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ABSTRACT: To quantitatively assess autonomic cardiovascular control in normal young adults following exposure to repetitive acoustically-induced arousals from sleep.
Respiration, R-R interval (RRI) and noninvasive measurements of continuous arterial blood pressure were monitored in subjects during the transition from relaxed wakefulness to stable Stage 2 sleep. These measurements were made under undisturbed conditions or conditions in which transient arousals were induced repetitively by acoustic stimulation. A mathematical model was used to partition the fluctuations in RRI into a component ("RSA") correlated with respiration and a component ("A representing baroreflex control of heart rate. The magnitudes and forms of each component before and after exposure to repetitive arousals were compared
Sleep disorders laboratory in a university setting.
Ten healthy young adults (5 male, 5 female) with an average age of 20.4 +/- 2.0 y and mean body-mass index of 23.8 +/- 2.9 kg/m2.
Each subject participated in multiple sleep studies consisting of 4 conditions with 2 nights in each condition. The first condition consisted of undisturbed sleep (control), while in the other 3 conditions, the subjects were aroused from sleep by repetitive auditory stimuli applied continuously over a duration of 50 minutes, with periodicities of 30 seconds, 1 minute, and 2 minutes of sleep.
Exposure to repetitive arousal (RA) did not alter mean heart rate or blood pressure. However, ABR and RSA gains estimated using the model, increased from the onset of Stage 1 sleep to the start of stable Stage 2 sleep under the control condition, but remained unchanged in all RA conditions. There were also significant increases in low-frequency oscillations of systolic blood pressure in the RA conditions versus no change in the control condition.
Exposure to RA over durations approximating an hour produces cumulative effects on autonomic control that are subtle and can only be detected when advanced signal processing methods are employed. More specifically, the increases in ABR and RSA gains that accompany increasing sleep depth in normal sleep are prevented from occurring.
Sleep 02/2008; 31(1):93-103. · 5.05 Impact Factor
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ABSTRACT: A previous study found that the sympathoexcitatory cardiovascular effects of arousal are relatively long lasting. In this study, we examine (1) whether the cumulative effects of arousal can lead to significant changes in autonomic control and (2) how the frequency of arousals affect the magnitude of these effects. Ten healthy subjects were aroused from sleep every 30 seconds, 1 minute and 2 minutes of sleep for an hour. EEG, ABP, ECG and respiration were recorded, and the impulse responses of respiratory sinus arrhythmia (h<sub>RSA</sub>) and arterial baroreflex (h<sub>ABR</sub>) before and after 50 minutes of repetitive arousal were quantified by using a minimal closed loop cardiovascular model. We found that the low frequency baroreflex gain decreased after exposure to repetitive arousals of 2 minutes periodicity but remained unchanged in the control and other arousal conditions.
Engineering in Medicine and Biology Society, 2004. IEMBS '04. 26th Annual International Conference of the IEEE; 10/2004
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ABSTRACT: A previous study found that the sympathoexcitatory cardiovascular effects of arousal are relatively long lasting. In this study, we examine (1) whether the cumulative effects of arousal can lead to significant changes in autonomic control and (2) how the frequency of arousals affect the magnitude of these effects. Ten healthy subjects were aroused from sleep every 30 seconds, 1 minute and 2 minutes of sleep for an hour. EEG, ABP, ECG and respiration were recorded, and the impulse responses of respiratory sinus arrhythmia (h(RSA)) and arterial baroreflex (h(RSA)) before and after 50 minutes of repetitive arousal were quantified by using a minimal closed loop cardiovascular model. We found that the low frequency baroreflex gain decreased after exposure to repetitive arousals of 2 minutes periodicity but remained unchanged in the control and other arousal conditions.
Conference proceedings: ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference 02/2004; 6:3897-900.
