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首页> 外文期刊>Journal of Mechanics in Medicine and Biology (JMMB) >ACCURACY CHARACTERIZATION OF AN INTEGRATED OPTICAL-BASED METHOD FOR LOADS MEASUREMENT IN COMPUTER AIDED SURGERY
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ACCURACY CHARACTERIZATION OF AN INTEGRATED OPTICAL-BASED METHOD FOR LOADS MEASUREMENT IN COMPUTER AIDED SURGERY

机译:计算机辅助手术中基于光学的集成测量方法的精度表征

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摘要

Generally in the anterior cruciate ligament (ACL) injury assessment specific laxity tests (i.e., Lachman, drawer tests) are clinically performed to evaluate the presence of ligamentous lesion. At present these tests are qualitatively evaluated by the surgeon and some quantitative measurements can be performed only for Lachman/drawer tests by means of dedicated devices. This study aimed to characterize the accuracy of a novel integrated optical-based method that can be used both in intra-operative and in office assessment of ACL injuries; in particular this technology was addressed to measure the loads/torques applied during clinical laxity tests, extending the current possible quantitative evaluations. The system, based on a commercial optical localizer and common springs, was spatially characterized in order to verify displacement/rotation and corresponding applied load/torque measurements. Evaluated limits of agreement between measured and applied loads were from –0.541 to 1.781 N, with abias of 0.621 N (P = 0.05) in a dedicated clinical-like setup. This approach reported an excellent accuracy in load measurements, showing its possible integration in computer-aided surgery (CAS).
机译:通常,在前交叉韧带(ACL)损伤评估中,临床上会进行特定的松弛试验(即Lachman抽屉试验)以评估韧带病变的存在。目前,这些测试是由外科医生进行定性评估的,并且只能通过专用设备对Lachman /抽屉测试进行一些定量测量。这项研究旨在表征一种新颖的基于光学的集成方法的准确性,该方法可用于术中和办公室中的ACL损伤评估;特别是,该技术用于测量临床松弛测试期间施加的负荷/扭矩,从而扩展了当前可能的定量评估。该系统基于商用光学定位器和通用弹簧,在空间上进行了特性分析,以验证位移/旋转和相应的施加的负载/扭矩测量结果。在专门的类似于临床的设置中,测得的载荷与施加的载荷之间的一致性评估极限为–0.541至1.781 N,偏差为0.621 N(P = 0.05)。这种方法报告了负载测量的出色准确性,显示了它可能与计算机辅助手术(CAS)集成。

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    SERGIO CAMMARATA; MARCO CAMMARATA; NICOLA LOPOMO; SIMONE BIGNOZZI; PIETRO CERVERI; GIANCARLO FERRIGNO; STEFANO ZAFFAGNINI; ANDREA VISANI;

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    SERGIO CAMMARATA Dipartimento di Bioingegneria, Politecnico di Milano, Piazza Leonardo da Vinci 32, Milano (MI), I-20133, Italyhttp://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italy MARCO CAMMARATA Dipartimento di Bioingegneria, Politecnico di Milano, Piazza Leonardo da Vinci 32, Milano (MI), I-20133, Italyhttp://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italy NICOLA LOPOMO Corresponding author.http://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italyn.lopomo@biomec.ior.it SIMONE BIGNOZZI http://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italy PIETRO CERVERI Dipartimento di Bioingegneria, Politecnico di Milano, Piazza Leonardo da Vinci 32, Milano (MI), I-20133, Italy GIANCARLO FERRIGNO Dipartimento di Bioingegneria, Politecnico di Milano, Piazza Leonardo da Vinci 32, Milano (MI), I-20133, Italy STEFANO ZAFFAGNINI http://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italy ANDREA VISANI http://www.ior.it/biomec Laboratorio di Biomeccanica, Istituto Ortopedico Rizzoli, via Di Barbiano 1/10, Bologna (BO), I-40136, Italy;

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    Force measurement; optical localizer; ACL injury; knee laxity; arthrometers; spatial accuracy.;

    机译:测力光学定位器ACL伤害;膝盖松弛关节流量计;空间精度。;

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