Use of a Computed Tomography Based Approach to Validate Noninvasive Devices to Measure Rotational Knee Laxity.

International Scholarly Research Notices Pub Date : 2015-11-22 eCollection Date: 2015-01-01 DOI:10.1155/2015/705201

Simon Neumann, Stefan Maas, Danièle Waldmann, Pierre-Louis Ricci, Arno Zürbes, Pierre-Jean Arnoux, Frédéric Walter, Jens Kelm

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Abstract

The purpose of this study is to validate a noninvasive rotational knee laxity measuring device called "Rotameter P2" with an approach based on Computed Tomography (CT). This CT-approach using X-rays is hence invasive and can be regarded as a precise reference method that may also be applied to similar devices. An error due to imperfect femur fixation was observed but can be neglected for small torques. The most significant estimation error is due to the unavoidable soft tissues rotation and hence flexibility in the measurement chain. The error increases with the applied torque. The assessment showed that the rotational knee angle measured with the Rotameter is still overestimated because of thigh and femur displacement, soft tissues deformation, and measurement artefacts adding up to a maximum of 285% error at +15 Nm for the Internal Rotation of female volunteers. This may be questioned if such noninvasive devices for measuring the Tibia-Femoral Rotation (TFR) can help diagnosing knee pathologies and investigate ligament reconstructive surgery.

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使用基于计算机断层扫描的方法验证无创设备测量旋转膝关节松弛度。

本研究的目的是验证一种基于计算机断层扫描(CT)的无创旋转膝关节松弛测量装置“Rotameter P2”。因此，这种使用x射线的ct方法具有侵入性，可以被视为一种精确的参考方法，也可以应用于类似的设备。观察到由于股骨固定不完美造成的误差，但对于小扭矩可以忽略不计。最显著的估计误差是由于不可避免的软组织旋转和测量链的灵活性。误差随扭矩的增大而增大。评估表明，由于大腿和股骨移位、软组织变形和测量伪像，Rotameter测量的旋转膝关节角度仍然高估，在+15 Nm时，女性志愿者的内旋误差最大可达285%。这种测量胫骨-股骨旋转(TFR)的无创设备是否有助于诊断膝关节病变和研究韧带重建手术，这一点值得质疑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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