低氧血症合并心肺疾病成人患者应用无创通气进行自动氧滴定:一项随机交叉试验。
Automated oxygen titration with non-invasive ventilation in hypoxaemic adults with cardiorespiratory disease: a randomised cross-over trial.
机构信息
Medical Research Institute of New Zealand, Wellington, New Zealand
Victoria University Wellington, Wellington, New Zealand.
出版信息
BMJ Open Respir Res. 2024 Jun 18;11(1):e002196. doi: 10.1136/bmjresp-2023-002196.
BACKGROUND
Closed-loop oxygen control systems automatically adjust the fraction of inspired oxygen (FiO) to maintain oxygen saturation (SpO) within a predetermined target range. Their performance with low and high-flow oxygen therapies, but not with non-invasive ventilation, has been established. We compared the effect of automated oxygen on achieving and maintaining a target SpO range with nasal high flow (NHF), bilevel positive airway pressure (bilevel) and continuous positive airway pressure (CPAP), in stable hypoxaemic patients with chronic cardiorespiratory disease.
METHODS
In this open-label, three-way cross-over trial, participants with resting hypoxaemia (n=12) received each of NHF, bilevel and CPAP treatments, in random order, with automated oxygen titrated for 10 min, followed by 36 min of standardised manual oxygen adjustments. The primary outcome was the time taken to reach target SpO range (92%-96%). Secondary outcomes included time spent within target range and physiological responses to automated and manual oxygen adjustments.
RESULTS
Two participants were randomised to each of six possible treatment orders. During automated oxygen control (n=12), the mean (±SD) time to reach target range was 114.8 (±87.9), 56.6 (±47.7) and 67.3 (±61) seconds for NHF, bilevel and CPAP, respectively, mean difference 58.3 (95% CI 25.0 to 91.5; p=0.002) and 47.5 (95% CI 14.3 to 80.7; p=0.007) seconds for bilevel and CPAP versus NHF, respectively. Proportions of time spent within target range were 68.5% (±16.3), 65.6% (±28.7) and 74.7% (±22.6) for NHF, bilevel and CPAP, respectively.Manually increasing, then decreasing, the FiO resulted in similar increases and then decreases in SpO and transcutaneous carbon dioxide (PtCO) with NHF, bilevel and CPAP.
CONCLUSION
The target SpO range was achieved more quickly when automated oxygen control was initiated with bilevel and CPAP compared with NHF while time spent within the range across the three therapies was similar. Manually changing the FiO had similar effects on SpO and PtCO across each of the three therapies.
TRIAL REGISTRATION NUMBER
ACTRN12622000433707.
背景
闭环氧控制系统自动调整吸入氧分数(FiO)以维持氧饱和度(SpO)在预定目标范围内。其在低流量和高流量氧疗中的性能已得到证实,但在无创通气中尚未得到证实。我们比较了自动供氧对稳定低氧血症的慢性心肺疾病患者使用鼻高流量(NHF)、双水平正压通气(bilevel)和持续气道正压通气(CPAP)时达到和维持目标 SpO 范围的效果。
方法
在这项开放标签的三向交叉试验中,12 名静息低氧血症患者(n=12)随机接受 NHF、bilevel 和 CPAP 治疗,每种治疗方式均采用自动供氧滴定 10 分钟,随后进行 36 分钟的标准化手动供氧调整。主要结局是达到目标 SpO 范围(92%-96%)的时间。次要结局包括在目标范围内的时间以及对自动和手动供氧调整的生理反应。
结果
12 名患者随机分为六组,每组 2 名。在自动供氧控制期间(n=12),达到目标范围的平均(±SD)时间分别为 NHF、bilevel 和 CPAP 为 114.8(±87.9)、56.6(±47.7)和 67.3(±61)秒,平均差异为 58.3(95%置信区间 25.0 至 91.5;p=0.002)和 47.5(95%置信区间 14.3 至 80.7;p=0.007)秒,bilevel 和 CPAP 与 NHF 相比,分别。在目标范围内的时间比例分别为 68.5%(±16.3)、65.6%(±28.7)和 74.7%(±22.6),分别为 NHF、bilevel 和 CPAP。手动增加 FiO,然后降低 FiO,导致 NHF、bilevel 和 CPAP 的 SpO 和经皮二氧化碳(PtCO)相似的增加和降低。
结论
与 NHF 相比,当使用双水平和 CPAP 启动自动供氧控制时,目标 SpO 范围更快达到,而三种治疗方法在范围内的时间相似。手动改变 FiO 对三种治疗方法的 SpO 和 PtCO 均有相似的影响。
试验注册号
ACTRN12622000433707。
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