This repository contains the code and results related to the paper "Corticothalamic modelling of sleep neurophysiology with applications to mobile EEG" by Morshedzadeh, T., Kadak, K., Bastiaens, S. P., Oveisi, M. P., Momi, D., Wang, Z., Harita, S., Jaude, M. A., Aimone, C. A., Mann, S., Hill, S. L., & Griffiths, J. D. https://doi.org/10.1101/2024.02.28.582655
Recent developments in mathematical modelling of EEG data enable estimation and tracking of otherwise-inaccessible neurophysiological parameters over the course of a night's sleep. Likewise, advancements in wearable electronics have enabled easier & more affordable at-home collection of sleep EEG data. The convergence of these two advances, namely neurophysiological modelling for mobile sleep EEG, has the potential to significantly improve sleep assessments in research and the clinic. However, this subject area has received limited attention in existing literature. To address this, we used an established mathematical model of the corticothalamic system to analyze EEG power spectra from 5 datasets, spanning from in-lab, research-grade systems to at-home mobile EEG devices. In the present work, we compare the convergent and divergent features of the data and the estimated physiological model parameters. While data quality and characteristics differ considerably, several key patterns consistent with previous theoretical and empirical work are observed. During the transition from lighter to deeper NREM stages, i) the exponent of the aperiodic (
Guide to the code and content for the project and generating the figures. TO BE ADDED SOON.