this post was submitted on 13 Sep 2024
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[–] amberSuperMario@lemmy.ml 9 points 2 months ago (6 children)

We’d rather not take risks. Plus, we’d like to not accidentally contribute to the spread of disease ourselves if we can help it.

[–] ChuckEffingNorris@lemmy.ml 2 points 2 months ago (5 children)

I thought masks wouldn't protect against a virus (being tiny) but might help slow the spread to others by stopping spittle/moisture filled with virus from covering real world objects.

How do they help you if no one else is wearing them?

[–] boatswain@infosec.pub 1 points 2 months ago (3 children)

Because the virus is transmitted via spittle/moisture from other people not wearing masks. The virus doesn't just hang out in the air on its own; it's suspended in aerosol particles.

[–] amberSuperMario@lemmy.ml 1 points 2 months ago (1 children)

This is somewhat misleading. Here’s a section from near the beginning of a scientific review I linked in my reply to @ChuckEffingNorris@lemmy.ml:

To reduce spread of respiratory diseases, we need to understand the mechanisms of spread. There is strong and consistent evidence that respiratory pathogens including severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), respiratory syncytial virus (RSV), influenza, tuberculosis, and other coronaviruses such as MERS and SARS-1, are transmitted predominantly via aerosols. Infected individuals, whether symptomatic or not, continuously shed particles containing pathogens, which remain viable for several hours and can travel long distances. [Emphasis mine.] SARS-CoV-2 is shed mainly from deep in the lungs, not the upper respiratory tract, and the viral load is higher in small aerosols (generated in the lower airways) than in larger droplets (generated in upper airways). Whereas large respiratory droplets emitted when people cough or sneeze fall quickly by force of gravity without much evaporation, those below 100 µm in diameter become (bio)aerosols. Even particles tens of microns in diameter at release will shrink almost immediately by evaporation to the point that under typical conditions they can remain airborne for many minutes. In contrast with droplet transmission, which is generally assumed to occur via a single ballistic hit, the risk of airborne transmission increases incrementally with the amount of time the lung lining is exposed to pathogen-laden air, in other words, with time spent indoors inhaling contaminated air.

Respiratory infections may theoretically also be transmitted by droplets, by direct contact, and possibly by fomites (objects that have been contaminated by droplets), but the dominant route is via respiratory aerosols. The multiple streams of evidence to support this claim for SARS-CoV-2 include the patterning of spread (mostly indoors and especially during mass indoor activities involving singing, shouting, or heavy breathing), direct isolation of viable virus from the air and in air ducts in ventilation systems, transmission between cages of animals connected by air ducts, the high rate of asymptomatic transmission (i.e., passing on the virus when not coughing or sneezing), and transmission in quarantine hotels when individuals in different rooms shared corridor air but did not meet or touch any common surface.

[–] boatswain@infosec.pub 1 points 2 months ago (1 children)

The sentence after the one you emphasized seems to be saying what I was: the virus is in aerosol particles or potentially droplets, which are what your mask protects you from.

[–] amberSuperMario@lemmy.ml 1 points 2 months ago

Oh, okay, I think I misinterpreted what you said before, but rereading it now I understand.

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