时间的视觉表示会在人类颞叶皮层引发早期反应。

Visual representations of time elicit early responses in human temporal cortex.

机构信息

U-VIP Unit for Visually Impaired People, Fondazione Istituto Italiano di Tecnologia, Via E. Melen, 83, 16152, Genova, Italy; Department of Informatics, Bioengineering, Robotics and Systems Engineering, Università degli Studi di Genova, via all'Opera Pia, 13, 16145, Genova, Italy.

U-VIP Unit for Visually Impaired People, Fondazione Istituto Italiano di Tecnologia, Via E. Melen, 83, 16152, Genova, Italy.

出版信息

Neuroimage. 2020 Aug 15;217:116912. doi: 10.1016/j.neuroimage.2020.116912. Epub 2020 May 7.

DOI:10.1016/j.neuroimage.2020.116912

PMID:32389726

Abstract

Time perception is inherently part of human life. All human sensory modalities are always involved in the complex task of creating a temporal representation of the external world. However, when representing time, people primarily rely on auditory information. Since the auditory system prevails in many audio-visual temporal tasks, one may expect that the early recruitment of the auditory network is necessary for building a highly resolved and flexible temporal representation in the visual modality. To test this hypothesis, we asked 17 healthy participants to temporally bisect three consecutive flashes while we recorded EEG. We demonstrated that visual stimuli during temporal bisection elicit an early (50-90 ms) response of an extended area of the temporal cortex, likely including auditory cortex too. The same activation did not appear during an easier spatial bisection task. These findings suggest that the brain may use auditory representations to deal with complex temporal representation in the visual system.

摘要

时间感知是人类生活固有的一部分。所有人类的感觉模式都始终参与到对外界创建时间表示的复杂任务中。然而，在表示时间时，人们主要依赖听觉信息。由于听觉系统在许多视听时间任务中占主导地位，人们可能会期望听觉网络的早期招募对于在视觉模态中构建高度分辨和灵活的时间表示是必要的。为了检验这一假设，我们要求 17 名健康参与者在记录 EEG 的同时将三个连续的闪光时间二等分。我们证明，在时间二分期间，视觉刺激会引发颞叶皮层的一个扩展区域（可能包括听觉皮层）的早期（50-90ms）反应。在一个更容易的空间二分任务中，不会出现相同的激活。这些发现表明，大脑可能使用听觉表示来处理视觉系统中的复杂时间表示。

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时间的视觉表示会在人类颞叶皮层引发早期反应。

Visual representations of time elicit early responses in human temporal cortex.

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