绘制感知路线:信号传播动态的半球不对称。

Psychophysiology Pub Date : 2024-06-01 Epub Date: 2024-01-26 DOI:10.1111/psyp.14529
Davide Bonfanti, Chiara Mazzi, Silvia Savazzi
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引用次数: 0

摘要

长期以来,人们一直认为视觉系统在不同半球之间是等效的。然而,越来越多的数据表明,在这方面可能存在功能差异。因此,我们试图描述视觉感知的出现以及刺激视觉皮层所产生的时空动态,以检测半球间可能存在的不对称。18 名参与者接受了测试。在记录脑电图的同时,他们每人在左右早期视觉区域接受了 360 个磷光体阈值强度的经颅磁刺激(TMS)脉冲。每个脉冲结束后,参与者必须报告是否出现了磷光体。经颅磁刺激诱发电位的局部平均场功率分析表明,刺激部位(左侧经颅磁刺激与右侧经颅磁刺激)和半球(同侧经颅磁刺激与对侧经颅磁刺激)均有影响:右侧经颅磁刺激决定了早期较强的激活,而左侧经颅磁刺激决定了对侧电极后期较强的活动。半球间信号传播指数显示了经颅磁刺激诱发的活动扩散方式的差异:左侧经颅磁刺激诱发的活动向对侧扩散的程度大于右侧刺激。在幻视感知方面,我们发现不同的电生理模式反映了相似的感知体验:左侧经颅磁刺激诱发的幻视与早期枕顶叶和额叶活动相关,随后是晚期中央活动;右侧经颅磁刺激诱发的幻视仅决定了晚期、前中央和顶叶活动。我们的研究结果表明,左枕叶和右枕叶经颅磁刺激在大脑中引发了不同的电生理模式,这既是其本身的特点,也是磷光体感知的一种功能。这些不同的激活模式可能表明两个半球在处理视觉信息和产生感知方面扮演着不同的角色。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mapping the routes of perception: Hemispheric asymmetries in signal propagation dynamics.

The visual system has long been considered equivalent across hemispheres. However, an increasing amount of data shows that functional differences may exist in this regard. We therefore tried to characterize the emergence of visual perception and the spatiotemporal dynamics resulting from the stimulation of visual cortices in order to detect possible interhemispheric asymmetries. Eighteen participants were tested. Each of them received 360 transcranial magnetic stimulation (TMS) pulses at phosphene threshold intensity over left and right early visual areas while electroencephalography was being recorded. After each single pulse, participants had to report the presence or absence of a phosphene. Local mean field power analysis of TMS-evoked potentials showed an effect of both site (left vs. right TMS) of stimulation and hemisphere (ipsilateral vs. contralateral to the TMS): while right TMS determined early stronger activations, left TMS determined later stronger activity in contralateral electrodes. The interhemispheric signal propagation index revealed differences in how TMS-evoked activity spreads: left TMS-induced activity diffused contralaterally more than right stimulation. With regard to phosphenes perception, distinct electrophysiological patterns were found to reflect similar perceptual experiences: left TMS-evoked phosphenes are associated with early occipito-parietal and frontal activity followed by late central activity; right TMS-evoked phosphenes determine only late, fronto-central, and parietal activations. Our results show that left and right occipital TMS elicits differential electrophysiological patterns in the brain, both per se and as a function of phosphene perception. These distinct activation patterns may suggest a different role of the two hemispheres in processing visual information and giving rise to perception.

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