Effect of REM sleep on retroglossal cross-sectional area and compliance in normal subjects.

Abstract

It has been proposed that the upper airway compliance should be highest during rapid eye movement (REM) sleep. Evidence suggests that the increased compliance is secondary to an increased retroglossal compliance. To test this hypothesis, we examined the effect of sleep stage on the relationship of retroglossal cross-sectional area (CSA; visualized with a fiber-optic scope) to pharyngeal pressure measured at the level of the oropharynx during eupneic breathing in subjects without significant sleep-disordered breathing. Breaths during REM sleep were divided into phasic (associated with eye movement, PREM) and tonic (not associated with eye movements, TREM). Retroglossal CSA decreased with non-REM (NREM) sleep and decreased further in PREM [wake 156.8 ± 48.6 mm², NREM 104.6 ± 65.0 mm²( P < 0.05 wake vs. NREM), TREM 83.1 ± 46.4 mm² ( P = not significant NREM vs. TREM), PREM 73.9 + 39.2 mm² ( P < 0.05 TREM vs. PREM)]. Retroglossal compliance, defined as the slope of the regression CSA vs. pharyngeal pressure, was the same between all four conditions (wake −0.7 + 2.1 mm²/cmH₂O, NREM 0.6 ± 3.0 mm²/cmH₂O, TREM −0.2 ± 3.3 mm²/cmH₂O, PREM −0.6 ± 5.1 mm²/cmH₂O, P = not significant). We conclude that the intrinsic properties of the airway wall determine retroglossal compliance independent of changes in the neuromuscular activity associated with changes in sleep state.