Onset timing of letter processing in auditory and visual sensory cortices.

IF 2.6 3区医学 Q2 BEHAVIORAL SCIENCES Frontiers in Integrative Neuroscience Pub Date : 2024-11-14 eCollection Date: 2024-01-01 DOI:10.3389/fnint.2024.1427149

Tommi Raij, Fa-Hsuan Lin, Benjamin Letham, Kaisu Lankinen, Tapsya Nayak, Thomas Witzel, Matti Hämäläinen, Jyrki Ahveninen

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Abstract

Here, we report onset latencies for multisensory processing of letters in the primary auditory and visual sensory cortices. Healthy adults were presented with 300-ms visual and/or auditory letters (uppercase Roman alphabet and the corresponding auditory letter names in English). Magnetoencephalography (MEG) evoked response generators were extracted from the auditory and visual sensory cortices for both within-modality and cross-sensory activations; these locations were mainly consistent with functional magnetic resonance imaging (fMRI) results in the same subjects. In the primary auditory cortices (Heschl's gyri) activity to auditory stimuli commenced at 25 ms and to visual stimuli at 65 ms (median values). In the primary visual cortex (Calcarine fissure) the activations started at 48 ms to visual and at 62 ms to auditory stimuli. This timing pattern suggests that the origins of the cross-sensory activations may be in the primary sensory cortices of the opposite modality, with conduction delays (from one sensory cortex to another) of 17-37 ms. Audiovisual interactions for letters started at 125 ms in the auditory and at 133 ms in the visual cortex (60-71 ms after inputs from both modalities converged). Multivariate pattern analysis suggested similar latency differences between the sensory cortices. Combined with our earlier findings for simpler stimuli (noise bursts and checkerboards), these results suggest that primary sensory cortices participate in early cross-modal and interaction processes similarly for different stimulus materials, but previously learned audiovisual associations and stimulus complexity may delay the start of the audiovisual interaction stage.

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听觉和视觉感觉皮层中字母加工的开始时间。

在这里，我们报告了初级听觉和视觉感觉皮层中字母多感觉处理的发病潜伏期。向健康成人提供300毫秒的视觉和/或听觉字母（大写罗马字母和相应的英文听觉字母名称）。脑磁图（MEG）诱发反应发生器从听觉和视觉感觉皮层提取模态内和跨感觉激活；这些位置与功能性磁共振成像（fMRI）结果基本一致。初级听觉皮层（Heschl’s gyri）对听觉刺激的反应在25毫秒开始，对视觉刺激的反应在65毫秒开始（中位数）。在初级视觉皮层（Calcarine裂隙）中，视觉刺激在48 ms时激活，听觉刺激在62 ms时激活。这种时间模式表明，交叉感觉激活的起源可能在相反模态的初级感觉皮层，传导延迟（从一个感觉皮层到另一个感觉皮层）为17-37毫秒。字母的视听互动在听觉皮层开始于125毫秒，在视觉皮层开始于133毫秒（两种模式的输入汇合后60-71毫秒）。多变量模式分析表明，感觉皮质之间的潜伏期差异相似。结合我们早期对简单刺激（噪音爆发和棋盘）的研究结果，这些结果表明初级感觉皮层参与不同刺激材料的早期跨模态和相互作用过程相似，但先前习得的视听关联和刺激复杂性可能延迟视听相互作用阶段的开始。

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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来源期刊

Frontiers in Integrative Neuroscience Neuroscience-Cellular and Molecular Neuroscience

CiteScore

4.60

自引率

2.90%

发文量

148

审稿时长

14 weeks

期刊介绍： Frontiers in Integrative Neuroscience publishes rigorously peer-reviewed research that synthesizes multiple facets of brain structure and function, to better understand how multiple diverse functions are integrated to produce complex behaviors. Led by an outstanding Editorial Board of international experts, this multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Our goal is to publish research related to furthering the understanding of the integrative mechanisms underlying brain functioning across one or more interacting levels of neural organization. In most real life experiences, sensory inputs from several modalities converge and interact in a manner that influences perception and actions generating purposeful and social behaviors. The journal is therefore focused on the primary questions of how multiple sensory, cognitive and emotional processes merge to produce coordinated complex behavior. It is questions such as this that cannot be answered at a single level – an ion channel, a neuron or a synapse – that we wish to focus on. In Frontiers in Integrative Neuroscience we welcome in vitro or in vivo investigations across the molecular, cellular, and systems and behavioral level. Research in any species and at any stage of development and aging that are focused at understanding integration mechanisms underlying emergent properties of the brain and behavior are welcome.

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