传染性呼吸道感染的传播与口罩

Transmission of communicable respiratory infections and facemasks.

机构信息

Institute of Textiles and Clothing.

出版信息

J Multidiscip Healthc. 2008 May 1;1:17-27. doi: 10.2147/jmdh.s3019.

DOI:10.2147/jmdh.s3019

PMID:21197329

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3004550/

Abstract

BACKGROUND

Respiratory protection efficiency of facemasks is critically important in the battle against communicable respiratory infections such as influenza and severe acute respiratory syndrome (SARS). We studied the spatial distributions of simulated virus-laden respiratory droplets when human subjects wore facemasks and were exposed to regulatory viral droplets by conducting in vivo experiments in facemask use.

METHODS

Transmission pathway of aerosols of Fluorescein-KCl solution through facemasks and protective efficiency of facemasks were examined by using normal surgical facemasks and two facemasks with exhaust valves (Facemask A) and exhaust holes (Facemask B) covered with the same surgical filters situated at the back of the facemasks. Fluorescein-KCl solution was sprayed onto the faces of participants wearing the facemasks and performing intermittent exercises on a treadmill in a climatic chamber.

RESULTS

Experimental results showed that when droplets spread onto a person face-to-face over short distances, 92.3% to 99.5% of droplets were blocked by the front surface of the facemask, whereas only 0.5% to 7.7% of droplets reached the back of the facemask. Both facemasks A and B had near or over 99% protection efficiency, compared with that of 95.5% to 97% of surgical facemasks. Using the same filters as normal surgical masks, facemasks A and B provided more effective respiratory protection against communicable respiratory infections such as influenza and SARS by the location of the breathing pathway to the back of the facemasks.

CONCLUSIONS

Separating the breathing pathway from the virus-contaminated area in facemasks can provide more effective protection against communicable respiratory infections such as influenza and SARS.

摘要

背景

在对抗流感和严重急性呼吸综合征（SARS）等传染性呼吸道感染时，口罩的呼吸防护效率至关重要。我们通过在口罩使用中的体内实验，研究了人体佩戴口罩时模拟携带病毒的呼吸道飞沫的空间分布，以及口罩的防护效率。

方法

使用普通外科口罩以及两种带有排气阀（口罩 A）和排气孔（口罩 B）的口罩，后面覆盖相同的外科过滤器，对通过口罩的荧光素钾溶液气溶胶的传播途径和口罩的防护效率进行了检查。将荧光素钾溶液喷到佩戴口罩并在气候室内的跑步机上进行间歇性运动的参与者的面部。

结果

实验结果表明，当飞沫在短距离内面对面扩散时，92.3%至 99.5%的飞沫被口罩的前表面阻挡，而只有 0.5%至 7.7%的飞沫到达口罩的背面。口罩 A 和 B 的保护效率均接近或超过 99%，而普通外科口罩的保护效率为 95.5%至 97%。与普通外科口罩使用相同的过滤器，口罩 A 和 B 通过将呼吸路径设置在口罩背面，为流感和 SARS 等传染性呼吸道感染提供了更有效的呼吸防护。

结论

将口罩的呼吸路径与病毒污染区域分开，可以为流感和 SARS 等传染性呼吸道感染提供更有效的保护。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36a5/3004550/b794d668aeff/jmdh-1-17f1.jpg

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传染性呼吸道感染的传播与口罩

Transmission of communicable respiratory infections and facemasks.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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