使用磁惯性传感器对肩关节旋转中心进行体内估计：基于MRI的准确性和可重复性评估。

In vivo estimation of the shoulder joint center of rotation using magneto-inertial sensors: MRI-based accuracy and repeatability assessment.

作者信息

Crabolu M, Pani D, Raffo L, Conti M, Crivelli P, Cereatti A

机构信息

Department of Electrical and Electronic Engineering, University of Cagliari, Piazza d'Armi, 09123, Cagliari, Italy.

Department POLCOMING, University of Sassari, Sassari, Italy.

出版信息

Biomed Eng Online. 2017 Mar 21;16(1):34. doi: 10.1186/s12938-017-0324-0.

DOI:10.1186/s12938-017-0324-0

PMID:28320423

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5359843/

Abstract

BACKGROUND

The human gleno-humeral joint is normally represented as a spherical hinge and its center of rotation is used to construct humerus anatomical axes and as reduction point for the computation of the internal joint moments. The position of the gleno-humeral joint center (GHJC) can be estimated by recording ad hoc shoulder joint movement following a functional approach. In the last years, extensive research has been conducted to improve GHJC estimate as obtained from positioning systems such as stereo-photogrammetry or electromagnetic tracking. Conversely, despite the growing interest for wearable technologies in the field of human movement analysis, no studies investigated the problem of GHJC estimation using miniaturized magneto-inertial measurement units (MIMUs). The aim of this study was to evaluate both accuracy and precision of the GHJC estimation as obtained using a MIMU-based methodology and a functional approach.

METHODS

Five different functional methods were implemented and comparatively assessed under different experimental conditions (two types of shoulder motions: cross and star type motion; two joint velocities: ω = 90°/s, 180°/s; two ranges of motion: Ɵ = 45°, 90°). Validation was conducted on five healthy subjects and true GHJC locations were obtained using magnetic resonance imaging.

RESULTS

The best performing methods (NAP and SAC) showed an accuracy in the estimate of the GHJC between 20.6 and 21.9 mm and repeatability values between 9.4 and 10.4 mm. Methods performance did not show significant differences for the type of arm motion analyzed or a reduction of the arm angular velocity (180°/s and 90°/s). In addition, a reduction of the joint range of motion (90° and 45°) did not seem to influence significantly the GHJC position estimate except in a few subject-method combinations.

CONCLUSIONS

MIMU-based functional methods can be used to estimate the GHJC position in vivo with errors of the same order of magnitude than those obtained using traditionally stereo-photogrammetric techniques. The methodology proposed seemed to be robust under different experimental conditions. The present paper was awarded as "SIAMOC Best Methodological Paper 2016".

摘要

背景

人体盂肱关节通常被视为球窝关节，其旋转中心用于构建肱骨解剖轴，并作为计算关节内力矩的归位点。盂肱关节中心（GHJC）的位置可通过采用功能法记录特定的肩关节运动来估计。近年来，人们进行了广泛研究，以改进从立体摄影测量或电磁跟踪等定位系统获得的GHJC估计值。相反，尽管可穿戴技术在人体运动分析领域的关注度不断提高，但尚无研究探讨使用小型化磁惯性测量单元（MIMU）进行GHJC估计的问题。本研究的目的是评估使用基于MIMU的方法和功能法获得的GHJC估计的准确性和精确性。

方法

实施了五种不同的功能方法，并在不同实验条件下（两种类型的肩部运动：十字形和星形运动；两种关节速度：ω = 90°/秒，180°/秒；两种运动范围：Ɵ = 45°，90°）进行了比较评估。对五名健康受试者进行了验证，并使用磁共振成像获得了真实的GHJC位置。

结果

表现最佳的方法（NAP和SAC）在GHJC估计中的准确性在20.6至21.9毫米之间，重复性值在9.4至10.4毫米之间。方法性能在分析的手臂运动类型或手臂角速度降低（180°/秒和90°/秒）方面未显示出显著差异。此外，关节运动范围减小（90°和45°）似乎除了在少数受试者 - 方法组合中之外，并未对GHJC位置估计产生显著影响。

结论

基于MIMU的功能方法可用于体内估计GHJC位置，其误差与使用传统立体摄影测量技术获得的误差处于同一数量级。所提出的方法在不同实验条件下似乎具有鲁棒性。本文荣获“2016年SIAMOC最佳方法学论文”。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f03/5359843/181a60d8b072/12938_2017_324_Fig1_HTML.jpg

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本文引用的文献

Estimation of the center of rotation using wearable magneto-inertial sensors.使用可穿戴磁惯性传感器估计旋转中心

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使用磁惯性传感器对肩关节旋转中心进行体内估计：基于MRI的准确性和可重复性评估。

In vivo estimation of the shoulder joint center of rotation using magneto-inertial sensors: MRI-based accuracy and repeatability assessment.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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