Altered frontal connectivity as a mechanism for executive function deficits in fragile X syndrome.

IF 6.3 1区 医学 Q1 GENETICS & HEREDITY Molecular Autism Pub Date : 2022-12-09 DOI:10.1186/s13229-022-00527-0
Lauren M Schmitt, Joy Li, Rui Liu, Paul S Horn, John A Sweeney, Craig A Erickson, Ernest V Pedapati
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引用次数: 1

Abstract

Background: Fragile X syndrome (FXS) is the leading inherited monogenic cause of intellectual disability and autism spectrum disorder. Executive function (EF), necessary for adaptive goal-oriented behavior and dependent on frontal lobe function, is impaired in individuals with FXS. Yet, little is known how alterations in frontal lobe neural activity is related to EF deficits in FXS.

Methods: Sixty-one participants with FXS (54% males) and 71 age- and sex-matched typically-developing controls (TDC; 58% males) completed a five-minute resting state electroencephalography (EEG) protocol and a computerized battery of tests of EF, the Test of Attentional Performance for Children (KiTAP). Following source localization (minimum-norm estimate), we computed debiased weighted phase lag index (dWPLI), a phase connectivity value, for pairings between 18 nodes in frontal regions for gamma (30-55 Hz) and alpha (10.5-12.5 Hz) bands. Linear models were generated with fixed factors of group, sex, frequency, and connection. Relationships between frontal connectivity and EF variables also were examined.

Results: Individuals with FXS demonstrated increased gamma band and reduced alpha band connectivity across all frontal regions and across hemispheres compared to TDC. After controlling for nonverbal IQ, increased error rates on EF tasks were associated with increased gamma band and reduced alpha band connectivity.

Limitations: Frontal connectivity findings are limited to intrinsic brain activity during rest and may not generalize to frontal connectivity during EF tasks or everyday function.

Conclusions: We report gamma hyper-connectivity and alpha hypo-connectivity within source-localized frontal brain regions in FXS compared to TDC during resting-state EEG. For the first time in FXS, we report significant associations between EF and altered frontal connectivity, with increased error rate relating to increased gamma band connectivity and reduced alpha band connectivity. These findings suggest increased phase connectivity within gamma band may impair EF performance, whereas greater alpha band connectivity may provide compensatory support for EF. Together, these findings provide important insight into neurophysiological mechanisms of EF deficits in FXS and provide novel targets for treatment development.

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额叶连通性改变作为脆性X综合征执行功能缺陷的机制。
背景:脆性X染色体综合征(FXS)是智力残疾和自闭症谱系障碍的主要遗传单基因病因。执行功能(EF)是适应性目标导向行为所必需的,依赖于额叶功能,在FXS个体中受损。然而,很少有人知道额叶神经活动的改变如何与FXS的EF缺陷相关。方法:61名FXS患者(54%为男性)和71名年龄和性别匹配的典型发育对照组(TDC;(58%男性)完成了5分钟的静息状态脑电图(EEG)方案和一系列儿童注意力表现测试(KiTAP)的计算机化测试。在源定位(最小范数估计)之后,我们计算了额叶区域18个节点之间的相位连接值(dWPLI),用于gamma (30-55 Hz)和alpha (10.5-12.5 Hz)频段的配对。以群体、性别、频率、连接等固定因子生成线性模型。额叶连通性与EF变量之间的关系也得到了检验。结果:与TDC相比,FXS个体在所有额叶区域和半球上表现出增加的伽马带和减少的α带连接。在控制了非语言智商后,EF任务错误率的增加与伽马波段的增加和α波段连接的减少有关。局限性:额叶连通性的发现仅限于休息时的内在大脑活动,可能不能推广到EF任务或日常功能时的额叶连通性。结论:我们报告了与静息状态脑电图中TDC相比,FXS中源定位额叶区域的伽马超连接和α低连接。在FXS中,我们首次报告了EF与额叶连接改变之间的显著关联,其错误率增加与伽马波段连接增加和α波段连接减少有关。这些发现表明,伽马波段的相位连通性增加可能会损害EF的表现,而更大的α波段连通性可能会为EF提供补偿性支持。总之,这些发现为FXS中EF缺陷的神经生理机制提供了重要的见解,并为治疗开发提供了新的靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular Autism
Molecular Autism GENETICS & HEREDITY-NEUROSCIENCES
CiteScore
12.10
自引率
1.60%
发文量
44
审稿时长
17 weeks
期刊介绍: Molecular Autism is a peer-reviewed, open access journal that publishes high-quality basic, translational and clinical research that has relevance to the etiology, pathobiology, or treatment of autism and related neurodevelopmental conditions. Research that includes integration across levels is encouraged. Molecular Autism publishes empirical studies, reviews, and brief communications.
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