横梁行走练习不需要视觉就能提高平衡能力

IF 0.9 4区 医学 Q4 NEUROSCIENCES
Motor Control Pub Date : 2024-08-19 Print Date: 2024-10-01 DOI:10.1123/mc.2023-0145
Natalie Richer, Steven M Peterson, Daniel P Ferris
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引用次数: 0

摘要

背景:横梁行走是一项研究较多的行走平衡评估。最近的研究表明,短暂的间歇性视觉旋转和遮挡可以提高横梁行走练习对随后无视觉干扰横梁行走的效果。我们试图研究在安装在跑步机上的平衡木上练习行走时完全移除视觉的影响。尽管视觉干扰会提高这项任务的成绩,但我们假设,由于练习的特殊性,完全移除视觉反馈所带来的平衡能力提高会低于正常视觉下的效果:20名健康的年轻人在有正常视力或没有正常视力的情况下,以固定的速度在安装在跑步机上的平衡木上行走30分钟。我们通过计算他们每分钟的跨步次数和每分钟跨步次数变化的百分比,比较了他们在训练前、训练中和训练后的平衡能力:结果:训练后,两组人的平衡能力都有所改善,视力正常和视力不良者的跨步次数百分比变化没有明显差异。在训练过程中,无视力组学员平均每分钟的跨步次数是视力正常组的两倍:结论:尽管之前的实验表明,间歇性视觉扰动会大大提高光束行走训练的效果,但与正常视觉训练相比,完全消除视觉反馈并不会改变训练效果。这可能是在没有视觉的情况下,感觉重新加权的结果,即本体感觉、皮肤和前庭输入的权重更大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vision Is Not Required to Elicit Balance Improvements From Beam Walking Practice.

Background: Beam walking is a highly studied assessment of walking balance. Recent research has demonstrated that brief intermittent visual rotations and occlusions can increase the efficacy of beam walking practice on subsequent beam walking without visual perturbations. We sought to examine the influence of full vision removal during practice walking on a treadmill-mounted balance beam. Although visual disruptions improved performance of this task, we hypothesized that removing visual feedback completely would lead to less balance improvements than with normal vision due to the specificity of practice.

Methods: Twenty healthy young adults trained to walk at a fixed speed on a treadmill-mounted balance beam for 30 min, either with, or without, normal vision. We compared their balance pre-, during, and posttraining by calculating their step-offs per minute and the percentage change in step-offs per minute.

Results: Balance improved in both groups after training, with no significant difference in percentage change in step-offs between the normal vision and the no vision participants. On average, the no vision participants had twice as many step-offs per minute as the normal vision group during training.

Conclusion: Although previous experiments show that intermittent visual perturbations led to large enhancements of the effectiveness of beam walking training, completely removing visual feedback did not alter training effectiveness compared with normal vision training. It is likely a result of sensory reweighting in the absence of vision, where a greater weight was placed on proprioceptive, cutaneous, and vestibular inputs.

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来源期刊
Motor Control
Motor Control 医学-神经科学
CiteScore
1.80
自引率
9.10%
发文量
48
审稿时长
>12 weeks
期刊介绍: Motor Control (MC), a peer-reviewed journal, provides a multidisciplinary examination of human movement across the lifespan. To keep you abreast of current developments in the field of motor control, it offers timely coverage of important topics, including issues related to motor disorders. This international journal publishes many types of research papers, from clinical experimental to modeling and theoretical studies. These papers come from such varied disciplines as biomechanics, kinesiology, neurophysiology, neuroscience, psychology, physical medicine, and rehabilitation. Motor Control, the official journal of the International Society of Motor Control, is designed to provide a multidisciplinary forum for the exchange of scientific information on the control of human movement across the lifespan, including issues related to motor disorders. Motor Control encourages submission of papers from a variety of disciplines including, but not limited to, biomechanics, kinesiology, neurophysiology, neuroscience, psychology, physical medicine, and rehabilitation. This peer-reviewed journal publishes a wide variety of types of research papers including clinical experimental, modeling, and theoretical studies. To be considered for publication, papers should clearly demonstrate a contribution to the understanding of control of movement. In addition to publishing research papers, Motor Control publishes review articles, quick communications, commentaries, target articles, and book reviews. When warranted, an entire issue may be devoted to a specific topic within the area of motor control.
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