S Remsburg scite author profile

Patients with obstructive sleep apnea (OSA) have been reported to have an augmented pressor response to hypoxic rebreathing. To assess the contribution of the peripheral vasculature to this hemodynamic response, we measured heart rate, mean arterial pressure (MAP), and forearm blood flow by venous occlusion plethysmography in 13 patients with OSA and in 6 nonapneic control subjects at arterial oxygen saturations (Sa(O(2))) of 90, 85, and 80% during progressive isocapnic hypoxia. Measurements were also performed during recovery from 5 min of forearm ischemia induced with cuff occlusion. MAP increased similarly in both groups during hypoxia (mean increase at 80% Sa(O(2)): OSA patients, 9 +/- 11 mmHg; controls, 12 +/- 7 mmHg). Forearm vascular resistance, calculated from forearm blood flow and MAP, decreased in controls (mean change -37 +/- 19% at Sa(O(2)) 80%) but not in patients (mean change -4 +/- 16% at 80% Sa(O(2))). Both groups decreased forearm vascular resistance similarly after forearm ischemia (maximum change from baseline -85%). We conclude that OSA patients have an abnormal peripheral vascular response to isocapnic hypoxia.

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Sleep stage influences the hemodynamic response to obstructive apneas.

Garpestad¹,

Ringler²,

Parker³

et al. 1995

Am J Respir Crit Care Med

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Blood pressure (BP) rises at the termination of obstructive episodes in patients with sleep apnea. Although the relationship of these BP elevations to oxygen saturation (SaO2) and arousal has been explored, the influence of sleep stage is undefined. To examine the effects of sleep stage on the postapnea BP elevation, we enrolled 12 patients with obstructive sleep apnea (OSA), and successfully collected data from seven of these (all male). Subjects slept overnight in the sleep laboratory, with full sleep and respiratory monitoring. Arterial pressure was assessed continuously with a radial artery catheter (six patients) or with digital photoplethysmography (one patient). Apneas occurring in both rapid eye movement (REM) and non-rapid eye movement (NREM) sleep were matched for duration and degree of desaturation. When mean arterial pressure (MAP) at termination of apneas during NREM sleep associated with SaO2 nadirs 78 to 82% (NREM 80%) was compared with MAP following apneas in REM with the same SaO2 nadir (REM 80%), there was a significant difference (NREM 80% 122 +/- 15.3 mm Hg, REM 80% 132 +/- 11.0; p = 0.0109). We also analyzed the effect of oxygen desaturation on MAP during REM sleep, by comparing events with SaO2 nadirs of 78 to 82% with events with nadirs of < 75% (REM < 75%). In REM, further desaturation was associated with significant lengthening of the obstructive episodes and significantly higher postapnea BP increases (REM 75% 143 +/- 19.9 mm Hg, p = 0.0392). We conclude that sleep stage alters the hemodynamic response to obstructive apneas during sleep.

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S Remsburg

Hemodynamic Consequences of Obstructive Sleep Apnea

Patients with obstructive sleep apnea have an abnormal peripheral vascular response to hypoxia

Sleep stage influences the hemodynamic response to obstructive apneas.

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