Alpha Neurofeedback Training in Elite Soccer Players Trained in Groups.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-10 DOI:10.1007/s10484-024-09654-1
Geert J M van Boxtel, Ad J J M Denissen, Joep A de Groot, Marjolein S Neleman, Jur Vellema, Evelijne M Hart de Ruijter
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Abstract

Neurofeedback training is applied in the world of sports as a means to improve athletes' performance. Training sessions are usually organized on an individual basis, one at a time. Here we investigated if the training could also be organized in groups. Forty-one national-level football (soccer) players (26 females, 15 males) carried out training sessions simultaneously in groups of up to 13, using a wearable device with Bluetooth connection, during their regular training hours at the club. It was possible to obtain good EEG measurements using this setup, albeit with a somewhat higher data loss than usual in standard laboratory sessions. The brain's alpha activity was trained using music-based neurofeedback in a crossover design. A training session consisted of alternating periods of neurofeedback and execution of cognitive tasks. EEG alpha (8-12 Hz) activity was higher in the neurofeedback periods compared to the cognitive task periods, and the reverse was true for beta (13-30 Hz) activity. The training program resulted in an increase of 34% in alpha activity associated with the training, and improved the athletes' performance on task switching and mental rotation tasks. In addition, self-reported sleep duration, as well as scores on the Being in Shape questionnaire (Feeling of Control and Flow) also improved. This study shows that neurofeedback training is feasible in groups of athletes, which can stimulate its application in team sports.

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阿尔法神经反馈训练在精英足球运动员集体训练中的应用。
神经反馈训练应用于体育界,是提高运动员成绩的一种手段。训练课程通常以个人为单位组织,每次一个人。在这里,我们研究了这种训练是否也可以以小组为单位进行。41 名国家级足球运动员(26 名女性,15 名男性)在俱乐部的常规训练时间内,使用带蓝牙连接的可穿戴设备,以最多 13 人一组的形式同时进行训练。使用这种装置可以获得良好的脑电图测量结果,尽管数据丢失率比通常的标准实验室课程要高一些。在交叉设计中,使用基于音乐的神经反馈来训练大脑的阿尔法活动。训练过程包括交替进行神经反馈和执行认知任务。与认知任务阶段相比,神经反馈阶段的脑电图α(8-12赫兹)活动更强,而β(13-30赫兹)活动则相反。训练计划使与训练相关的阿尔法活动增加了 34%,并提高了运动员在任务转换和心理旋转任务中的表现。此外,自我报告的睡眠时间以及 "形体 "问卷(控制感和流动感)的得分也有所提高。这项研究表明,神经反馈训练在运动员群体中是可行的,这将促进其在团队运动中的应用。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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