正压通气回路泄漏导致存活病毒气溶胶传播及其通过通风患者头罩减轻的研究。

Viable virus aerosol propagation by positive airway pressure circuit leak and mitigation with a ventilated patient hood.

机构信息

Dept of Physiology, School of Biomedical Sciences and Biomedical Discovery Institute, Monash University, Melbourne, Australia

School of Biological Sciences, Monash University, Clayton, Australia.

出版信息

Eur Respir J. 2021 Jun 24;57(6). doi: 10.1183/13993003.03666-2020. Print 2021 Jun.

DOI:10.1183/13993003.03666-2020

PMID:33303543

Abstract

INTRODUCTION

Nosocomial transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has been a major feature of the COVID-19 pandemic. Evidence suggests patients can auto-emit aerosols containing viable viruses; these aerosols could be further propagated when patients undergo certain treatments, including continuous positive airway pressure (PAP) therapy. Our aim was to assess 1) the degree of viable virus propagated from PAP circuit mask leak and 2) the efficacy of a ventilated plastic canopy to mitigate virus propagation.

METHODS

Bacteriophage phiX174 (10 copies·mL) was nebulised into a custom PAP circuit. Mask leak was systematically varied at the mask interface. Plates containing host quantified viable virus ( plaque forming unit) settling on surfaces around the room. The efficacy of a low-cost ventilated headboard created from a tarpaulin hood and a high-efficiency particulate air (HEPA) filter was tested.

RESULTS

Mask leak was associated with virus contamination in a dose-dependent manner (χ=58.24, df=4, p<0.001). Moderate mask leak (≥21 L·min) was associated with virus counts equivalent to using PAP with a vented mask. The highest frequency of viruses was detected on surfaces <1 m away; however, viable viruses were recorded up to 3.86 m from the source. A plastic hood with HEPA filtration significantly reduced viable viruses on all plates. HEPA exchange rates ≥170 m·h eradicated all evidence of virus contamination.

CONCLUSIONS

Mask leak from PAP may be a major source of environmental contamination and nosocomial spread of infectious respiratory diseases. Subclinical mask leak levels should be treated as an infectious risk. Low-cost patient hoods with HEPA filtration are an effective countermeasure.

摘要

介绍

医院内严重急性呼吸综合征冠状病毒 2（SARS-CoV-2）的传播是 COVID-19 大流行的一个主要特征。有证据表明，患者可以自动排放含有存活病毒的气溶胶；当患者接受某些治疗时，例如持续气道正压通气（PAP）治疗，这些气溶胶可能会进一步传播。我们的目的是评估 1）从 PAP 回路面罩泄漏中传播的活病毒的程度，以及 2）通风塑料罩以减轻病毒传播的效果。

方法

将噬菌体 phiX174（10 个拷贝·mL）雾化到定制的 PAP 回路中。在面罩接口处系统地改变面罩泄漏。含有宿主定量存活病毒（噬菌斑形成单位）的平板沉降在房间周围的表面上。测试了一种由防水布罩和高效空气过滤器（HEPA）制成的低成本通风床头罩的效果。

结果

面罩泄漏与病毒污染呈剂量依赖性（χ=58.24，df=4，p<0.001）。中度面罩泄漏（≥21 L·min）与使用带有通风面罩的 PAP 时相当的病毒计数相关。病毒检测到的最高频率是在距离源<1 m 的表面上；然而，在距离源 3.86 m 的地方仍记录到存活病毒。带有 HEPA 过滤的塑料罩可显著减少所有平板上的存活病毒。HEPA 交换率≥170 m·h 可消除所有病毒污染的证据。

结论

PAP 的面罩泄漏可能是环境污染和传染性呼吸道疾病医院内传播的主要来源。亚临床面罩泄漏水平应被视为感染风险。带有 HEPA 过滤的低成本患者罩是一种有效的对策。

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正压通气回路泄漏导致存活病毒气溶胶传播及其通过通风患者头罩减轻的研究。

Viable virus aerosol propagation by positive airway pressure circuit leak and mitigation with a ventilated patient hood.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

介绍

方法

结果

结论

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