缺氧在阻塞性睡眠呼吸暂停患者血压升高方面的作用。
Role of hypoxia on increased blood pressure in patients with obstructive sleep apnoea.
作者信息
Okabe S, Hida W, Kikuchi Y, Taguchi O, Ogawa H, Mizusawa A, Miki H, Shirato K
机构信息
First Department of Internal Medicine, Tohoku University School of Medicine, Sendai, Japan.
出版信息
Thorax. 1995 Jan;50(1):28-34. doi: 10.1136/thx.50.1.28.
BACKGROUND
Cyclical changes in systemic blood pressure occur during apnoeic episodes in patients with obstructive sleep apnoea (OSA). Although several factors including arterial hypoxaemia, intrathoracic pressure changes, and disruption of sleep architecture have been reported to be responsible for these changes in blood pressure, the relative importance of each factor remains unclear. This study assessed the role of hypoxaemia on the increase in blood pressure during apnoeic episodes.
METHODS
The blood pressure in apnoeic episodes during sleep and the blood pressure response to isocapnic intermittent hypoxia whilst awake were measured in 10 men with OSA. While asleep the blood pressure was measured non-invasively using a Finapres blood pressure monitor with polysomnography. The response of the blood pressure to hypoxia whilst awake was also measured while the subjects intermittently breathed a hypoxic (5% or 7% oxygen) gas mixture. Each hypoxic gas exposure was continued until a nadir arterial oxygen saturation (nSaO2) of less than 75% was reached, or for a period of 100 seconds. The exposure was repeated five times in succession with five interposed breaths of room air in each run.
RESULTS
The mean (SD) increase in blood pressure (delta MBP) during apnoeic episodes was 42.1 (17.3) mm Hg during rapid eye movement (REM) sleep and 31.9 (12.5) mm Hg during non-REM sleep. The delta MBP during apnoeic episodes showed a correlation with the decrease of nSaO2 (delta SaO2) (r2 = 0.30). The change in blood pressure in response to intermittent hypoxia whilst awake was cyclical and qualitatively similar to that during apnoeic episodes. Averaged delta MBP at an SaO2 of 7% and 5% oxygen was 12.6 (5.7) and 13.4 (3.6) mm Hg, respectively, whereas the averaged delta MBP at the same delta SaO2 during apnoeic episodes was 38.4 (15.5) and 45.2 (20.5) mm Hg, respectively.
CONCLUSIONS
The blood pressure response to desaturation whilst awake was about one third of that during apnoeic episodes. These results suggest that factors other than hypoxia may play an important part in raising the blood pressure during obstructive sleep apnoea.
背景
阻塞性睡眠呼吸暂停(OSA)患者在呼吸暂停发作期间会出现系统性血压的周期性变化。尽管已有报道称包括动脉血氧不足、胸内压变化和睡眠结构紊乱等多种因素与这些血压变化有关,但各因素的相对重要性仍不明确。本研究评估了低氧血症在呼吸暂停发作期间血压升高过程中的作用。
方法
对10名患有OSA的男性患者测量了睡眠期间呼吸暂停发作时的血压以及清醒时对等容间歇性低氧的血压反应。睡眠期间,使用Finapres血压监测仪结合多导睡眠图进行无创血压测量。在受试者间歇性吸入低氧(5%或7%氧气)混合气体时,也测量了清醒时血压对低氧的反应。每次低氧气体暴露持续至动脉血氧饱和度最低点(nSaO2)低于75%,或持续100秒。每次连续重复暴露5次,每次暴露之间间隔5次呼吸室内空气。
结果
快速眼动(REM)睡眠期间呼吸暂停发作时血压的平均(标准差)升高幅度(平均动脉压变化值,delta MBP)为42.1(17.3)mmHg,非快速眼动睡眠期间为31.9(12.5)mmHg。呼吸暂停发作期间的delta MBP与nSaO2的下降幅度(delta SaO2)呈相关性(r2 = 0.30)。清醒时对间歇性低氧的血压变化是周期性的,且在性质上与呼吸暂停发作期间相似。在氧气含量为7%和5%时,平均delta MBP分别为12.6(5.7)和13.4(3.6)mmHg,而在呼吸暂停发作期间相同delta SaO2时,平均delta MBP分别为38.4(15.5)和45.2(20.5)mmHg。
结论
清醒时对血氧饱和度下降的血压反应约为呼吸暂停发作期间的三分之一。这些结果表明,除低氧血症外的其他因素可能在阻塞性睡眠呼吸暂停期间血压升高过程中起重要作用。
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