Quantitative and Qualitative Representation of Introductory and Advanced EEG Concepts: An Exploration of Different EEG Setups.

Shelby L Hatton, Shubham Rathore, Ilya Vilinsky, Annette Stowasser
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Abstract

Electroencephalograms (EEGs) are the gold standard test used in the medical field to diagnose epilepsy and aid in the diagnosis of many other neurological and mental disorders. Growing in popularity in terms of nonmedical applications, the EEG is also used in research, neurofeedback, and brain-computer interface, making it increasingly relevant to student learning. Recent innovations have made EEG setups more accessible and affordable, thus allowing their integration into neuroscience educational settings. Introducing students to EEGs, however, can be daunting due to intricate setup protocols, individual variation, and potentially expensive equipment. This paper aims to provide guidance for introducing students and educators to fundamental beginning and advanced level EEG concepts. Specifically, this paper tested the potential of three different setups, with varying channel number and wired or wireless connectivity, for introducing students to qualitative and quantitative exploration of alpha enhancement when eyes are closed, and observation of the alpha/beta anterior to posterior gradient. The setups were compared to determine their relative advantages and their robustness in detecting these well-established parameters. The basic 1- or 2-channel setups are sufficient for observing alpha and beta waves, while more advanced systems containing 8 or 16 channels are required for consistent observation of an anterior-posterior gradient. In terms of localization, the 16-channel setup, in principle, was more adept. The 8-channel setup, however, was more effective than the 16-channel setup with regards to displaying the anterior to posterior gradient. Thus, an 8-channel setup is sufficient in an education setting to display these known trends. Modification of the 16-channel setup may provide a better observation of the anterior to posterior gradient.

介绍和高级脑电图概念的定量和定性表征:不同脑电图设置的探索。
脑电图(eeg)是医学领域用于诊断癫痫和帮助诊断许多其他神经和精神疾病的金标准测试。在非医学应用方面,脑电图越来越受欢迎,也用于研究、神经反馈和脑机接口,使其与学生学习越来越相关。最近的创新使脑电图装置更容易获得和负担得起,从而使它们能够融入神经科学教育环境。然而,由于复杂的设置协议、个体差异和潜在的昂贵设备,向学生介绍脑电图可能令人望而生畏。本文旨在为学生和教育工作者介绍基本的、初级的和高级的脑电图概念提供指导。具体来说,本文测试了三种不同设置的潜力,不同的通道数量和有线或无线连接,向学生介绍闭上眼睛时α增强的定性和定量探索,并观察α / β前后梯度。对这些设置进行了比较,以确定它们的相对优势和它们在检测这些已建立的参数方面的鲁棒性。基本的1或2通道设置足以观察α和β波,而包含8或16个通道的更先进的系统需要前后梯度的一致观察。在本地化方面,原则上16通道的设置更为熟练。然而,在显示前后梯度方面,8通道设置比16通道设置更有效。因此,在教育设置中,8通道设置足以显示这些已知趋势。修改16通道设置可以更好地观察前后梯度。
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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