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双荧光透视和基于模型的跟踪技术在临床检查期间量化体内髋关节运动学的准确性和可行性。

Accuracy and feasibility of dual fluoroscopy and model-based tracking to quantify in vivo hip kinematics during clinical exams.

作者信息

Kapron Ashley L, Aoki Stephen K, Peters Christopher L, Maas Steve A, Bey Michael J, Zauel Roger, Anderson Andrew E

机构信息

Department of Orthopaedics and the Department of Bioengineering, University of Utah, Salt Lake City, UT.

出版信息

J Appl Biomech. 2014 Jun;30(3):461-70. doi: 10.1123/jab.2013-0112. Epub 2014 Feb 25.

DOI:10.1123/jab.2013-0112
PMID:24584728
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4143504/
Abstract

Accurate measurements of in-vivo hip kinematics may elucidate the mechanisms responsible for impaired function and chondrolabral damage in hips with femoroacetabular impingement (FAI). The objectives of this study were to quantify the accuracy and demonstrate the feasibility of using dual fluoroscopy to measure in-vivo hip kinematics during clinical exams used in the assessment of FAI. Steel beads were implanted into the pelvis and femur of two cadavers. Specimens were imaged under dual fluoroscopy during the impingement exam, FABER test, and rotational profile. Bead locations measured with model-based tracking were compared with those measured using dynamic radiostereometric analysis. Error was quantified by bias and precision, defined as the average and standard deviation of the differences between tracking methods, respectively. A normal male volunteer was also imaged during clinical exams. Bias and precision along a single axis did not exceed 0.17 and 0.21 mm, respectively. Comparing kinematics, positional error was less than 0.48 mm and rotational error was less than 0.58°. For the volunteer, kinematics were reported as joint angles and bone-bone distance. These results demonstrate that dual fluoroscopy and model-based tracking can accurately measure hip kinematics in living subjects during clinical exams of the hip.

摘要

准确测量体内髋关节运动学参数可能有助于阐明股骨髋臼撞击症(FAI)患者髋关节功能受损和髋臼盂唇损伤的机制。本研究的目的是量化使用双荧光透视法在评估FAI的临床检查期间测量体内髋关节运动学参数的准确性,并证明其可行性。将钢珠植入两具尸体的骨盆和股骨中。在撞击试验、FABER试验和旋转轮廓检查期间,通过双荧光透视对标本进行成像。将基于模型跟踪测量的钢珠位置与使用动态放射立体测量分析测量的位置进行比较。误差通过偏差和精密度进行量化,偏差和精密度分别定义为跟踪方法之间差异的平均值和标准差。一名正常男性志愿者也在临床检查期间进行了成像。沿单一轴的偏差和精密度分别不超过0.17毫米和0.21毫米。比较运动学参数,位置误差小于0.48毫米,旋转误差小于0.58°。对于志愿者,运动学参数报告为关节角度和骨-骨距离。这些结果表明,双荧光透视法和基于模型的跟踪可以在髋关节临床检查期间准确测量活体受试者的髋关节运动学参数。

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