The speed and phase of locomotion dictate saccade probability and simultaneous low-frequency power spectra.

IF 1.7 4区 心理学 Q3 PSYCHOLOGY Attention Perception & Psychophysics Pub Date : 2024-07-24 DOI:10.3758/s13414-024-02932-4
Lydia Barnes, Matthew J Davidson, David Alais
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Abstract

Every day we make thousands of saccades and take thousands of steps as we explore our environment. Despite their common co-occurrence in a typical active state, we know little about the coordination between eye movements, walking behaviour and related changes in cortical activity. Technical limitations have been a major impediment, which we overcome here by leveraging the advantages of an immersive wireless virtual reality (VR) environment with three-dimensional (3D) position tracking, together with simultaneous recording of eye movements and mobile electroencephalography (EEG). Using this approach with participants engaged in unencumbered walking along a clear, level path, we find that the likelihood of eye movements at both slow and natural walking speeds entrains to the rhythm of footfall, peaking after the heel-strike of each step. Compared to previous research, this entrainment was captured in a task that did not require visually guided stepping - suggesting a persistent interaction between locomotor and visuomotor functions. Simultaneous EEG recordings reveal a concomitant modulation entrained to heel-strike, with increases and decreases in oscillatory power for a broad range of frequencies. The peak of these effects occurred in the theta and alpha range for slow and natural walking speeds, respectively. Together, our data show that the phase of the step-cycle influences other behaviours such as eye movements, and produces related modulations of simultaneous EEG following the same rhythmic pattern. These results reveal gait as an important factor to be considered when interpreting saccadic and time-frequency EEG data in active observers, and demonstrate that saccadic entrainment to gait may persist throughout everyday activities.

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运动的速度和阶段决定了囊状移动的概率和同步低频功率谱。
每天,我们在探索环境的过程中都会做出成千上万次眼球运动并迈出成千上万步。尽管在典型的活动状态下,眼球运动、行走行为和大脑皮层活动的相关变化之间的协调性经常出现,但我们却知之甚少。技术上的限制一直是一个主要障碍,我们在此利用具有三维(3D)位置跟踪功能的沉浸式无线虚拟现实(VR)环境的优势,并同时记录眼球运动和移动脑电图(EEG),克服了这一障碍。通过这种方法,我们发现,无论是慢速还是自然步行,眼球运动的可能性都会随着脚步的节奏而变化,并在每一步的脚跟蹬地之后达到峰值。与之前的研究相比,我们在一项不需要视觉引导迈步的任务中捕捉到了这种诱导--这表明运动功能和视觉运动功能之间存在持续的相互作用。同时进行的脑电图记录显示,脚跟蹬地也会产生相应的调制,在广泛的频率范围内,振荡功率时增时减。这些效应的峰值分别出现在慢速和自然步行速度的θ和α范围内。总之,我们的数据表明,步态周期的相位会影响眼球运动等其他行为,并按照相同的节奏模式对同步脑电图产生相关的调节。这些结果表明,在解释活跃观察者的囊回和时频脑电图数据时,步态是一个需要考虑的重要因素,并证明囊回对步态的诱导可能在整个日常活动中持续存在。
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来源期刊
CiteScore
3.60
自引率
17.60%
发文量
197
审稿时长
4-8 weeks
期刊介绍: The journal Attention, Perception, & Psychophysics is an official journal of the Psychonomic Society. It spans all areas of research in sensory processes, perception, attention, and psychophysics. Most articles published are reports of experimental work; the journal also presents theoretical, integrative, and evaluative reviews. Commentary on issues of importance to researchers appears in a special section of the journal. Founded in 1966 as Perception & Psychophysics, the journal assumed its present name in 2009.
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