Sleep Disorders Center and Pulmonary Division, University Hospital Zurich, Raemistrasse 100, Zurich, Switzerland.
Eur J Appl Physiol. 2013 Feb;113(2):489-96. doi: 10.1007/s00421-012-2457-y. Epub 2012 Jul 18.
Preliminary evidence supports an association between OSA and cardiac dysrhythmias. Negative intrathoracic pressure, as occurring during OSA, may provoke cardiac dysrhythmias. Thus, we aimed to study the acute effects of simulated apnea and hypopnea on arrhythmic potential and measures of cardiac repolarization [QT(C) and T (peak) to T (end) intervals [TpTec]) in humans. In 41 healthy volunteers, ECG was continuously recorded prior, during and after simulated obstructive hypopnea (inspiration through a threshold load), simulated apnea (Mueller maneuver), end-expiratory central apnea and normal breathing in randomized order. The number of subjects with premature beats was significantly higher during inspiration through a threshold load (n = 7), and the Mueller maneuver (n = 7) compared to normal breathing (n = 0) (p = 0.008 for all comparisons), but not during end-expiratory central apnea (n = 3, p = 0.125). Inspiration through a threshold load was associated with a non-significant mean (SD) increase of the QT(C) interval [+5.4 (22.4) ms, 95 %CI -1.7 to +12.4 ms, p = 0.168] and a significant increase of the TpTcc interval [+3.7 (8.9) ms, 95 %CI +0.9 to +6.6 ms, p = 0.010]. The Mueller maneuver induced a significant increase of the QT(C) interval [+8.3 (23.4) ms, 95 %CI 0.9 to +15.6 ms, p = 0.035] and the TpTec interval (+4.2 (8.2) ms, 95 %CI +1.6 to +6.8 ms, p = 0.002). There were no significant changes of the QT(C) and TpTec intervals during central end-expiratory apnea. These data indicate that simulated obstructive apnea and hypopnea are associated with an increase of premature beats and prolongation of QT(C) and TpTec intervals. Therefore, negative intrathoracic pressure changes may be a contributory mechanism for the association between OSA and cardiac dysrhythmias.
初步证据支持阻塞性睡眠呼吸暂停(OSA)与心律失常之间存在关联。OSA 期间发生的负胸腔内压力可能会引发心律失常。因此,我们旨在研究模拟呼吸暂停和呼吸不足对人类心律失常潜力和心脏复极指标(QT(C)和 T 波峰至 T 波末间期[TpTec])的急性影响。在 41 名健康志愿者中,连续记录了在随机顺序的模拟阻塞性呼吸不足(通过阈值负荷吸气)、模拟呼吸暂停(Mueller 手法)、呼气末中枢性呼吸暂停和正常呼吸期间之前、期间和之后的心电图。与正常呼吸(n = 0)相比,通过阈值负荷吸气(n = 7)和 Mueller 手法(n = 7)时过早搏动的受试者数量显著增加(所有比较的 p = 0.008),但呼气末中枢性呼吸暂停时没有增加(n = 3,p = 0.125)。通过阈值负荷吸气与 QT(C)间期的平均(SD)增加无关(+5.4(22.4)ms,95%CI-1.7 至+12.4 ms,p = 0.168),但与 TpTcc 间期的显著增加有关(+3.7(8.9)ms,95%CI +0.9 至 +6.6 ms,p = 0.010)。Mueller 手法引起 QT(C)间期显著增加(+8.3(23.4)ms,95%CI 0.9 至 +15.6 ms,p = 0.035)和 TpTec 间期(+4.2(8.2)ms,95%CI +1.6 至 +6.8 ms,p = 0.002)。呼气末中枢性呼吸暂停期间,QT(C)和 TpTec 间期无明显变化。这些数据表明,模拟阻塞性呼吸暂停和呼吸不足与过早搏动的增加以及 QT(C)和 TpTec 间期的延长有关。因此,负胸腔内压力变化可能是 OSA 与心律失常之间关联的一个促成因素。
