US scientists are studying how mucus from cough can spread Covid-19
A team of US researchers is utilizing special aerosols in a closed environment to simulate coughing to help determine how different mucins carry the virus through the air.
Mucus is a "slimy" material that coats many epithelial surfaces and is secreted into fluids such as saliva. It is composed chiefly of mucins and inorganic salts suspended in water.
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What researchers don't know is exactly the role different compositions of mucus, the slimy substance on human tissue, play in the transmission and infection of coronaviruses.
Nor do they know why some people known as "super-spreaders" will spread the disease more than others.
University of Utah biomedical engineering assistant professor Jessica R. Kramer is now researching how mucus plays a part in transferring coronaviruses from person to person.
"Not everyone spreads the disease equally. The quality of their mucus may be part of the explanation," said Kramer.
"One person may sneeze and transmit it to another person, and another may not, and that is not well understood".
She has received a one-year, $200,000 Rapid Response Research (RAPID) grant from the
Kramer and her team will create different forms of synthetic mucins, the proteins that make up mucus, and test them with non-hazardous versions of coronaviruses.
She will also test the viability of the virus when it lands on a surface based on the mucins that carry it.
Her lab will also examine how mucin composition on the next victim's mouth, eyes or lungs affects whether the virus makes it through the mucus into their cells to replicate.
The composition of mucus changes from person to person based on their genetics, environmental factors, or their lifestyle such as whether the person smokes or what their diet is.
"It's important that people understand that it's not only the amount of mucus that is a factor but how the molecular composition is different," said Kramer.
Understanding how different compositions of the proteins that make up mucus spread coronaviruses could help identify those who are "super-spreaders" as well as those who could be more vulnerable to becoming infected.
That could lead to faster, more accurate data on who will spread the virus or more effective quarantine measures for high-risk populations.
Kramer's lab at the University of Utah has been creating synthetic mucins and more recently studying how mucins and bacteria interact with each other.
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