Automatic classification of ICA components from infant EEG using MARA

Automatic classification of ICA components from infant EEG using MARA

Automated systems for identifying and removing non-neural ICA components are growing in popularity among EEG researchers of adult populations. Infant EEG data differs in many ways from adult EEG data, but there exists almost no specific system for automated classification of source components from p...

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Bibliographic Details
Main Authors: Marriott Haresign, I., Phillips, E., Whitehorn, M., Noreika, V., Jones, Emma-Jane, Leong, Victoria, Wass, S. V.
Other Authors: School of Social Sciences
Format: Article
Language:English
Published: 2021
Subjects:
Social sciences::General
Artifact Correction
Deep Learning
Online Access:https://hdl.handle.net/10356/153617
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Institution: Nanyang Technological University
Language: English
Description
Summary:Automated systems for identifying and removing non-neural ICA components are growing in popularity among EEG researchers of adult populations. Infant EEG data differs in many ways from adult EEG data, but there exists almost no specific system for automated classification of source components from paediatric populations. Here, we adapt one of the most popular systems for adult ICA component classification for use with infant EEG data. Our adapted classifier significantly outperformed the original adult classifier on samples of naturalistic free play EEG data recorded from 10 to 12-month-old infants, achieving agreement rates with the manual classification of over 75% across two validation studies (n = 44, n = 25). Additionally, we examined both classifiers' ability to remove stereotyped ocular artifact from a basic visual processing ERP dataset compared to manual ICA data cleaning. Here, the new classifier performed on level with expert manual cleaning and was again significantly better than the adult classifier at removing artifact whilst retaining a greater amount of genuine neural signal operationalised through comparing ERP activations in time and space. Our new system (iMARA) offers developmental EEG researchers a flexible tool for automatic identification and removal of artifactual ICA components.

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