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听觉注意力中的诱发和固有不对称:对功能的对侧和忽视模型的影响。

Evoked and intrinsic asymmetries during auditory attention: implications for the contralateral and neglect models of functioning.

机构信息

The Mind Research Network and Lovelace Biomedical and Environmental Research Institute, Albuquerque, NM 87106, USA.

出版信息

Cereb Cortex. 2013 Mar;23(3):560-9. doi: 10.1093/cercor/bhs039. Epub 2012 Feb 27.

DOI:10.1093/cercor/bhs039
PMID:22371310
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3563341/
Abstract

Unlike the visual system, a direct mapping of extrapersonal space does not exist within human auditory cortex (AC). Thus, models (contralateral bias vs. neglect) of how auditory spatial attention is allocated remain debated, as does the role of hemispheric asymmetries. To further examine these questions, 27 participants completed an exogenous auditory orienting task while undergoing functional magnetic resonance imaging. Resting-state data were also collected to characterize intrinsic activity within the AC. Current results provide the first evidence of hemispheric specialization in the "where" (right secondary AC) auditory processing stream during both evoked (orienting task) and intrinsic (resting-state data) activity, suggesting that spontaneous and evoked activity may be synchronized by similar cortical hierarchies. Strong evidence for a contralateral bias model was observed during rapid deployment stages (facilitation) of auditory attention in bilateral AC. However, contralateral bias increased for left and decreased for right AC (neglect model) after longer stimulus onset asynchronies (inhibition of return), suggesting a role for higher-order cortical structures in modulating AC functioning. Prime candidates for attentional modulation include the frontoparietal network, which demonstrated right hemisphere lateralization across multiple attentional states.

摘要

与视觉系统不同,人类听觉皮层(AC)中不存在外空间的直接映射。因此,听觉空间注意力分配的模型(对侧偏向与忽视)以及半球不对称性的作用仍存在争议。为了进一步探讨这些问题,27 名参与者在进行功能磁共振成像的同时完成了外源性听觉定向任务。还收集了静息态数据以描述 AC 内的固有活动。当前的结果首次提供了在诱发(定向任务)和固有(静息态数据)活动期间,“何处”(右侧次要 AC)听觉处理流中半球专业化的证据,表明自发和诱发活动可能通过类似的皮质层次同步。在双侧 AC 中听觉注意力的快速部署阶段(促进)观察到了强烈的对侧偏向模型的证据。然而,随着较长的刺激起始潜伏期(返回抑制),左 AC 的对侧偏向增加,而右 AC 的对侧偏向减少(忽视模型),这表明高阶皮质结构在调节 AC 功能方面的作用。注意力调节的主要候选者包括额顶网络,该网络在多个注意力状态下表现出右半球偏侧化。

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