test machine. The axial force loading mode was from 0 N to 150 N, 300 N and 450 N successively. The displacement changes of fracture blocks in X (left-right), Y (up-down) and Z (anterior-posterior) axis during axial loading were recorded by dynamic capture instrument.ResultsThe overall left-right, up-down and anterior-posterior displacement of the fibula ranged from 0.32 mm to 0.70 mm, -0.27 mm to -0.23 mm and 0.23mm to 0.32 mm, and the maximum difference was 0.09 mm. The overall left-right, up-down and anterior-posterior displacement of medial malleolus fracture in the tibia range from 0.02 mm to 0.14 mm, -0.80 mm to -0.19 mm and -0.78 mm to -0.13mm.The overall left-right, up-down and anterior-posterior displacement of lateral malleolus fracture in the tibia ranged from -0.07 mm to 0.05 mm, -0.36 mm to -0.03 mm, 0.27 mm to 0.47 mm.ConclusionsThe horseshoe ring external fixator can not only stabilize the fracture end, but also produce micromotion which is beneficial to fracture healing, which accords with biomechanical characteristics of fracture healing. The external fixator structure is simple, suitable for the treatment of Pilon fracture, and worthy of popularization and application.
Keywords:Pilon fracture   horseshoe ring   external fixator
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