by Dennis Behreandt, The New American:
The Centers for Disease Control continues to take pains to remind Americans to wear their masks when they are out in public.
A missive from CDC that encouraged COVID safety during the Labor Day holiday says: “Do your part to help slow the spread of COVID-19 this Labor Day weekend. If you go to a park, beach, event or gathering, be sure to” do several things, including: “Wear a mask to protect yourself and others.”
On its website, the CDC offers guidance on mask selection. Masks should “have two or more layers of washable, breathable fabric,” they proclaim.
Such a mask, the CDC suggests, will filter the SARS-CoV-2 virus, which causes COVID-19, from the air we breath.
The size of the virus based on electron micrographs show that the virus varies from 60 to 140 nanometers in diameter (.06 to .14 microns). N95 filters provide filtration down to .3 microns. On this basis alone, they should not be relied on for protection from small virus particles such as those of SARS-CoV-2.
Still, the mainstream media and the the organs of the state insist that even mere cloth masks work for protection from the COVID virus, suggesting that the much better N95 must be nearly foolproof. USA Today published a “Fact Check” that insists that N95 filters work effectively for COVID 19 regardless of the fact that virus particles are small enough to pass through.
“The COVID-19 particle is indeed around 0.1 microns in size, but it is always bonded to something larger,” USA Today says.
According to the paper, “The virus attaches to water droplets or aerosols (i.e. really small droplets) that are generated by breathing, talking, coughing, etc. These consist of water, mucus protein and other biological material and are all larger than 1 micron.”
These are caught up by the mask. “Breathing and talking generate particles around 1 micron in size, which will be collected by N95 respirator filters with very high efficiency,” Lisa Brosseau, a retired professor of environmental and occupational health sciences, told the paper.
Moreover, the paper insists, .3 micron limit on filtration from N95 masks is meaningless, because such masks actually filter even smaller particles. And, they filter the even smaller particles better than they filter out the large particles.
“The N95 filter indeed is physically around the 0.3 micron size,” USA Today continues. But that doesn’t mean it can only stop particles larger than that. The masks are actually best for particles either larger or smaller than that 0.3 micron threshold.”
How does this official narrative on N95 masks hold up to scientific findings on the matter?
A team of researchers affiliated with the Center for Health-Related Aerosol Studies, Department of Environmental Health, at the University of Cincinnati looked into this matter in a study published in the American Journal of Infection Control in 2006.
Here is the abstract of their paper, in total:
Background: Respiratory protection devices are used to protect the wearers from inhaling particles suspended in the air. Filtering face piece respirators are usually tested utilizing nonbiologic particles, whereas their use often aims at reducing exposure to biologic aerosols, including infectious agents such as viruses and bacteria.
Methods: The performance of 2 types of N95 half-mask, filtering face piece respirators and 2 types of surgical masks were determined. The collection efficiency of these respiratory protection devices was investigated using MS2 virus (a nonharmful simulant of several pathogens). The virions were detected in the particle size range of 10 to 80 nm.
Results: The results indicate that the penetration of virions through the National Institute for Occupational Safety and Health (NIOSH)-certified N95 respirators can exceed an expected level of 5%. As anticipated, the tested surgical masks showed a much higher particle penetration because they are known to be less efficient than the N95 respirators. The 2 surgical masks, which originated from the same manufacturer, showed tremendously different penetration levels of the MS2 virions: 20.5% and 84.5%, respectively, at an inhalation flow rate of 85 L/min.
Conclusion: The N95 filtering face piece respirators may not provide the expected protection level against small virions. Some surgical masks may let a significant fraction of airborne viruses penetrate through their filters, providing very low protection against aerosolized infectious agents in the size range of 10 to 80 nm. It should be noted that the surgical masks are primarily designed to protect the environment from the wearer, whereas the respirators are supposed to protect the wearer from the environment.
Worn properly, N95 masks reduce exposure to particulate contamination, but perhaps not to the degree most people believe. Moreover, the “worn properly” proviso must be emphasized. An inexperienced user, or a careless user, can easily negate any benefit of the mask by contaminating themselves with it while removing the mask.
A more recent study published in the Journal of Paediatrics and Child Health further elaborated on the efficacy of masks. “A meta‐analysis of randomised controlled trials of pre‐COVID‐19 showed that surgical masks or N95 respirators reduced clinical respiratory illness in health‐care workers by 41% and influenza‐like illness by 66%: they work but are far from perfect,” this study found. Additionally, the study, published in June 2020, warned about the dangers of improper use of masks.