直接脑记录显示枕叶皮层参与记忆发育。

Direct brain recordings reveal occipital cortex involvement in memory development.

机构信息

Life-Span Cognitive Neuroscience Program, Institute of Gerontology and Merrill Palmer Skillman Institute, Wayne State University, Detroit, MI, USA; Department of Psychology, Wayne State University, Detroit, MI, USA.

Life-Span Cognitive Neuroscience Program, Institute of Gerontology and Merrill Palmer Skillman Institute, Wayne State University, Detroit, MI, USA; Helen Wills Neuroscience Institute, University of California, Berkeley, CA, USA.

出版信息

Neuropsychologia. 2020 Nov;148:107625. doi: 10.1016/j.neuropsychologia.2020.107625. Epub 2020 Sep 15.

DOI:10.1016/j.neuropsychologia.2020.107625

PMID:32941883

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7704894/

Abstract

Processing of low-level visual information shows robust developmental gains through childhood and adolescence. However, it is unknown whether low-level visual processing in the occipital cortex supports age-related gains in memory for complex visual stimuli. Here, we examined occipital alpha activity during visual scene encoding in 24 children and adolescents, aged 6.2-20.5 years, who performed a subsequent memory task while undergoing electrocorticographic recording. Scenes were classified as high- or low-complexity by the number of unique object categories depicted. We found that recognition of high-complexity, but not low-complexity, scenes increased with age. Age was associated with decreased alpha power and increased instantaneous alpha frequency during the encoding of subsequently recognized high- compared to low-complexity scenes. Critically, decreased alpha power predicted improved recognition of high-complexity scenes in adolescents. These findings demonstrate how the functional maturation of the occipital cortex supports the development of memory for complex visual scenes.

摘要

低水平视觉信息的处理在儿童和青少年时期表现出强大的发展增益。然而，目前尚不清楚枕叶皮层的低水平视觉处理是否支持与年龄相关的复杂视觉刺激记忆的增益。在这里，我们在 24 名年龄在 6.2 至 20.5 岁的儿童和青少年进行视觉场景编码时检查了枕叶 alpha 活动，他们在进行脑电记录的同时进行了后续记忆任务。通过所描绘的独特物体类别数量将场景分类为高或低复杂度。我们发现，与低复杂度场景相比，高复杂度场景的识别随着年龄的增长而增加。与低复杂度场景相比，年龄与编码后识别的高复杂度场景的 alpha 功率降低和瞬时 alpha 频率增加有关。至关重要的是，alpha 功率降低预示着青少年对高复杂度场景的识别能力提高。这些发现表明了枕叶皮层的功能成熟如何支持对复杂视觉场景的记忆发展。

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Apparent thinning of human visual cortex during childhood is associated with myelination.儿童时期人类视觉皮层的明显变薄与髓鞘形成有关。

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Perceptual inference employs intrinsic alpha frequency to resolve perceptual ambiguity.知觉推断利用固有 alpha 频率来解决知觉模糊性。

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Memory and the developing brain: From description to explanation with innovation in methods.记忆与发育中的大脑：从方法创新到描述与解释

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