注意过程中被发现和未被发现的听觉目标的层特异性相关性

Miriam Heynckes , Agustin Lage-Castellanos , Peter De Weerd , Elia Formisano , Federico De Martino
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引用次数: 2

摘要

在日常生活中,声学信息的处理使我们能够对听觉场景中的细微变化做出反应。然而,即使在密切关注任务背景下的声音时,我们偶尔也会错过与任务相关的功能。作为我们检测行为相关声音变化能力基础的神经计算被认为是基于听觉层次中的前馈和反馈过程。在这里,我们评估了在人类高场(7T)下使用亚毫米空间分辨率功能磁共振成像(fMRI)对目标声音进行行为检测期间,前馈和反馈在初级和非初级听觉区域中的作用。我们证明,成功检测到目标声音的细微时间变化会导致初级听觉皮层(PAC)浅层的激活选择性增加。这些结果表明,到达远至PAC的反馈信号可能与听觉场景中目标的检测有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Layer-specific correlates of detected and undetected auditory targets during attention

Layer-specific correlates of detected and undetected auditory targets during attention

In everyday life, the processing of acoustic information allows us to react to subtle changes in the auditory scene. Yet even when closely attending to sounds in the context of a task, we occasionally miss task-relevant features. The neural computations that underlie our ability to detect behavioral relevant sound changes are thought to be grounded in both feedforward and feedback processes within the auditory hierarchy. Here, we assessed the role of feedforward and feedback contributions in primary and non-primary auditory areas during behavioral detection of target sounds using submillimeter spatial resolution functional magnetic resonance imaging (fMRI) at high-fields (7 T) in humans. We demonstrate that the successful detection of subtle temporal shifts in target sounds leads to a selective increase of activation in superficial layers of primary auditory cortex (PAC). These results indicate that feedback signals reaching as far back as PAC may be relevant to the detection of targets in the auditory scene.

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