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I've seen this picture multiple times on social media. Every time I see it, it has numbers that vary wildly, and usually with no source.

Examples:

With the following infographic, what are the correct numbers that represent the infection rate? They do not have to be absolute numbers, and can be expressed in per unit terms.

Image showing contagion rates based on who is wearing mask

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It's not clear what that figure is based on, but there is one paper which gives the "70%" number in its abstract, but as:

The use of efficacious face-masks (such as surgical masks, with estimated efficacy >= 70%) in public could lead to the elimination of the pandemic if at least 70% of the residents of New York state use such masks in public consistently (nationwide, a compliance of at least 80% will be required using such masks). The use of low efficacy masks, such as cloth masks (of estimated efficacy less than 30%), could also lead to significant reduction of COVID-19 burden (albeit, they are not able to lead to elimination)

And from the body of the paper, some supporting data, but note that it's not Covid-19 specific:

We estimated the efficacy of face-masks based on the results of a number of clinical trials. For instance, data from Driessche et al. [53] shows that surgical masks reduced P. aeruginosa infected aerosols produced by coughing by over 80% in cystic fibrosis patients. A similar study by Stockwell et al. [54] shows that surgical masks reduced colony-forming unit (CFU) count by over 90% (these two studies in [53], [54] show that the N95 masks (respirators) were more effective). Similarly, van der Sande et al. [55] show that home-made tea-cloth masks had an inward efficiency between 58% and 77% over a 3-hour duration of wear, while inward efficiency ranged 72%–85% and 98%–99% for surgical and N95-equivalent masks. Consequently, following Eikenberry et al. [52], we estimate inward mask efficacy to range widely between 20%–80% for cloth masks, and at least 50% for well-made, tightly fitting masks made of optimal materials, and 70%–90% for surgical masks, and over 95% typical for p in the range of properly worn N95 masks.


There are some more recent papers on mask efficiency in common respiratory viruses, but e.g. Cowling et al. (2020) the one below presents its data as P-values for a Tobit regression. I don't know how to convert this to an efficacy % number. (Also "coronavirus" refer to common-cold coronaviruses in the quote.)

enter image description here

a–c, Virus copies per sample collected in nasal swab (red), throat swab (blue) and respiratory droplets collected for 30min while not wearing (dark green) or wearing (light green) a surgical face mask, and aerosols collected for 30min while not wearing (brown) or wearing (orange) a face mask, collected from individuals with acute respiratory symptoms who were positive for coronavirus (a), influenza virus (b) and rhinovirus (c), as determined by RT–PCR in any samples. P values for mask intervention as predictor of log10 virus copies per sample in an unadjusted univariate Tobit regression model which allowed for censoring at the lower limit of detection of the RT–PCR assay are shown, with significant differences in bold. For nasal swabs and throat swabs, all infected individuals were included (coronavirus, n=17; influenza virus, n=43; rhinovirus, n=54). For respiratory droplets and aerosols, numbers of infected individuals who provided exhaled breath samples while not wearing or wearing a surgical face mask, respectively were: coronavirus (n=10 and 11), influenza virus (n=23 and 28) and rhinovirus (n=36 and 32). A subset of participants provided exhaled breath samples for both mask interventions (coronavirus, n=4; influenza virus, n=8; rhinovirus, n=14). The box plots indicate the median with the interquartile range (lower and upper hinge) and ±1.5×interquartile range from the first and third quartile (lower and upper whiskers).

I should add that there's a more recent (alas just theoretical study that highlights the duality between mask efficiency and adherence to mask use, in relation to the reduction in R0 (this is more relevant to the highlighted claim from the "duplicate" question "If everybody is wearing masks you eliminate the risk of spread of Covid-19 by 98.5 per cent":

enter image description here

A conservative assessment applied to the COVID-19 estimated R0 of 2.4 (7) might posit 50% mask usage and a 50% mask efficacy level, reducing R0 to 1.35, an order of magnitude impact rendering spread comparable to the reproduction number of seasonal influenza. To put this in perspective, 100 cases at the start of a month becomes 31,280 cases by the month’s end (R0 = 2.4) vs. only 584 cases (R0 = 1.35). Such a slowdown in case-load protects healthcare capacity and renders a local epidemic amenable to contact tracing interventions that can eliminate the spread entirely.

A full range of efficacy e and adherence pm is shown with the resulting R0 in Figure 1, illustrating regimes in which growth is halted entirely (R0 < 1) as well as pessimistic regimes (e.g. due to poor implementation or population compliance) that nonetheless result in a beneficial effect in suppressing the exponential growth of the pandemic.

But this study/review does mention a similar one (besides some cross-country studies, which I'm omitting here; for those see a related q):

Yan et al (90) provide an additional example of an incremental impact assessment of respiratory protective devices using an augmented variant of a traditional SIR model in the context of influenza with N95 respirators. They showed that a sufficiently high adherence rate (~ 80% of the population) resulted in the elimination of the outbreak with most respiratory protective devices.

  • J Yan, S Guha, P Hariharan, M Myers, Modeling the Effectiveness of Respiratory Protective Devices in Reducing Influenza Outbreak. Risk Analysis 39, 647–661 (2019).

A relevant graph from this latter (Yan et al.) study, which is also theoretical as far as the epidemiology goes, but uses actual filtration figures for the various kinds of respirators/masks, and actual breathing rate volumes (per person per day), so a bit more concrete in that sense. Also, Yan et al. don't assume an inherent R0, but use pathogen size as input for their modified SIR model, in that study the influenza virus size. (The influenza A virus is actually somewhat smaller than the coronaviruses. The rhinovirus is even smaller still. You can see from the Cowling et al. paper that this virus-size difference does seem to make a difference when it comes to passing though masks, experimentally.) On top of that

The probability p of infection by an inhaled pathogen was taken to be 0.052 (Li, Eisenberg, Spicknall, & Koopman, 2009; Stilianakis & Drossinos, 2010) for both adults and children.

enter image description here

Fig. 1. Infection prevalence for (a) adult fit-tested respirators, (b) unfitted adult respirators, (c) high-filtration surgical masks, and (d) low-filtration surgical masks. Compliance rates are: 0% (curve with highest peak), 20% (second highest peak), 50% (third highest peak), and 80% (lowest peak).

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We don't know exact numbers. As of July 17, 2020, international public health agencies have published no data regarding percentage reduction of transmission rates for Sars-COV-2 when masks are employed.

Professor Benjamin John Cowling, head of Division of Epidemiology and Biostatistics at the University of Hong Kong, said there is no evidence to support the statistics cited in the graphic.

“Masks are effective, but I think those numbers [in the graphic] overestimate the effectiveness of masks,” he told AFP by email on July 16, 2020.

Regardless of whether the wearer has been infected with COVID-19 or other communicable diseases, surgical masks can reduce but not eliminate “virus-laden particles” passing through the mask into a person’s lungs or into the environment, Professor Cowling added. “Some masks are better than others, and some particle sizes can be filtered more effectively than others."

Note that, while the graphic in the AFP article is not the same graphic as in the question here, it does display the same claimed percentage reductions.

["Misleading Graphic"]

Facemask's effectiveness - "Misleading graphic"

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  • Do you know what is the distance for this percentages? As I see it from the graphic, seems like the women are close to each other, say 1m? – I likeThatMeow Jul 30 at 15:56
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    @América - Nobody seems to know anything about how these percentages were derived. Not the distances, not exposure times, nothing. There's little or no evidence that they're not a pure fabrication, which is the main point of this answer (and the linked AFP Fact Check article). – Dave Sherohman Jul 31 at 8:00
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WTHR did a fact check on this image in May 2020:

“CDC can’t confirm the accuracy of the numbers reflected in this image,” they said in a statement. “Currently we are not finding any data that can quantify risk reduction from the use of masks”

The claim simply does not make sense. One cannot assign a single number to probability to spread; it depends on lots of different factors.

They also concluded that even though the numbers aren't accurate, the idea behind them was.

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A meta analysis published in May 2020, Nonpharmaceutical Measures for Pandemic Influenza in Nonhealthcare Settings—Personal Protective and Environmental Measures (DOI 10.3201/eid2605.190994) examined the effectiveness of face masks controlling influenza pandemic by University of Hong.

It found no evidence to support wearing faces masks affected influenza transmission.

Although mechanistic studies support the potential effect of hand hygiene or face masks, evidence from 14 randomized controlled trials of these measures did not support a substantial effect on transmission of laboratory-confirmed influenza.

It did state N95 mask, when properly fit-test, could be effective, but was not examined. Fit-testing and expense as well as limited supply suggests that this option is only for those most at risk and health-care workers.

We did not consider the use of respirators in the community. Respirators are tight-fitting masks that can protect the wearer from fine particles (37) and should provide better protection against influenza virus exposures when properly worn because of higher filtration efficiency. However, respirators, such as N95 and P2 masks, work best when they are fit-tested, and these masks will be in limited supply during the next pandemic. These specialist devices should be reserved for use in healthcare settings or in special subpopulations such as immunocompromised persons in the community, first responders, and those performing other critical community functions, as supplies permit.

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    The paper that you link investigates the effect of face masks on influenza pandemics. Can you expand your answer to explain why these resuls apply to the SARS-CoV-2 pandemic as well? – Schmuddi Sep 24 at 11:44
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    That paper notes about the sources that "Most studies were underpowered because of limited sample size", so it may be more absence of evidence than evidence of absence. Also notably it shares the corresponding author with a contemporary study of mask effectiveness: Nature Medicine, "Respiratory virus shedding in exhaled breath and efficacy of face masks" (nature.com/articles/s41591-020-0843-2) which did find them effective (cont) – Tom Goodfellow Sep 24 at 22:48
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    (the abstract) "We identified seasonal human coronaviruses, influenza viruses and rhinoviruses in exhaled breath and coughs of children and adults with acute respiratory illness. Surgical face masks significantly reduced detection of influenza virus RNA in respiratory droplets and coronavirus RNA in aerosols, with a trend toward reduced detection of coronavirus RNA in respiratory droplets. Our results indicate that surgical face masks could prevent transmission of human coronaviruses and influenza viruses from symptomatic individuals." – Tom Goodfellow Sep 24 at 22:48

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