Frontiers in Neurology (May 2023)

Impaired rich-club connectivity in childhood absence epilepsy

  • Yadong Yu,
  • Mengdi Qiu,
  • Wenwei Zou,
  • Ying Zhao,
  • Yan Tang,
  • Jisha Tian,
  • Xiaoyu Chen,
  • Wenchao Qiu

DOI
https://doi.org/10.3389/fneur.2023.1135305
Journal volume & issue
Vol. 14

Abstract

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IntroductionChildhood absence epilepsy (CAE) is a well-known pediatric epilepsy syndrome. Recent evidence has shown the presence of a disrupted structural brain network in CAE. However, little is known about the rich-club topology. This study aimed to explore the rich-club alterations in CAE and their association with clinical characteristics.MethodsDiffusion tensor imaging (DTI) datasets were acquired in a sample of 30 CAE patients and 31 healthy controls. A structural network was derived from DTI data for each participant using probabilistic tractography. Then, the rich-club organization was examined, and the network connections were divided into rich-club connections, feeder connections, and local connections.ResultsOur results confirmed a less dense whole-brain structural network in CAE with lower network strength and global efficiency. In addition, the optimal organization of small-worldness was also damaged. A small number of highly connected and central brain regions were identified to form the rich-club organization in both patients and controls. However, patients exhibited a significantly reduced rich-club connectivity, while the other class of feeder and local connections was relatively spared. Moreover, the lower levels of rich-club connectivity strength were statistically correlated with disease duration.DiscussionOur reports suggest that CAE is characterized by abnormal connectivity concentrated to rich-club organizations and might contribute to understanding the pathophysiological mechanism of CAE.

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