Resting-state Alpha and Mu Rhythms Change Shape across Development but Lack Diagnostic Sensitivity for Attention-Deficit/Hyperactivity Disorder and Autism.
Published in Journal of Cognitive Neuroscience, 2025
In the field of brain rhythms, one of the rock-solid empirical findings is that oscillatory frequency increases across development, for alpha and mu rhythms. In this new 〰️preprint〰️, we also look at waveform shape across development & neurodevelopmental disorders.
In the human brain, the alpha rhythm in occipital cortex and the mu rhythm in sensorimotor cortex are among the most prominent rhythms, with both rhythms functionally implicated in gating modality-specific information. Separation of these rhythms is nontrivial due to the spatial mixing of these oscillations in sensor space. Using a computationally efficient processing pipeline requiring no manual data cleaning, we isolated alpha and/or mu rhythms from electroencephalography recordings performed on 1605 children aged 5–18 years. Using the extracted time series for each rhythm, we characterized the waveform shape on a cycle-by-cycle basis and examined whether and how the waveform shape differs across development. We demonstrate that alpha and mu rhythms both exhibit a nonsinusoidal waveform shape that changes significantly across development, in addition to the known large changes in oscillatory frequency. This data set also provided an opportunity to assess oscillatory measures for attention-deficit/hyperactivity disorder and autism spectrum disorder. We found no differences in the resting-state features of these alpha-band rhythms for either attention-deficit/hyperactivity disorder or autism spectrum disorder in comparison with typically developing participants in this data set. Although waveform shape is ignored by traditional Fourier spectral analyses, these nonsinusoidal properties may be informative for building more constrained generative models for different types of alpha-band rhythms, yielding more specific insight into their generation.