Department of Psychiatry, Catholic University of Daegu School of Medicine, Daegu, Republic of Korea.
Department of Psychiatry, Easybrain Center, Seoul, Republic of Korea.
PLoS One. 2020 Nov 17;15(11):e0242566. doi: 10.1371/journal.pone.0242566. eCollection 2020.
This study investigated quantitative electroencephalography (QEEG) subtypes as auxiliary tools to assess Attention Deficit Hyperactivity Disorder (ADHD). A total of 74 subjects (58 male and 16 female) were assessed using the Korean version of the Diagnostic Interview Schedule for Children Version IV and were assigned to one of three groups: ADHD, ADHD-Not Otherwise specified (NOS), and Neurotypical (NT). We measured absolute and relative EEG power in 19 channels and conducted an auditory continuous performance test. We analyzed QEEG according to the frequency range: delta (1-4 Hz), theta (4-8 Hz), slow alpha (8-10 Hz), fast alpha (10-13.5 Hz), and beta (13.5-30 Hz). The subjects were then grouped by Ward's method of cluster analysis using the squared Euclidian distance to measure dissimilarities. We discovered four QEEG clusters, which were characterized by: (a) elevated delta power with less theta activity, (b) elevated slow alpha relative power, (c) elevated theta with deficiencies of alpha and beta relative power, and (d) elevated fast alpha and beta absolute power. The largest proportion of participants in clusters (a) and (c) were from the ADHD group (48% and 47%, respectively). Conversely, group (b) mostly consisted of the participants from the NOS group (59%), while group (d) had the largest proportion of participants from the NT group (62%). These results indicate that children with ADHD does not neurophysiologically constitute a homogenous group. We also identified a new subtype with increased alpha power in addition to those commonly reported in ADHD. Given the QEEG characteristics with increased alpha power, we should consider the possibility that this subtype may be caused by childhood depression. In conclusion, we believe that these QEEG subtypes of ADHD are expected to provide valuable information for accurately diagnosing ADHD.
本研究旨在探讨定量脑电图 (QEEG) 亚型作为评估注意力缺陷多动障碍 (ADHD) 的辅助工具。共有 74 名受试者(58 名男性和 16 名女性)接受了儿童诊断访谈量表第四版韩国版的评估,并被分为三组:ADHD、ADHD-未特指 (NOS) 和神经典型 (NT)。我们测量了 19 个通道的绝对和相对脑电图功率,并进行了听觉连续性能测试。我们根据频率范围分析了 QEEG:δ(1-4 Hz)、θ(4-8 Hz)、慢α(8-10 Hz)、快α(10-13.5 Hz)和β(13.5-30 Hz)。然后,我们使用 Ward 聚类分析方法,以平方欧几里得距离作为相似性度量,将受试者分组。我们发现了四个 QEEG 聚类,其特征为:(a) δ 功率升高而 θ 活动减少,(b) 慢α 相对功率升高,(c) θ 升高而 α 和 β 相对功率不足,以及 (d) 快 α 和 β 绝对功率升高。聚类 (a) 和 (c) 的最大比例的参与者来自 ADHD 组(分别为 48%和 47%)。相反,聚类 (b) 主要由 NOS 组的参与者组成(59%),而聚类 (d) 则有最大比例的 NT 组的参与者(62%)。这些结果表明,ADHD 儿童在神经生理学上并不构成一个同质的群体。我们还发现了一种新的亚型,其 α 功率增加,除了 ADHD 中常见的那些亚型。鉴于 α 功率增加的 QEEG 特征,我们应该考虑这种亚型可能是由儿童期抑郁症引起的可能性。总之,我们认为这些 ADHD 的 QEEG 亚型有望为准确诊断 ADHD 提供有价值的信息。
