AI Article Synopsis
- The study investigates how spindle metrics relate to sleep architecture in N2 and N3 stages in healthy college students using EEG-fMRI.
- The results showed that blood-oxygen level-dependent signals in the right middle temporal gyrus were significantly higher in N2 sleep compared to N3, with this finding replicated in a separate group of normal adults.
- Additionally, a correlation analysis revealed that this activation in the right middle temporal gyrus was negatively associated with N2 sleep duration, suggesting its unique role in influencing the duration of N2 sleep.
Article Abstract
The association between spindle metrics and sleep architecture differs during N2 vs. N3 sleep, the underlying neural mechanism is not clearly illustrated. Here, we tested the discrepancy in spindle-related brain activation between N2 and N3 within healthy college students (dataset 1: n = 27, 59 % females, median age 23 years), using simultaneous electroencephalography-functional magnetic resonance imaging (EEG-fMRI). To assess the replicability of the finding, we repeated the analysis among normal adults (independent dataset 2: n = 30, 50 % females, median age 32 years). The finding from dataset 1 indicated significantly increased blood-oxygen level-dependent signal in the right middle temporal gyrus during N2 compared with N3, which was well replicated in dataset 2. Furthermore, correlation analysis was performed to explore the association between this spindle-related brain activation and N2, N3 sleep duration during EEG-fMRI. We conducted the correlation analysis in N2 and N3, respectively. The negative association between spindle-related brain activation in the right middle temporal gyrus and sleep duration was only observed in N2. Our findings emphasize the unique role of spindle-related brain activation in the right middle temporal gyrus during N2 in shortening N2 sleep duration.
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| http://dx.doi.org/10.1016/j.neuroimage.2024.120976 | DOI Listing |
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