颞叶-胼胝体通路扩散率可预测儿童的语音技能。

Temporal-callosal pathway diffusivity predicts phonological skills in children.

作者信息

Dougherty Robert F, Ben-Shachar Michal, Deutsch Gayle K, Hernandez Arvel, Fox Glenn R, Wandell Brian A

机构信息

Stanford Institute for Reading and Learning, and Department of Psychology, Stanford University, Stanford, CA 94305, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 May 15;104(20):8556-61. doi: 10.1073/pnas.0608961104. Epub 2007 May 4.

DOI:10.1073/pnas.0608961104

PMID:17483487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1895988/

Abstract

The development of skilled reading requires efficient communication between distributed brain regions. By using diffusion tensor imaging, we assessed the interhemispheric connections in a group of children with a wide range of reading abilities. We segmented the callosal fibers into regions based on their likely cortical projection zones, and we measured diffusion properties in these segmented regions. Phonological awareness (a key factor in reading acquisition) was positively correlated with diffusivity perpendicular to the main axis of the callosal fibers that connect the temporal lobes. These results could be explained by several physiological properties. For example, good readers may have fewer but larger axons connecting left and right temporal lobes, or their axon membranes in these regions may be more permeable than the membranes of poor readers. These measurements are consistent with previous work suggesting that good readers have reduced interhemispheric connectivity and are better at processing rapidly changing visual and auditory stimuli.

摘要

熟练阅读能力的发展需要大脑不同区域之间进行高效的交流。我们通过扩散张量成像技术，评估了一组阅读能力范围广泛的儿童的半球间连接情况。我们根据胼胝体纤维可能的皮质投射区域将其划分为不同区域，并测量这些划分区域内的扩散特性。语音意识（阅读习得中的一个关键因素）与连接颞叶的胼胝体纤维主轴垂直方向的扩散率呈正相关。这些结果可以用几种生理特性来解释。例如，优秀的阅读者可能连接左右颞叶的轴突数量较少但直径更大，或者这些区域的轴突膜可能比阅读能力较差者的轴突膜具有更高的通透性。这些测量结果与之前的研究工作一致，表明优秀的阅读者半球间连接性降低，并且在处理快速变化的视觉和听觉刺激方面表现更佳。

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