Hindustan Times
Published:17 Apr 2021, 12:53 PM
Coronavirus is airborne. Experts give 10 reasons in support
SARS-CoV-2, the
virus which causes the coronavirus disease (Covid-19), is predominantly
transmitted through the air, according to a new study published in The Lancet
journal.
"There is
consistent, strong evidence that SARS-CoV-2 spreads by airborne transmission.
Although other routes can contribute, we believe that the airborne route is
likely to be dominant. The public health community should act accordingly and
without further delay," according to the analysis by six experts from the
UK, the US and Canada.
The team of
experts, led by the University of Oxford's Trisha Greenhalgh, reviewed
published research and identified 10 evidence to support the predominance of
the airborne route.
The experts
pointed out that superspreading events account for substantial SARS-CoV-2
transmission, saying "such events may be the pandemic's primary
drivers." "Detailed analyses of human behaviours and interactions,
room sizes, ventilation, and other variables in choir concerts, cruise ships,
slaughterhouses, care homes, and correctional facilities, among other settings,
have shown patterns—eg, long-range transmission and overdispersion of the basic
reproduction number (R0), discussed below—consistent with airborne spread of
SARS-CoV-2 that cannot be adequately explained by droplets or fomites."
Long-range
transmission of SARS-CoV-2 between people in adjacent rooms but never in each
other's presence has been documented in quarantine hotels, they said.
"Historically,
it was possible to prove long-range transmission only in the complete absence
of community transmission," they added.
According to the
experts, asymptomatic or presymptomatic transmission of SARS-CoV-2 from people
who are not coughing or sneezing is likely to account for "at least a
third, and perhaps up to 59%, of all transmission globally and is a key way the
virus has spread around the world."
The transmission
of SARS-CoV-2 is higher indoors than outdoors and is substantially reduced by
indoor ventilation.
"Both
observations support a predominantly airborne route of transmission," they
added.
"Fifth,
nosocomial infections have been documented in health-care organisations, where
there have been strict contact-and-droplet precautions and use of personal
protective equipment (PPE) designed to protect against droplet but not aerosol
exposure," they added.
As the sixth
evidence, experts say that viable SARS-CoV-2 has been detected in the air.
"In laboratory experiments, SARS-CoV-2 stayed infectious in the air for up
to 3 h with a half-life of 1·1 h. Viable SARS-CoV-2 was identified in air
samples from rooms occupied by Covid-19 patients in the absence of
aerosol-generating health-care procedures13 and in air samples from an infected
person's car," they pointed out in the study.
They also said
that other studies have failed to capture viable SARS-CoV-2 in air samples,
saying sampling of airborne virus is technically challenging for several
reasons. They said limited effectiveness of some sampling methods for
collecting fine particles, viral dehydration during collection, viral damage due
to impact forces, reaerosolisation of virus during collection, and viral
retention in the sampling equipment are among them.
SARS-CoV-2 has
been identified in air filters and building ducts in hospitals with Covid-19
patients, according to the study as the researchers pointed out that such
locations could be reached only by aerosols.
As their eighth
piece of evidence, they cited studies involving infected caged animals that
were connected to separately caged uninfected animals through an air duct have
shown transmission of SARS-CoV-2 that "can be adequately explained only by
aerosols."
"Ninth, no
study to our knowledge has provided strong or consistent evidence to refute the
hypothesis of airborne SARS-CoV-2 transmission," the experts said.
Some people have
avoided contracting the coronavirus disease when they have shared air with
infected people, but this situation could be explained by a combination of
factors. These factors, they said, include variation in the amount of viral
shedding between infectious individuals by several orders of magnitude and
different environmental (especially ventilation) conditions. "Individual
and environmental variation means that a minority of primary cases (notably,
individuals shedding high levels of virus in indoor, crowded settings with poor
ventilation) account for a majority of secondary infections, which is supported
by high-quality contact tracing data from several countries," they added.
There is limited
evidence to support other dominant routes of transmission—respiratory droplet
or fomite—they said.
"Ease of infection between people in close proximity to each other has been cited as proof of respiratory droplet transmission of SARS-CoV-2. However, close-proximity transmission in most cases along with distant infection for a few when sharing air is more likely to be explained by dilution of exhaled aerosols with distance from an infected person," they added.