基于标记和无标记运动捕捉系统测量的脑瘫（CP）患儿步态偏差指数（GDI）和步态变异性指数（GVI）的比较。

Comparison of gait deviation index (GDI) and gait variability index (GVI) measured by marker-based and markerless motion capture systems in children with cerebral palsy (CP).

作者信息

Poomulna Jutharat, Knarr Brian A, Dutt Vivek, Kingston David C

机构信息

Department of Biomechanics, University of Nebraska at Omaha, 6001 Dodge St, Omaha, NE 68182, USA.

University of Nebraska Medical Center, 42nd and, Emile St, Omaha, NE 68198, USA.

出版信息

Gait Posture. 2025 Jan;115:7-13. doi: 10.1016/j.gaitpost.2024.10.018. Epub 2024 Oct 26.

DOI:10.1016/j.gaitpost.2024.10.018

PMID:39490268

Abstract

BACKGROUND

The Gait Deviation Index (GDI) is a metric clinicians use to assess overall gait pathology in children with cerebral palsy (CP) by comparing kinematic data to a normative sample. The Gait Variability Index (GVI) is a related metric that quantifies the variability in spatio-temporal variables during gait. The GDI and GVI have been verified using marker-based motion capture approaches, but video-based markerless motion capture has not been compared using these tools in children with CP.

RESEARCH QUESTION

Do GDI and GVI scores differ when measured using markerlessTheia3D and a marker-based approach between the more and less affected legs in children with CP?

METHODS

Fifteen children with CP (GMFCS levels I-IV) and 24 typically developing children aged 6-18 years were recruited for this study. Overground walking was performed at a self-selected pace while the pelvis and lower limb kinematics were simultaneously recorded using both motion capture systems. Differences in GDI and GVI scores when considering the effect of system and limb impairment were analyzed using two-way repeated-measures ANOVAs.

RESULTS

GDI scores were 6.9 points lower (p < 0.05) when measured using Theia3D compared to the marker-based approach and 6.8 points lower (p < 0.05) in the more affected limbs than in the less affected limbs. These GDI score differences are considered clinically significant. No differences were identified in GVI scores between systems or limb impairment. Differences in kinematic measurements were found in children with CP, including pelvic tilt, hip flexion/extension, hip rotation, and foot progression angle, where root mean square differences between systems exceeded 10°.

SIGNIFICANCE

Theia3D can adequately measure variability in spatio-temporal gait parameters for quantifying GVI scores in children with CP compared to the marker-based approach. However, caution is needed when quantifying lower limb kinematics and interpreting GDI and GVI scores using Theia3D in children with CP.

摘要

背景

步态偏差指数（GDI）是临床医生用于通过将运动学数据与正常样本进行比较来评估脑瘫（CP）患儿整体步态病理的一种指标。步态变异性指数（GVI）是一种相关指标，用于量化步态期间时空变量的变异性。GDI和GVI已通过基于标记的运动捕捉方法得到验证，但尚未在CP患儿中使用这些工具对基于视频的无标记运动捕捉进行比较。

研究问题

在CP患儿中，使用无标记的Theia3D和基于标记的方法测量时，GDI和GVI分数在受影响程度较高和较低的腿之间是否存在差异？

方法

本研究招募了15名CP患儿（GMFCS水平I-IV）和24名6至18岁的正常发育儿童。以自选速度进行地面行走，同时使用两种运动捕捉系统记录骨盆和下肢的运动学数据。使用双向重复测量方差分析来分析在考虑系统和肢体损伤影响时GDI和GVI分数的差异。

结果

与基于标记的方法相比，使用Theia3D测量时GDI分数低6.9分（p<0.05），在受影响较大的肢体中比受影响较小的肢体低6.8分（p<0.05）。这些GDI分数差异被认为具有临床意义。在系统或肢体损伤之间未发现GVI分数存在差异。在CP患儿中发现了运动学测量的差异，包括骨盆倾斜、髋关节屈伸、髋关节旋转和足前进角，系统之间的均方根差异超过10°。

意义

与基于标记的方法相比，Theia3D能够充分测量CP患儿时空步态参数的变异性以量化GVI分数。然而，在使用Theia3D对CP患儿进行下肢运动学量化以及解释GDI和GVI分数时需要谨慎。

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基于标记和无标记运动捕捉系统测量的脑瘫（CP）患儿步态偏差指数（GDI）和步态变异性指数（GVI）的比较。

Comparison of gait deviation index (GDI) and gait variability index (GVI) measured by marker-based and markerless motion capture systems in children with cerebral palsy (CP).

作者信息

机构信息

出版信息

BACKGROUND

RESEARCH QUESTION

METHODS

RESULTS

SIGNIFICANCE

背景

研究问题

方法

结果

意义

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