Quality, kinematics, and self-reported comfort of gait during body weight support in young adults with gait impairments – A cross-sectional study

IF 2.2 3区医学 Q3 NEUROSCIENCES Gait & posture Pub Date : 2024-11-22 DOI:10.1016/j.gaitpost.2024.11.014

Morten Bøgelund Pedersen , Morten Bilde Simonsen , Per Aagaard , Anders Holsgaard-Larsen

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Abstract

Background

Body weight support (BWS) technologies offer effective gait training for individuals with neurological gait impairments. However, varying dynamic BWS levels may impact specific gait kinematics, potentially introducing maladaptive movement patterns.

Aim

To investigate the acute impact of different levels of dynamically modulated BWS during overground walking at a self-selected speed on gait quality, kinematic gait patterns, and self-reported gait comfort in young adults with gait impairments.

Methods

Three-dimensional gait analysis was conducted on 18 individuals with neurological gait impairments during overground walking with 0, 10, 20, 30, 40, and 50 % BWS using a novel robotic unloading device. Gait quality, expressed as Gait Deviation Index (GDI), lower limb joint kinematics, and spatiotemporal parameters were obtained for one representative stride per participant at each BWS level. Gait comfort was reported on a visual analogue scale (VAS) for each unload level. Time-continuous data were analysed using statistical parametric mapping; discrete data were compared between BWS levels using paired t-tests.

Results

Compared with habitual gait (0 % BWS), GDI was unaltered with increasing BWS. The relative shapes of kinematic trajectories were largely unaffected, with minor reductions in amplitude and a limited impact on temporal effects with increasing BWS. Most spatiotemporal parameters were unaltered by changes in BWS, although negative impacts on walking speed, cadence, and step length emerged at 40 % BWS, with a more pronounced impact at 50 % BWS. Gait comfort improved at 20–30 % BWS by up to 20 mm on a 0–100 mm VAS.

Conclusion

Participants maintained habitual (0 % BWS) biomechanical gait patterns with 10–30 % BWS, experiencing increased gait comfort at 20–30 % BWS. Dynamically modulated BWS can be applied in task-specific gait training to offer vertical body support and increased comfort with little to no impact on biomechanical movement patterns.

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有步态障碍的年轻成年人在体重支撑时的步态质量、运动学和自我报告的舒适度 - 一项横断面研究

背景体重支撑（BWS）技术可为神经性步态障碍患者提供有效的步态训练。目的研究有步态障碍的年轻人在以自选速度进行地面行走时，不同水平的动态调节体重支撑对步态质量、步态运动模式和自我报告步态舒适度的急性影响。方法使用新型机器人卸载装置，对 18 名神经性步态障碍患者在 0、10、20、30、40 和 50% BWS 条件下进行地面行走时的步态进行三维分析。以步态偏差指数（GDI）、下肢关节运动学和时空参数表示的步态质量，在每个 BWS 水平下获得了每个参与者的一个代表性步幅。步态舒适度以视觉模拟量表（VAS）报告每个卸载水平的步态舒适度。结果与习惯步态（0% BWS）相比，GDI 随 BWS 的增加而不变。运动轨迹的相对形状基本未受影响，随着 BWS 的增加，振幅略有降低，对时间效应的影响有限。大多数时空参数不受 BWS 变化的影响，但在 40% BWS 时会对步行速度、步幅和步长产生负面影响，在 50% BWS 时影响更为明显。结论参与者在使用 10-30% BWS 时保持了习惯的（0% BWS）生物力学步态模式，在使用 20-30% BWS 时步态舒适度有所提高。动态调节的 BWS 可用于特定任务的步态训练，为身体提供垂直支撑并提高舒适度，对生物力学运动模式几乎没有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Gait & posture 医学-神经科学

CiteScore

4.70

自引率

12.50%

发文量

616

审稿时长

6 months

期刊介绍： Gait & Posture is a vehicle for the publication of up-to-date basic and clinical research on all aspects of locomotion and balance. The topics covered include: Techniques for the measurement of gait and posture, and the standardization of results presentation; Studies of normal and pathological gait; Treatment of gait and postural abnormalities; Biomechanical and theoretical approaches to gait and posture; Mathematical models of joint and muscle mechanics; Neurological and musculoskeletal function in gait and posture; The evolution of upright posture and bipedal locomotion; Adaptations of carrying loads, walking on uneven surfaces, climbing stairs etc; spinal biomechanics only if they are directly related to gait and/or posture and are of general interest to our readers; The effect of aging and development on gait and posture; Psychological and cultural aspects of gait; Patient education.