Widespread, perception-related information in the human brain scales with levels of consciousness

Imaging Neuroscience Pub Date : 2024-07-01 DOI:10.1162/imag_a_00240

A. Vigotsky, R. Jabakhanji, Paulo Branco, Gian Domenico Iannetti, Marwan N. Baliki, A. V. Apkarian

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Abstract

Abstract How does the human brain generate coherent, subjective perceptions—transforming yellow and oblong visual sensory information into the perception of an edible banana? This is a hard problem. According to the standard viewpoint, processing in groups of dedicated regions—identified as active “blobs” when using functional magnetic resonance imaging (fMRI)—gives rise to perception. Here, we reveal a new organizational concept by discovering that stimulus-specific information distributed throughout the whole brain. Using fMRI, we found stimulus-specific information across the neocortex, even in voxels previously considered “noise,” challenging traditional analytical approaches. Surprisingly, these stimulus-specific signals were also present in the subcortex and cerebellum and could be detected from across-subject variances. Finally, we observed that stimulus-specific signal in brain regions beyond the primary and secondary sensory cortices is influenced by sedation levels, suggesting a connection to perception rather than sensory encoding. We hypothesize that these widespread, stimulus-specific, and consciousness level-dependent signals may underlie coherent and subjective perceptions.

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人脑中广泛存在的感知相关信息随意识水平而变化

摘要人脑是如何产生连贯、主观的感知--将黄色和长方形的视觉感官信息转化为对可食用香蕉的感知？这是一个难题。根据标准观点，在一组专用区域（使用功能性磁共振成像（fMRI）时被识别为活跃的 "小块"）的处理过程会产生知觉。在这里，我们发现特定刺激信息分布于整个大脑，从而揭示了一个新的组织概念。通过使用 fMRI，我们发现刺激特异性信息遍布整个新皮质，甚至在以前被认为是 "噪音 "的体素中也不例外，这对传统的分析方法提出了挑战。令人惊讶的是，这些刺激特异性信号也存在于皮层下和小脑中，并且可以从跨受试者变异中检测到。最后，我们观察到在初级和次级感觉皮层以外的脑区，刺激特异性信号也受到镇静水平的影响，这表明刺激特异性信号与感知而非感觉编码有关。我们假设，这些广泛的、刺激特异性的、与意识水平相关的信号可能是连贯和主观知觉的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Imaging Neuroscience

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