Role of joint interactions in upper limb joint movements: a disability simulation study using wearable inertial sensors for 3D motion capture.

IF 5.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL Journal of NeuroEngineering and Rehabilitation Pub Date : 2024-11-05 DOI:10.1186/s12984-024-01480-0
Nishtha Bhagat, Preeti Raghavan, Vikram Kapila
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Abstract

Background: Restriction of movement at a joint due to disease or dysfunction can alter the range of motion (ROM) at other joints due to joint interactions. In this paper, we quantify the extent to which joint restrictions impact upper limb joint movements by conducting a disability simulation study that used wearable inertial sensors for three-dimensional (3D) motion capture.

Methods: We employed the Wearable Inertial Sensors for Exergames (WISE) system for assessing the ROM at the shoulder (flexion-extension, abduction-adduction, and internal-external rotation), elbow (flexion-extension), and forearm (pronation-supination). We recruited 20 healthy individuals to first perform instructed shoulder, elbow, and forearm movements without any external restrictions, and then perform the same movements with restriction braces placed to limit movement at the shoulder, elbow, and forearm, separately, to simulate disability. To quantify the extent to which a restriction at a non-instructed joint affected movement at an instructed joint, we computed average percentage reduction in ROM in the restricted versus unrestricted conditions. Moreover, we performed analysis of variance and post hoc Tukey tests (q statistic) to determine the statistical significance (p < 0.05 denoted using *) of the differences in ROM of an instructed joint in the unrestricted versus restricted conditions.

Results: Restricting movement at the shoulder led to a large reduction in the average ROM for elbow flexion-extension (21.93%, q = 9.34*) and restricting elbow movement significantly reduced the average ROM for shoulder flexion-extension (17.77%, q = 8.05*), shoulder abduction-adduction (19.80%, q = 7.60*), and forearm pronation-supination (14.04%, q = 4.96*). Finally, restricting the forearm significantly reduced the average ROM for shoulder internal-external rotation (16.71%, q = 3.81*) and elbow flexion-extension (10.01%, q = 4.27*).

Conclusions: Joint interactions across non-instructed joints can reduce the ROM of instructed movements. Assessment of ROM in the real-world using 3D motion capture, for example using the WISE system, can aid in understanding movement limitations, informing interventions, and monitoring progress with rehabilitation.

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关节相互作用在上肢关节运动中的作用:利用可穿戴惯性传感器进行三维运动捕捉的残疾模拟研究。
背景:由于疾病或功能障碍导致的关节活动受限会因关节相互作用而改变其他关节的活动范围(ROM)。在本文中,我们通过使用可穿戴惯性传感器进行三维(3D)运动捕捉的残疾模拟研究,量化了关节限制对上肢关节运动的影响程度:方法:我们使用可穿戴惯性传感器系统(WISE)来评估肩关节(屈-伸、外展-内收、内旋-外旋)、肘关节(屈-伸)和前臂关节(代-上举)的ROM。我们招募了 20 名健康人,首先让他们在没有任何外部限制的情况下完成肩部、肘部和前臂的指令性动作,然后分别戴上限制支架限制肩部、肘部和前臂的动作,以模拟残疾。为了量化非指令关节的限制对指令关节运动的影响程度,我们计算了在限制与非限制条件下ROM的平均减少百分比。此外,我们还进行了方差分析和事后Tukey检验(q统计量),以确定在非限制与限制条件下,指示关节的活动度差异的统计学意义(p *):限制肩部运动导致肘部屈伸的平均 ROM 大幅减少(21.93%,q = 9.34*),限制肘部运动显著减少了肩部屈伸(17.77%,q = 8.05*)、肩部外展-内收(19.80%,q = 7.60*)和前臂前伸-上举(14.04%,q = 4.96*)的平均 ROM。最后,限制前臂显著降低了肩关节内旋-外旋(16.71%,q = 3.81*)和肘关节屈-伸(10.01%,q = 4.27*)的平均 ROM:结论:非指导关节间的关节相互作用会降低指导动作的 ROM。使用三维运动捕捉(如使用 WISE 系统)评估真实世界中的 ROM 有助于了解运动限制,为干预措施提供信息,并监测康复进展。
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来源期刊
Journal of NeuroEngineering and Rehabilitation
Journal of NeuroEngineering and Rehabilitation 工程技术-工程:生物医学
CiteScore
9.60
自引率
3.90%
发文量
122
审稿时长
24 months
期刊介绍: Journal of NeuroEngineering and Rehabilitation considers manuscripts on all aspects of research that result from cross-fertilization of the fields of neuroscience, biomedical engineering, and physical medicine & rehabilitation.
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