Child Study Center, Yale University School of Medicine, New Haven, Connecticut.
Child Study Center, Yale University School of Medicine, New Haven, Connecticut.
Biol Psychiatry Cogn Neurosci Neuroimaging. 2023 Mar;8(3):241-250. doi: 10.1016/j.bpsc.2021.05.001. Epub 2021 May 13.
Tourette syndrome (TS) is a neurodevelopmental disorder involving chronic motor and phonic tics. Most individuals with TS can suppress their tics for at least a short period of time. Yet, the brain correlates of tic suppression are still poorly understood.
In the current study, high-density electroencephalography was recorded during a resting-state and a tic suppression session in 72 children with TS. Functional connectivity between cortical regions was assessed in the alpha band (8-13 Hz) using an electroencephalography source connectivity method. Graph theory and network-based statistics were used to assess the global network topology and to identify brain regions showing increased connectivity during tic suppression.
Graph theoretical analyses revealed distinctive global network topology during tic suppression, relative to rest. Using network-based statistics, we found a subnetwork of increased connectivity during tic suppression (p < .001). That subnetwork encompassed many cortical areas, including the right superior frontal gyrus and the left precuneus, which are involved in the default mode network. We also found a condition-by-age interaction, suggesting age-mediated increases in connectivity during tic suppression.
These results suggest that children with TS suppress their tics through a brain circuit involving distributed cortical regions, many of which are part of the default mode network. Brain connectivity during tic suppression also increases as youths with TS mature. These results highlight a mechanism by which children with TS may control their tics, which could be relevant for future treatment studies.
妥瑞氏症(TS)是一种涉及慢性运动性和发声性抽搐的神经发育障碍。大多数 TS 患者至少可以在短时间内抑制他们的抽搐。然而,抽搐抑制的大脑相关因素仍知之甚少。
在当前的研究中,对 72 名 TS 儿童在静息状态和抽搐抑制状态下进行了高密度脑电图记录。使用脑电图源连接方法,在 alpha 波段(8-13 Hz)评估皮质区域之间的功能连接。图论和基于网络的统计学用于评估全局网络拓扑结构,并识别在抽搐抑制期间显示出增加的连通性的脑区。
与静息状态相比,图论分析揭示了在抽搐抑制期间存在独特的全局网络拓扑结构。使用基于网络的统计学,我们发现了一个在抽搐抑制期间连通性增加的子网(p <.001)。该子网包含许多皮质区域,包括右侧额上回和左侧楔前叶,这些区域涉及默认模式网络。我们还发现了一个条件与年龄的交互作用,表明在抽搐抑制期间,年龄介导的连通性增加。
这些结果表明,TS 儿童通过涉及分布式皮质区域的大脑回路来抑制他们的抽搐,其中许多区域是默认模式网络的一部分。在抽搐抑制期间,大脑的连通性也随着 TS 青少年的成熟而增加。这些结果强调了 TS 儿童可能控制其抽搐的一种机制,这可能与未来的治疗研究相关。
