移动脑电图用于研究游泳过程中的认知运动干扰?

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Melanie Klapprott, Stefan Debener
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引用次数: 0

摘要

研究自然环境中的大脑功能已成为认知科学领域的一个新兴趣点。在本研究中,我们旨在提高移动脑电图(EEG)参与者和设备的移动性。我们以认知运动干扰(CMI)为例,研究了在游泳这种全身运动任务中使用移动脑电图测量人脑活动的可行性。11 名参与者在坐着游泳时接受了听觉怪球任务,移动脑电图记录了他们正在进行的大脑活动。他们感兴趣的测量指标是由实验刺激引起的事件相关电位(ERPs)。测量听觉 N100 是为了验证信号质量,而与任务相关的刺激 P300 则是 CMI 效应的标志。首先在受试者内部进行分析,然后通过二项式检验评估显著效应的比例。以探索性的方式分析了游泳过程中转弯时时频域的事件相关变化。在所有条件下都能成功记录 N100,这表明实验装置在整个实验过程中都能正常工作。关于 CMI,我们没有发现所有受试者在不同运动环境下 P300 振幅的可靠变化。不过,我们发现在转弯前后,α/μ 和 beta 波段出现了合理的调节。这项研究表明,在水生环境中,当受试者自由移动时,在时域和时频域测量移动脑电图总体上是可行的。我们看到了在极端环境下使用移动脑电图的巨大潜力,这将推动移动脑电图在更多真实环境中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mobile EEG for the study of cognitive-motor interference during swimming?
Research on brain function in natural environments has become a new interest in cognitive science. In this study, we aim to advance mobile electroencephalography (EEG) participant and device mobility. We investigated the feasibility of measuring human brain activity using mobile EEG during a full-body motion task as swimming, by the example of cognitive-motor interference (CMI). Eleven participants were given an auditory oddball task while sitting and swimming, with mobile EEG recording ongoing brain activity. Measures of interest were event-related potentials (ERPs) elicited by experimental stimuli. While the auditory N100 was measured to verify signal quality, the P300 to task-relevant stimuli served as a marker of CMI effects. Analyzes were first performed within subjects, while binomial tests assessed the proportion of significant effects. Event-related changes in the time-frequency domain around turns during swimming were analyzed in an exploratory fashion. The successful recording of the N100 in all conditions shows that the setup was functional throughout the experiment. Regarding CMI, we did not find reliable changes in P300 amplitude in different motor settings in all subjects. However, we found plausible modulations in the alpha/mu and beta bands before and after turns. This study shows that it is generally feasible to measure mobile EEG in the time and time-frequency domain in an aquatic environment while subjects are freely moving. We see promising potential in the use of mobile EEG in extreme settings, advancing toward the application of mobile EEG in more real-life situations.
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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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