For A FULL Chronovirus Protection, you would need a Level A Fully Encapsulated Hazmat Suit with Self Contained Breathing Apparatus (SCBA).
Here’s How Fast and Far a Sneeze Can Carry Contagious Germs: Most people understand coughing and sneezing can spread germs that cause illness, but the speed and distance they can travel might surprise you.
Researchers at the University of Bristol assessed the airborne survival of bacteria in aerosol droplets from coughs and sneezes.
They found the average sneeze or cough can send around 100,000 contagious germs into the air at speeds up to 100 miles per hour.
These germs can carry viruses, such as; Chronovirus, influenza, respiratory syncytial virus (RSV) and adenoviruses, which cause the common cold.
They can also carry bacteria, such as Streptococcus pneumoniae or Haemophilus influenzae.
The most critical time for spread of those germs, according to the researchers, is in the first few minutes after a sneeze or cough occurs.
“This type of transmission is of special importance since it doesn’t require proximity between individuals. The droplets’ small size adds the potential to penetrate deeper in the lung,” Allen Haddrell, PhD, one of the study’s authors stated.
While aerosols that carry the germs eventually drop to the ground, that takes time.
“Given the small size of bioaerosol droplets (diameter less than the width of a human hair), they can remain suspended in the air for prolonged periods of time, from seconds to weeks,” said Haddrell.
Because there are a lot of unknowns about the spread of diseases in the aerosol phase, Haddrell says he and colleagues have developed a next-generation device to study infectious disease in microscopic aerosol droplets.
The device, called CELEBS (controlled electrodynamic levitation and extraction of bioaerosol onto a substrate), offers unique features, such as creating microscopic droplets (with a radius less than half the width of a human hair) that have a designed composition and known number of pathogens.
Using this technology, Haddrell says researchers can directly and systematically monitor the effect that droplet composition and environmental conditions have on pathogen infectivity.
“With this novel approach, we are able to investigate not only the lifespan of these microorganisms, but also the interplay between key environmental, biological, physical, and compositional conditions while replicating the exact aerosol state during transport,” he said.
“Thus, we will be able to better understand the airborne mechanisms of transmission and use this information to eradicate any emerging pathogen/ airborne diseases.”
He points out that CELEBS could help determine why some droplets are more infectious than others. The information also could impact the design of buildings (such as hospitals), agricultural practices, disease exposure, food safety regulations, dissemination of a diseases outbreak, and more.
“Understanding these survival mechanisms enables the improvement of policies and regulations to mitigate the risk of spread of diseases,” he said.
He also aims to advance the technology so that researchers can investigate respiratory pathogens that are important to public health, such viruses that cause the common cold and influenza as well as bacteria that cause tuberculosis or pneumonia.
“Despite much research on such microorganisms, there remain important questions for understanding disease dynamics, such as, why do some infections exhibit seasonal peaks in incidences, and why is person-to-person transmission often linked to the early rather than later stages of the disease? Understanding these processes in greater detail at the single droplet scale may lead to better or alternative mitigation strategies,” said Haddrell.
Jason Tetro, microbiologist and host of the Super Awesome Science Show, says Haddrell’s research discovered that from a culture of about 100 million droplets, each droplet had about 20 bacteria in it.
“This is important because when it comes to viruses like colds and flus, you need about 1,000 or so to cause infection. This means that you would have to inhale about 50 or so droplets to be at risk,” Tetro told Healthline. “In the moments right after a cough or sneeze, that would be relatively easy. As for the distance, one should be cautious within six feet of the sneezer or cougher.”
In addition to veering away from a sneezer or cougher, Tetro recommends the following ways to ward off germs.
Keep a scarf handy
Keep a scarf on or in your purse or bag at all times when you know you’ll be indoors and around large crowds to protect your nose and mouth.
“They are fashionable and you can have them for any season,” he said.
Wear a mask
If you’ll be in a healthcare facility like a hospital, he says consider wearing a medical face mask.
Carry hand sanitizer
Keep alcohol-based hand sanitizer with you at all times.
“The droplets [that carry germs] will eventually fall onto surfaces that you will touch,” Tetro said. “A 15-second rub with 62 to 70 percent alcohol solution will help to keep your hands free of any inadvertent self-inoculations. Remember, we tend to touch our faces — noses, mouths, and eyes — about 16 times an hour.”
Wash your hands
Most importantly, Tetro says wash your hands with soap and water. While the soap doesn’t have to be antibacterial, be sure to scrub your hands for 30 seconds — and wash in between your fingers and underneath your fingernails.
Change your clothes
For extra caution, consider changing your clothes when you get home from being in the public.
When clothed, Tetro says people shed 37 million microorganisms per hour, and that it’s hard to know which microbes will survive in clothing and for how long they’ll survive. Since we don’t know if people or surfaces we touch are infected with harmful germs, he says changing clothes can cut the chances of transferring microbes to surfaces and people in your house.
Lower the lid
When at home, Haddrell suggests putting the lid down before flushing the toilet.
“The act of flushing a toilet has been found to produce droplets containing microorganisms, where the spray can reach as far as 6 feet and as high as 2.7 feet, and can contaminate surfaces like the door handle and toilet flusher,” said Haddrell.
Other measures he recommends include air filtration and environmental sanitation, such as clean and safe water supplies, efficient industrial waste/treatment disposal, and protection of food.
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