Scale-Free Dynamics of Brain Network Activity in Mice During Novelty and Exploration.
Keywords
Loading...
Authors
Issue Date
2020-09-27
Language
en
Document type
Journal Title
Journal ISSN
Volume Title
Publisher
Title
ISSN
Volume
Issue
Startpage
Endpage
DOI
Abstract
Abstract: The brain is considered a "critical system," which continuously transitions between two
phases: in one the neural activity amplifies and spreads over the largest distances in the network,
and in the other the neural activity is reduced and localized. A strong indication that a system is
in a critical state is scale-free behaviour, which is best described by the exponent of a power-law
function. This scaling exponent can be obtained from Demeaned Fluctuation Analysis (DMA), and
indicates in which state the system is. In this study, we analyzed local field potential (LFP)
recordings from the hippocampal-cortical network in 6 mice during an object recognition task, and
DMA was applied for frequencies from 2 Hz to 150 Hz to identify neural oscillations and regions
indicating above-noise level scaling exponents for each experimental stage. Our results suggest
that there is a significant increase of hippocampal scaling exponents in beta
(24-29 Hz) associated with novelty and exploration compared to rest. We also found evidence
suggesting that different CA1 hippocampal sides might be contributing differently to the scaling
properties of theta (4-7 Hz) associated with novelty detection. We hypothesize that scaling
dynamics in theta might be reflecting coordination of information in the hippocampal-cortical
network during object recognition. The greatest variability in scaling dynamics was observed in
gamma (96-102) in the parietal cortex during object exploration. We therefore hypothesize that
parietal gamma scaling dynamics reflect a rather general mechanism involved in the task.
Overall, our results suggest that the scaling dynamics of different frequency bands can be linked
to behavioral outcomes, and reflect different processes involved in the object recognition task.
Keywords: Demeaned Fluctuation Analysis, Criticality, Scaling Exponents, LFP, Object
Exploration, Novelty.
Description
Citation
Faculty
Faculteit der Sociale Wetenschappen