Enhancing reproducibility in developmental EEG research: BIDS, cluster-based permutation tests, and effect sizes
Date of Archiving
2021Archive
Radboud Data Repository
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Publication type
Dataset
Access level
Open access
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Organization
SW OZ DCC CO
aPI Group MEG Methods
Audience(s)
Life sciences
Languages used
English
Key words
cluster-based permutation test; BIDS; developmental; event-related potentials; Diagnosis; Diagnostic Techniques and Procedures; Diagnostic Techniques, Neurological; Electroencephalography; infant; EEG; effect size; ERP; reproducibilityAbstract
Developmental research using electroencephalography (EEG) offers valuable insights in brain processes early in life, but at the same time, applying this sensitive technique to young children who are often non-compliant and have short attention spans comes with pratical limitations. It is thus of particular importance to optimally use the limited resources to advance our understanding of development through reproducible and replicable research practices. Here, we describe methodological approaches that help maximize the reproducibility of developmental EEG research. We discuss how to transform EEG data into the standardized Brain Imaging Data Structure (BIDS) which organizes data according to the FAIR data sharing principles. We provide a tutorial on how to use cluster-based permutation testing to analyze developmental EEG data. This versatile test statistic solves the multiple comparison problem omnipresent in EEG analysis and thereby substantially decreases the risk of reporting false discoveries. Finally, we describe how to quantify effect sizes, in particular of cluster-based permutation results. Reporting effect sizes conveys a finding’s impact and robustness which in turn informs future research. To demonstrate these methodological approaches to data organization, analysis and report, we use a publicly accessible infant EEG dataset and provide a complete copy of the analysis code.This collection contains the results of the analysis and a static copy of the analysis scripts. See also https://doi.org/10.34973/gvr3-6g88 for the raw data.
This item appears in the following Collection(s)
- Datasets [1790]
- Donders Centre for Cognitive Neuroimaging [3959]
- Faculty of Social Sciences [29964]