用于下肢神经成像范式的磁共振成像兼容运动捕捉系统的有效性

VALIDITY OF AN MRI-COMPATIBLE MOTION CAPTURE SYSTEM FOR USE WITH LOWER EXTREMITY NEUROIMAGING PARADIGMS.

作者信息

Anand Manish, Diekfuss Jed A, Bonnette Scott, Short Ian, Hurn Matthew, Grooms Dustin R, Myer Gregory D

机构信息

The SPORT Center, Division of Sports Medicine, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio, USA.

University of Cincinnati Biomedical Engineering, Cincinnati, OH, USA.

出版信息

Int J Sports Phys Ther. 2020 Dec;15(6):936-946. doi: 10.26603/ijspt20200936.

DOI:10.26603/ijspt20200936

PMID:33344010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7727415/

Abstract

BACKGROUND

Emergent linkages between musculoskeletal injury and the nervous system have increased interest to evaluate brain activity during functional movements associated with injury risk. Functional magnetic resonance imaging (fMRI) is a sophisticated modality that can be used to study brain activity during functional sensorimotor control tasks. However, technical limitations have precluded the precise quantification of lower-extremity joint kinematics during active brain scanning. The purpose of this study was to determine the validity of a new, MRI-compatible motion tracking system relative to a traditional multi-camera 3D motion capture system for measuring lower extremity joint kinematics.

METHODS

Fifteen subjects (9 females, 6 males) performed knee flexion-extension and leg press movements against guided resistance while laying supine. Motion tracking data were collected simultaneously using the MRI-compatible and traditional multi-camera 3D motion systems. Participants' sagittal and frontal plane knee angles were calculated from data acquired by both multi-camera systems. Resultant range of angular movement in both measurement planes were compared between both systems. Instrument agreement was assessed using Bland-Altman plots and intraclass correlation coefficients (ICC).

RESULTS

The system demonstrated excellent validity in the sagittal plane (ICCs>0.99) and good to excellent validity in the frontal plane (0.84 < ICCs < 0.92). Mean differences between corresponding range of angular movement measurements ranged from 0.186 ° to 0.295 °.

CONCLUSIONS

The present data indicate that this new, MRI-compatible system is valid for measuring lower extremity movements when compared to the gold standard 3D motion analysis system. As there is growing interest regarding the neural substrates of lower extremity movement, particularly in relation to injury and pathology, this system can now be integrated into neuroimaging paradigms to investigate movement biomechanics and its relation to brain activity.

LEVEL OF EVIDENCE

摘要

背景

肌肉骨骼损伤与神经系统之间的紧急联系增加了人们对评估与损伤风险相关的功能性运动期间大脑活动的兴趣。功能磁共振成像（fMRI）是一种复杂的方式，可用于研究功能性感觉运动控制任务期间的大脑活动。然而，技术限制妨碍了在主动脑部扫描期间对下肢关节运动学进行精确量化。本研究的目的是确定一种新型的MRI兼容运动跟踪系统相对于传统多相机3D运动捕捉系统在测量下肢关节运动学时的有效性。

方法

15名受试者（9名女性，6名男性）仰卧位时进行膝关节屈伸和腿部推举运动，对抗引导阻力。使用MRI兼容和传统多相机3D运动系统同时收集运动跟踪数据。根据两个多相机系统采集的数据计算参与者的矢状面和额状面膝关节角度。比较两个系统在两个测量平面上的合成角运动范围。使用Bland-Altman图和组内相关系数（ICC）评估仪器一致性。

结果

该系统在矢状面显示出极好的有效性（ICC>0.99），在额状面显示出良好到极好的有效性（0.84<ICC<0.92）。相应角运动测量范围之间的平均差异为0.186°至0.295°。

结论

目前的数据表明，与金标准3D运动分析系统相比，这种新型的MRI兼容系统在测量下肢运动方面是有效的。由于人们对下肢运动的神经基础，特别是与损伤和病理相关的神经基础越来越感兴趣，该系统现在可以集成到神经成像范式中，以研究运动生物力学及其与大脑活动的关系。

证据水平

3级。

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