Beta oscillation is an indicator for two patterns of sensorimotor synchronization.

IF 1.3 4区 心理学 Q3 PSYCHOLOGY, MULTIDISCIPLINARY
PsyCh journal Pub Date : 2024-06-01 Epub Date: 2023-10-31 DOI:10.1002/pchj.696
Yuelin Liu, Chen Zhao, Tillman Sander-Thömmes, Taoxi Yang, Yan Bao
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引用次数: 0

Abstract

Previous study indicates that there are two distinct behavioral patterns in the sensory-motor synchronization task with short stimulus onset asynchrony (SOA; 2-3 s) or long SOA (beyond 4 s). However, the underlying neural indicators and mechanisms have not been elucidated. The present study applied magnetoencephalography (MEG) technology to examine the functional role of several oscillations (beta, gamma, and mu) in sensorimotor synchronization with different SOAs to identify a reliable neural indicator. During MEG recording, participants underwent a listening task without motor response, a sound-motor synchronization task, and a motor-only continuation task. These tasks were used to explore whether and how the activity of oscillations changes across different behavioral patterns with different tempos. Results showed that during both the listening and the synchronization task, the beta oscillation changes with the tempo. Moreover, the event-related synchronization of beta oscillations was significantly correlated with motor timing during synchronization. In contrast, mu activity only changes with the tempo in the synchronization task, while the gamma activity remains unchanged. In summary, the current study indicates that beta oscillation could be an indicator of behavioral patterns between fast tempo and slow tempo in sensorimotor synchronization. Also, it is likely to be the potential mechanism of maintaining rhythmic continuous movements with short SOA, which is embedded within the 3 s time window.

β振荡是两种感觉运动同步模式的指标。
先前的研究表明,在具有短刺激启动异步性的感觉运动同步任务中存在两种不同的行为模式(SOA;2-3 s) 或长SOA(超过4 s) 。然而,潜在的神经指标和机制尚未阐明。本研究应用脑磁图(MEG)技术来检测几种振荡(β、γ和μ)在不同SOA的感觉运动同步中的功能作用,以确定可靠的神经指标。在MEG记录过程中,参与者接受了一项没有运动反应的听力任务、一项声音运动同步任务和一项只有运动的持续任务。这些任务被用来探索振荡活动是否以及如何在不同的行为模式和不同的节奏下发生变化。结果表明,在听力和同步任务中,β振荡都会随着节奏的变化而变化。此外,β振荡的事件相关同步与同步过程中的电机时序显著相关。相反,在同步任务中,mu活动仅随节奏而变化,而gamma活动保持不变。总之,目前的研究表明,β振荡可能是感觉运动同步中快节奏和慢节奏之间行为模式的指标。此外,它可能是通过短SOA保持有节奏的连续运动的潜在机制,它嵌入了3 s的时间窗口。
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
PsyCh journal
PsyCh journal PSYCHOLOGY, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
12.50%
发文量
109
期刊介绍: PsyCh Journal, China''s first international psychology journal, publishes peer‑reviewed research articles, research reports and integrated research reviews spanning the entire spectrum of scientific psychology and its applications. PsyCh Journal is the flagship journal of the Institute of Psychology, Chinese Academy of Sciences – the only national psychology research institute in China – and reflects the high research standards of the nation. Launched in 2012, PsyCh Journal is devoted to the publication of advanced research exploring basic mechanisms of the human mind and behavior, and delivering scientific knowledge to enhance understanding of culture and society. Towards that broader goal, the Journal will provide a forum for academic exchange and a “knowledge bridge” between China and the World by showcasing high-quality, cutting-edge research related to the science and practice of psychology both within and outside of China. PsyCh Journal features original articles of both empirical and theoretical research in scientific psychology and interdisciplinary sciences, across all levels, from molecular, cellular and system, to individual, group and society. The Journal also publishes evaluative and integrative review papers on any significant research contribution in any area of scientific psychology
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