The Impact of Visual Perturbation Neuromuscular Training on Landing Mechanics and Neural Activity: A Pilot Study.

IF 1.6 Q3 SPORT SCIENCES
International Journal of Sports Physical Therapy Pub Date : 2024-11-01 eCollection Date: 2024-01-01 DOI:10.26603/001c.123958
Timothy R Wohl, Cody R Criss, Adam L Haggerty, Justin L Rush, Janet E Simon, Dustin R Grooms
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引用次数: 0

Abstract

Background: Athletes at risk for anterior cruciate ligament (ACL) injury have concurrent deficits in visuocognitive function and sensorimotor brain functional connectivity.

Purpose: This study aimed to determine whether visual perturbation neuromuscular training (VPNT, using stroboscopic glasses and external visual focus feedback) increases physical and cognitive training demand, improves landing mechanics, and reduces neural activity for knee motor control.

Design: Controlled laboratory study. Methods: Eight right leg dominant healthy female athletes (20.4±1.1yrs; 1.6±0.1m; 64.4±7.0kg) participated in four VPNT sessions. Before and after VPNT, real-time landing mechanics were assessed with the Landing Error Scoring System (LESS) and neural activity was assessed with functional magnetic resonance imaging during a unilateral right knee flexion/extension task. Physical and cognitive demand after each VPNT session was assessed with Borg's Rating of Perceived Exertion (RPE) for both physical and cognitive perceived exertion and the NASA Task Load Index. Descriptives and effect sizes were calculated.

Results: Following VPNT, LESS scores decreased by 1.5 ± 1.69 errors with a large effect size (0.78), indicating improved mechanics, and reductions in BOLD signal were observed in two clusters: 1) left supramarginal gyrus, inferior parietal lobule, secondary somatosensory cortex (p=.012, z=4.5); 2) right superior frontal gyrus, supplementary motor cortex (p<.01, z=5.3). There was a moderate magnitude increase of cognitive RPE between the first and last VPNT sessions.

Conclusion: VPNT provides a clinically feasible means to perturbate visual processing during training that improves athletes' real-time landing mechanics and promotes neural efficiency for lower extremity movement, providing the exploratory groundwork for future randomized controlled trials.

Level of evidence: Level 3.

视觉扰动神经肌肉训练对着陆力学和神经活动的影响:试点研究
背景:有前十字韧带损伤风险的运动员同时存在视觉认知功能和感觉运动脑功能连接缺陷:目的:本研究旨在确定视觉扰动神经肌肉训练(VPNT,使用频闪眼镜和外部视觉焦点反馈)是否会增加身体和认知训练需求、改善着地力学以及减少膝关节运动控制的神经活动:设计:实验室对照研究。设计:实验室对照研究:八名右腿优势健康女运动员(20.4±1.1 岁;1.6±0.1 米;64.4±7.0 千克)参加了四次 VPNT 训练。在 VPNT 前后,使用着地误差评分系统(LESS)对着地力学进行了实时评估,并在单侧右膝屈伸任务中使用功能磁共振成像对神经活动进行了评估。每次 VPNT 训练后的体力和认知需求均通过博格体力和认知感知消耗分级(RPE)以及 NASA 任务负荷指数进行评估。计算了描述和效应大小:VPNT 后,LESS 分数减少了 1.5 ± 1.69 个误差,效应大小(0.78)较大,表明力学得到了改善:1)左侧边际上回、顶叶下小叶、次级躯体感觉皮层(p=.012,z=4.5);2)右侧额叶上回、辅助运动皮层(p):VPNT提供了一种临床上可行的方法,在训练过程中扰乱视觉处理,从而改善运动员的实时着地力学,提高下肢运动的神经效率,为未来的随机对照试验提供探索性基础:证据等级:3 级。
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
CiteScore
2.50
自引率
5.90%
发文量
124
审稿时长
16 weeks
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