Abstract
Sleep is essential for nervous system functioning and sleep disorders are associated with several neurodegenerative diseases. However, the macroscale connectivity changes in brain networking during different sleep states are poorly understood. One of the hindering factors is the difficulty to combine functional connectivity investigation methods with spontaneously sleeping animals, which prevents the use of numerous preclinical animal models. Recent studies, however, have implicated that urethane anesthesia can uniquely induce different sleep-like brain states, resembling rapid eye movement (REM) and non-REM (NREM) sleep, in rodents. Therefore, the aim of this study was to assess changes in global connectivity and topology between sleep-like states in urethane anesthetized rats, using blood oxygenation level dependent (BOLD) functional magnetic resonance imaging. We detected significant changes in corticocortical (increased in NREM-like state) and corticothalamic connectivity (increased in REM-like state). Additionally, in graph analysis the modularity, the measure of functional integration in the brain, was higher in NREM-like state than in REM-like state, indicating a decrease in arousal level, as in normal sleep. The fMRI findings were supported by the supplementary electrophysiological measurements. Taken together, our results show that macroscale functional connectivity changes between sleep states can be detected robustly with resting-state fMRI in urethane anesthetized rats. Our findings pave the way for studies in animal models of neurodegenerative diseases where sleep abnormalities are often one of the first markers for the disorder development.
Highlights
Sleep is a vital physiological process [1]
The duration of rapid eye movement (REM)-like periods in the EEG recording and the duration of blood oxygenation level dependent (BOLD) increase come from the same distribution
We ascertain that different BOLD baseline levels are likely to present REM and NREM like states
Summary
Sleep is a vital physiological process [1]. We spend about 1/3 of our life asleep, and no mammal is able to survive for a long period without sleep. Functional Connectivity in Sleep States in Rat characteristics, usually divided into rapid eye movement (REM) and non-REM (NREM) phases. Muscle atonia and rapid eye movements are typically found during REM phase; while NREM phase is usually associated with less pronounced brain activity. The meaning of the sleep states is still being elucidated, there is evidence indicating a significant role of these states in memory and learning process. REM sleep has been ascribed to have a role in non-declarative memories, evidence in this regard is still rather scarce [2]. All in all, both sleep stages appear to be important for normal memory functioning
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