PURPOSE: Sympathetic activation induced by sleep-disordered breathing may contribute to cardiovascular morbidity. However, the apnea-hypopnea index (AHI) excludes respiratory effort-related arousals (RERAs) associated with inspiratory flow limitation without oxygen desaturation. We sought to determine whether RERAs are associated with sympathetic activation. METHODS: Twenty-five adults (12 males, 13 females) with AHI < 10/h and RERA index >5/h were included in this study. Power spectral density analysis was performed on two non-contiguous 10-min segments containing inspiratory flow limitation and arrhythmia-free electrocardiogram during N2 sleep. One segment contained RERA; the other did not, NO-RERA. Spectral power was described in a low-frequency domain (LF; 0.04-0.15 Hz), primarily sympathetic modulation, and a high frequency domain (HF; 0.15-0.4 Hz), parasympathetic modulation. RESULTS: Analyses of LF and HF powers were made using normalized and absolute values. LF power was greater during RERA compared to NO-RERA (50.3 vs. 30.1 %, p < 0.001) whereas HF power was greater during NO-RERA compared to RERA (69.9 vs. 49.7 %, p < 0.001). The LF/HF ratio was greater during RERA than NO-RERA (1.01 vs. 0.43, p < 0.001). Gender differences emerged using absolute values of power: The percentage increase in LF power during RERA relative to NO-RERA was significantly greater for females than males, 247.6 vs. 31.9 %, respectively (p < 0.02). CONCLUSIONS: RERAs are associated with a marked increase in cardiac sympathetic modulation, especially in females. Patients with a high RERA index, even in the setting of a low or normal AHI, may be exposed to elevated sympathetic tone during sleep.
PURPOSE: Sympathetic activation induced by sleep-disordered breathing may contribute to cardiovascular morbidity. However, the apnea-hypopnea index (AHI) excludes respiratory effort-related arousals (RERAs) associated with inspiratory flow limitation without oxygen desaturation. We sought to determine whether RERAs are associated with sympathetic activation. METHODS: Twenty-five adults (12 males, 13 females) with AHI < 10/h and RERA index >5/h were included in this study. Power spectral density analysis was performed on two non-contiguous 10-min segments containing inspiratory flow limitation and arrhythmia-free electrocardiogram during N2 sleep. One segment contained RERA; the other did not, NO-RERA. Spectral power was described in a low-frequency domain (LF; 0.04-0.15 Hz), primarily sympathetic modulation, and a high frequency domain (HF; 0.15-0.4 Hz), parasympathetic modulation. RESULTS: Analyses of LF and HF powers were made using normalized and absolute values. LF power was greater during RERA compared to NO-RERA (50.3 vs. 30.1 %, p < 0.001) whereas HF power was greater during NO-RERA compared to RERA (69.9 vs. 49.7 %, p < 0.001). The LF/HF ratio was greater during RERA than NO-RERA (1.01 vs. 0.43, p < 0.001). Gender differences emerged using absolute values of power: The percentage increase in LF power during RERA relative to NO-RERA was significantly greater for females than males, 247.6 vs. 31.9 %, respectively (p < 0.02). CONCLUSIONS: RERAs are associated with a marked increase in cardiac sympathetic modulation, especially in females. Patients with a high RERA index, even in the setting of a low or normal AHI, may be exposed to elevated sympathetic tone during sleep.
Authors: Dwayne L Mann; Philip I Terrill; Ali Azarbarzin; Sara Mariani; Angelo Franciosini; Alessandra Camassa; Thomas Georgeson; Melania Marques; Luigi Taranto-Montemurro; Ludovico Messineo; Susan Redline; Andrew Wellman; Scott A Sands Journal: Eur Respir J Date: 2019-07-04 Impact factor: 16.671
Authors: Dwayne L Mann; Thomas Georgeson; Shane A Landry; Bradley A Edwards; Ali Azarbarzin; Daniel Vena; Lauren B Hess; Andrew Wellman; Susan Redline; Scott A Sands; Philip I Terrill Journal: Sleep Date: 2021-12-10 Impact factor: 6.313
Authors: A Blackman; G D Foster; G Zammit; R Rosenberg; L Aronne; T Wadden; B Claudius; C B Jensen; E Mignot Journal: Int J Obes (Lond) Date: 2016-03-23 Impact factor: 5.095