视觉和听觉自上而下分割和选择性空间注意的神经机制

Zhongtian Guan, Meng Lin, Qiong Wu, Jinglong Wu, Kewei Chen, Hongbin Han, D. Chui, Xu Zhang, Chunlin Li
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引用次数: 1

摘要

自上而下的注意力机制需要选择特定的对象或位置;然而,当注意力被分配到不同的模式时,所涉及的大脑机制还没有得到很好的理解。本研究的目的是使用功能性磁共振成像来定义划分和选择性空间注意力的神经机制。同时使用视听刺激,并提示受试者在波斯纳范式中专注于视觉、听觉和视听刺激。我们的行为结果证实了选择性注意力与非选择性注意力相比有更好的表现。我们发现,在不同的注意条件下,额顶顶网络、视觉/听觉皮层、壳核和显著性网络的激活水平存在差异。我们进一步使用格兰杰因果关系(GC)来探索任务之间的有效连通性差异。视觉和听觉选择性任务之间GC连接的差异反映了空间注意下的视觉优势效应。此外,我们的研究结果支持了壳核在注意力再分配和显著性网络功能分离中的作用。总之,我们探索了视听自上而下的注意力分配,并观察了内源性注意力模式下神经机制的差异,揭示了注意力调节下视觉和听觉注意力跨模态表达的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neural mechanisms of top-down divided and selective spatial attention in visual and auditory perception
Top-down attention mechanisms require the selection of specific objects or locations; however, the brain mechanism involved when attention is allocated across different modalities is not well understood. The aim of this study was to use functional magnetic resonance imaging to define the neural mechanisms underlying divided and selective spatial attention. A concurrent audiovisual stimulus was used, and subjects were prompted to focus on a visual, auditory and audiovisual stimulus in a Posner paradigm. Our behavioral results confirmed the better performance of selective attention compared to devided attention. We found differences in the activation level of the frontoparietal network, visual/auditory cortex, the putamen and the salience network under different attention conditions. We further used Granger causality (GC) to explore effective connectivity differences between tasks. Differences in GC connectivity between visual and auditory selective tasks reflected the visual dominance effect under spatial attention. In addition, our results supported the role of the putamen in redistributing attention and the functional separation of the salience network. In summary, we explored the audiovisual top-down allocation of attention and observed the differences in neural mechanisms under endogenous attention modes, which revealed the differences in cross-modal expression in visual and auditory attention under attentional modulation.
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