Dynamics of periodic breathing and arousal during sleep at extreme altitude

Michael C.K. Khoo; James D. Anholm; Song Won Ko; Ralph Downey; A. C.Peter Powles; John R. Sutton; Charles S. Houston

doi:10.1016/0034-5687(95)00057-7

Dynamics of periodic breathing and arousal during sleep at extreme altitude

Michael C.K. Khoo, James D. Anholm, Song Won Ko, Ralph Downey, A. C.Peter Powles, John R. Sutton, Charles S. Houston

Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

To determine whether nocturnal periodic breathing (PB) at altitude is due primarily to unstable control of ventilation or the inability to maintain stable sleep states, we performed visual and computer analyses of the electroencephalographic and respiratory records of healthy volunteers at simulated altitudes of 4572, 6100 and 7620 m. Transient arousals were associated with <52% of the apneas identified; thus, the PB cycle was not always associated with transient arousal. Following the termination of oxygen breathing, the reinitiation of PB was not dependent on the occurrence of arousal as the primary event. The transition from apnea to breathing preceded the appearance of arousal by ~ 1 to 4 sec. Ventilatory drive in the breaths immediately following arousal was significantly larger than corresponding control breaths, matched for Sa(O₂). Our findings suggest that altitude-induced PB is unlikely to result from primary fluctuations in state. Arousals promote the development of PB with apnea and help to sustain these episodes, but are not necessary for their initiation.

Original language	English
Pages (from-to)	33-43
Number of pages	11
Journal	Respiration Physiology
Volume	103
Issue number	1
DOIs	https://doi.org/10.1016/0034-5687(95)00057-7
State	Published - Jan 1996

ASJC Scopus Subject Areas

Physiology
Pulmonary and Respiratory Medicine

Keywords

Altitude, simulated, nocturnal periodic breathing
Control of breathing, periodic breathing
Hypoxia
Mammals, humans
Sleep, high altitude

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title = "Dynamics of periodic breathing and arousal during sleep at extreme altitude",

abstract = "To determine whether nocturnal periodic breathing (PB) at altitude is due primarily to unstable control of ventilation or the inability to maintain stable sleep states, we performed visual and computer analyses of the electroencephalographic and respiratory records of healthy volunteers at simulated altitudes of 4572, 6100 and 7620 m. Transient arousals were associated with <52% of the apneas identified; thus, the PB cycle was not always associated with transient arousal. Following the termination of oxygen breathing, the reinitiation of PB was not dependent on the occurrence of arousal as the primary event. The transition from apnea to breathing preceded the appearance of arousal by ~ 1 to 4 sec. Ventilatory drive in the breaths immediately following arousal was significantly larger than corresponding control breaths, matched for Sa(O2). Our findings suggest that altitude-induced PB is unlikely to result from primary fluctuations in state. Arousals promote the development of PB with apnea and help to sustain these episodes, but are not necessary for their initiation.",

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note = "Funding Information: Dr. M.C.K. Khoo is a recipient of NIH Research Career Development Award HL-02536. This work was supported in part by NIH grant RR-01861 and the American Lung Association. Operation Everest II was supported in part by U.S. Army Research and Development Command Contract DAMD17-85-C-5206, and by the Arctic Institute of North America. The principal investigators of OE II were C.S. Houston, J.R. Sutton and A. Cymerman.",

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AU - Sutton, John R.

AU - Houston, Charles S.

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N2 - To determine whether nocturnal periodic breathing (PB) at altitude is due primarily to unstable control of ventilation or the inability to maintain stable sleep states, we performed visual and computer analyses of the electroencephalographic and respiratory records of healthy volunteers at simulated altitudes of 4572, 6100 and 7620 m. Transient arousals were associated with <52% of the apneas identified; thus, the PB cycle was not always associated with transient arousal. Following the termination of oxygen breathing, the reinitiation of PB was not dependent on the occurrence of arousal as the primary event. The transition from apnea to breathing preceded the appearance of arousal by ~ 1 to 4 sec. Ventilatory drive in the breaths immediately following arousal was significantly larger than corresponding control breaths, matched for Sa(O2). Our findings suggest that altitude-induced PB is unlikely to result from primary fluctuations in state. Arousals promote the development of PB with apnea and help to sustain these episodes, but are not necessary for their initiation.

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Dynamics of periodic breathing and arousal during sleep at extreme altitude

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ASJC Scopus Subject Areas

Keywords

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