Disrupted Subcortical-Cortical Connections in a Phonological but Not Semantic Task in Chinese Children With Dyslexia

Overview

Journal Front Hum Neurosci

Specialty Neurology

Date 2021 Feb 4

PMID 33536890

Citations 1

Authors

Lihuan Zhang

Jiali Hu

Xin Liu

Emily S Nichols

Chunming Lu

Li Liu

Affiliations

Soon will be listed here.

Abstract

Reading disability has been considered as a disconnection syndrome. Recently, an increasing number of studies have emphasized the role of subcortical regions in reading. However, the majority of research on reading disability has focused on the connections amongst brain regions within the classic cortical reading network. Here, we used graph theoretical analysis to investigate whether subcortical regions serve as hubs (regions highly connected with other brain regions) during reading both in Chinese children with reading disability ( = 15, age ranging from 11.03 to 13.08 years) and in age-matched typically developing children ( = 16, age ranging from 11.17 to 12.75 years) using a visual rhyming judgment task and a visual meaning judgment task. We found that the bilateral thalami were the unique hubs for typically developing children across both tasks. Additionally, subcortical regions (right putamen, left pallidum) were also unique hubs for typically developing children but only in the rhyming task. Among these subcortical hub regions, the left pallidum showed reduced connectivity with inferior frontal regions in the rhyming judgment but not semantic task in reading disabled compared with typically developing children. These results suggest that subcortical-cortical disconnection, which may be particularly relevant to the phonological and phonology-related learning process, may be associated with Chinese reading disability.

Citing Articles

Neural substrates of L2-L1 transfer effects on phonological awareness in young Chinese-English bilingual children.

Kou J, Fan L, Chen H, Chen S, Hu X, Zhang K Neuroimage. 2024; 291:120592.

PMID: 38548037 PMC: 11032115. DOI: 10.1016/j.neuroimage.2024.120592.

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