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视觉和运动区域的白质成熟度可预测儿童视觉激活的潜伏期。

White matter maturation in visual and motor areas predicts the latency of visual activation in children.

机构信息

The Hospital for Sick Children Psychology, 555 University Ave, Toronto, Ontario, Canada.

出版信息

Hum Brain Mapp. 2012 Jan;33(1):179-91. doi: 10.1002/hbm.21203. Epub 2011 Mar 22.

DOI:10.1002/hbm.21203
PMID:21432944
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6870090/
Abstract

In humans, white matter maturation is important for the improvement of cognitive function and performance with age. Across studies the variables of white matter maturity and age are highly correlated; however, the unique contributions of white matter to information processing speed remain relatively unknown. We investigated the relations between the speed of the visually-evoked P100m response and the biophysical properties of white matter in 11 healthy children performing a simple, visually-cued finger movement. We found that: (1) the latency of the early, visually-evoked response was related to the integrity of white matter in both visual and motor association areas and (2) white matter maturation in these areas accounted for the variations in visual processing speed, independent of age. Our study is a novel investigation of spatial-temporal dynamics in the developing brain and provides evidence that white matter maturation accounts for age-related decreases in the speed of visual response. Developmental models of cortical specialization should incorporate the unique role of white matter maturation in mediating changes in performance during tasks involving visual processing.

摘要

在人类中,白质成熟对于认知功能和年龄相关的表现改善非常重要。在各项研究中,白质成熟和年龄这两个变量高度相关;然而,白质对信息处理速度的独特贡献仍然知之甚少。我们研究了 11 名健康儿童在执行简单的视觉引导手指运动时,视觉诱发电位 P100m 反应速度与白质生物物理特性之间的关系。我们发现:(1)早期视觉诱发反应的潜伏期与视觉和运动联合区域白质的完整性有关;(2)这些区域的白质成熟度可以解释视觉处理速度的变化,与年龄无关。我们的研究是对发育中大脑时空动力学的新探索,为白质成熟度可以解释与年龄相关的视觉反应速度下降提供了证据。涉及视觉处理任务的皮质特化发展模型应纳入白质成熟度在调节表现变化方面的独特作用。

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