Abstract
Rapid eye movement (REM) sleep occurs throughout a relatively large proportion of early development, and normal REM activity appears to be required for healthy brain development. The eye movements (EMs) observed during REM sleep are the most distinctive characteristics of this state. EMs are used as an index of neurological function postnatally, but no specific indices of EM activity exist for fetuses. We aimed to identify and characterize EM activity, particularly EM bursts suggestive of REM periods, in fetuses with a gestational age between 24 and 39 weeks. This cross-sectional study included 84 normal singleton pregnancies. Fetal EMs were monitored using real-time ultrasonography for 60 min and recorded as videos. The videos were manually converted into a time series of EM events, which were then analyzed by piecewise linear regression for various EM characteristics, including EM density, EM burst density, density of EMs in EM bursts, and continuous EM burst time. Two critical points for EM density, EM burst density, and density of EMs in EM bursts were evident at gestation weeks 28–29 and 36–37. Overall EM activity in human fetuses increased until 28–29 weeks of gestation, then again from 36–37 to 38–39 weeks of gestation. These findings may be useful for creating indices of fetal neurological function for prognostic purposes.
Highlights
Rapid eye movement (REM) sleep occupies a relatively large proportion of early development [1,2]
In patients with cognitive/intellectual disability, a correlation exists between IQ and eye movements (EMs), wherein a lower IQ is associated with reduced EMs during REM sleep [7]
In studies of preterm-birth infants born at 32–36 weeks, REM sleep activity was found to correlate with cognitive development when assessed at six months of age, and to provide an indicator of developmental prognosis [14]
Summary
Rapid eye movement (REM) sleep occupies a relatively large proportion of early development [1,2]. For example, pharmacological blockage of REM sleep suppresses brain development ( for the cerebral cortex), and such rats demonstrate maladaptive behavior in new environments [3,4]. This and similar studies suggest that normal REM sleep, or at least REM activity, is required for healthy brain development [3,4,5,6]. In studies of preterm-birth infants born at 32–36 weeks, REM sleep activity was found to correlate with cognitive development when assessed at six months of age, and to provide an indicator of developmental prognosis [14]. While rapid fetal eye movements are potentially representative of REM sleep, it cannot be conclusively demonstrated; presumed REM activity will instead be described as EM activity
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