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用于骨力生物学研究的加载装置
  • ISSN号:1673-8225
  • 期刊名称:Journal of Clinical Rehabilitative Tissue Engineer
  • 时间:2011
  • 页码:4379-4382
  • 分类:R318[医药卫生—生物医学工程;医药卫生—基础医学]
  • 作者机构:[1]天津理工大学机械工程学院,天津市300384, [2]军事医学科学院卫生装备研究所,天津市300161, [3]吉林大学中日联谊医院,吉林省长春市130022, [4]吉林大学材料与工程学院,吉林省长春市130025
  • 相关基金:国家自然科学基金资助项目(10832012)“骨重建的生物力学机理及其在骨相关疾病诊治中的应用” (11072087)“双频加载对骨力生物学影响的相关研究”和(30772209)“体外骨组织工程化培养中组织空心化现象机理的研究”的部分资助; 吉林省自然基金(201115023)“仿生条件下骨组织工程化培养力学响应的研究”的部分资助~~
  • 相关项目:双频加载对骨力生物学影响的相关研究
作者: 徐强|张春秋|郭勇|武汉|董心|
关键词: 双频加载装置, 组织工程, 关节软骨, 有限元, 组织构建
中文摘要:

背景:关节软骨组织细胞对力学刺激产生反馈来维持它的形态和结构,进而适应环境。加载装置能提供研究关节软骨力生物学的合适的力学环境。目的:根据组织工程仿生的原理,建立一种用于软骨力学生物学研究的双频加载装置。方法:该力学环境采用双频加载方式实现,通过控制可调凸轮和压电陶瓷振幅和频率来实现低频-高幅载荷耦合高频-低幅载荷,同时使用有限元法对受载体进行力学分析。结果与结论:按照仿真的原理,研制出用于软骨力生物学研究的加载装置。在双频加载的条件下,软骨浅表层受到的力学载荷最大,其次是中间层,深层受到的力学应力最小;在高频10Hz和20Hz与低频1Hz和2Hz叠加时,软骨表现出不同的力学响应,但是二者引起的差异很小。该力学环境的构建可能有助于组织工程的发展和临床医学的应用,未来将采用生物学实验进行检验。

英文摘要:

BACKGROUND:Articular cartilage cells respond to mechanical stimulation to maintain the morphological structure near cartilage of human body.A loading device can provide mechanical environment for studying mechanobiology.OBJECTIVE:To construct a dual-frequency loading device according to the bionic principle of tissue engineering.METHODS:This mechanical environment was achieved by using dual-frequency loading method and implementing the coupling of low-frequency high-amplitude mechanical loading and high-frequency low-amplitude mechanical loading by controlling amplitude and frequency of cam and piezoelectric ceramics respectively,meanwhile,finite element method was used to make mechanics analysis on cartilage.RESULTS AND CONCLUSION:In the light of the principle of simulation,a dual-frequency loading device has been developed for bone mechanobiology study.Under dual-frequency loading condition,mechanical loading on the surface layer of cartilage was largest,followed by the middle layer,smallest on the deep layer;when high-frequency of 10 and 20 Hz superpositioning low-frequency of 1 and 2 Hz,the cartilage show different mechanical responses;but the difference between two response was little.The construction of the mechanical environment of the device may be helpful to tissue engineering development and clinical applications;in addition,it will be tested with biological experiment in future.

同期刊论文项目
骨重建的生物力学机理及其在骨相关疾病诊治中的应用
期刊论文 77 会议论文 10
双频加载对骨力生物学影响的相关研究
期刊论文 13 会议论文 15
体外骨组织工程化培养中组织空心化现象机理的研究
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