自闭症谱系障碍儿童听觉皮层的刺激诱导和基线 MEG α 振荡均出现异常

IF 2.7 3区 医学 Q1 ANATOMY & MORPHOLOGY Brain Structure & Function Pub Date : 2024-04-29 DOI:10.1007/s00429-024-02802-7
Vardan Arutiunian, Giorgio Arcara, Irina Buyanova, Makar Fedorov, Elizaveta Davydova, Darya Pereverzeva, Alexander Sorokin, Svetlana Tyushkevich, Uliana Mamokhina, Kamilla Danilina, Olga Dragoy
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摘要

自闭症谱系障碍(ASD)的神经生物学假设与神经兴奋(E)和抑制(I)之间的失衡有关。不同的研究显示,脑磁图和脑电图(MEG 和 EEG)中的阿尔法波段(8-12 Hz)活动可反映 E 和 I 过程,因此在 ASD 研究中具有特殊意义。以前的研究结果表明,在 ASD 患者的不同皮质系统中,与事件相关的阿尔法活动和基线阿尔法活动发生了改变,这些异常与 ASD 的核心症状和并发症有关。然而,对这一人群听觉α振荡的了解还很有限。这项 MEG 研究调查了听觉皮层中由刺激引起的(事件相关非同步化,ERD)和基线阿尔法波段活动(包括周期性和非周期性),以及这些神经活动与 ASD 儿童行为测量之间的关系。研究人员向两组儿童展示了 90 个振幅调制音调:20 名 ASD 儿童(5 名女孩,Mage = 10.03,SD = 1.7)和 20 名发育正常的对照组儿童(9 名女孩,Mage = 9.11,SD = 1.3)。与TD儿童相比,ASD儿童的α波段ERD双侧减少,基线非周期性调整α功率降低,非周期性指数变平。此外,在语言主导的左听觉皮层中,较低的原始基线α功率和非周期性偏移与正式评估中测出的ASD儿童较好的语言能力有关。研究结果突显了 ASD 儿童在对基本听觉刺激做出反应时 E / I 平衡指标的改变,同时也为低级处理对 ASD 儿童语言障碍的影响提供了证据。
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Abnormalities in both stimulus-induced and baseline MEG alpha oscillations in the auditory cortex of children with Autism Spectrum Disorder

The neurobiology of Autism Spectrum Disorder (ASD) is hypothetically related to the imbalance between neural excitation (E) and inhibition (I). Different studies have revealed that alpha-band (8–12 Hz) activity in magneto- and electroencephalography (MEG and EEG) may reflect E and I processes and, thus, can be of particular interest in ASD research. Previous findings indicated alterations in event-related and baseline alpha activity in different cortical systems in individuals with ASD, and these abnormalities were associated with core and co-occurring conditions of ASD. However, the knowledge on auditory alpha oscillations in this population is limited. This MEG study investigated stimulus-induced (Event-Related Desynchronization, ERD) and baseline alpha-band activity (both periodic and aperiodic) in the auditory cortex and also the relationships between these neural activities and behavioral measures of children with ASD. Ninety amplitude-modulated tones were presented to two groups of children: 20 children with ASD (5 girls, Mage = 10.03, SD = 1.7) and 20 typically developing controls (9 girls, Mage = 9.11, SD = 1.3). Children with ASD had a bilateral reduction of alpha-band ERD, reduced baseline aperiodic-adjusted alpha power, and flattened aperiodic exponent in comparison to TD children. Moreover, lower raw baseline alpha power and aperiodic offset in the language-dominant left auditory cortex were associated with better language skills of children with ASD measured in formal assessment. The findings highlighted the alterations of E / I balance metrics in response to basic auditory stimuli in children with ASD and also provided evidence for the contribution of low-level processing to language difficulties in ASD.

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来源期刊
Brain Structure & Function
Brain Structure & Function 医学-解剖学与形态学
CiteScore
6.00
自引率
6.50%
发文量
168
审稿时长
8 months
期刊介绍: Brain Structure & Function publishes research that provides insight into brain structure−function relationships. Studies published here integrate data spanning from molecular, cellular, developmental, and systems architecture to the neuroanatomy of behavior and cognitive functions. Manuscripts with focus on the spinal cord or the peripheral nervous system are not accepted for publication. Manuscripts with focus on diseases, animal models of diseases, or disease-related mechanisms are only considered for publication, if the findings provide novel insight into the organization and mechanisms of normal brain structure and function.
期刊最新文献
A Comparison of two Maps of the Human Neocortex: the multimodal MRI-based parcellation of Glasser et al. (2016a), and the myeloarchitectonic parcellation of Nieuwenhuys and Broere (2023), as a first step toward a unified, canonical map. Redefining language networks: connectivity beyond localised regions. Retraction Note: Developmental changes in Notch1 and NLE1 expression in a genetic model of absence epilepsy. Correction: Histamine induces the production of matrix metalloproteinase-9 in human astrocytic cultures via H1-receptor subtype. Towards multi-modal, multi-species brain atlases: part two.
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