Methodology for Robotic In Vitro Testing of the Knee.

IF 1.6 4区 医学 Q3 ORTHOPEDICS Journal of Knee Surgery Pub Date : 2024-07-01 Epub Date: 2024-03-21 DOI:10.1055/a-2292-1157
Robb William Colbrunn, Jeremy Granieri Loss, Callan Michael Gillespie, Elizabeth Bailey Pace, Tara Francesca Nagle
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Abstract

The knee joint plays a pivotal role in mobility and stability during ambulatory and standing activities of daily living (ADL). Increased incidence of knee joint pathologies and resulting surgeries has led to a growing need to understand the kinematics and kinetics of the knee. In vivo, in silico, and in vitro testing domains provide researchers different avenues to explore the effects of surgical interactions on the knee. Recent hardware and software advancements have increased the flexibility of in vitro testing, opening further opportunities to answer clinical questions. This paper describes best practices for conducting in vitro knee biomechanical testing by providing guidelines for future research. Prior to beginning an in vitro knee study, the clinical question must be identified by the research and clinical teams to determine if in vitro testing is necessary to answer the question and serve as the gold standard for problem resolution. After determining the clinical question, a series of questions (What surgical or experimental conditions should be varied to answer the clinical question, what measurements are needed for each surgical or experimental condition, what loading conditions will generate the desired measurements, and do the loading conditions require muscle actuation?) must be discussed to help dictate the type of hardware and software necessary to adequately answer the clinical question. Hardware (type of robot, load cell, actuators, fixtures, motion capture, ancillary sensors) and software (type of coordinate systems used for kinematics and kinetics, type of control) can then be acquired to create a testing system tailored to the desired testing conditions. Study design and verification steps should be decided upon prior to testing to maintain the accuracy of the collected data. Collected data should be reported with any supplementary metrics (RMS error, dynamic statistics) that help illuminate the reported results. An example study comparing two different anterior cruciate ligament reconstruction techniques is provided to demonstrate the application of these guidelines. Adoption of these guidelines may allow for better interlaboratory result comparison to improve clinical outcomes.

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膝关节机器人体外测试方法。
膝关节在日常生活的行走和站立活动中的灵活性和稳定性方面起着举足轻重的作用。膝关节病变和由此导致的手术的发生率增加,使得人们越来越需要了解膝关节的运动学和动力学。体内、硅学和体外测试领域为研究人员提供了不同的途径来探索手术相互作用对膝关节的影响。最近硬件和软件的进步提高了体外测试的灵活性,为回答临床问题提供了更多机会。本文介绍了进行体外膝关节生物力学测试的最佳实践,为今后的研究提供了指导。在开始体外膝关节研究之前,研究和临床团队必须确定临床问题,以确定是否有必要进行体外测试来回答问题,并作为解决问题的黄金标准。确定临床问题后,必须讨论一系列问题(为回答临床问题,应改变哪些手术或实验条件;每种手术或实验条件需要进行哪些测量;哪些加载条件会产生所需的测量结果;加载条件是否需要肌肉驱动),以帮助确定充分回答临床问题所需的硬件和软件类型。硬件(机器人类型、称重传感器、致动器、夹具、运动捕捉、辅助传感器)和软件(用于运动学和动力学的坐标系类型、控制类型)可以用来创建适合所需测试条件的测试系统。研究设计和验证步骤应在测试前确定,以保持所收集数据的准确性。收集的数据应与有助于说明报告结果的任何补充指标(均方根误差、动态统计)一起报告。本文提供了一个比较两种不同前交叉韧带重建技术的研究实例,以展示这些指导原则的应用。采用这些指南可以更好地进行实验室间的结果比较,从而改善临床结果。
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来源期刊
CiteScore
4.50
自引率
5.90%
发文量
139
期刊介绍: The Journal of Knee Surgery covers a range of issues relating to the orthopaedic techniques of arthroscopy, arthroplasty, and reconstructive surgery of the knee joint. In addition to original peer-review articles, this periodical provides details on emerging surgical techniques, as well as reviews and special focus sections. Topics of interest include cruciate ligament repair and reconstruction, bone grafting, cartilage regeneration, and magnetic resonance imaging.
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