As the cold season approaches, we
could all benefit from being more cautious about germs and viruses, especially
in crowded areas. New research scans various airport surfaces and finds that plastic
security trays hold the highest concentration of viruses.
Airports are major traveling hubs,
but some airport areas are riddled with germs.
Most of the time, the common cold
or flu are not
life-threatening conditions.
However, they cost the United States
economy a great deal of money, in addition to being an unpleasant
inconvenience.
According to recent estimates, flu
costs the U.S. over $10 billion each year in hospitalization and outpatient
visits.
Workers lose an additional $6.2 billion per year in wages because of
"lost productivity."
The Centers for Disease Control and
Prevention (CDC) deemed the 2018–2019 cold and flu season "particularly
difficult," and they urge the public to take preventive
measures, such as getting the flu shot and being mindful of
spreading microbes.
In crowded spaces, however — such as
on the subway or an airplane — staying away from germs can be challenging. New
research helps us avoid the highest-risk areas by screening some of the most
widely used surfaces in airports.
Researchers from the University of
Nottingham in the United Kingdom — together with the Finnish National Institute
for Health and Welfare in Helsinki — wanted to find out which airport surfaces
harbored the highest number of respiratory viruses.
Niina Ikonen, a virology expert at
the Finnish National Institute for Health and Welfare, is the first author of
the paper, which was published in the journal BMC Infectious Diseases.
Testing
airport surfaces for microbes
Ikonen and team collected
"surface and air samples" from Helsinki-Vantaa airport during the
peak of the 2015–2016 flu season in Finland.
The surfaces were from several
places along the passenger pathways in Helsinki-Vantaa, which is the main
airport in Finland, registering almost 20 million passengers during 2017.
Some of the surfaces that the
scientists examined included: armrests, escalator and stair handrails, toys in
the children's play area, trolley handles, luggage trays at the security
checkpoint, toilet lids, locks, and flushing buttons.
The researchers then tested the
swabs taken from these samples for "influenza A and B
viruses, respiratory syncytial virus,
adenovirus, rhinovirus, and coronaviruses."
Plastic
security trays riddled with rhinovirus
The tests revealed that viruses were
present on 10 percent of the surfaces examined. The plastic security trays were
found to have the highest concentration of viruses.
Of all the
viruses examined, the rhinovirus — the culprit for the common cold — was the
most widespread. The researchers also found the influenza A virus.
However, no respiratory viruses were
found on any of the toilet surfaces tested.
The team hopes that the findings
will help the public better prepare for the upcoming flu season. The study is
part of a wider project called PANDHUB, which is an endeavor funded by the
European Union that focuses on the role of major traffic hubs in spreading
infections.
Study co-author Jonathan Van Tam,
who is a professor of health protection from the University of Nottingham,
comments on the findings. "This study supports the case for improved
public awareness of how viral infections spread," he says.
"People can help to minimize
contagion," he adds, "by hygienic hand washing and coughing into a
handkerchief, tissue, or sleeve at all times but especially in public
places."
"These simple precautions can
help prevent pandemics and are most important in crowded areas like airports
that have a high volume of people traveling to and from many different parts of
the world," adds Prof. Van Tam.
Ikonen also weighs in, saying,
"The presence of microbes in the environment of an airport has not been
investigated previously."
"The new findings support
preparedness planning for controlling the spread of serious infectious diseases
in airports. The results also provide new ideas for technical improvements in
airport design and refurbishment."
No comments:
Post a Comment