Posthypoxic ventilatory decline during NREM sleep: influence of sleep apnea

Omran, Amal M.; Aboubakr, Salah E.; Aboussouan, Loutfi S.; Pierchala, Lisa; Badr, M. Safwan

doi:10.1152/japplphysiol.01120.2003

Cited by 2 publications

(1 citation statement)

References 32 publications

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“…Thus, our data provide no evidence for the development of post-hypoxic frequency decline in normal humans during NREM sleep. This corroborates previous studies examining PHVD in normal healthy individuals [17,18]. Whether the phenomenon is present in patients with sleep apnea is not addressed by our study.…”

Section: Mechanisms Of Post-hyperventilation Ventilatory Declinesupporting

confidence: 91%

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

2007

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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 81 and 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.

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Section: Mechanisms Of Post-hyperventilation Ventilatory Declinesupporting

confidence: 91%