1. Cardiac changes during arousals from non-REM sleep in healthy volunteers
- Author
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Nalivaiko, Eugene, Catcheside, Peter G., Adams, Amanda, Jordan, Amy S., Eckert, Danny J., and McEvoy, R. Doug
- Subjects
Atrioventricular node -- Health aspects ,Sleep -- Physiological aspects ,Nervous system, Sympathetic -- Physiological aspects ,Biological sciences - Abstract
Our aim was to evaluate cardiac changes evoked by spontaneous and sound-induced arousals from sleep. Cardiac responses to spontaneous and auditory-induced arousals were recorded during overnight sleep studies in 28 young healthy subjects (14 males, 14 females) during non-rapid eye movement sleep. Computerized analysis was applied to assess beat-to-beat changes in heart rate, atrio-ventricular conductance, and ventricular repolarization from 30 s before to 60 s after the auditory tone. During both types of arousals, the most consistent change was the increase in the heart rate (in 62% of spontaneous and in 89% of sound-induced arousals). This was accompanied by an increase or no change in PR interval and by a decrease or no change in QT interval. The magnitude of all cardiac changes was significantly higher for tone-induced vs. spontaneous arousals (mean [+ or -] SD for heart rate: +9 [+ or -] 8 vs. + 13 [+ or -] 9 beats per min; for PR prolongation: 14 [+ or -] 16 vs. 24 [+ or -] 22 ms; for QT shortening: -12 [+ or -] 6 vs. -20 [+ or -] 9 ms). The prevalence of transient tachycardia and PR prolongation was also significantly higher for tone-induced vs. spontaneous arousals (tachycardia: 85% vs. 57% of arousals, P < 0.001; PR prolongation: 51% vs. 25% of arousals, P < 0.001). All cardiac responses were short-lasting (10-15 s). We conclude that cardiac pacemaker region, conducting system, and ventricular myocardium may be under independent neural control. Prolongation of atrio-ventricular delay may serve to increase ventricular filling during arousal from sleep. Whether prolonged atrio-ventricular conductance associated with increased sympathetic outflow to the ventricular myocardium contributes to arrhythmogenesis during sudden arousal from sleep remains to be evaluated. autonomic; atrio-ventricular node; QT; sympathetic
- Published
- 2007