Litcius/Paper detail

Beta2 Oscillations in Hippocampal-Cortical Circuits During Novelty Detection

Arthur S. C. França, Nils Z. Borgesius, Bryan C. Souza, Michael X Cohen

2021Frontiers in Systems Neuroscience22 citationsDOIOpen Access PDF

Abstract

Novelty detection is a core feature of behavioral adaptation and involves cascades of neuronal responses-from initial evaluation of the stimulus to the encoding of new representations-resulting in the behavioral ability to respond to unexpected inputs. In the past decade, a new important novelty detection feature, beta2 (~20-30 Hz) oscillations, has been described in the hippocampus (HC). However, the interactions between beta2 and the hippocampal network are unknown, as well as the role-or even the presence-of beta2 in other areas involved with novelty detection. In this work, we combined multisite local field potential (LFP) recordings with novelty-related behavioral tasks in mice to describe the oscillatory dynamics associated with novelty detection in the CA1 region of the HC, parietal cortex, and mid-prefrontal cortex. We found that transient beta2 power increases were observed only during interaction with novel contexts and objects, but not with familiar contexts and objects. Also, robust theta-gamma phase-amplitude coupling was observed during the exploration of novel environments. Surprisingly, bursts of beta2 power had strong coupling with the phase of delta-range oscillations. Finally, the parietal and mid-frontal cortices had strong coherence with the HC in both theta and beta2. These results highlight the importance of beta2 oscillations in a larger hippocampal-cortical circuit, suggesting that beta2 plays a role in the mechanism for detecting and modulating behavioral adaptation to novelty.

Topics & Concepts

Hippocampal formationNoveltyNeurosciencePsychologyComputer scienceSocial psychologyNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchEEG and Brain-Computer Interfaces