Free Republic
Browse · Search
News/Activism
Topics · Post Article

Skip to comments.

The Science is Conclusive: Masks and Respirators do NOT Prevent Transmission of Viruses
Research.net ^ | 4/20/2020 | Dr. Denis G Rancourt, PhD

Posted on 07/16/2020 6:44:34 PM PDT by Triple

Comment: The following review of the scientific literature on wearing surgical and other facemasks as a means of preventing the transmission of SARS-CoV-2 and thus preventing contraction of 'Covid-19' was published a month ago. And absent some miraculous suspension of decades of hard science on the transmission of viruses, it's settled...

face mask Abstract

Masks and respirators do not work. There have been extensive randomized controlled trial (RCT) studies, and meta-analysis reviews of RCT studies, which all show that masks and respirators do not work to prevent respiratory influenza-like illnesses, or respiratory illnesses believed to be transmitted by droplets and aerosol particles.

Furthermore, the relevant known physics and biology, which I review, are such that masks and respirators should not work. It would be a paradox if masks and respirators worked, given what we know about viral respiratory diseases: The main transmission path is long-residence-time aerosol particles (< 2.5 μm), which are too fine to be blocked, and the minimum-infective-dose is smaller than one aerosol particle.

The present paper about masks illustrates the degree to which governments, the mainstream media, and institutional propagandists can decide to operate in a science vacuum, or select only incomplete science that serves their interests. Such recklessness is also certainly the case with the current global lockdown of over 1 billion people, an unprecedented experiment in medical and political history.

Review of the Medical Literature

Here are key anchor points to the extensive scientific literature that establishes that wearing surgical masks and respirators (e.g., "N95") does not reduce the risk of contracting a verified illness: Jacobs, J. L. et al. (2009) "Use of surgical face masks to reduce the incidence of the common cold among health care workers in Japan: A randomized controlled trial", American Journal of Infection Control, Volume 37, Issue 5, 417 - 419. N95-masked health-care workers (HCW) were significantly more likely to experience headaches. Face mask use in HCW was not demonstrated to provide benefit in terms of cold symptoms or getting colds. Cowling, B. et al. (2010) "Face masks to prevent transmission of influenza virus: A systematic review", Epidemiology and Infection, 138(4), 449-456. doi:10.1017/S0950268809991658 None of the studies reviewed showed a benefit from wearing a mask, in either HCW or community members in households (H). See summary Tables 1 and 2 therein. bin-Reza et al. (2012) "The use of masks and respirators to prevent transmission of influenza: a systematic review of the scientific evidence", Influenza and Other Respiratory Viruses 6(4), 257-267. "There were 17 eligible studies. [...] None of the studies established a conclusive relationship between mask ⁄ respirator use and protection against influenza infection." Smith, J.D. et al. (2016) "Effectiveness of N95 respirators versus surgical masks in protecting health care workers from acute respiratory infection: a systematic review and meta-analysis", CMAJ Mar 2016, cmaj.150835; DOI: 10.1503/cmaj.150835 "We identified 6 clinical studies ... In the meta-analysis of the clinical studies, we found no significant difference between N95 respirators and surgical masks in associated risk of (a) laboratory-confirmed respiratory infection, (b) influenza-like illness, or (c) reported work-place absenteeism." Offeddu, V. et al. (2017) "Effectiveness of Masks and Respirators Against Respiratory Infections in Healthcare Workers: A Systematic Review and Meta-Analysis", Clinical Infectious Diseases, Volume 65, Issue 11, 1 December 2017, Pages 1934-1942, https://doi.org/10.1093/cid/cix681 "Self-reported assessment of clinical outcomes was prone to bias. Evidence of a protective effect of masks or respirators against verified respiratory infection (VRI) was not statistically significant"; as per Fig. 2c therein: masks studies viruses

Clinical Infectious Diseases, Volume 65, Issue 11, 1 December 2017, Pages 1934–1942, https://doi.org/10.1093/cid/cix681 Radonovich, L.J. et al. (2019) "N95 Respirators vs Medical Masks for Preventing Influenza Among Health Care Personnel: A Randomized Clinical Trial", JAMA. 2019; 322(9): 824-833. doi:10.1001/jama.2019.11645 "Among 2862 randomized participants, 2371 completed the study and accounted for 5180 HCW-seasons. ... Among outpatient health care personnel, N95 respirators vs medical masks as worn by participants in this trial resulted in no significant difference in the incidence of laboratory-confirmed influenza." Long, Y. et al. (2020) "Effectiveness of N95 respirators versus surgical masks against influenza: A systematic review and meta-analysis", J Evid Based Med. 2020; 1- 9. https://doi.org/10.1111/jebm.12381 "A total of six RCTs involving 9 171 participants were included. There were no statistically significant differences in preventing laboratory-confirmed influenza, laboratory-confirmed respiratory viral infections, laboratory-confirmed respiratory infection and influenza-like illness using N95 respirators and surgical masks. Meta-analysis indicated a protective effect of N95 respirators against laboratory-confirmed bacterial colonization (RR = 0.58, 95% CI 0.43-0.78). The use of N95 respirators compared with surgical masks is not associated with a lower risk of laboratory-confirmed influenza." Conclusion regarding masks that do not work

No RCT study with verified outcome shows a benefit for HCW or community members in households to wearing a mask or respirator. There is no such study. There are no exceptions. Likewise, no study exists that shows a benefit from a broad policy to wear masks in public (more on this below).

Furthermore, if there were any benefit to wearing a mask, because of the blocking power against droplets and aerosol particles, then there should be more benefit from wearing a respirator (N95) compared to a surgical mask, yet several large meta-analyses, and all the RCT, prove that there is no such relative benefit. Masks and respirators do not work.

Precautionary Principle turned on its head with masks

In light of the medical research, therefore, it is difficult to understand why public-health authorities are not consistently adamant about this established scientific result, since the distributed psychological, economic and environmental harm from a broad recommendation to wear masks is significant, not to mention the unknown potential harm from concentration and distribution of pathogens on and from used masks.

In this case, public authorities would be turning the precautionary principle on its head (see below).

Physics and Biology of Viral Respiratory Disease, and why masks do not work

In order to understand why masks cannot possibly work, we must review established knowledge about viral respiratory diseases, the mechanism of seasonal variation of excess deaths from pneumonia and influenza, the aerosol mechanism of infectious disease transmission, the physics and chemistry of aerosols, and the mechanism of the so-called minimum-infective-dose.

In addition to pandemics that can occur anytime, in the temperate latitudes there is an extra burden of respiratory-disease mortality that is seasonal, and which is caused by viruses. For example, see the review of influenza by Paules and Subbarao (2017). This has been known for a long time, and the seasonal pattern is exceedingly regular.

For example, see Figure 1 of Viboud (2010), which has "Weekly time series of the ratio of deaths from pneumonia and influenza to all deaths, based on the 122 cities surveillance in the US (blue line). The red line represents the expected baseline ratio in the absence of influenza activity," here: mortality rate chart The seasonality of the phenomenon was largely not understood until a decade ago. Until recently, it was debated whether the pattern arose primarily because of seasonal change in virulence of the pathogens, or because of seasonal change in susceptibility of the host (such as from dry air causing tissue irritation, or diminished daylight causing vitamin deficiency or hormonal stress). For example, see Dowell (2001).

In a landmark study, Shaman et al. (2010) showed that the seasonal pattern of extra respiratory-disease mortality can be explained quantitatively on the sole basis of absolute humidity, and its direct controlling impact on transmission of airborne pathogens.

Lowen et al. (2007) demonstrated the phenomenon of humidity-dependent airborne-virus virulence in actual disease transmission between guinea pigs, and discussed potential underlying mechanisms for the measured controlling effect of humidity.

The underlying mechanism is that the pathogen-laden aerosol particles or droplets are neutralized within a half-life that monotonically and significantly decreases with increasing ambient humidity. This is based on the seminal work of Harper (1961). Harper experimentally showed that viral-pathogen-carrying droplets were inactivated within shorter and shorter times, as ambient humidity was increased.

Harper argued that the viruses themselves were made inoperative by the humidity ("viable decay"), however, he admitted that the effect could be from humidity-enhanced physical removal or sedimentation of the droplets ("physical loss"): "Aerosol viabilities reported in this paper are based on the ratio of virus titre to radioactive count in suspension and cloud samples, and can be criticized on the ground that test and tracer materials were not physically identical."

The latter ("physical loss") seems more plausible to me, since humidity would have a universal physical effect of causing particle / droplet growth and sedimentation, and all tested viral pathogens have essentially the same humidity-driven "decay". Furthermore, it is difficult to understand how a virion (of all virus types) in a droplet would be molecularly or structurally attacked or damaged by an increase in ambient humidity. A "virion" is the complete, infective form of a virus outside a host cell, with a core of RNA or DNA and a capsid. The actual mechanism of such humidity-driven intra-droplet "viable decay" of a virion has not been explained or studied.

In any case, the explanation and model of Shaman et al. (2010) is not dependant on the particular mechanism of the humidity-driven decay of virions in aerosol / droplets. Shaman's quantitatively demonstrated model of seasonal regional viral epidemiology is valid for either mechanism (or combination of mechanisms), whether "viable decay" or "physical loss".

The breakthrough achieved by Shaman et al. is not merely some academic point. Rather, it has profound health-policy implications, which have been entirely ignored or overlooked in the current coronavirus pandemic.

In particular, Shaman's work necessarily implies that, rather than being a fixed number (dependent solely on the spatial-temporal structure of social interactions in a completely susceptible population, and on the viral strain), the epidemic's basic reproduction number (R0) is highly or predominantly dependent on ambient absolute humidity.

For a definition of R0, see HealthKnowlege-UK (2020): R0 is "the average number of secondary infections produced by a typical case of an infection in a population where everyone is susceptible." The average R0 for influenza is said to be 1.28 (1.19-1.37); see the comprehensive review by Biggerstaff et al. (2014).

In fact, Shaman et al. showed that R0 must be understood to seasonally vary between humid-summer values of just larger than "1" and dry-winter values typically as large as "4" (for example, see their Table 2). In other words, the seasonal infectious viral respiratory diseases that plague temperate latitudes every year go from being intrinsically mildly contagious to virulently contagious, due simply to the bio-physical mode of transmission controlled by atmospheric humidity, irrespective of any other consideration.

Therefore, all the epidemiological mathematical modelling of the benefits of mediating policies (such as social distancing), which assumes humidity-independent R0 values, has a large likelihood of being of little value, on this basis alone. For studies about modelling and regarding mediation effects on the effective reproduction number, see Coburn (2009) and Tracht (2010).

To put it simply, the "second wave" of an epidemic is not a consequence of human sin regarding mask wearing and hand shaking. Rather, the "second wave" is an inescapable consequence of an air-dryness-driven many-fold increase in disease contagiousness, in a population that has not yet attained immunity.

If my view of the mechanism is correct (i.e., "physical loss"), then Shaman's work further necessarily implies that the dryness-driven high transmissibility (large R0) arises from small aerosol particles fluidly suspended in the air; as opposed to large droplets that are quickly gravitationally removed from the air.

Such small aerosol particles fluidly suspended in air, of biological origin, are of every variety and are everywhere, including down to virion-sizes (Despres, 2012). It is not entirely unlikely that viruses can thereby be physically transported over inter-continental distances (e.g., Hammond, 1989).

More to the point, indoor airborne virus concentrations have been shown to exist (in day-care facilities, health centres, and onboard airplanes) primarily as aerosol particles of diameters smaller than 2.5 μm, such as in the work of Yang et al. (2011): "Half of the 16 samples were positive, and their total virus concentrations ranged from 5800 to 37 000 genome copies m−3. On average, 64 per cent of the viral genome copies were associated with fine particles smaller than 2.5 µm, which can remain suspended for hours. Modelling of virus concentrations indoors suggested a source strength of 1.6 ± 1.2 × 105 genome copies m−3 air h−1 and a deposition flux onto surfaces of 13 ± 7 genome copies m−2 h−1 by Brownian motion. Over 1 hour, the inhalation dose was estimated to be 30 ± 18 median tissue culture infectious dose (TCID50), adequate to induce infection. These results provide quantitative support for the idea that the aerosol route could be an important mode of influenza transmission." Such small particles (< 2.5 μm) are part of air fluidity, are not subject to gravitational sedimentation, and would not be stopped by long-range inertial impact. This means that the slightest (even momentary) facial misfit of a mask or respirator renders the design filtration norm of the mask or respirator entirely irrelevant. In any case, the filtration material itself of N95 (average pore size ~0.3−0.5 μm) does not block virion penetration, not to mention surgical masks. For example, see Balazy et al. (2006).

Mask stoppage efficiency and host inhalation are only half of the equation, however, because the minimal infective dose (MID) must also be considered. For example, if a large number of pathogen-laden particles must be delivered to the lung within a certain time for the illness to take hold, then partial blocking by any mask or cloth can be enough to make a significant difference.

On the other hand, if the MID is amply surpassed by the virions carried in a single aerosol particle able to evade mask-capture, then the mask is of no practical utility, which is the case.

Yezli and Otter (2011), in their review of the MID, point out relevant features: most respiratory viruses are as infective in humans as in tissue culture having optimal laboratory susceptibility it is believed that a single virion can be enough to induce illness in the host the 50%-probability MID ("TCID50") has variably been found to be in the range 100−1000 virions there are typically 103−107 virions per aerolized influenza droplet with diameter 1 μm − 10 μm the 50%-probability MID easily fits into a single (one) aerolized droplet For further background: A classic description of dose-response assessment is provided by Haas (1993). Zwart et al. (2009) provided the first laboratory proof, in a virus-insect system, that the action of a single virion can be sufficient to cause disease. Baccam et al. (2006) calculated from empirical data that, with influenza A in humans, "we estimate that after a delay of ~6 h, infected cells begin producing influenza virus and continue to do so for ~5 h. The average lifetime of infected cells is ~11 h, and the half-life of free infectious virus is ~3 h. We calculated the [in-body] basic reproductive number, R0, which indicated that a single infected cell could produce ~22 new productive infections." Brooke et al. (2013) showed that, contrary to prior modeling assumptions, although not all influenza-A-infected cells in the human body produce infectious progeny (virions), nonetheless, 90% of infected cell are significantly impacted, rather than simply surviving unharmed. All of this to say that: if anything gets through (and it always does, irrespective of the mask), then you are going to be infected. Masks cannot possibly work. It is not surprising, therefore, that no bias-free study has ever found a benefit from wearing a mask or respirator in this application.

Therefore, the studies that show partial stopping power of masks, or that show that masks can capture many large droplets produced by a sneezing or coughing mask-wearer, in light of the above-described features of the problem, are irrelevant. For example, see such studies as these: Leung (2020), Davies (2013), Lai (2012), and Sande (2008).

Why there can never be an empirical test of a nationwide mask-wearing policy

As mentioned above, no study exists that shows a benefit from a broad policy to wear masks in public. There is good reason for this. It would be impossible to obtain unambiguous and bias-free results: Any benefit from mask-wearing would have to be a small effect, since undetected in controlled experiments, which would be swamped by the larger effects, notably the large effect from changing atmospheric humidity. Mask compliance and mask adjustment habits would be unknown. Mask-wearing is associated (correlated) with several other health behaviours; see Wada (2012). The results would not be transferable, because of differing cultural habits. Compliance is achieved by fear, and individuals can habituate to fear-based propaganda, and can have disparate basic responses. Monitoring and compliance measurement are near-impossible, and subject to large errors. Self-reporting (such as in surveys) is notoriously biased, because individuals have the self-interested belief that their efforts are useful. Progression of the epidemic is not verified with reliable tests on large population samples, and generally relies on non-representative hospital visits or admissions. Several different pathogens (viruses and strains of viruses) causing respiratory illness generally act together, in the same population and/or in individuals, and are not resolved, while having different epidemiological characteristics. Unknown aspects of mask-wearing

Many potential harms may arise from broad public policies to wear masks, and the following unanswered questions arise: Do used and loaded masks become sources of enhanced transmission, for the wearer and others? Do masks become collectors and retainers of pathogens that the mask wearer would otherwise avoid when breathing without a mask? Are large droplets captured by a mask atomized or aerolized into breathable components? Can virions escape an evaporating droplet stuck to a mask fiber? What are the dangers of bacterial growth on a used and loaded mask? How do pathogen-laden droplets interact with environmental dust and aerosols captured on the mask? What are long-term health effects on HCW, such as headaches, arising from impeded breathing? Are there negative social consequences to a masked society? Are there negative psychological consequences to wearing a mask, as a fear-based behavioural modification? What are the environmental consequences of mask manufacturing and disposal? Do the masks shed fibres or substances that are harmful when inhaled? Conclusion

By making mask-wearing recommendations and policies for the general public, or by expressly condoning the practice, governments have both ignored the scientific evidence and done the opposite of following the precautionary principle.

In an absence of knowledge, governments should not make policies that have a hypothetical potential to cause harm. The government has an onus barrier before it instigates a broad social-engineering intervention, or allows corporations to exploit fear-based sentiments.

Furthermore, individuals should know that there is no known benefit arising from wearing a mask in a viral respiratory illness epidemic, and that scientific studies have shown that any benefit must be residually small, compared to other and determinative factors.

Otherwise, what is the point of publicly-funded science?

The present paper about masks illustrates the degree to which governments, the mainstream media, and institutional propagandists can decide to operate in a science vacuum, or select only incomplete science that serves their interests. Such recklessness is also certainly the case with the current global lockdown of over 1 billion people, an unprecedented experiment in medical and political history.

Endnotes Baccam, P. et al. (2006) "Kinetics of Influenza A Virus Infection in Humans", Journal of Virology Jul 2006, 80 (15) 7590-7599; DOI: 10.1128/JVI.01623-05 Balazy et al. (2006) "Do N95 respirators provide 95% protection level against airborne viruses, and how adequate are surgical masks?", American Journal of Infection Control, Volume 34, Issue 2, March 2006, Pages 51-57. doi:10.1016/j.ajic.2005.08.018 Biggerstaff, M. et al. (2014) "Estimates of the reproduction number for seasonal, pandemic, and zoonotic influenza: a systematic review of the literature", BMC Infect Dis 14, 480 (2014). Brooke, C. B. et al. (2013) "Most Influenza A Virions Fail To Express at Least One Essential Viral Protein", Journal of Virology Feb 2013, 87 (6) 3155-3162; DOI: 10.1128/JVI.02284-12 Coburn, B. J. et al. (2009) "Modeling influenza epidemics and pandemics: insights into the future of swine flu (H1N1)", BMC Med 7, 30. Davies, A. et al. (2013) "Testing the Efficacy of Homemade Masks: Would They Protect in an Influenza Pandemic?", Disaster Medicine and Public Health Preparedness, Available on CJO 2013 doi:10.1017/dmp.2013.43 Despres, V. R. et al. (2012) "Primary biological aerosol particles in the atmosphere: a review", Tellus B: Chemical and Physical Meteorology, 64:1, 15598, DOI: 10.3402/tellusb.v64i0.15598 Dowell, S. F. (2001) "Seasonal variation in host susceptibility and cycles of certain infectious diseases", Emerg Infect Dis. 2001;7(3):369-374. doi:10.3201/eid0703.010301 Hammond, G. W. et al. (1989) "Impact of Atmospheric Dispersion and Transport of Viral Aerosols on the Epidemiology of Influenza", Reviews of Infectious Diseases, Volume 11, Issue 3, May 1989, Pages 494-497, Haas, C.N. et al. (1993) "Risk Assessment of Virus in Drinking Water", Risk Analysis, 13: 545-552. doi:10.1111/j.1539-6924.1993.tb00013.x HealthKnowlege-UK (2020) "Charter 1a - Epidemiology: Epidemic theory (effective & basic reproduction numbers, epidemic thresholds) & techniques for analysis of infectious disease data (construction & use of epidemic curves, generation numbers, exceptional reporting & identification of significant clusters)", HealthKnowledge.org.uk, accessed on 2020-04-10. Lai, A. C. K. et al. (2012) "Effectiveness of facemasks to reduce exposure hazards for airborne infections among general populations", J. R. Soc. Interface. 9938-948 Leung, N.H.L. et al. (2020) "Respiratory virus shedding in exhaled breath and efficacy of face masks", Nature Medicine (2020). Lowen, A. C. et al. (2007) "Influenza Virus Transmission Is Dependent on Relative Humidity and Temperature", PLoS Pathog 3(10): e151. Paules, C. and Subbarao, S. (2017) "Influenza", Lancet, Seminar| Volume 390, ISSUE 10095, P697-708, August 12, 2017. Sande, van der, M. et al. (2008) "Professional and Home-Made Face Masks Reduce Exposure to Respiratory Infections among the General Population", PLoS ONE 3(7): e2618. doi:10.1371/journal.pone.0002618 Shaman, J. et al. (2010) "Absolute Humidity and the Seasonal Onset of Influenza in the Continental United States", PLoS Biol 8(2): e1000316. https://doi.org/10.1371/journal.pbio.1000316 Tracht, S. M. et al. (2010) "Mathematical Modeling of the Effectiveness of Facemasks in Reducing the Spread of Novel Influenza A (H1N1)", PLoS ONE 5(2): e9018. doi:10.1371/journal.pone.0009018 Viboud C. et al. (2010) "Preliminary Estimates of Mortality and Years of Life Lost Associated with the 2009 A/H1N1 Pandemic in the US and Comparison with Past Influenza Seasons", PLoS Curr. 2010; 2:RRN1153. Published 2010 Mar 20. doi:10.1371/currents.rrn1153 Wada, K. et al. (2012) "Wearing face masks in public during the influenza season may reflect other positive hygiene practices in Japan", BMC Public Health 12, 1065 (2012). Yang, W. et al. (2011) "Concentrations and size distributions of airborne influenza A viruses measured indoors at a health centre, a day-care centre and on aeroplanes", Journal of the Royal Society, Interface. 2011 Aug;8(61):1176-1184. DOI: 10.1098/rsif.2010.0686. Yezli, S., Otter, J.A. (2011) "Minimum Infective Dose of the Major Human Respiratory and Enteric Viruses Transmitted Through Food and the Environment", Food Environ Virol 3, 1-30. Zwart, M. P. et al. (2009) "An experimental test of the independent action hypothesis in virus-insect pathosystems", Proc. R. Soc. B. 2762233-2242 About the author

Dr. Dennis Rancourt is Ph.D from University of Toronto (1984), and is a former professor of physics at the University of Ottawa.


TOPICS: Crime/Corruption; Culture/Society; Extended News; News/Current Events
KEYWORDS: clickbait; fauci; hoax; liars; masks; notifypotus; sketchywebsite; telltrump
Navigation: use the links below to view more comments.
first previous 1-20 ... 101-120121-140141-160161-173 next last
To: Triple
Here are key anchor points to the extensive scientific literature that establishes that wearing surgical masks and respirators (e.g., "N95") does not reduce the risk of contracting a verified illness: Jacobs, J. L. et al. (2009) "Use of surgical face masks to reduce the incidence of the common cold among health care workers in Japan: A randomized controlled trial", American Journal of Infection Control, Volume 37, Issue 5, 417 - 419.

I should not have read the study. It says "Results: Thirty-two health care workers completed the study, resulting in 2464 subject days. There were 2 colds during this time period, 1 in each group." That's their evidence that masks don't work? One maskless and one masked person out of 32 total had a cold.

Link to study https://pubmed.ncbi.nlm.nih.gov/19216002/

121 posted on 07/17/2020 5:19:08 AM PDT by palmer (Democracy Dies Six Ways from Sunday)
[ Post Reply | Private Reply | To 1 | View Replies]

To: Okeydoker
Yeah, masks don’t work. That’s why nurses and doctors have been wearing them in the hospitals for about the last 75 years. Or is it 100 years?

Doctors and nurses don't wear masks to stop or prevent viral infections -- speaking of morons.

122 posted on 07/17/2020 6:35:10 AM PDT by ElkGroveDan (My tagline is in the shop.)
[ Post Reply | Private Reply | To 14 | View Replies]

To: Outlaw76

How about, “Putting up a chain-link fence to keep mosquitoes away?”


123 posted on 07/17/2020 8:50:06 AM PDT by upchuck (D.Horowitz: America did not invent slavery, America ended it. Preserve the American way of life.)
[ Post Reply | Private Reply | To 88 | View Replies]

To: palmer
That's why I prefer outdoor interaction and don't wear a mask outdoors unless required. But we also need to quantify what a "bunch" is and whether that's the 1000 or more needed to cause an infection.

Outdoors will be much better, as anything aerosolized will disperse much quicker and over a larger area. Compare it to a fart or someone wearing a ton of bad perfume: outdoors you may barely notice it, while inside it hits you for an hour. Even if you're wearing a mask! This website, NE Journal of Medicine, has a study on viral viability. Here's the quick points:

We evaluated the stability of SARS-CoV-2 and SARS-CoV-1 in aerosols and on various surfaces and estimated their decay rates using a Bayesian regression model
...
The inoculum resulted in cycle-threshold values between 20 and 22, similar to those observed in samples obtained from the upper and lower respiratory tract in humans.
...
SARS-CoV-2 remained viable in aerosols throughout the duration of our experiment (3 hours), with a reduction in infectious titer from 10^3.5 to 10^2.7 TCID50 per liter of air.


So I'm reading this as they started with a dosage of aerosols similar to what a person would breathe out, I have no idea on how many breaths worth of sample they did. TCID50 is "50% tissue-culture infectious dose", which sounds like it's a sufficient quantity of viri to cause an infection to start in their culture sample 50% of the time. Their aerosol test only ran for three hours (?), and it went from 3000x the infectious dose, down to 500x the infectious dose. This is PER LITER OF AIR, and for reference, a 10'x10' room with 8' ceilings has 22,000 liters of air. So, those numbers are a lot more dispersed, but also real life will have a lot more breathing (and possibly more people) to add continuing aerosol amounts. I believe they mention it's a logarithmic decrease, so as your number gets smaller, it gets smaller slower (could be days+ to get below the 1x TCID50), but you also have less chance of walking into it. And, I assume this study looked at a closed-air system, so your house/grocery with running HVAC/windows/open doors will likely cause those to get filtered/pushed out somewhat quicker.

We actually just had a REME HALO® air purifier installed (~$750), and there's definitely noticeably cleaner air downstairs. No, this had nothing to do with the ChinaVirus, it was for the wife's excessive allergies. Of which she did not mention before marriage...


If we look at mask efficiency, this study: https://pubmed.ncbi.nlm.nih.gov/32329337/ gives us some decent charts. But, before we glance at that, I'll give you THIS and THIS, which tell us that a good 80-90% of droplets you breathe out, are one micrometer or smaller. (Which is the 10^3nm line in the chart.) (Coughing/Sneezing will have a larger amount of bigger droplets, mostly 2-24μm.) Masks. Here's a chart from the big link;


If we look at the bottom chart, you'll notice that those mask efficiencies drop from ~98% down to 30-40% simply from a lack of seal. Which, NO ONE has, that I've seen. Maybe 2-3 people wearing a full face respirator, but I doubt they had fresh canisters, if they even had it properly sealed.

I'm not sure why they didn't test the N95 gap/no-gap, since that's the main mask CDC recommends (though most people wear surgical-style masks, which can't seal). Unless, the N95 on top is the same as the surgical mask on the bottom, as their graph lines are similar.

So, long story short, there are plenty of infectious doses around, masks will barely help you outside of coughs/sneezes, and the surrounding environment will spread it out much better (good or bad point here). From other stuff I've seen, the most effective removal medium is high humidity, which makes sense.
124 posted on 07/17/2020 9:32:53 AM PDT by Svartalfiar
[ Post Reply | Private Reply | To 116 | View Replies]

To: Drago; Grandpa Drudge
And at least one of the research papers quoted near the bottom says nothing about “masks vs. no mask” but refers to “N95” masks vs. surgical masks. Enough for me to ignore. Buyer beware.

Both of y'all might find my post 124 above to have some useful information.

It didn't get into the mask vs no-mask, unless you count filtration efficiency of 0% to be equivalent to no-mask, which it basically is. BUT, the big thing that applies to most people these days is the gap/no-gap difference. NO ONE wears a properly sealed mask, which drops their filtration efficiency from ~95% down to 30-40%. So yes, masks do help some (basic physics tells us this), but not very much, and likely not enough to prevent infection vs no mask. And the negatives of wearing masks constantly, I think, definitely outweigh the little benefits.

Irrelevant to the medical/physics of it, I personally HATE breathing in warm, damp, exhaled air, I've never even been able to lie face-to-face with a girlfriend for more than a minute. Or wear a mouth/nose-covering face mask for winter weather.
125 posted on 07/17/2020 9:44:03 AM PDT by Svartalfiar
[ Post Reply | Private Reply | To 108 | View Replies]

To: palmer
Sorry, palmer, but I must point out that there are NO scientific facts in your comment. It is all pseudo-science base on speculation and opinion. You are clearly NOT a scientist.

Wonderful cherry pick of data (a favorite pseudo-scientist approach). Below is a link from within the link you proposed:

Most importantly, note from the reported results it this study:

Results: Between September 23, 2008, and December 8, 2008, 478 nurses were assessed for eligibility and 446 nurses were enrolled and randomly assigned the intervention; 225 were allocated to receive surgical masks and 221 to N95 respirators. Influenza infection occurred in 50 nurses (23.6%) in the surgical mask group and in 48 (22.9%) in the N95 respirator group

Let me say that a different way to eliminate any confusion. 23.6% of the nurses who wore surgical masks got infected with influenza anyway, while ONLY 22.9% of those who wore N95 masks got infected.

Neither mask protected from influenza virus. Follow the link and see for yourself.

https://pubmed.ncbi.nlm.nih.gov/19797474/

Surgical mask vs N95 respirator for preventing influenza among health care workers: a randomized trial

Context: Data about the effectiveness of the surgical mask compared with the N95 respirator for protecting health care workers against influenza are sparse. Given the likelihood that N95 respirators will be in short supply during a pandemic and not available in many countries, knowing the effectiveness of the surgical mask is of public health importance.

Objective: To compare the surgical mask with the N95 respirator in protecting health care workers against influenza.

Design, setting, and participants: Noninferiority randomized controlled trial of 446 nurses in emergency departments, medical units, and pediatric units in 8 tertiary care Ontario hospitals.

Intervention: Assignment to either a fit-tested N95 respirator or a surgical mask when providing care to patients with febrile respiratory illness during the 2008-2009 influenza season.

Main outcome measures: The primary outcome was laboratory-confirmed influenza measured by polymerase chain reaction or a 4-fold rise in hemagglutinin titers. Effectiveness of the surgical mask was assessed as noninferiority of the surgical mask compared with the N95 respirator. The criterion for noninferiority was met if the lower limit of the 95% confidence interval (CI) for the reduction in incidence (N95 respirator minus surgical group) was greater than -9%.

Results: Between September 23, 2008, and December 8, 2008, 478 nurses were assessed for eligibility and 446 nurses were enrolled and randomly assigned the intervention; 225 were allocated to receive surgical masks and 221 to N95 respirators. Influenza infection occurred in 50 nurses (23.6%) in the surgical mask group and in 48 (22.9%) in the N95 respirator group (absolute risk difference, -0.73%; 95% CI, -8.8% to 7.3%; P = .86), the lower confidence limit being inside the noninferiority limit of -9%.

Conclusion: Among nurses in Ontario tertiary care hospitals, use of a surgical mask compared with an N95 respirator resulted in noninferior rates of laboratory-confirmed influenza.

126 posted on 07/17/2020 10:15:10 AM PDT by Grandpa Drudge (Just an old man, desperate to preserve our great country for my grandchildren.)
[ Post Reply | Private Reply | To 117 | View Replies]

To: Triple
Interestingly, they removed this guy's article from researchgate.net because it violated their TOS. How did it do that? It posited a theory that was against the scientific consensus.....Did you catch that?....

I'm not sure these people even know what science is anymore.

COVID censorship at ResearchGate: Things scientists cannot say
127 posted on 07/17/2020 10:21:13 AM PDT by Antoninus (The press has lost the ability to persuade. They retain the ability to foment a panic.)
[ Post Reply | Private Reply | To 1 | View Replies]

To: Grandpa Drudge
Let me say that a different way to eliminate any confusion. 23.6% of the nurses who wore surgical masks got infected with influenza anyway, while ONLY 22.9% of those who wore N95 masks got infected.

Those are practically the same percentages. Are you suggesting either type of mask doesn't work because people got infected anyway? This is a study comparing two types of masks, not masks versus no masks.

Furthermore the study only considers masks for uninfected people, not infected people. Masks worn in public are for both.

128 posted on 07/17/2020 10:24:46 AM PDT by palmer (Democracy Dies Six Ways from Sunday)
[ Post Reply | Private Reply | To 126 | View Replies]

To: palmer
You ask "Are you suggesting either type of mask doesn't work because people got infected anyway?"

Of course, that's exactly what I'm saying, and I said it very clearly, highlighted in bold red print. Isn't that obvious?

Your comment "Furthermore the study only considers masks for uninfected people, not infected people. Masks worn in public are for both." is utter nonsense.

The study was to determine whether N95 masks provided better or worse protection from influenza than surgical masks. The results showed that neither mask provided any significant protection. The very high infection rate with both is sufficient to prove ineffectiveness of both.

129 posted on 07/17/2020 11:05:47 AM PDT by Grandpa Drudge (Just an old man, desperate to preserve our great country for my grandchildren.)
[ Post Reply | Private Reply | To 128 | View Replies]

To: Grandpa Drudge
No, it doesn't prove ineffectiveness because wearing masks was not compared with no wearing masks. It is evidence that masks are not perfect, and/or infections can happen other routes than through the mask. We knew that going in.

I'm reading the second paper referenced above, and it points to the study we are discussing, the Jacobs study (insufficient cases to conclude anything), Al-Asmary which I am reading now, and two others: Davies and Hobday. Al-Asmary concludes that masks should be discontinued for the Hajj. But the numbers show a slight edge for mask users, 16% infected versus 22% for non-users. But I believe their conclusion is based in "intermittent" mask users because 34% of them were infected.

The study is here: https://www.sciencedirect.com/science/article/pii/S120197120600124X It's applicable, unlike the one we just discussed, because it compares wearing, intermittent wearing and non-wearing.

130 posted on 07/17/2020 11:23:58 AM PDT by palmer (Democracy Dies Six Ways from Sunday)
[ Post Reply | Private Reply | To 129 | View Replies]

To: Antoninus
That's an important point, Antoninus.

You note: "I'm not sure these people even know what science is anymore."

I think the hard left, big government control political structure is actually dedicated to suppress any facts that are counter to their goals of political dominance. This is just one example of that.

131 posted on 07/17/2020 11:40:30 AM PDT by Grandpa Drudge (Just an old man, desperate to preserve our great country for my grandchildren.)
[ Post Reply | Private Reply | To 127 | View Replies]

To: ElkGroveDan

Yeah you are right. Hospitals and operating rooms are immune from viruses. And people in hospitals with COVID virus don’t really have a virus do they rocket scientist? All these healthcare doctors, nurses and other hospital workers are wearing all this personal protective equipment to protect the patients from any bacteria the workers may have, right?

Don’t bother with a response . You are way to clueless for a discussion.


132 posted on 07/17/2020 11:48:23 AM PDT by Okeydoker
[ Post Reply | Private Reply | To 122 | View Replies]

To: Okeydoker

Read the study above. It beats out your “all doctors and nurses” anecdote with actual facts and data and citations of other studies.


133 posted on 07/17/2020 11:56:02 AM PDT by ElkGroveDan (My tagline is in the shop.)
[ Post Reply | Private Reply | To 132 | View Replies]

To: palmer
Now you're just being tedious. From the conclusion of that study:

Conclusions

The common practice among pilgrims and medical personnel of using surgical facemasks to protect themselves against ARI should be discontinued and regular use of alcohol-based hand scrubs should be more vigorously encouraged. Further research is needed to evaluate the protective value of N95 facemasks against ARI during the Hajj period.

Now I have a suggestion for you: How about you stop ignoring real scientific data and point me to some real scientific (not pseudo-science) data that proves (or even estimates scientifically with test data) mask effectiveness against viruses such as influenza or Covid-19.

Good luck with that. I haven't been able to find any so far, and neither have the researchers I've been referencing in this thread.

134 posted on 07/17/2020 12:02:37 PM PDT by Grandpa Drudge (Just an old man, desperate to preserve our great country for my grandchildren.)
[ Post Reply | Private Reply | To 130 | View Replies]

To: Svartalfiar

Yep, Gov. Gavin Newsome (CA) wears his mask wrong all the time (big gap...1/4” over the nose area). Political theater, you know the mask comes off once the cameras are gone.


135 posted on 07/17/2020 3:04:27 PM PDT by Drago
[ Post Reply | Private Reply | To 125 | View Replies]

To: palmer

Which means the moisture in your breath is passing through it and around it.


136 posted on 07/17/2020 7:40:23 PM PDT by Henry Hnyellar
[ Post Reply | Private Reply | To 79 | View Replies]

To: EinNYC

Good grief. I’d rather die than go through that fol-de-rol for a week, much less six months. Seriously.


137 posted on 07/17/2020 7:47:04 PM PDT by MayflowerMadam (If 100% of us contracted this Covid Virus only 99.997% would be left to tell our story.)
[ Post Reply | Private Reply | To 53 | View Replies]

To: faucetman

“I just ordered some cheap Trump full face masks.”

Interesting. Do you have a link?


138 posted on 07/17/2020 7:48:37 PM PDT by MayflowerMadam (If 100% of us contracted this Covid Virus only 99.997% would be left to tell our story.)
[ Post Reply | Private Reply | To 59 | View Replies]

To: Henry Hnyellar
Water vapor molecules are smaller than virus particles by a couple orders of magnitude. The concern as shown by the super spreading events is droplets from talking or singing for periods of an hour or more.
139 posted on 07/17/2020 7:49:04 PM PDT by palmer (Democracy Dies Six Ways from Sunday)
[ Post Reply | Private Reply | To 136 | View Replies]

To: Svartalfiar
Thanks for the info. I didn't see your comment earlier.
140 posted on 07/17/2020 7:50:17 PM PDT by palmer (Democracy Dies Six Ways from Sunday)
[ Post Reply | Private Reply | To 124 | View Replies]


Navigation: use the links below to view more comments.
first previous 1-20 ... 101-120121-140141-160161-173 next last

Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.

Free Republic
Browse · Search
News/Activism
Topics · Post Article

FreeRepublic, LLC, PO BOX 9771, FRESNO, CA 93794
FreeRepublic.com is powered by software copyright 2000-2008 John Robinson