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PC-12 飞机中呼吸支持模式下颗粒弥散的定量研究:院前患者转运。

A Quantitative Study of Particle Dispersion due to Respiratory Support Modalities in PC-12 Aircraft: Prehospital Patient Transport.

机构信息

Ornge, Mississauga, Ontario, Canada; Division of Emergency Medicine, Western University, Victoria Hospital, London, Ontario, Canada.

Sunnybrook Research Institute, Toronto, Ontario, Canada.

出版信息

Air Med J. 2022 Jan-Feb;41(1):109-113. doi: 10.1016/j.amj.2021.10.001. Epub 2021 Nov 17.

DOI:10.1016/j.amj.2021.10.001
PMID:35248328
Abstract

OBJECTIVE

It is unclear whether supplemental oxygen and noninvasive ventilation respiratory support devices increase the dispersion of potentially infectious bioaerosols in a pressurized air medical cabin. This study quantitatively compared particle dispersion from respiratory support modalities in an air medical cabin during flight.

METHODS

Dispersion was measured in a fixed wing air ambulance during flight with a breathing medical mannequin simulator exhaling nebulized saline from the lower respiratory tract with the following respiratory support modalities: a nasal cannula with a surgical mask, high-flow nasal oxygen (HFNO) with a surgical mask, and noninvasive bilevel positive airway pressure (BiPAP) ventilation.

RESULTS

Nasal cannula oxygen with a surgical mask was associated with the highest particle concentrations. In the absence of mask seal leaks, BiPAP was associated with 1 order of magnitude lower particle concentration compared with a nasal cannula with a surgical mask. Particle concentrations associated with HFNO with a surgical mask were lower than a nasal cannula with a surgical mask but higher than BiPAP.

CONCLUSIONS

Particle dispersion associated with the use of BiPAP and HFNO with a surgical mask is lower than nasal cannula oxygen with a surgical mask. These findings may assist air medical organizations with operational decisions where little data exist about respiratory particle dispersion.

摘要

目的

目前尚不清楚在增压式医疗机舱中,补充氧气和无创通气呼吸支持设备是否会增加潜在传染性生物气溶胶的扩散。本研究在飞行过程中定量比较了医疗机舱中不同呼吸支持方式下的颗粒扩散情况。

方法

在固定翼医疗救护机飞行过程中,使用呼吸模拟假人从下呼吸道呼出雾化生理盐水,对以下呼吸支持方式的颗粒扩散情况进行了测量:带外科口罩的鼻导管、带外科口罩的高流量鼻氧(HFNO)和双水平气道正压通气(BiPAP)。

结果

带外科口罩的鼻导管吸氧与最高的颗粒浓度相关。在没有口罩密封泄漏的情况下,与带外科口罩的鼻导管相比,BiPAP 与颗粒浓度降低了一个数量级。带外科口罩的 HFNO 的颗粒浓度低于带外科口罩的鼻导管,但高于 BiPAP。

结论

与带外科口罩的鼻导管吸氧相比,带外科口罩的 BiPAP 和 HFNO 的颗粒扩散与使用相关。这些发现可能有助于在有关呼吸颗粒扩散的资料很少的情况下,为空中医疗组织做出决策提供参考。

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