不同临床脑电图系统之间听觉伽马振荡的长期重测信度
Long-Term Test-Retest Reliability of Auditory Gamma Oscillations Between Different Clinical EEG Systems.
作者信息
Hirano Yoji, Nakamura Itta, Tamura Shunsuke, Onitsuka Toshiaki
机构信息
Department of Neuropsychiatry, Graduate School of Medical Sciences, Kyushu University, Fukuoka, Japan.
Neural Dynamics Laboratory, Research Service, VA Boston Healthcare System, Boston, MA, United States.
出版信息
Front Psychiatry. 2020 Sep 2;11:876. doi: 10.3389/fpsyt.2020.00876. eCollection 2020.
OBJECTIVE
There is increasing interest in the utility of gamma-band activity for assessing various brain functions, including perception, language, memory, and cognition. The auditory steady-state response (ASSR) involves neural activity in the brain elicited by trains of a click sound, and its maximum response is obtained at 40 Hz (40-Hz ASSR). Abnormalities of the 40-Hz ASSR are also widely reported in patients with schizophrenia. Thus, the test-retest reliability of the ASSR is important for its clinical and translational application. However, there are only limited studies reporting the short-term reliability between acquisitions at two time points made using the same electroencephalogram (EEG) system. Furthermore, the long-term reliability between multiple EEG systems and the reliability of spontaneous gamma activity are unknown but are crucial for multicenter collaborative research.
METHODS
We examined the long-term test-retest reliability of 40-Hz ASSR oscillatory activities indexed by the phase locking factor (PLF), evoked power, and (non-phase-locked) induced power between two clinical 19-electrode EEG systems [recorded twice for EEG-1 (time1 and time2) and EEG-2 (time3 and time4)] at four time points from 14 healthy controls over a duration of 5 months. Test-retest reliability was examined using intraclass correlation coefficients (ICCs).
RESULTS
Both PLF and evoked power showed good to excellent ICCs (>0.60), mainly in the Fz-electrode, both within each EEG system-EEG-1 [(time1 vs. time2) PLF: ICC = 0.66, evoked power: ICC = 0.88] and EEG-2 [(time3 vs. time4) PLF: ICC = 0.82, evoked power: ICC = 0.77]-and between the two EEG systems [(EEG-1 vs. EEG-2) PLF: ICC = 0.73, evoked power: ICC = 0.84]. In contrast, induced power showed the highest (excellent) ICC between the two EEG systems (ICC = 0.95) mainly in the Cz-electrode. For PLF, the Fz-electrode showed better test-retest reliability across all EEG recordings than the Cz-electrode (Fz: ICC = 0.67, Cz: ICC = 0.63), whereas we found similar excellent reproducibility across all EEG recordings from both electrodes for evoked power (Fz: ICC = 0.79, Cz: ICC = 0.77) and induced power (Fz: ICC = 0.79, Cz: ICC = 0.80).
CONCLUSION
The 40-Hz ASSR oscillatory activities, including induced power, showed excellent test-retest reliability, even when using different EEG systems over a duration of 5 months. These findings confirm the utility of the 40-Hz ASSR as a reliable clinical and translatable biomarker for multicenter collaborative research.
目的
γ波段活动在评估包括感知、语言、记忆和认知在内的各种脑功能方面的效用受到越来越多的关注。听觉稳态反应(ASSR)涉及由一连串滴答声引发的大脑神经活动,其最大反应出现在40赫兹(40赫兹ASSR)。40赫兹ASSR异常在精神分裂症患者中也有广泛报道。因此,ASSR的重测信度对其临床和转化应用很重要。然而,仅有有限的研究报告了使用同一脑电图(EEG)系统在两个时间点采集数据之间的短期信度。此外,多个EEG系统之间的长期信度以及自发γ活动的信度尚不清楚,但对于多中心协作研究至关重要。
方法
我们在5个月的时间里,对14名健康对照者在四个时间点,使用两个临床19电极EEG系统[EEG - 1记录两次(时间1和时间2),EEG - 2记录两次(时间3和时间4)],检测了由锁相因子(PLF)、诱发功率和(非锁相)诱导功率所索引的40赫兹ASSR振荡活动的长期重测信度。使用组内相关系数(ICC)检验重测信度。
结果
PLF和诱发功率均显示出良好至优秀的ICC(>0.60),主要在Fz电极,在每个EEG系统内——EEG - 1[(时间1与时间2)PLF:ICC = 0.66,诱发功率:ICC = 0.88]和EEG - 2[(时间3与时间4)PLF:ICC = 0.82,诱发功率:ICC = 0.77]——以及两个EEG系统之间[(EEG - 1与EEG - 2)PLF:ICC = 0.73,诱发功率:ICC = 0.84]均如此。相比之下,诱导功率在两个EEG系统之间显示出最高(优秀)的ICC(ICC = 0.95),主要在Cz电极。对于PLF,Fz电极在所有EEG记录中的重测信度优于Cz电极(Fz:ICC = 0.67,Cz:ICC = 0.63),而对于诱发功率(Fz:ICC = 0.79,Cz:ICC = 0.77)和诱导功率(Fz:ICC = 0.79,Cz:ICC = 0.80),我们发现在来自两个电极的所有EEG记录中均有类似的优秀再现性。
结论
40赫兹ASSR振荡活动,包括诱导功率,即使在5个月的时间里使用不同的EEG系统,也显示出优秀的重测信度。这些发现证实了40赫兹ASSR作为多中心协作研究中可靠的临床和可转化生物标志物的效用。
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