Developmental appearance and disappearance of cortical events and oscillations in infant rats

Adele M H Seelke; Mark S Blumberg

doi:10.1016/j.brainres.2010.01.088

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Developmental appearance and disappearance of cortical events and oscillations in infant rats

Journal article

Peer reviewed

Developmental appearance and disappearance of cortical events and oscillations in infant rats

Adele M H Seelke and Mark S Blumberg

Brain research, Vol.1324, pp.34-42

04/09/2010

DOI: 10.1016/j.brainres.2010.01.088

PMCID: PMC2848902

PMID: 20138849

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Abstract

Until recently, organized and state-dependent neocortical activity in infant rats was thought to commence with the emergence of delta waves at postnatal day (P)11. This view is changing with the discovery of several forms of cortical activity that are detectable soon after birth, including spindle bursts (SBs) and slow activity transients (SATs). Here we provide further evidence of surprisingly rich cortical activity patterns during early development and document, in P5-P13 rats, the appearance, disappearance, and transient expression of three cortical events and oscillations. EEG activity in frontal, parietal, and occipital cortices was recorded in unanesthetized, head-fixed subjects using 16-channel laminar silicon electrodes and Ag-AgCl electrodes. In addition to SATs, we identified two novel forms of activity: cortical sharp potentials (CSPs) and gamma bursts (GBs). SBs were not observed in these areas. CSPs, defined as discrete, biphasic events with a duration of 250 ms, exhibited an inverted-U developmental trajectory with peak prevalence at P9. In contrast, GBs, defined as brief bursts of 40-Hz activity, increased steadily in prevalence and duration from P5 through P13. The prevalence of SATs decreased steadily across the ages tested here. Furthermore, both CSPs and GBs were more likely to occur during sleep than during wakefulness. Because SATs, CSPs, and GBs exhibit different developmental trajectories and rates of occurrence, and can occur independently of each other, they appear to be distinct patterns of neuronal activity. We hypothesize that these diverse patterns of neurophysiological activity reflect the instantaneous local structure and connectivity of the developing neocortex.

Electromyography

Occipital Lobe - growth & development

Electroencephalography - instrumentation

Periodicity

Rats

Occipital Lobe - physiology

Electroencephalography - methods

Rats, Sprague-Dawley

Frontal Lobe - physiology

Electrodes

Animals

Aging - physiology

Time Factors

Frontal Lobe - growth & development

Signal Processing, Computer-Assisted

Wakefulness - physiology

Parietal Lobe - growth & development

Parietal Lobe - physiology

Sleep - physiology

Details

Title: Subtitle: Developmental appearance and disappearance of cortical events and oscillations in infant rats
Creators: Adele M H Seelke - Department of Psychology and Delta Center, Program in Behavioral and Cognitive Neuroscience, The University of Iowa, Iowa City, IA 52242, USA. amseelke@ucdavis.edu
Mark S Blumberg
Resource Type: Journal article
Publication Details: Brain research, Vol.1324, pp.34-42
DOI: 10.1016/j.brainres.2010.01.088
PMID: 20138849
PMCID: PMC2848902
NLM abbreviation: Brain Res
ISSN: 0006-8993
eISSN: 1872-6240
Publisher: Netherlands
Grant note: MH50701 / NIMH NIH HHS MH66424 / NIMH NIH HHS R29 MH050701 / NIMH NIH HHS R01 MH050701 / NIMH NIH HHS K02 MH066424 / NIMH NIH HHS K02 MH066424-08 / NIMH NIH HHS R01 MH050701-14 / NIMH NIH HHS
Language: English
Date published: 04/09/2010
Academic Unit: Psychological and Brain Sciences; Iowa Neuroscience Institute; Biology
Record Identifier: 9984002340602771

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