Hypercapnia Can Induce Arousal from Sleep in the Absence of Altered Respiratory Mechanoreception

Abstract

Possible mechanisms of arousal from respiratory stimuli include changes in Po ₂, Pco ₂, central respiratory drive, or respiratory mechanoreceptor activity. We sought to determine whether hypercapnia alone could induce arousal from sleep in four subjects with high ( ⩾ C3) neurologically complete spinal cord injuries while on constant positive pressure mechanical ventilation (hence, respiratory mechanoreceptor activity remained constant). Subjects were chronically hypocapnic (mean baseline Pet CO₂ = 21 mm Hg; range, 13–30 mm Hg). On the first night, the baseline rate of spontaneous awakenings was determined by polysomnography. On night two, Fi CO₂ was increased rapidly in stable NREM sleep. Awakenings occurred in 19 of 19 trials within 5 min, with each subject waking and complaining of shortness of breath (mean time to arousal, 115 s; range, 26–264 s). It is unlikely that these were spontaneous, as the times to awakening during hypercapnia were much higher than during baseline conditions (p < 0.05). During rapidly induced hypercapnia, Pet CO₂ overestimates the Pco ₂ at the central chemoreceptors. To determine more precisely the Pet CO₂ arousal threshold, Pet CO₂ was increased slowly (approximately 2 mm Hg/min); arousal occurred at a mean Pet CO₂ of 37 mm Hg (range, 23–45 mm Hg; mean change from baseline, 15.8 mm Hg, range, 10–20 mm Hg). Hence, both rapid and slow increases in Pet CO₂ can induce arousal in humans in the absence of changes in respiratory mechanoreceptor activity.