There is no obvious change on the stress distribution of the implant-bone interface as the change of the implant shape.
种植体周骨界面上的应力分布不随形态的改变而发生明显的改变。
Objective: to study the effects of different designs in single mandibular molar implant restoration on the stress distribution of implant-bone interface.
目的:分析单个下颌磨牙缺失时不同设计的种植修复的种植体-骨界面的应力分布情况。
Results: A negative correlation between implant diameter or length and the strees distribution in the implant-bone interface or the alveolar bone was found.
结果:种植体长度变化对种植体周围骨界面及牙槽骨应力的大小有较大的影响,两者呈负相关关系;
Objective: to investigate the effect of different cortical bone thickness on stress distribution of implant-bone interface, thus to provide reference in clinics.
目的:研究不同厚度的骨皮质支持下,支抗种植体-骨界面应力分布的影响,为临床提供参考。
The dogs of experimental group were ingested with BGC. The implanted maxillofacial part were sampled to observe the changes of implant-bone interface immedately 1,2,4,8,12 week after the surgery.
随机分为实验组和对照组,实验组予补骨合剂灌胃,分别于术后1、2、4、8、1 2周取出标本进行种植体—骨界面骨整合情况观察。
Conclusion: the model can be used to study the implant bone interface in vitro.
结论:这模型是一种理想的体外研究种植体骨界面的研究方法。
AIM: to investigate the effects of torque force load on the stress distribution in implant bone interface, so as to help the clinical selection of implant location.
目的:研究扭转力载荷对支抗种植体骨界面应力分布的影响,以指导临床正确选择支抗种植体的植入部位。
Objective to study the influence of different shape of lower jaw on stress distribution at bone interface in the mandibular molar region of implant restoration models.
目的模拟单个下颌磨牙缺失的种植修复,分析不同下颌骨形态对种植体骨界面应力分布的影响。
The value of stress peaks in implants and in bone -implant interface under oblique loads appeared higher than those under vertical loads.
种植体界面骨组织的最大应力位于种植体颈部周围的骨皮质界面;
Results: the stress values of the ball attachment in the palate area, alveolar bone and implant bone interface were much higher than that of the bar attachment.
结果:发现杵臼附着式固位的种植赝复体在行使功能时其腭部、牙槽骨、种植体周围骨界面的应力值均远高于杆卡附着式固位的种植赝复体。
Hard tissue section was more complex in the production process. But it was clear to detect the implant bone interface osteogenesis.
硬组织切片是一种单层组织切片,制作过程较复杂,但其对种植体-骨界面的细微情况显示较清晰。
Histomorphometry was used to analyse and compare bone growth metabolism of bone interface with implant as well as evaluation of biocompatibility from quantitative and dynamic aspects.
分期植入动物股骨内,取不同期骨标本制备磨片,用骨计量学方法分析比较不同种植体界面骨的生长代谢情况,从定量、动态的角度对其生物相容性给予评价。
The quantitative analysis of bone formation content in the implant interface was achieved.
行种植体界面光镜、电镜观察及成骨量定量分析。
Conclusion: Interface of implant and bone have good osseointegration. It can provided sufficient anchorage for orthodontic force.
结论:种植体一骨界面能达到骨性结合,受到正畸力系作用下,能够提供足够的支抗。
Objective: To study forming of implant bone interface in immediate implant using guided tissue regeneration (GTR) technique.
目的:研究诱导组织再生(gtr)技术应用于即刻种植的骨界面形成。
Aseptic loosening of the prosthesis is a major form for the failure of artificial joints, which results in the conglomeration of wear particles at the bone-implant interface.
无菌性松动是人工关节失效的主要形式,由磨损粒子在植入物与肌肉界面的聚集导致。
Conclusion Skin graft and alveolar mucosa both formed fiber connective tissue attachment on the surface of implant, which seal the environment between the oral and bone-interface.
结论口腔环境下,皮肤和牙槽黏膜均有纤维结缔组织在种植体表面附着,形成“袖口”,起生物封闭作用。
This review summarized effects of different implant surface microstructure on osteoblasts at bone-implant interface, in order to guide optimization of implant surface microstructure.
本文综述了种植体表面微结构对种植体-骨组织界面成骨细胞的生物学行为的影响,为研究和设计种植体表面微结构提供参考。
The interface between implant and bone were observed with scanning electron microscope (SEM) and X ray energy spectrum analysis (EDAX).
对种植体骨界面作扫描电镜观察、X线能谱分析。
Results ti 75 implant showed good biocompatibility and formed implant bone interface.
结果钛75种植体具有良好的生物相容性,钛75与骨形成良好的骨界面。
Result:Stress concentration was markedly found on the neck and apex of bone-implant and bone-tooth interface;
结果:种植体与天然牙联冠修复时,种植体、天然牙骨界面颈部和根尖部出现应力集中;
The result of quantitative analysis of bone formation content in the bone-implant interface was achieved.
行种植体界面光镜、电镜观察及成骨量定量分析。
Methods: the finite element method was used to analyze the change of the stress on implant and bone interface under different angles of the implants direction.
方法:应用有限元法分析不同倾斜角度对种植体骨界面应力峰值影响。
The osseo-implant interface by hard tissue slices with both the TM implant and bone were observed.
通过骨—种植体硬组织切片 ,观察了骨—种植体界面。
The osseo-implant interface by hard tissue slices with both the TM implant and bone were observed.
通过骨—种植体硬组织切片 ,观察了骨—种植体界面。
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