Sleep-Wake Cycle and EEG-Based Biomarkers during Late Neonate to Adult Transition.
Miguel A HerreroRebeca GallegoMilagros RamosJuan Manuel Lopez-NavarroGuillermo De ArcasDaniel Gonzalez-NietoPublished in: Brain sciences (2021)
During the transition from neonate to adulthood, brain maturation establishes coherence between behavioral states-wakefulness, non-rapid eye movement, and rapid eye movement sleep. In animal models few studies have characterized and analyzed cerebral rhythms and the sleep-wake cycle in early ages, in relation to adulthood. Since the analysis of sleep in early ages can be used as a predictive model of brain development and the subsequent emergence of neural disturbances in adults, we performed a study on late neonatal mice, an age not previously characterized. We acquired longitudinal 24 h electroencephalogram and electromyogram recordings and performed time and spectral analyses. We compared both age groups and found that late neonates: (i) spent more time in wakefulness and less time in non-rapid eye movement sleep, (ii) showed an increased relative band power in delta, which, however, reduced in theta during each behavioral state, (iii) showed a reduced relative band power in beta during wakefulness and non-rapid eye movement sleep, and (iv) manifested an increased total power over all frequencies. The data presented here might have implications expanding our knowledge of cerebral rhythms in early ages for identification of potential biomarkers in preclinical models of neurodegeneration.
Keyphrases
- sleep quality
- physical activity
- depressive symptoms
- resting state
- working memory
- cerebral ischemia
- loop mediated isothermal amplification
- subarachnoid hemorrhage
- white matter
- adipose tissue
- multiple sclerosis
- computed tomography
- mesenchymal stem cells
- bone marrow
- young adults
- deep learning
- low birth weight
- high density