A Simulator Study of TKR Kinematics Using Modeled Soft-Tissue Constraint: Virtual Soft-Tissue Control for Knee Simulation

机译：用模拟软组织约束的TKR运动学模拟器研究：膝关节模拟虚拟软组织控制

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The clinical relevance of knee simulation relies on the accurate reproduction of in vivo TKR kinematics. Current generation force-control knee simulators use mechanical springs to simulate the knee's soft-tissue constraint. Because the constraint provided by the soft tissue is complex in nature, with nonlinear force displacement characteristics and axis coupled behavior, it is difficult or impossible to model this behavior with mechanical springs. This paper describes a virtual soft-tissue control methodology, which provides enhanced modeling of the knee's soft tissue. TKR kinematics were evaluated for a posteriorly stabilized prosthetic device using a range of plausible soft-tissue models derived from the literature. The device was exercised with the standard ISO force-control waveforms while varying the constraint model to compare several different soft-tissue models. Kinematic and kinetic data were taken and tracking performance analyzed for several different constraint models.

机译：膝部仿真依赖于体内TKR运动学精确繁殖的临床相关性。目前发电力控制膝盖模拟器使用机械弹簧模拟膝盖的软组织约束。由于软组织提供的约束本质上是复杂的，因此具有非线性力位移特性和轴耦合行为，难以或不可能用机械弹簧绘制这种行为。本文介绍了一种虚拟软组织控制方法，可提供膝关节软组织的增强型建模。使用来自文献的一系列合理的软组织模型评估TKR运动学进行后稳定的假体装置。使用标准ISO力控制波形进行该设备，同时改变约束模型以比较几种不同的软组织模型。采取了运动和动力学数据，并跟踪了几种不同约束模型分析的性能。

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《Symposium on Wear of Articulating Surfaces: Understanding Joint Simulation》|2006年||共15页
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Bruce F. White; Darryl DLima; Albert C. Drueding; John Cox; Forest J. Carignan; American Society for Testing and Materials(ASTM)(US); STP 1472;
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中图分类机械试验法;
关键词
TKR kinematics; knee simulator; knee simulation; soft-tissue constraint; knee wear; knee testing; TKA; knee implant testing;

机译：TKR运动学;膝部模拟器;膝盖模拟;软组织约束;膝盖磨损;膝关节试验;TKA;膝关节植入试验;

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1. Restoring the constitutional alignment with a restrictive kinematic protocol improves quantitative soft-tissue balance in total knee arthroplasty: a randomized controlled trial [J] . Samuel J. MacDessi, William Griffiths-Jones, Darren B. Chen, The bone & joint journal. . 2020,第1期

机译：用限制性运动方案恢复宪法对齐提高了总膝关节置换术中的定量软组织平衡：随机对照试验
2. A soft-tissue preserving method for evaluating the impact of posterior tibial slope on kinematics during cruciate-retaining total knee arthroplasty: A validation study [J] . Dai Yifei, Angibaud Laurent D., Jenny Jean-Yves, The Knee . 2016,第6期

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3. The Relationship between Soft-Tissue Balance and Intraoperative Kinematics of Guided Motion Total Knee Arthroplasty [J] . Inui Hiroshi, Taketomi Shuji, Yamagami Ryota, The journal of knee surgery . 2019,第1期

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4. A Simulator Study of TKR Kinematics Using Modeled Soft-Tissue Constraint: Virtual Soft-Tissue Control for Knee Simulation [C] . Bruce F. White, Darryl DLima, Albert C. Drueding, Symposium on Wear of Articulating Surfaces: Understanding Joint Simulation . 2006

机译：用模拟软组织约束的TKR运动学模拟器研究：膝关节模拟虚拟软组织控制
5. Patient-specific interactive ultrasound image simulation with soft-tissue deformation. [D] . Petrinec, Kresimir. 2013

机译：具有软组织变形的特定于患者的交互式超声图像模拟。
6. Restoring the constitutional alignment with a restrictive kinematic protocol improves quantitative soft-tissue balance in total knee arthroplasty: a randomized controlled trial [O] . Samuel J. MacDessi, William Griffiths-Jones, Darren B. Chen, -1

机译：通过限制性运动学方案恢复体质排列可改善全膝关节置换术中定量的软组织平衡：一项随机对照试验
7. Restoring the constitutional alignment with a restrictive kinematic protocol improves quantitative soft-tissue balance in total knee arthroplasty: a randomized controlled trial [O] . Samuel J. MacDessi, William Griffiths-Jones, Darren B. Chen, 2020

机译：用限制性运动方案恢复宪法对齐提高了总膝关节置换术中的定量软组织平衡：随机对照试验

A Simulator Study of TKR Kinematics Using Modeled Soft-Tissue Constraint: Virtual Soft-Tissue Control for Knee Simulation

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