以听觉稳态反应为目标的个性化脑电图神经反馈:概念验证研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Aurimas Mockevičius, Aleksandras Voicikas, Vytautas Jurkuvėnas, Povilas Tarailis, Inga Griškova-Bulanova
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引用次数: 0

摘要

伽马波段(大于 30 赫兹)的大脑振荡活动与感觉和认知过程有关,并在神经精神疾病中表现出异常。因此,针对伽马活动的神经调节技术正在被开发出来。神经反馈(NFB)是一种很有前途的方法,它通过在线反馈改变大脑的反应。然而,现有的基于伽马的神经反馈系统缺乏个性化方法。在本研究中,我们开发并测试了一种个性化的脑电图-神经反馈系统。46 名健康志愿者在不同的日子里参加了三次训练。在 NFB 训练之前,我们使用啁啾调制听觉刺激(30-60 Hz)估算了个体伽马频率(IGF)。参与者将接受 IGF 增加条件(如果 IGF ≤ 45 Hz)或 IGF 降低条件(如果 IGF > 45 Hz)。在 NFB 训练中,参试者接受频率略高于或略低于 IGF 的听觉稳态刺激,并在接受实时视觉反馈的同时尝试提高其反应。每次达到预先设定的反应目标时,刺激频率就会增加或减少。训练结束后,重新评估 IGF。根据 NFB 训练期间成功率的中位数,实验组参与者被分成相同的组别。结果显示,与对照组相比,高反应者的 IGF 调节明显更高,而低反应者与对照组没有差异。在所有参与者组中,IGF 调节在不同训练和 NFB 重复训练之间均无差异。对拟议的脑电图-NFB 系统的初步评估显示,该系统具有调节 IGF 的潜力。未来的研究可以探讨在临床人群中应用基于 ASSR/IGF 的 NFB 系统所产生的更持久的电生理和行为效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Individualized EEG-Based Neurofeedback Targeting Auditory Steady-State Responses: A Proof-of-Concept Study.

Individualized EEG-Based Neurofeedback Targeting Auditory Steady-State Responses: A Proof-of-Concept Study.

Gamma-band (> 30 Hz) brain oscillatory activity is linked with sensory and cognitive processes and exhibits abnormalities in neuropsychiatric disorders. Therefore, neuromodulation techniques targeting gamma activity are being developed. One promising approach is neurofeedback (NFB) which is based on the alteration of brain responses via online feedback. However, the existing gamma-based NFB systems lack individualized approach. In the present work, we developed and tested an individualized EEG-NFB system. 46 healthy volunteers participated in three sessions on separate days. Before NFB training, individual gamma frequency (IGF) was estimated using chirp-modulated auditory stimulation (30-60 Hz). Participants were subjected to IGF-increase (if IGF was ≤ 45 Hz) or IGF-decrease conditions (if IGF was > 45 Hz). Gamma-band responses were targeted during NFB training, in which participants received auditory steady-state stimulation at frequency slightly above or below IGF and were instructed to try to increase their response while receiving real-time visual feedback. Each time a pre-defined response goal was reached, stimulation frequency was either increased or decreased. After training, IGF was reassessed. Experimental group participants were divided into equal groups based on the median success rate during NFB training. The results showed that high-responders had a significantly higher IGF modulation compared to control group, while low-responders did not differ from controls. No differences in IGF modulation were found between sessions and between NFB repetitions in all participant groups. The initial evaluation of the proposed EEG-NFB system showed potential to modulate IGF. Future studies could investigate longer-lasting electrophysiological and behavioural effects of the application of ASSR/IGF-based NFB system in clinical populations.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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