Auditory driven gamma synchrony is associated with cortical thickness in widespread cortical areas

•Significant correlation between auditory-driven gamma synchrony and cortical thickness•Correlation prevalent in A1, but also in parts of the frontal cortex•A1 auditory-driven gamma connectivity significantly associated with cortical thickness•Correlation prevalent in the temporal, frontal, parietal...

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Veröffentlicht in:NeuroImage (Orlando, Fla.) Fla.), 2022-07, Vol.255, p.119175, Article 119175
Hauptverfasser: Schuler, Anna-Lisa, Ferrazzi, Giulio, Colenbier, Nigel, Arcara, Giorgio, Piccione, Francesco, Ferreri, Florinda, Marinazzo, Daniele, Pellegrino, Giovanni
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Sprache:eng
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Zusammenfassung:•Significant correlation between auditory-driven gamma synchrony and cortical thickness•Correlation prevalent in A1, but also in parts of the frontal cortex•A1 auditory-driven gamma connectivity significantly associated with cortical thickness•Correlation prevalent in the temporal, frontal, parietal and occipital lobes Gamma synchrony is a fundamental functional property of the cerebral cortex, impaired in multiple neuropsychiatric conditions (i.e. schizophrenia, Alzheimer's disease, stroke etc.). Auditory stimulation in the gamma range allows to drive gamma synchrony of the entire cortical mantle and to estimate the efficiency of the mechanisms sustaining it. As gamma synchrony depends strongly on the interplay between parvalbumin-positive interneurons and pyramidal neurons, we hypothesize an association between cortical thickness and gamma synchrony. To test this hypothesis, we employed a combined magnetoencephalography (MEG) – Magnetic Resonance Imaging (MRI) study. Cortical thickness was estimated from anatomical MRI scans. MEG measurements related to exposure of 40 Hz amplitude modulated tones were projected onto the cortical surface. Two measures of cortical synchrony were considered: (a) inter-trial phase consistency at 40 Hz, providing a vertex-wise estimation of gamma synchronization, and (b) phase-locking values between primary auditory cortices and whole cortical mantle, providing a measure of long-range cortical synchrony. A correlation between cortical thickness and synchronization measures was then calculated for 72 MRI-MEG scans. Both inter-trial phase consistency and phase locking values showed a significant positive correlation with cortical thickness. For inter-trial phase consistency, clusters of strong associations were found in the temporal and frontal lobes, especially in the bilateral auditory and pre-motor cortices. Higher phase-locking values corresponded to higher cortical thickness in the frontal, temporal, occipital and parietal lobes. In healthy subjects, a thicker cortex corresponds to higher gamma synchrony and connectivity in the primary auditory cortex and beyond, likely reflecting underlying cell density involved in gamma circuitries. This result hints towards an involvement of gamma synchrony together with underlying brain structure in brain areas for higher order cognitive functions. This study contributes to the understanding of inherent cortical functional and structural brain properties, which might in turn constitute
ISSN:1053-8119
1095-9572
1095-9572
DOI:10.1016/j.neuroimage.2022.119175