脑机接口训练对自闭症智障儿童脑电图节律的影响:一个可行性案例系列

IF 2.2 3区 心理学 Q2 PSYCHOLOGY, CLINICAL Applied Psychophysiology and Biofeedback Pub Date : 2023-01-06 DOI:10.1007/s10484-022-09576-w
Kristen LaMarca, R. Gevirtz, Alan J. Lincoln, Jaime A. Pineda
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引用次数: 0

摘要

已有研究表明,mu节律神经反馈训练(NFT)可改善自闭症谱系障碍(ASD)儿童动作观察时的行为和脑电图mu节律抑制。然而,智障人士因其行为障碍而被排除在外。我们的目的是确定智力受损的ASD儿童,他们在行为上准备参加使用条件听觉强化物的mu- nft研究,是否会在mu- nft后表现出症状和mu抑制的改善。7名自闭症儿童(6-8岁;平均智商70.6±7.5)成功参加mu-NFT。4例(学习者)在mu-NFT期间表现出积极的学习趋势(命中率),3例(非学习者)没有。在所有病例的mu抑制测试中都存在人工创造行为,但在非学习者中更为常见。NFT之后,学习者表现出行为上的改善,而且相对于没有脑电图或行为改善的非学习者,他们更有可能表现出短期的mu抑制增加。结果支持mu-NFT在一些儿童中的应用,如果没有增强的行为准备,这些儿童可能无法参与。在NFT过程中表现学习能力或在任务依赖脑电图测试中提供相对较低伪影的数据方面有更多限制的儿童,从mu-NFT中受益的机会可能较小。改进理想mu-NFT候选者的识别、mu-NFT学习率、源分析、EEG结果任务表现、人群特异性伪像排斥方法以及NFT协议的理论基础,可以帮助未来基于bci的神经康复工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Brain–Computer Interface Training of mu EEG Rhythms in Intellectually Impaired Children with Autism: A Feasibility Case Series

Prior studies show that neurofeedback training (NFT) of mu rhythms improves behavior and EEG mu rhythm suppression during action observation in children with autism spectrum disorder (ASD). However, intellectually impaired persons were excluded because of their behavioral challenges. We aimed to determine if intellectually impaired children with ASD, who were behaviorally prepared to take part in a mu-NFT study using conditioned auditory reinforcers, would show improvements in symptoms and mu suppression following mu-NFT. Seven children with ASD (ages 6–8; mean IQ 70.6 ± 7.5) successfully took part in mu-NFT. Four cases demonstrated positive learning trends (hit rates) during mu-NFT (learners), and three cases did not (non-learners). Artifact-creating behaviors were present during tests of mu suppression for all cases, but were more frequent in non-learners. Following NFT, learners showed behavioral improvements and were more likely to show evidence of a short-term increase in mu suppression relative to non-learners who showed little to no EEG or behavior improvements. Results support mu-NFT’s application in some children who otherwise may not have been able to take part without enhanced behavioral preparations. Children who have more limitations in demonstrating learning during NFT, or in providing data with relatively low artifact during task-dependent EEG tests, may have less chance of benefiting from mu-NFT. Improving the identification of ideal mu-NFT candidates, mu-NFT learning rates, source analyses, EEG outcome task performance, population-specific artifact-rejection methods, and the theoretical bases of NFT protocols, could aid future BCI-based, neurorehabilitation efforts.

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来源期刊
CiteScore
5.30
自引率
13.30%
发文量
36
期刊介绍: Applied Psychophysiology and Biofeedback is an international, interdisciplinary journal devoted to study of the interrelationship of physiological systems, cognition, social and environmental parameters, and health. Priority is given to original research, basic and applied, which contributes to the theory, practice, and evaluation of applied psychophysiology and biofeedback. Submissions are also welcomed for consideration in several additional sections that appear in the journal. They consist of conceptual and theoretical articles; evaluative reviews; the Clinical Forum, which includes separate categories for innovative case studies, clinical replication series, extended treatment protocols, and clinical notes and observations; the Discussion Forum, which includes a series of papers centered around a topic of importance to the field; Innovations in Instrumentation; Letters to the Editor, commenting on issues raised in articles previously published in the journal; and select book reviews. Applied Psychophysiology and Biofeedback is the official publication of the Association for Applied Psychophysiology and Biofeedback.
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