脆性X综合征静息状态下脑电图信号复杂性降低。

EEG Signal Complexity Is Reduced During Resting-State in Fragile X Syndrome.

作者信息

Proteau-Lemieux Mélodie, Knoth Inga Sophia, Agbogba Kristian, Côté Valérie, Barlahan Biag Hazel Maridith, Thurman Angela John, Martin Charles-Olivier, Bélanger Anne-Marie, Rosenfelt Cory, Tassone Flora, Abbeduto Leonard J, Jacquemont Sébastien, Hagerman Randi, Bolduc François, Hessl David, Schneider Andrea, Lippé Sarah

机构信息

Department of Psychology, University of Montreal, Montreal, QC, Canada.

Research Center of the Sainte-Justine University Hospital, Montreal, QC, Canada.

出版信息

Front Psychiatry. 2021 Nov 11;12:716707. doi: 10.3389/fpsyt.2021.716707. eCollection 2021.

DOI:10.3389/fpsyt.2021.716707

PMID:34858220

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8632368/

Abstract

Fragile X syndrome (FXS) is a genetic disorder caused by a mutation of the (). FXS is associated with neurophysiological abnormalities, including cortical hyperexcitability. Alterations in electroencephalogram (EEG) resting-state power spectral density (PSD) are well-defined in FXS and were found to be linked to neurodevelopmental delays. Whether non-linear dynamics of the brain signal are also altered remains to be studied. In this study, resting-state EEG power, including alpha peak frequency (APF) and theta/beta ratio (TBR), as well as signal complexity using multi-scale entropy (MSE) were compared between 26 FXS participants (ages 5-28 years), and 7 neurotypical (NT) controls with a similar age distribution. Subsequently a replication study was carried out, comparing our cohort to 19 FXS participants independently recorded at a different site. PSD results confirmed the increased gamma, decreased alpha power and APF in FXS participants compared to NT controls. No alterations in TBR were found. Importantly, results revealed reduced signal complexity in FXS participants, specifically in higher scales, suggesting that altered signal complexity is sensitive to brain alterations in this population. The replication study mostly confirmed these results and suggested critical points of stagnation in the neurodevelopmental curve of FXS. Signal complexity is a powerful feature that can be added to the electrophysiological biomarkers of brain maturation in FXS.

摘要

脆性X综合征（FXS）是一种由（）突变引起的遗传性疾病。FXS与神经生理异常有关，包括皮质兴奋性过高。脑电图（EEG）静息态功率谱密度（PSD）的改变在FXS中已得到明确界定，并且发现与神经发育延迟有关。大脑信号的非线性动力学是否也发生改变仍有待研究。在本研究中，比较了26名FXS参与者（年龄5 - 28岁）和7名年龄分布相似的神经典型（NT）对照者的静息态EEG功率，包括α峰频率（APF）和θ/β比值（TBR），以及使用多尺度熵（MSE）的信号复杂度。随后进行了一项重复研究，将我们的队列与在不同地点独立记录的19名FXS参与者进行比较。PSD结果证实，与NT对照者相比，FXS参与者的γ功率增加，α功率和APF降低。未发现TBR有改变。重要的是，结果显示FXS参与者的信号复杂度降低，特别是在较高尺度上，这表明信号复杂度的改变对该人群的大脑改变敏感。重复研究大多证实了这些结果，并提示了FXS神经发育曲线中的关键停滞点。信号复杂度是一个强大的特征，可以添加到FXS大脑成熟的电生理生物标志物中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0e35/8632368/03b2f506e898/fpsyt-12-716707-g0001.jpg

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脆性X综合征静息状态下脑电图信号复杂性降低。

EEG Signal Complexity Is Reduced During Resting-State in Fragile X Syndrome.

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