Does sunlight rapidly destroy the coronavirus? | Inquirer News

Does sunlight rapidly destroy the coronavirus?

/ 07:33 AM April 25, 2020

A person wearing scrubs and a face mask covers his eyes from the sunlight while leaving the Baltimore VA Medical Center, Wednesday, April 22, 2020, in Baltimore. (AP Photo/Julio Cortez)

WASHINGTON — Does sunlight rapidly destroy the coronavirus? A White House presentation on a mysterious government study says so — but some scientists have called for caution as we await more evidence.

An official from the Department of Homeland Security made the eye-catching announcement during President Donald Trump’s daily pandemic briefing Thursday, showing a dramatic reduction in the virus’s viability under the sun’s rays.

Article continues after this advertisement

But the fact there are no further details about how the study was conducted has left some experts scratching their heads.

FEATURED STORIES

“It looks like someone did a test somewhere,” Benjamin Neuman, chair of biological sciences at Texas A&M University-Texarkana, told AFP.

“It would be good to know how the test was done.”

Article continues after this advertisement

William Bryan, the official who summarized the findings, told reporters that an experiment was carried out at the National Biodefense Analysis and Countermeasures Center in Maryland.

Article continues after this advertisement

On a stainless steel surface in sunlight, the virus shrinks to half its amount in a matter of just two minutes in 70 to 75 degrees Fahrenheit (21 to 24 degrees Celsius) heat and 80 percent humidity, compared to six hours in the dark.

Article continues after this advertisement

When the virus was suspended in the air, its half-life in sunlight was just a minute and a half when the temperature was 70 to 75 degrees with 20 percent humidity, as opposed to one hour in the dark.

Beyond the headline results, there are so far few details, making it impossible for experts to independently validate the findings.

Article continues after this advertisement

“As a scientist, I’d, of course, like to see an actual study and the actual numbers,” viral epidemiologist Chris von Csefalvay told AFP.

The ABCs of sunshine

We do know that the solar radiation contained in ultraviolet light — an invisible, energetic part of the electromagnetic spectrum — can be very effective at dealing with certain pathogens.

That is why, for example, the World Health Organization recommends that people in developing countries can place tap water in plastic bottles and leave them under the sun for five hours in order to make it drinkable.

But not all microbes respond in the same way.

Sunlight in fact contains different types of ultraviolet radiation, which are classed by their wavelength.

Broadly speaking, these can be categorized into UVA, which causes the skin to tan and age; UVB, which is a bit more harmful in high doses and can cause burning and cancer, and UVC, which is the most dangerous.

Most of the sunlight that penetrates our atmosphere is UVA while UVC is completely filtered out.

That is good news for us: UVC has small, high energy waves that are particularly adept at warping genetic material, whether in animal cells or in viruses.

A 2004 study on SARS — a close genetic relative of the new coronavirus — found that UVA light “had no effect on viability, regardless of duration of exposure.”

UVC light — which is commonly used to sterilize labs, hospitals, and now even buses in China — completely inactivated the virus within 15 minutes.

Moot point?

It is entirely possible that the SARS-CoV-2 virus is more vulnerable to regular sunlight than its older cousin, and not just UVC.

The problem is the DHS has bypassed scientific norms by not making its data available — even in its preliminary, non-peer-reviewed form, which is how most major research during this pandemic has first made its way into the public domain.

“It would be really important for understanding this study to know how it was conducted, and I am quite hopeful that the actual paper, or at least a pre-print, will be shared soon,” said von Csefalvay.

“I know for a fact that the scientific community is eager to review their findings.”

But even if all the findings are airtight, solar disinfection is probably going to have a limited impact.

After all, people are less likely to be infected outdoors than indoors, unless they are directly coughed or sneezed upon — in which case UV rays won’t have time to inactivate the viral droplets before they hit their target.

On the other hand, UVB can help boost the immune system by causing the body to produce more Vitamin D.

All of this points to the need for more research. But one thing is clear: President Trump’s suggestion that UV could be used to treat patients already infected with the virus isn’t grounded in fact.

Your subscription could not be saved. Please try again.
Your subscription has been successful.

Subscribe to our daily newsletter

By providing an email address. I agree to the Terms of Use and acknowledge that I have read the Privacy Policy.

“There is no way currently that UV could be used to irradiate inside the body that would do any good,” Paul Hunter, a professor of medicine at the University of East Anglia said.

/MUF

For more news about the novel coronavirus click here.
What you need to know about Coronavirus.
For more information on COVID-19, call the DOH Hotline: (02) 86517800 local 1149/1150.

The Inquirer Foundation supports our healthcare frontliners and is still accepting cash donations to be deposited at Banco de Oro (BDO) current account #007960018860 or donate through PayMaya using this link.

TAGS: Coronavirus, Health, sunlight, ultraviolet, Virus

Your subscription could not be saved. Please try again.
Your subscription has been successful.

Subscribe to our newsletter!

By providing an email address. I agree to the Terms of Use and acknowledge that I have read the Privacy Policy.

© Copyright 1997-2024 INQUIRER.net | All Rights Reserved

This is an information message

We use cookies to enhance your experience. By continuing, you agree to our use of cookies. Learn more here.