Longitudinal analysis of developmental changes in electroencephalography patterns and sleep-wake states of the neonatal mouse

The neonatal brain undergoes rapid maturational changes that facilitate the normal development of the nervous system and also affect the pathological response to brain injury. Electroencephalography (EEG) and analysis of sleep-wake vigilance states provide important insights into the function of the...

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Bibliographic Details
Published in:PloS one 2018-11, Vol.13 (11), p.e0207031-e0207031
Main Authors: Rensing, Nicholas, Moy, Brianna, Friedman, Joseph L, Galindo, Rafael, Wong, Michael
Format: Article
Language:English
Subjects:
Age
Animal models
Animals
Animals, Newborn - growth & development
Biology and Life Sciences
Brain
Brain - pathology
Brain injury
Brain research
Control data (computers)
Convulsions & seizures
EEG
Electrodes
Electrodes, Implanted
Electroencephalography
Electromyography
Emergence
Fast Fourier transformations
Female
Fourier transforms
Head injuries
Hypoxia
Injury analysis
Laboratory animals
Longitudinal Studies
Male
Medicine
Medicine and Health Sciences
Mice
Neonates
Nervous system
Neurological disorders
Neurology
Newborn babies
NREM sleep
Recording
REM sleep
Research and Analysis Methods
Rodents
Skull
Sleep
Sleep (NREM)
Sleep (REM)
Sleep - physiology
Sleep and wakefulness
Sleep, REM - physiology
Stainless steel
Vigilance
Vigilance (Psychology)
Wakefulness - physiology
Wire
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Summary:The neonatal brain undergoes rapid maturational changes that facilitate the normal development of the nervous system and also affect the pathological response to brain injury. Electroencephalography (EEG) and analysis of sleep-wake vigilance states provide important insights into the function of the normal and diseased immature brain. While developmental changes in EEG and vigilance states are well-described in people, less is known about the normal maturational properties of rodent EEG, including the emergence and evolution of sleep-awake vigilance states. In particular, a number of developmental EEG studies have been performed in rats, but there is limited comparable research in neonatal mice, especially as it pertains to longitudinal EEG studies performed within the same mouse. In this study, we have attempted to provide a relatively comprehensive assessment of developmental changes in EEG background activity and vigilance states in wild-type mice from postnatal days 9-21. A novel EEG and EMG method allowed serial recording from the same mouse pups. EEG continuity and power and vigilance states were analyzed by quantitative assessment and fast Fourier transforms. During this developmental period, we demonstrate the timing of maturational changes in EEG background continuity, frequencies, and power and the emergence of identifiable wake, NREM, and REM sleep states. These results should serve as important control data for physiological studies of mouse models of normal brain development and neurological disease.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0207031