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Incorporation of interference fit and cyclic loading in simulation algorithm for better prediction of micromotion of femoral stems

机译：在模拟算法中纳入过盈配合和循环载荷以更好地预测股骨柄的微动

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Aseptic loosening is one of the major causes for revision surgery in hip arthroplasty. This has been attributed to failure in achieving strong primary fixation. Interface micromotion beyond a certain threshold limit inhibits bone ingrowth and favours the formation of fibrous tissue. In this study, an algorithm was constructed to predict micromotion and therefore instability of femoral stems. Based on common physiological loading, micromotion is calculated throughout the bone-implant interface. Press fit stem insertion was modelled using interference fit and cyclic loading was used to better simulate actual loading configuration. An in-vitro micromotion experiment was carried out on four human cadaveric femurs to validate the micromotion algorithm. A good correlation was obtained between finite element predictions and the in-vitro micromotion experiment.

机译：无菌性松动是髋关节置换术翻修手术的主要原因之一。这归因于未能实现牢固的初级固定。界面微动超过某个阈值极限会抑制骨骼向内生长，并促进纤维组织的形成。在这项研究中，构建了一种算法来预测微动，从而预测股骨柄的不稳定性。基于常见的生理负荷，在整个骨骼-植入物界面中计算微动。使用过盈配合对压配合杆插入进行建模，并使用循环载荷更好地模拟实际载荷配置。在四个人体尸体股骨上进行了体外微动实验，以验证微动算法。在有限元预测与体外微运动实验之间获得了良好的相关性。

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Abdul-Kadir Mohammed Rafiq; Hansen Ulrich N.;
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年度 2007
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专利

1. Distribution of gap and micromotion during compressive loading around a cementless femoral stem [J] . Camine V. Malfroy, Ruediger H., Pioletti D. P., Computer methods in biomechanics and biomedical engineering . 2015,第OCTaSUPPLa1期

机译：非骨水泥型股骨柄周围压缩载荷期间间隙和微动的分布
2. Design and evaluation of a device for measuring three-dimensional micromotions of press-fit femoral stem prostheses. [J] . Buhler DW, Oxland TR, Nolte LP Medical engineering & physics. . 1997,第2期

机译：设计和评估一种用于测量压入式股骨假体三维三维运动的设备。
3. Comments on "Prediction of femoral fracture load using automated finite element modeling" by J.H.Keyak et al. and "Prediction of femoral fracture load using finite element models: an examination of stress- and strain-based failure theories" by J.H.Ke [J] . Wang SJ, Wei HW, Chen CS Journal of Biomechanics . 2001,第4期

机译：J.H.Keyak等人的评论“使用自动有限元建模预测股骨骨折负荷”。 J.H. Kee和“使用有限元模型预测股骨骨折负荷：基于应力和应变的破坏理论的检验”
4. WHOLE-SURFACE MICROMOTION OF A NONCEMENTED FEMORAL COMPONENT UNDER LEVEL WALKING AND STAIR CLIMBING SIMULATIONS [C] . Frank C. Barich, Thomas D. Brown, John J. Callaghan International Mechanical Engineering Congress and Exposition . 1994

机译：水平行走和楼梯攀岩模拟下的股骨部件的全面微观
5. LBSim: A simulation system for dynamic load-balancing algorithms for distributed systems. [D] . Du, Zhiying. 2004

机译：LBSim：用于分布式系统的动态负载平衡算法的仿真系统。
6. Small and similar amounts of micromotion in an anatomical stem and a customized cementless femoral stem in regular-shaped femurs [O] . Mona Nysted, Olav A Foss, Jomar Klaksvik, 2014

机译：正常形状的股骨在解剖茎和定制的非骨水泥股骨柄中有少量和类似的微运动
7. INCORPORATION OF INTERFERENCE FIT AND CYCLIC LOADING IN SIMULATION ALGORITHM FOR BETTER PREDICTION OF MICROMOTION OF FEMORAL STEMS [O] . Mohammed Rafiq Abdul-kadir, Ulrich N. Hansen 2015

机译：模拟算法中的干涉适应和循环加载的更好预测股骨干的微观形态
8. Durability of Propeller Shaft Interference Fits under Variable Cyclic Loading [R] . Fedorov, A. S., Pasumanskii, E. M., Birulya, E. V. 1983

机译：可变循环加载下螺旋桨轴干涉的耐久性

Incorporation of interference fit and cyclic loading in simulation algorithm for better prediction of micromotion of femoral stems

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