Upper airway mechanics and post-hypoxic ventilatory decline during NREM sleep

Termination of hypoxia results in a transient ventilatory decline referred to as post-hypoxic ventilatory decline (PHVD). We wished to determine whether PHVD is due to changes in ventilatory motor output or upper airway mechanics. We studied 19 healthy normal subjects (15 men, 4 women) during stable non-REM (NREM) sleep. Subjects were exposed to multiple episodes of brief (3 min) hypoxia that terminated with one breath of 100% FI_O2. Minute ventilation (V _I), tidal volume (V _T), timing, and upper airway resistance (R _ua) were measured during the control, hypoxia, and for the first six breaths immediately after cessation of hypoxia. In addition, we measured diaphragmatic electromyograms (EMGdia) via surface electrodes in four subjects. V _I and V _T decreased during the recovery period to a nadir of 81and 83% of room air control, respectively. However, there was no significant change in respiratory frequency or upper airway resistance during the post-hypoxic recovery period. Decreased V _I was associated with a comparable decrease in EMGdia. We conclude that: (1) PHVD occurs in normal humans during NREM sleep, (2) there is no evidence of post-hypoxic frequency decline in humans during NREM sleep, and (3) PHVD is centrally mediated and not driven by upper airway mechanics.