Gestational Duration and Postnatal Age-Related Changes in Aperiodic and Periodic Parameters in Neonatal and Toddler Electroencephalogram (EEG)

: Luotonen, Silja; Railo, Henry; Acosta, Henriette; Huotilainen, Minna; Lavonius, Maria; Karlsson, Linnea; Karlsson, Hasse; Tuulari, Jetro J.

Publisher: WILEY

: HOBOKEN

: 2025

: Human Brain Mapping

: HUMAN BRAIN MAPPING

: HUM BRAIN MAPP

: e70130

: 46

: 1

: 22

: 1065-9471

: 1097-0193

DOI: https://doi.org/10.1002/hbm.70130

: https://doi.org/10.1002/hbm.70130

: https://research.utu.fi/converis/portal/detail/Publication/484594322

The brain develops most rapidly during pregnancy and early neonatal months. While prior electrophysiological studies have shown that aperiodic brain activity undergoes changes across infancy to adulthood, the role of gestational duration in aperiodic and periodic activity remains unknown. In this study, we aimed to bridge this gap by examining the associations between gestational duration and aperiodic and periodic activity in the EEG power spectrum in both neonates and toddlers. This cross-sectional study involved EEG data from 73 neonates (postnatal age 1-5 days, 40 females) and 56 toddlers (postnatal age of 2.9-3.2 years, 28 females) from the FinnBrain Birth Cohort Study. EEG power spectra were parameterized to aperiodic and periodic components using the SpecParam tool. We tested the associations between gestational duration as well as postnatal age and SpecParam parameters in neonates and toddlers while including birth weight and child sex as covariates. For neonates, multilevel models were employed, considering different data acquisitions (sleep and auditory paradigm + sleep), while in toddlers, regression models were used as only data from the auditory paradigm was available. We found that longer gestational duration was associated with a steeper power spectrum across EEG frequencies both in neonates and toddlers. Effect was especially strong in toddlers (beta = 0.45, p = 0.004), while in neonates, it remained nearly statistically significant (p = 0.061). In neonates, a quadratic association between gestational duration and beta center frequency (12.5-30 Hz) was found. In toddlers, beta center frequencies were overall higher in females compared to males. Offset (calculated as the power of the aperiodic curve at 2.5 Hz) and theta center frequency had negative associations with postnatal age in neonates, but not in toddlers.Our results suggest that gestational duration may have significant and relatively long-lasting effects on brain physiology. The possible behavioral and cognitive consequences of these changes are enticing topics for future research.

Human Brain Mapping - 2025 - Luotonen - Gestational Duration and Postnatal Age‐Related Changes in Aperiodic and Periodic.pdf

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This work was supported by Emil Aaltosen Säätiö; Academy of Finland; Suomalainen Tiedeakatemia; Sigrid Juséliuksen Säätiö; Research Council of Finland Finnish Centre of Excellence funding; Signe ja Ane Gyllenbergin Säätiö; Jane ja Aatos Erkon Säätiö; Suomen Kulttuurirahasto; Varsinais-Suomen Sairaanhoitopiiri; State Grants for Clinical Research (ERVA).