<p>Scientists have shown for the first time that a form of ultraviolet (UV) radiation, which is safer to use around humans, can effectively kill the novel coronavirus that causes Covid-19, an advance that may lead to a potent disinfection system for occupied public spaces including hospitals.</p>.<p>The study, published in the American Journal of Infection Control, offers first proof that Ultraviolet-C (UVC) light with a wavelength of 222 nanometeres (nm) effectively kills the SARS-CoV-2 virus, and it may not penetrate the human skin.</p>.<p>According to the researchers, including those from Hiroshima University in Japan, previous studies involving 222 nm UVC, also known as Far-UVC, have so far only looked at its potency in eradicating seasonal coronaviruses that are structurally similar to the novel coronavirus, but not on SARS-CoV-2 itself.</p>.<p>"Recent studies have shown that 222-nm UVC is less harmful than 254-nm UVC because far-UVC light has a very limited penetration depth in the skin or eyes, and it is also an efficient anti-microbial technology," the scientists wrote in the study.</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-news-live-updates-india-world-coronavirus-vaccine-karnataka-maharashtra-tamil-nadu-delhi-kerala-gujarat-west-bengal-bangalore-mumbai-new-delhi-chennai-kolkata-cases-deaths-recoveries-Covid-19-vaccine-889152.html" target="_blank"><strong>Follow live updates on the coronavirus here</strong></a></p>.<p>In the current research, the researchers spread a 100 microliter solution containing the virus onto a nine-centimeter sterile polystyrene plate, and allowed it to dry in a biosafety cabinet at room temperature before placing the Far-UVC lamp 24 centimeters above the surface of the plates.</p>.<p>They showed that 99.7 per cent of the SARS-CoV-2 viral culture was killed after a 30-second exposure to 222 nm UVC irradiation.</p>.<p>The study noted that at this wavelength of 222 nm, UVC cannot penetrate the outer, non-living layer of the human eye and skin.</p>.<p>So the scientists said the radiation would not cause harm to the living cells beneath.</p>.<p>According to the researchers, this makes the light safer, but also an equally potent alternative to the more damaging 254 nm UVC germicidal lamps increasingly used in disinfecting healthcare facilities.</p>.<p>Since 254 nm UVC harms exposed human tissues, they said it can only be used to sanitise empty rooms.</p>.<p>But the 222 nm UVC can be a promising disinfection system for occupied public spaces including healthcare facilities where hospital-bourne infections are a possibility, the scientists noted.</p>.<p>Citing the limitation of the study, the researchers said they only investigated the efficacy of 222 nm UVC in lab conditions.</p>.<p>"We did not evaluate this technology in a real-world setting, such as a surface counter-top," the scientists noted.</p>.<p>They suggested further evaluation of the safety and effectiveness of 222 nm UVC irradiation in killing SARS-CoV-2 viruses in real-world surfaces.</p>
<p>Scientists have shown for the first time that a form of ultraviolet (UV) radiation, which is safer to use around humans, can effectively kill the novel coronavirus that causes Covid-19, an advance that may lead to a potent disinfection system for occupied public spaces including hospitals.</p>.<p>The study, published in the American Journal of Infection Control, offers first proof that Ultraviolet-C (UVC) light with a wavelength of 222 nanometeres (nm) effectively kills the SARS-CoV-2 virus, and it may not penetrate the human skin.</p>.<p>According to the researchers, including those from Hiroshima University in Japan, previous studies involving 222 nm UVC, also known as Far-UVC, have so far only looked at its potency in eradicating seasonal coronaviruses that are structurally similar to the novel coronavirus, but not on SARS-CoV-2 itself.</p>.<p>"Recent studies have shown that 222-nm UVC is less harmful than 254-nm UVC because far-UVC light has a very limited penetration depth in the skin or eyes, and it is also an efficient anti-microbial technology," the scientists wrote in the study.</p>.<p><a href="https://www.deccanherald.com/national/coronavirus-news-live-updates-india-world-coronavirus-vaccine-karnataka-maharashtra-tamil-nadu-delhi-kerala-gujarat-west-bengal-bangalore-mumbai-new-delhi-chennai-kolkata-cases-deaths-recoveries-Covid-19-vaccine-889152.html" target="_blank"><strong>Follow live updates on the coronavirus here</strong></a></p>.<p>In the current research, the researchers spread a 100 microliter solution containing the virus onto a nine-centimeter sterile polystyrene plate, and allowed it to dry in a biosafety cabinet at room temperature before placing the Far-UVC lamp 24 centimeters above the surface of the plates.</p>.<p>They showed that 99.7 per cent of the SARS-CoV-2 viral culture was killed after a 30-second exposure to 222 nm UVC irradiation.</p>.<p>The study noted that at this wavelength of 222 nm, UVC cannot penetrate the outer, non-living layer of the human eye and skin.</p>.<p>So the scientists said the radiation would not cause harm to the living cells beneath.</p>.<p>According to the researchers, this makes the light safer, but also an equally potent alternative to the more damaging 254 nm UVC germicidal lamps increasingly used in disinfecting healthcare facilities.</p>.<p>Since 254 nm UVC harms exposed human tissues, they said it can only be used to sanitise empty rooms.</p>.<p>But the 222 nm UVC can be a promising disinfection system for occupied public spaces including healthcare facilities where hospital-bourne infections are a possibility, the scientists noted.</p>.<p>Citing the limitation of the study, the researchers said they only investigated the efficacy of 222 nm UVC in lab conditions.</p>.<p>"We did not evaluate this technology in a real-world setting, such as a surface counter-top," the scientists noted.</p>.<p>They suggested further evaluation of the safety and effectiveness of 222 nm UVC irradiation in killing SARS-CoV-2 viruses in real-world surfaces.</p>