Bayram Burcu, Ansorge Ulrich, Pomper Ulrich
Department of Cognition, Emotion, and Methods in Psychology, Faculty of Psychology, University of Vienna, Vienna, Austria.
Vienna Cognitive Science Research Hub, University of Vienna, Vienna, Austria.
Eur J Neurosci. 2025 Sep;62(5):e70247. doi: 10.1111/ejn.70247.
There is increasing evidence that sensory information in the visual and auditory domains is processed not in a continuous but in a rather rhythmically fluctuating fashion, reflecting underlying oscillations in neural excitability. So far, little is known about whether a similar mechanism is also implemented in the somatosensory modality, which, given its importance for monitoring and protecting our bodily integrity, might sample sensory input differently. Here, we investigated (1) whether tactile detection performance fluctuates over time at the speed of somatosensory alpha- and beta-band oscillations and (2) whether attention samples two simultaneously monitored body parts at different time points, similar to previous demonstrations in the visual and auditory domains. Thirty-one human participants (female and male) performed a behavioral dense-sampling experiment, consisting of a tactile cuing task, in which they responded to tactile vibrations at detection threshold presented to the left or right index fingers. In line with our hypotheses, we observed temporal fluctuations in both hit rates and response times, at a speed of 8-16 Hz, consistent with electrophysiological alpha- and beta-band oscillations commonly observed over somatosensory areas. Further, hit rate fluctuations exhibited phase differences at ~13 Hz between the left and right hands, suggesting that somatosensory spatial attention samples cued and uncued locations at different points in time. Overall, along with recent work, which identified markers of attentional sampling also beyond sensory processing, our study provides novel evidence that cyclical information processing and alternating sampling of simultaneously attended entities might be a general mechanism in the brain.
越来越多的证据表明,视觉和听觉领域的感官信息处理并非连续进行,而是以一种有节奏的波动方式进行,这反映了神经兴奋性的潜在振荡。到目前为止,对于躯体感觉模态是否也存在类似机制知之甚少,鉴于其对监测和保护我们身体完整性的重要性,躯体感觉模态可能会以不同方式对感觉输入进行采样。在这里,我们研究了:(1)触觉检测性能是否以躯体感觉α和β波段振荡的速度随时间波动;(2)注意力是否像之前在视觉和听觉领域的证明那样,在不同时间点对两个同时监测的身体部位进行采样。31名人类参与者(包括女性和男性)进行了一项行为密集采样实验,该实验包括一个触觉提示任务,他们对呈现给左手或右手食指的检测阈值处的触觉振动做出反应。与我们的假设一致,我们观察到命中率和反应时间都存在时间波动,速度为8 - 16赫兹,这与在躯体感觉区域通常观察到的电生理α和β波段振荡一致。此外,左手和右手的命中率波动在约13赫兹处呈现相位差异,这表明躯体感觉空间注意力在不同时间点对提示和未提示的位置进行采样。总体而言,连同最近的研究工作(该研究也在感觉处理之外识别出了注意力采样的标记),我们的研究提供了新的证据,即周期性信息处理和对同时关注的实体进行交替采样可能是大脑中的一种普遍机制。
