Your search keyword '"frequency-specificity"' showing total 2 results

1. Investigating the spectral features of the brain meso-scale structure at rest

Author

Laura Avanzino, Dante Mantini, Riccardo Iandolo, Marianna Semprini, Diego Sona, and Michela Chiappalone

Subjects

Adult, Male, Computer science, Frequency band, Neuroimaging, PREFRONTAL CORTEX, PRECUNEUS, Electroencephalography, WINDOW, Young Adult, community detection, frequency-specificity, meso-scale, network neuroscience, resting state, OSCILLATIONS, medicine, Connectome, Humans, Radiology, Nuclear Medicine and imaging, EEG, ARCHITECTURE, Science & Technology, Radiological and Ultrasound Technology, Resting state fMRI, medicine.diagnostic_test, Assortativity, Radiology, Nuclear Medicine & Medical Imaging, Neurosciences, CORTICAL CORRELATION STRUCTURE, Information processing, Brain, FUNCTIONAL CONNECTIVITY, Degree (music), Brain Waves, NETWORKS, Neurology, Frequency domain, Female, Neurosciences & Neurology, Neurology (clinical), Granularity, Anatomy, Nerve Net, Biological system, Life Sciences & Biomedicine

Abstract

Recent studies provide novel insights into the meso-scale organization of the brain, highlighting the co-occurrence of different structures: classic assortative (modular), disassortative, and core-periphery. However, the spectral properties of the brain meso-scale remain mostly unexplored. To fill this knowledge gap, we investigated how the meso-scale structure is organized across the frequency domain. We analyzed the resting state activity of healthy participants with source-localized high-density electroencephalography signals. Then, we inferred the community structure using weighted stochastic block-model (WSBM) to capture the landscape of meso-scale structures across the frequency domain. We found that different meso-scale modalities co-exist and are diversely organized over the frequency spectrum. Specifically, we found a core-periphery structure dominance, but we also highlighted a selective increase of disassortativity in the low frequency bands (

Published

2021

2. Small-world propensity reveals the frequency specificity of resting state networks

Author

Dante Mantini, Laura Avanzino, Mingqi Zhao, Stefano Buccelli, Riccardo Iandolo, Marianna Semprini, Michela Chiappalone, Gaia Bonassi, Jessica Samogin, Federico Barban, Samogin, Jessica, and Zhao, Mingqi

Subjects

lcsh:Medical technology, frequency specificity, Electroencephalography, lcsh:Computer applications to medicine. Medical informatics, Task (project management), EEG, functional connectivity, resting state, small-worldness, Functional connectivity, medicine, Resting state, Mathematics, medicine.diagnostic_test, Resting state fMRI, Working memory, business.industry, Pattern recognition, Cognition, Small-worldness, Frequency specificity, Frequency-specificity, lcsh:R855-855.5, Metric (mathematics), lcsh:R858-859.7, Artificial intelligence, business

Abstract

Goal: Functional connectivity (FC) is an important indicator of the brain's state in different conditions, such as rest/task or health/pathology. Here we used high-density electroencephalography coupled to source reconstruction to assess frequency-specific changes of FC during resting state. Specifically, we computed the Small-World Propensity (SWP) index to characterize network small-world architecture across frequencies. Methods: We collected resting state data from healthy participants and built connectivity matrices maintaining the heterogeneity of connection strengths. For a subsample of participants, we also investigated whether the SWP captured FC changes after the execution of a working memory (WM) task. Results: We found that SWP demonstrates a selective increase in the alpha and low beta bands. Moreover, SWP was modulated by a cognitive task and showed increased values in the bands entrained by the WM task. Conclusions: SWP is a valid metric to characterize the frequency-specific behavior of resting state networks. ispartof: IEEE Open Journal of Engineering in Medicine and Biology vol:1 pages:57-64 ispartof: location:United States status: published

Published

2020