掩蔽与距离对气溶胶暴露风险的综合影响。

Combined Effects of Masking and Distance on Aerosol Exposure Potential.

机构信息

Division of Engineering, Mayo Clinic, Rochester, MN.

Department of Mechanical Engineering, University of Minnesota, Minneapolis.

出版信息

Mayo Clin Proc. 2021 Jul;96(7):1792-1800. doi: 10.1016/j.mayocp.2021.05.007.

DOI:10.1016/j.mayocp.2021.05.007

PMID:34218858

Abstract

OBJECTIVE

To quantify the efficacy of masking and "social distancing" on the transmission of airborne particles from a phantom aerosol source (simulating an infected individual) to a nearby target (simulating a healthy bystander) in a well-controlled setting.

METHODS

An aerosol was created using monodisperse polystyrene latex beads in place of infectious respiratory secretions. Detection was by aerodynamic particle spectrometry. Both reusable cloth masks and disposable paper masks were studied. Transmission was simulated indoors during a 3-minute interval to eliminate the effect of variable ventilation rate on aerosol exposure. The study commenced on September 16, 2020, and concluded on December 15, 2020.

RESULTS

Compared with a baseline of 1-foot separation with no masks employed, particle count was reduced by 84% at 3 feet of separation and 97% at 6 feet. A modest decrease in particle count was observed when only the receiver was masked. The most substantial exposure reduction occurred when the aerosol source was masked (or both parties were masked). When both the source and target were masked, particle count was reduced by more than 99.5% of baseline, regardless of separation distance or which type of mask was employed.

CONCLUSION

These results support the principle of layered protection to mitigate transmission of SARS-CoV-2, the virus causing COVID-19, and other respiratory viruses and emphasize the importance of controlling the spread of aerosol at its source. The combination of masking and distancing reduced the exposure to exhaled particulates more than any individual measure. Combined measures remain the most effective way to combat the spread of respiratory infection.

摘要

目的

在控制良好的环境中，量化掩蔽和“社交距离”对来自虚拟气溶胶源（模拟感染个体）到附近目标（模拟健康旁观者）的空气传播颗粒的传输的效果。

方法

使用单分散聚苯乙烯乳胶珠代替传染性呼吸道分泌物来产生气溶胶。通过空气动力学颗粒谱仪进行检测。研究了可重复使用的布口罩和一次性纸质口罩。在 3 分钟的间隔内模拟室内传输，以消除可变通风速率对气溶胶暴露的影响。研究于 2020 年 9 月 16 日开始，于 2020 年 12 月 15 日结束。

结果

与不使用口罩的 1 英尺距离的基线相比，在 3 英尺距离时颗粒计数减少了 84%，在 6 英尺距离时减少了 97%。当仅对接收者进行掩蔽时，观察到颗粒计数略有下降。当掩蔽气溶胶源（或双方都掩蔽）时，暴露量的减少最大。当源和目标都被掩蔽时，无论距离或使用哪种口罩，颗粒计数都减少了基线的 99.5%以上。

结论

这些结果支持了分层保护的原则，以减轻 SARS-CoV-2（引起 COVID-19 的病毒）和其他呼吸道病毒的传播，并强调了控制气溶胶在源头传播的重要性。掩蔽和隔离的组合比任何单独的措施都能更有效地减少呼出颗粒的暴露。联合措施仍然是对抗呼吸道感染传播的最有效方法。

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掩蔽与距离对气溶胶暴露风险的综合影响。

Combined Effects of Masking and Distance on Aerosol Exposure Potential.

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出版信息

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METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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