- Dickinson, Abigail;
- Booth, Madison;
- Daniel, Manjari;
- Campbell, Alana;
- Miller, Neely;
- Lau, Bonnie;
- Zempel, John;
- Webb, Sara;
- Elison, Jed;
- Lee, Adrian;
- Estes, Annette;
- Dager, Stephen;
- Hazlett, Heather;
- Wolff, Jason;
- Schultz, Robert;
- Marrus, Natasha;
- Evans, Alan;
- Piven, Joseph;
- Pruett, John;
- Jeste, Shafali
Brain differences linked to autism spectrum disorder (ASD) can manifest before observable symptoms. Studying these early neural precursors in larger and more diverse cohorts is crucial for advancing our understanding of developmental pathways and potentially facilitating earlier identification. EEG is an ideal tool for investigating early neural differences in ASD, given its scalability and high tolerability in infant populations. In this context, we integrated EEG into an existing multi-site MRI study of infants with a higher familial likelihood of developing ASD. This paper describes the comprehensive protocol established to collect longitudinal, high-density EEG data from infants across five sites as part of the Infant Brain Imaging Study (IBIS) Network and reports interim feasibility and data quality results. We evaluated feasibility by measuring the percentage of infants from whom we successfully collected each EEG paradigm. The quality of task-free data was assessed based on the duration of EEG recordings remaining after artifact removal. Preliminary analyses revealed low data loss, with average in-session loss rates at 4.16 % and quality control loss rates at 11.66 %. Overall, the task-free data retention rate, accounting for both in-session issues and quality control, was 84.16 %, with high consistency across sites. The insights gained from this preliminary analysis highlight key sources of data attrition and provide practical considerations to guide similar research endeavors.