How Can Light Kill Viruses?

virus-light — A microscopic view of the COVID-19 coronavirus.Wilfried Pohnke/Pixabay

To stave off infection, there are some things you probably know you should do:wash your hands, be careful when you sneeze, gets lots of sleep, don't rub your eyes (especially after touching your nose), eat lots of fruits and vegetables. After all, a coldvirus can surviveon someone's hand for a couple of hours or for several days on some materials.

Even those hand sanitizers that many people use don't protect against everything. And once they're in the body,病毒are quite tough to kill —antibioticsare powerless against them and vaccines forinfluenzaand some other viruses must be changed every year to adapt to new strains. Fortunately ourimmune systemscan fight off many viruses, but others, like Ebola or theCOVID-19 coronavirus, can be deadly.

For years scientists have been experimenting with technology for combating viruses with another method — by using alaser, a device which stimulates atoms and molecules to emit light and then amplifies it to create a beam of radiation.

Back in 2007, researchers at Arizona State University and Johns Hopkins University discovered that pulses of light from a laser could low-power laser could neutralize viruses — turning them into "rubble," asWired magazineput it at the time.

In their study, the researchers blasted a virus with a quick pulse of purple laser light. The laser, which only shines for 100 femtoseconds (a femtosecond is one-millionth of a billionth of a second), causes the virus'scapsid(its outer shell) to vibrate and become damaged. Essentially, the virus becomes "deactivated" while the area around the virus remains unharmed. The method didn't cause viruses to mutate either, which is a problem in other virus treatments and can lead to viral resistance.

Since then,researchon use of lasers against viruses has continued. Eventually, it might be possible to use lasers to cleanseblood病毒和另外一些样品er pathogens, making them safer to handle. Laser therapy might also be combined with blood dialysis treatments. In that approach, blood would be cycled out of a patient's body, lasers could eliminate any pathogens in the blood and the blood would be cycled back in. As thisstudy, published in November 2019 by the National Institutes of Health, describes, it eventually might be possible to employ lasers to inactivate influenza viruses, so that they used to produce more effective vaccines.

On the next page, we'll look at more ways in which scientists try to fight viruses or stop their spread altogether. Several of them use light, whether to kill viruses or as an activating agent.

Other Ways to Combat Viruses

While many efforts to stop病毒have yet to pass beyond laboratory trials,UV irradiationhas already found its way into many real world applications. UV irradiation works by bombarding viruses with ultravioletlight, the same light that causes humans to developsunburnsand皮肤癌.

Like thelasertechnique, UV irradiation kills viruses by breaking down theircellwalls. Some ventilation and water-purification systems make use of UV irradiation to eliminate airborne or waterborne pathogens. Researchers have successfully used UV irradiation to kill foodborne pathogens, likeE. colibacteria, without diminishing taste or food quality. But while UV irradiation can be effective, it can also cause viruses to mutate and has the potential to damage healthy cells (as anyone who's suffered a sunburn can attest).

In March 2020,BBC News reportedon the use of robots armed with bulbs that emit concentrated short-wavelength ultraviolet (UV-C) light to disinfect hospitals and reduce the chance of patients contracting infections there. There was hope that the technology would work against coronavirus, although there hadn't yet been testing to prove whether it would, according to BBC.

Researchers also have explored using microwaves to destroy viruses, but the technique has so far proved ineffective. The water surrounding viruses absorbs the energy from microwaves. The virus doesn't receive enough microwave energy to be affected, much less destroyed.

In July 2018, researchers at North Carolina State University published apaperin the journal ACS Publications, in which they described a new technique for adding light-sensitive molecules to plastics. When exposed to light, the molecules reportedly have the ability to poke holes in viruses and bacteria and render them harmless, according to anaccountof the research on the Alliance of Advanced BioMedical Engineering website.

For more information about viruses and related topics, please check out the links on the next page.

Lots More Information

Sources

"UV Irradiation Dosage Table." American Air & Water. http://www.americanairandwater.com/uv-facts/uv-dosage.htm
Cook, John. "HaloSource of Bothell lands $15 million." Seattle P-I. July 27, 2007. http://seattlepi.nwsource.com/business/325433_halosource28.html
Dumé, Belle. "Visible light pulses knock out viruses in blood." NewScientist. July 27, 2007. (April 1, 2020) https://www.newscientist.com/article/dn12368-visible-light-pulses-knock-out-viruses-in-blood/
Harris, Jaida. "Suntans are bad for bacteria too! Exposure to UV irradiation kills off harmful bacteria in food." Innovations Report. Dec. 15, 2003. http://www.innovations-report.com/html/reports/agricultural_sciences/report-24228.html
Khazeni, Nayer. "Chasing the Elusive Cold." San Francisco Chronicle. July 29, 2007. http://www.sfgate.com/cgi-bin/article.cgi?f=/c/a/2007/07/29/CM2FR5JOT2.DTL
Tibbetts, John. "Special Surface Coating Can Kill Most Bacteria and Viruses on Contact." Alliance of Advanced BioMedical Engineering. Nov. 18, 2018. (April 1, 2020) https://aabme.asme.org/posts/special-surface-coating-can-kill-most-bacteria-and-viruses-on-contact
Murray, Adrienne. "Coronavirus: Robots use light beams to zap hospital viruses. " BBC News. March 20, 2020. (April 1, 2020) https://www.bbc.com/news/business-51914722

How Can Light Kill Viruses?

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