Literature DB >> 25331598

Low- but Not High-Frequency LFP Correlates with Spontaneous BOLD Fluctuations in Rat Whisker Barrel Cortex.

Hanbing Lu1, Leiming Wang1, William W Rea1,2, Julia K Brynildsen1, Saul Jaime1,3, Yantao Zuo1,4, Elliot A Stein1, Yihong Yang1.   

Abstract

Resting-state magnetic resonance imaging (rsMRI) is thought to reflect ongoing spontaneous brain activity. However, the precise neurophysiological basis of rsMRI signal remains elusive. Converging evidence supports the notion that local field potential (LFP) signal in the high-frequency range correlates with fMRI response evoked by a task (e.g., visual stimulation). It remains uncertain whether this relationship extends to rsMRI. In this study, we systematically modulated LFP signal in the whisker barrel cortex (WBC) by unilateral deflection of rat whiskers. Results show that functional connectivity between bilateral WBC was significantly modulated at the 2 Hz, but not at the 4 or 6 Hz, stimulus condition. Electrophysiologically, only in the low-frequency range (<5 Hz) was the LFP power synchrony in bilateral WBC significantly modulated at 2 Hz, but not at 4- or 6-Hz whisker stimulation, thus distinguishing these 2 experimental conditions, and paralleling the findings in rsMRI. LFP power synchrony in other frequency ranges was modulated in a way that was neither unique to the specific stimulus conditions nor parallel to the fMRI results. Our results support the hypothesis that emphasizes the role of low-frequency LFP signal underlying rsMRI. Published by Oxford University Press 2014. This work is written by (a) US Government employee(s) and is in the public domain in the US.

Entities:  

Keywords:  barrel cortex; delta oscillation; functional connectivity; gamma oscillation; spontaneous fluctuation

Mesh:

Substances:

Year:  2014        PMID: 25331598      PMCID: PMC4712799          DOI: 10.1093/cercor/bhu248

Source DB:  PubMed          Journal:  Cereb Cortex        ISSN: 1047-3211            Impact factor:   5.357


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