Coronavirus can stay in air for hours, on surfaces for days - Scientists
Scientists have decoded why the highly contagious novel coronavirus has exploded into a global pandemic, which has now killed close to 8,000 people up till Tuesday, with China accounting for 3226 and Italy 2503 deaths.
Scientists from the National Institute of Allergy and Infectious Diseases (NIAID), part of the U.S. National Institutes of Health have found that the virus can remain viable and infectious in droplets in the air for hours and on surfaces up to days.
The new study should offer guidance to help people avoid contracting the respiratory illness called COVID-19.
Latest statistics showed that 197,743 cases of the coronavirus infections have been recorded in 164 countries in the world, with 7,954 deaths and 81, 691 recovered.
The scientists, led by Neeltje van Doremalen, attempted to mimic the virus deposited from an infected person onto everyday surfaces in a household or hospital setting, such as through coughing or touching objects.
They used a device to dispense an aerosol that duplicated the microscopic droplets created in a cough or a sneeze.
The scientists then investigated how long the virus remained infectious on these surfaces, according to the study that appeared online in the New England Journal of Medicine on Tuesday – a day in which U.S. COVID-19 cases surged past 5,200 and deaths approached 100.
The tests show that when the virus is carried by the droplets released when someone coughs or sneezes, it remains viable, or able to still infect people, in aerosols for at least three hours.
On plastic and stainless steel, viable virus could be detected after three days. On cardboard, the virus was not viable after 24 hours. On copper, it took 4 hours for the virus to become inactivated.
In terms of half-life, the research team found that it takes about 66 minutes for half the virus particles to lose function if they are in an aerosol droplet.
That means that after another hour and six minutes, three quarters of the virus particles will be essentially inactivated but 25% will still be viable.
The amount of viable virus at the end of the third hour will be down to 12.5%, according to the research led by Neeltje van Doremalen of the NIAID’s Montana facility at Rocky Mountain Laboratories.
On stainless steel, it takes 5 hours 38 minutes for half of the virus particles to become inactive. On plastic, the half-life is 6 hours 49 minutes, researchers found.
On cardboard, the half-life was about three and a half hours, but the researchers said there was a lot of variability in those results “so we advise caution” interpreting that number.
The shortest survival time was on copper, where half the virus became inactivated within 46 minutes.
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