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Widespread facemask use could shrink the 'R' number and prevent a second COVID-19 wave

Date:
June 9, 2020
Source:
University of Cambridge
Summary:
New modelling looks at population-level facemask use. The more people use facemasks in public, the smaller the 'R'. Even basic homemade masks significantly reduce transmission at a population level.
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Population-wide use of facemasks keeps the coronavirus 'reproduction number' under 1.0, and prevents further waves of the virus when combined with lockdowns, a modelling study from the universities of Cambridge and Greenwich suggests.

The research suggests that lockdowns alone will not stop the resurgence of SARS-CoV-2, and that even homemade masks with limited effectiveness can dramatically reduce transmission rates if worn by enough people, regardless of whether they show symptoms.

The researchers call for information campaigns across wealthy and developing nations alike that appeal to our altruistic side: "my facemask protects you, your facemask protects me." The findings are published in the Proceedings of the Royal Society A.

"Our analyses support the immediate and universal adoption of facemasks by the public," said lead author, Dr Richard Stutt, part of a team that usually models the spread of crop diseases at Cambridge's Department of Plant Sciences.

"If widespread facemask use by the public is combined with physical distancing and some lockdown, it may offer an acceptable way of managing the pandemic and re-opening economic activity long before there is a working vaccine."

Dr Renata Retkute, coauthor and Cambridge team member, said: "The UK government can help by issuing clear instructions on how to make and safely use homemade masks."

"We have little to lose from the widespread adoption of facemasks, but the gains could be significant."

The new coronavirus is transmitted through airborne droplets loaded with SARS-CoV-2 particles that get exhaled by infectious people, particularly when talking, coughing or sneezing.

For the latest study, Cambridge researchers worked to link the dynamics of spread between individuals with population-level models, to assess different scenarios of facemask adoption combined with periods of lockdown.

The modelling included stages of infection and transmission via surfaces as well as air. Researchers also considered negative aspects of mask use, such as increased face touching.

The reproduction or 'R' number -- the number of people an infected individual passes the virus onto -- needs to stay below 1.0 for the pandemic to slow.

The study found that if people wear masks whenever they are in public it is twice as effective at reducing 'R' than if masks are only worn after symptoms appear.

In all modelling scenarios, routine facemask use by 50% or more of the population reduced COVID-19 spread to an R less than 1.0, flattening future disease waves and allowing less-stringent lockdowns.

Viral spread reduced further as more people adopted masks when in public. 100% mask adoption combined with on/off lockdowns prevented any further disease resurgence for the 18 months required for a possible vaccine.

The models suggest that -- while the sooner the better -- a policy of total facemask adoption can still prevent a second wave even if it isn't instigated until 120 days after an epidemic begins (defined as the first 100 cases).

The team investigated the varying effectiveness of facemasks. Previous research shows that even homemade masks made from cotton t-shirts or dishcloths can prove 90% effective at preventing transmission.

The study suggests that an entire population wearing masks of just 75% effectiveness can bring a very high 'R' number of 4.0 -- the UK was close to this before lockdown -- all the way down to under 1.0, even without aid of lockdowns.

In fact, masks that only capture a mere 50% of exhaled droplets would still provide a "population-level benefit," even if they quadrupled the wearer's own contamination risk through frequent face touching and mask adjustment (a highly unlikely scenario).

The researchers point out that crude homemade masks primarily reduce disease spread by catching the wearer's own virus particles, breathed directly into fabric, whereas inhaled air is often sucked in around the exposed sides of the mask.

"There is a common perception that wearing a facemask means you consider others a danger," said Professor John Colvin, coauthor from the University of Greenwich. "In fact, by wearing a mask you are primarily protecting others from yourself."

"Cultural and even political issues may stop people wearing facemasks, so the message needs to be clear: my mask protects you, your mask protects me."

"In the UK, the approach to facemasks should go further than just public transport. The most effective way to restart daily life is to encourage everyone to wear some kind of mask whenever they are in public," Colvin said.

Prof Chris Gilligan, coauthor from Cambridge's Epidemiology and Modelling Group in the Department of Plant Sciences, added: "These messages will be vital if the disease takes hold in the developing world, where large numbers of people are resource poor, but homemade masks are a cheap and effective technology."


Story Source:

Materials provided by University of Cambridge. The original story is licensed under a Creative Commons License. Note: Content may be edited for style and length.


Journal Reference:

  1. Richard O. J. H. Stutt, Renata Retkute, Michael Bradley, Christopher A. Gilligan, John Colvin. A modelling framework to assess the likely effectiveness of facemasks in combination with ‘lock-down’ in managing the COVID-19 pandemic. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2020; 476 (2238): 20200376 DOI: 10.1098/rspa.2020.0376

Cite This Page:

University of Cambridge. "Widespread facemask use could shrink the 'R' number and prevent a second COVID-19 wave." ScienceDaily. ScienceDaily, 9 June 2020. <www.sciencedaily.com/releases/2020/06/200609190727.htm>.
University of Cambridge. (2020, June 9). Widespread facemask use could shrink the 'R' number and prevent a second COVID-19 wave. ScienceDaily. Retrieved December 15, 2024 from www.sciencedaily.com/releases/2020/06/200609190727.htm
University of Cambridge. "Widespread facemask use could shrink the 'R' number and prevent a second COVID-19 wave." ScienceDaily. www.sciencedaily.com/releases/2020/06/200609190727.htm (accessed December 15, 2024).

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