Technical vi https :// www . americanairandwater . com / lamps . htm vii Darnell ME , Subbarao K , Feinstone SM , Taylor DR . Inactivation of the coronavirus that induces severe acute respiratory syndrome ,
SARS-CoV . J Virol Methods . 2004 ; 121 ( 1 ): 85-91 . doi : 10.1016 / j . jviromet . 2004.06.006 . viii Buonanno , M ., Welch , D ., Shuryak , I . et al . Far-UVC light ( 222 nm ) efficiently and safely inactivates airborne human coronaviruses .
Sci Rep 10 , 10285 ( 2020 ). https :// doi . org / 10.1038 / s41598-020-67211-2 . ix Kowalski , W . J . Ultraviolet Germicidal Irradiation Handbook : UVGI for Air and Surface Disinfection . New York : Springer , ( 2009 ). x Budowsky , E . I . et al . Principles of selective inactivation of viral genome . I . UV-induced inactivation of influenza virus .
Arch . Virol . 68 ( 3-4 ), 239 – 47 ( 1981 ). xi https :// innovationorigins . com / dangerous-UVC-light-can-inactivate-the-coronavirus-a-study-by-signify-and-boston-university-claims / xii The NEIDL is a state-of-the-art research facility that encompasses significant containment laboratories at Biosafety Level -2 , -3 , and -4 xiii https :// ml-eu . globenewswire . com / Resource / Download / d5da6375-876b-4057-aa8d-9e90c3d8bc04 xiv Buonanno , M ., Welch , D ., Shuryak , I . et al . Far-UVC light ( 222 nm ) efficiently and safely inactivates airborne human coronaviruses .
Sci Rep 10 , 10285 ( 2020 ). https :// doi . org / 10.1038 / s41598-020-67211-2 xv Buonanno , M . et al . 207-nm UV light - a promising tool for safe low-cost reduction of surgical site infections . I : in vitro studies .
Plos One 8 ( 10 ), e76968 ( 2013 ). xvi Buonanno , M . et al . 207-nm UV light-a promising tool for safe low-cost reduction of surgical site infections . II : In-Vivo Safety Studies .
PLoS One 11 ( 6 ), e0138418 ( 2016 ). xvii Buonanno , M . et al . Germicidal efficacy and mammalian skin safety of 222-nm uv light . Radiat . Res . 187 ( 4 ), 483 – 491 ( 2017 ). xviii Ponnaiya , B . et al . Far-UVC light prevents MRSA infection of superficial wounds in vivo . Plos One 13 ( 2 ), e0192053 ( 2018 ). xix
Narita , K . et al . Disinfection and healing effects of 222-nm UVC light on methicillin-resistant Staphylococcus aureus infection in mouse wounds . J . Photochem . Photobiol . B 178 ( Supplement C ), 10 – 18 ( 2018 ). xx Narita , K . et al . Chronic irradiation with 222-nm UVC light induces neither DNA damage nor epidermal lesions in mouse skin , even at high doses . PLoS One 13 ( 7 ), e0201259 ( 2018 ). xxi Yamano , N . et al . Long-term effects of 222 nm ultraviolet radiation C sterilizing lamps on mice susceptible to ultraviolet radiation .
Photochem Photobiol , ( 2020 ). xxii Welch , D . et al . Far-UVC light : A new tool to control the spread of airborne-mediated microbial diseases . Sci . Rep . 8 ( 1 ), 2752 ( 2018 ). xxiii Ashrae Applications Handbook – 2019 , Chapter 62 . xxiv ACGIH 2007 ; Sliney 2013 xxv International Commission on Illumination ( CIE ). CIE 187:2010 , UVC Photocarcinogenesis Risks from Germicidal Lamps . Vienna : CIE ; 2010 . xxvi
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Sehulster L , Chinn RYW . Guidelines for environmental infection control in healthcare facilities – Recommendations of the Centers for Disease Control and the Healthcare Infection Control Practices Advisory Committee ( HICPAC ). 2003 ; 52 ( RR10 ): 1-42 . Jensen PA , Lambert LA , Lademarco MF , Ridzon R . 2005 . Guidelines for preventing the transmission of Mycobacterium tuberculosis in health-care settings , 2005 . Morbid Mortal Weekly Rep . 2005 ; 54 ( RR17 ): 1-141 . Centers for Disease Control and Prevention ; and National Institute for Occupational Safety and Health . Environmental Control for Tuberculosis : Basic Upper-Room Ultraviolet Germicidal Irradiation Guidelines for Healthcare Settings . Washington , DC : Department of Health and Human Services ; 2009 . xxix IES Committee Report : Germicidal Ultrviolet ( GUV ) – Frequently Asked Questions , IES Committee Report CR-2-20-V1 . xxx Ashrae Applications Handbook – 2019 , Chapter 62 .