Division of Sleep and Circadian Disorders, Departments of Medicine and Neurology, Brigham and Women's Hospital & Harvard Medical School, Boston, MA.
Division of Sleep and Circadian Disorders, Departments of Medicine and Neurology, Brigham and Women's Hospital & Harvard Medical School, Boston, MA; Respiratory Medicine and Sleep Laboratory, Department of Internal Medicine, Spedali Civili di Brescia, University of Brescia, Brescia, Italy; Adelaide Institute for Sleep Health, Flinders University, Adelaide, SA, Australia.
Chest. 2020 Jun;157(6):1626-1636. doi: 10.1016/j.chest.2020.01.012. Epub 2020 Jan 30.
We recently showed that administration of the combination of the noradrenergic drug atomoxetine plus the antimuscarinic oxybutynin (ato-oxy) prior to sleep greatly reduced OSA severity, likely by increasing upper airway dilator muscle activity during sleep. In patients with OSA who performed the ato-oxy trial with an esophageal pressure catheter to estimate ventilatory drive, the effect of the drug combination (n = 17) and of the single drugs (n = 6) was measured on the endotypic traits over a 1-night administration and compared vs placebo. This study also tested if specific traits were predictors of complete response to treatment (reduction in apnea-hypopnea index [AHI] > 50% and < 10 events/h).
The study was a double-blind, randomized, placebo-controlled trial. The arousal threshold, collapsibility (ventilation at eupneic drive [Vpassive]), ventilation at arousal threshold, and loop gain (stability of ventilatory control, LG1), were calculated during spontaneous breathing during sleep. Muscle compensation (upper airway response) was calculated as a function of ventilation at arousal threshold adjusted for Vpassive. Ventilation was expressed as a percentage of the eupneic level of ventilation (%). Data are presented as mean [95% CI].
Compared with placebo, ato-oxy increased Vpassive by 73 [54 to 91]% (P < .001) and muscle compensation by 29 [8 to 51]% (P = .012), reduced the arousal threshold by -9 [-14 to -3]% (P = .022) and LG1 by -11 [-22 to 2]% (P = .022). Atomoxetine alone significantly reduced arousal threshold and LG1. Both agents alone improved collapsibility (Vpassive) but not muscle compensation. Patients with lower AHI, higher Vpassive, and higher fraction of hypopneas over total events had a complete response with ato-oxy.
Ato-oxy markedly improved the measures of upper airway collapsibility, increased breathing stability, and slightly reduced the arousal threshold. Patients with relatively lower AHI and less severe upper airway collapsibility had the best chance for OSA resolution with ato-oxy.
我们最近发现,在睡眠前给予去甲肾上腺素能药物托莫西汀和抗毒蕈碱药物奥昔布宁(阿托-奥昔)联合治疗可显著减轻阻塞性睡眠呼吸暂停(OSA)的严重程度,这可能是通过增加睡眠期间上气道扩张肌的活动。在接受食管压力导管进行阿托-奥昔试验以估计通气驱动的 OSA 患者中,测量了药物联合治疗(n=17)和单药治疗(n=6)对 1 晚给药的内表型特征的影响,并与安慰剂进行了比较。本研究还测试了特定特征是否可以预测治疗的完全反应(呼吸暂停低通气指数 [AHI] 降低>50%且<10 次/小时)。
这是一项双盲、随机、安慰剂对照试验。在睡眠期间自主呼吸时计算觉醒阈值、 collapsibility(通气在静息通气水平下的被动程度 [Vpassive])、觉醒阈值时的通气和环路增益(通气控制的稳定性,LG1)。肌肉补偿(上气道反应)作为调整为 Vpassive 的觉醒阈值时的通气的函数进行计算。通气以通气的静息水平的百分比(%)表示。数据表示为平均值[95%置信区间]。
与安慰剂相比,阿托-奥昔使 Vpassive 增加了 73%[54 至 91%](P<0.001)和肌肉补偿增加了 29%[8 至 51%](P=0.012),降低了觉醒阈值-9%[-14 至-3%](P=0.022)和 LG1-11%[-22 至 2%](P=0.022)。托莫西汀单独治疗可显著降低觉醒阈值和 LG1。两种药物单独治疗均可改善 collapsibility(Vpassive)但不能改善肌肉补偿。AHI 较低、Vpassive 较高和总事件中呼吸暂停比例较高的患者使用阿托-奥昔治疗可获得完全缓解。
阿托-奥昔显著改善了上气道塌陷的测量、增加了呼吸稳定性,并略微降低了觉醒阈值。相对较低的 AHI 和较轻的上气道塌陷的患者使用阿托-奥昔治疗 OSA 的缓解机会最大。