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经皮脊髓电刺激和体感增强促进运动学习:一项针对老年人的随机对照试验试点研究

Enhancing Locomotor Learning With Transcutaneous Spinal Electrical Stimulation and Somatosensory Augmentation: A Pilot Randomized Controlled Trial in Older Adults.

作者信息

Clark David J, Hawkins Kelly A, Winesett Steven P, Cox Brigette A, Pesquera Sarah, Miles Jon W, Fuller David D, Fox Emily J

机构信息

Brain Rehabilitation Research Center, Malcom Randall VA Medical Center, Gainesville, FL, United States.

Department of Aging and Geriatric Research, University of Florida, Gainesville, FL, United States.

出版信息

Front Aging Neurosci. 2022 Mar 2;14:837467. doi: 10.3389/fnagi.2022.837467. eCollection 2022.

DOI:10.3389/fnagi.2022.837467
PMID:35309891
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8924500/
Abstract

This study investigated locomotor learning of a complex terrain walking task in older adults, when combined with two adjuvant interventions: transcutaneous spinal direct current stimulation (tsDCS) to increase lumbar spinal cord excitability, and textured shoe insoles to increase somatosensory feedback to the spinal cord. The spinal cord has a crucial contribution to control of walking, and is a novel therapeutic target for rehabilitation of older adults. The complex terrain task involved walking a 10-meter course consisting of nine obstacles and three sections of compliant (soft) walking surface. Twenty-three participants were randomly assigned to one of the following groups: sham tsDCS and smooth insoles (; control group), sham tsDCS and textured insoles (), active tsDCS and smooth insoles (), and active tsDCS and textured insoles (). The first objective was to assess the feasibility, tolerability, and safety of the interventions. The second objective was to assess preliminary efficacy for increasing locomotor learning, as defined by retention of gains in walking speed between a baseline visit of task practice, and a subsequent follow-up visit. Variability of the center of mass while walking over the course was also evaluated. The change in executive control of walking (prefrontal cortical activity) between the baseline and follow-up visits was measured with functional near infrared spectroscopy. The study results demonstrated feasibility based on enrollment and retention of participants, tolerability based on self-report, and safety based on absence of adverse events. Preliminary efficacy was supported based on trends showing larger gains in walking speed and more pronounced reductions in mediolateral center of mass variability at the follow-up visit in the groups randomized to active tsDCS or textured insoles. These data justify future larger studies to further assess dosing and efficacy of these intervention approaches. In conclusion, rehabilitation interventions that target spinal control of walking present a potential opportunity for enhancing walking function in older adults.

摘要

本研究调查了老年人在执行复杂地形行走任务时的运动学习情况,同时结合了两种辅助干预措施:经皮脊髓直流电刺激(tsDCS)以增加腰脊髓兴奋性,以及有纹理的鞋垫以增加对脊髓的体感反馈。脊髓对步行控制起着关键作用,是老年人康复治疗的一个新靶点。复杂地形任务包括在一条10米长的路线上行走,该路线由九个障碍物和三段柔软的行走路面组成。23名参与者被随机分配到以下组之一:假tsDCS和平滑鞋垫组(;对照组)、假tsDCS和有纹理鞋垫组()、主动tsDCS和平滑鞋垫组()以及主动tsDCS和有纹理鞋垫组()。第一个目标是评估干预措施的可行性、耐受性和安全性。第二个目标是评估增加运动学习的初步效果,运动学习的定义是在任务练习的基线访视和随后的随访访视之间步行速度的保持情况。还评估了在路线上行走时重心的变化。使用功能近红外光谱测量基线访视和随访访视之间步行执行控制(前额叶皮层活动)的变化。研究结果表明,基于参与者的招募和留存情况证明了可行性,基于自我报告证明了耐受性,基于无不良事件证明了安全性。基于随机分配到主动tsDCS或有纹理鞋垫组的参与者在随访访视时步行速度有更大提高以及中外侧重心变化更明显降低的趋势,支持了初步效果。这些数据为未来开展更大规模的研究以进一步评估这些干预方法的剂量和效果提供了依据。总之,针对脊髓步行控制的康复干预为增强老年人步行功能提供了一个潜在机会。

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Direct current stimulation boosts hebbian plasticity in vitro.
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Delineating the Diversity of Spinal Interneurons in Locomotor Circuits.描绘运动回路中脊髓中间神经元的多样性
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