Evaluation of the Antiviral Activity of Chlorine Dioxide and Sodium Hypochlorite against Feline Calicivirus, Human Influenza Virus, Measles Virus, Canine Distemper Virus, Human Herpesvirus, Human Adenovirus, Canine Adenovirus and Canine Parvovirus

We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations rangin...

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Published inBiocontrol Science Vol. 15; no. 2; pp. 45 - 49
Main Authors SANEKATA, TAKESHI, FUKUDA, TOSHIAKI, MIURA, TAKANORI, MORINO, HIROFUMI, LEE, CHEOLSUNG, MAEDA, KEN, ARAKI, KAZUKO, OTAKE, TORU, KAWAHATA, TAKUYA, SHIBATA, TAKASHI
Format Journal Article
LanguageEnglish
Published Japan The Society for Antibacterial and Antifungal Agents, Japan 01.01.2010
Subjects
Adenovirus
Adenoviruses, Canine - drug effects
Adenoviruses, Human - drug effects
Antiviral activity
Antiviral Agents - pharmacology
Calicivirus, Feline - drug effects
Canine distemper virus
Canine parvovirus
Chlorine Compounds - pharmacology
Chlorine dioxide
Distemper Virus, Canine - drug effects
Feline calicivirus
Herpesvirus 1, Human - drug effects
Human adenovirus
Human herpesvirus
Influenza virus
Measles virus
Measles virus - drug effects
Orthomyxoviridae - drug effects
Oxides - pharmacology
Parvovirus, Canine - drug effects
Sodium hypochlorite
Sodium Hypochlorite - pharmacology
Virus inactivation
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Abstract We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating ≥ 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately10 times higher than that of SH.
AbstractList We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating . 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately 10 times higher than that of SH.
We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating ≥ 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately10 times higher than that of SH.
We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating >or= 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately 10 times higher than that of SH.We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating >or= 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately 10 times higher than that of SH.
We evaluated the antiviral activity of a chlorine dioxide gas solution (CD) and sodium hypochlorite (SH) against feline calicivirus, human influenza virus, measles virus, canine distemper virus, human herpesvirus, human adenovirus, canine adenovirus and canine parvovirus. CD at concentrations ranging from 1 to 100 ppm produced potent antiviral activity, inactivating >or= 99.9% of the viruses with a 15 sec treatment for sensitization. The antiviral activity of CD was approximately 10 times higher than that of SH.
Author FUKUDA, TOSHIAKI
MAEDA, KEN
MORINO, HIROFUMI
MIURA, TAKANORI
KAWAHATA, TAKUYA
OTAKE, TORU
SHIBATA, TAKASHI
SANEKATA, TAKESHI
ARAKI, KAZUKO
LEE, CHEOLSUNG
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  fullname: MIURA, TAKANORI
  organization: Taiko Pharmaceutical Co., Ltd
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  fullname: MORINO, HIROFUMI
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  fullname: LEE, CHEOLSUNG
  organization: Taiko Pharmaceutical Co., Ltd
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  fullname: MAEDA, KEN
  organization: Department of Veterinary Medicine, Faculty of Agriculture, Yamaguchi University
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  organization: Infectious Disease Surveillance Center, National Institute of Infectious Disease
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  organization: Division of virology, Department of infectious diseases, Osaka Prefectural Institute of Public Health
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  fullname: SHIBATA, TAKASHI
  organization: Taiko Pharmaceutical Co., Ltd
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Cites_doi 10.1038/nm860
10.1128/AEM.50.2.261-264.1985
10.1099/vir.0.83393-0
10.1128/AEM.68.10.4951-4955.2002
10.1016/j.jhin.2008.03.015
10.1016/S0043-1354(96)00195-9
10.1016/j.jinf.2007.04.004
10.1128/AEM.69.7.3979-3985.2003
10.1016/S0043-1354(96)00276-X
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Patterson, K. S., Lykins Jr. B. W., and Richardson, S. D. (1995) Mutagenicity of drinking water following disinfection. J. Aqua. 44, 1-9.
Ogata, N. and Shibata, T. (2008) Protective effect of low-concentration chlorine dioxide gas against influenza A virus infection. J. Gen. Virol., 89, 60-67.
Thurston-Enriquez, J. A., Haas, C. N., Jacangelo, J., and Gerba, C.P. (2003) Chlorine inactivation of adenovirus type 40 and feline calicivirus. Appl. Environ. Microbiol., 69, 3979-3985.
Bruce, H., Keswick, B. H., Satterwhite, T. K., Johnson, P. C., Dupont, H. L., Secor, S. L., Bitsura, J. A., Gary, G. W., and Hoff. J. C. (1985) Inactivation of Norwalk virus in Drinking Water by chlorine. Appl. Environ. Microbiol., 50, 261-264.
Sjestrem, L. and Tormund, D. (1978) Determination of inorganic chlorine compounds and total chlorine in spent bleaching liquors, Part 2. Spectrophotmetetric methods for chlorine dioxide and chlorine. Sven Papperstidning, 81, 114-120.
Aleta, E., M., and Berg, J. D. (1986) A review of chlorine dioxide in drinking water treatment J. Am. Water Works Assoc., 78, 62-72.
Don, G. (1998) The chlorine dioxide handbook. Am. Water Works Assoc. 3-4.
Sasaki, A., Suzuki, H., Sakai, T., Sato, M., Sakai, T., Sato, M., Shobugawa, Y., and Sato, R. (2007) Measles outbreaks in high schools closely associated with sporting events in Niigata, Japan. J. infection, 55, 179-183.
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Junli, H., Li, W., Nenqi, R., Li, L. X., Fun, S. R., and Guanle, Y. (1997) Disinfection effect of chorine dioxide on viruses, algae and animal planktons in water. Wat. Res., 31, 455-460.
Lindesmith, L., Moe C., Marionneau, S., Ruvoen, N., Jiang, X., Lindbland, L., Stewart, P., LePendu, J., and Baric, R. (2003) Human susceptibility and resistance to Norwalk virus infection. Nature Medicine, 9, 548-553.
Li, J. W., Xin, Z. T., Wang, X. W., Zheng, J. L. and Chao, F. H. (2002) Mechanisms of inactivation of hepatitis A virus by chlorine. Appl. Environ. Microbiol., 68, 4951-4955.
11
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References_xml – reference: Tsang, O. T. Y., Wong, A. T. Y., Chow, C. B., Yung, R. W. H., Lim, W. W. L., and Liu, S. H. (2008) Clinical characteristics of nosocomical norovirus outbreaks in Hong Kong. J. Hospital infect. 69, 135-140.
– reference: Thurston-Enriquez, J. A., Haas, C. N., Jacangelo, J., and Gerba, C.P. (2003) Chlorine inactivation of adenovirus type 40 and feline calicivirus. Appl. Environ. Microbiol., 69, 3979-3985.
– reference: Lindesmith, L., Moe C., Marionneau, S., Ruvoen, N., Jiang, X., Lindbland, L., Stewart, P., LePendu, J., and Baric, R. (2003) Human susceptibility and resistance to Norwalk virus infection. Nature Medicine, 9, 548-553.
– reference: Sjestrem, L. and Tormund, D. (1978) Determination of inorganic chlorine compounds and total chlorine in spent bleaching liquors, Part 2. Spectrophotmetetric methods for chlorine dioxide and chlorine. Sven Papperstidning, 81, 114-120.
– reference: Patterson, K. S., Lykins Jr. B. W., and Richardson, S. D. (1995) Mutagenicity of drinking water following disinfection. J. Aqua. 44, 1-9.
– reference: Ogata, N. and Shibata, T. (2008) Protective effect of low-concentration chlorine dioxide gas against influenza A virus infection. J. Gen. Virol., 89, 60-67.
– reference: Bruce, H., Keswick, B. H., Satterwhite, T. K., Johnson, P. C., Dupont, H. L., Secor, S. L., Bitsura, J. A., Gary, G. W., and Hoff. J. C. (1985) Inactivation of Norwalk virus in Drinking Water by chlorine. Appl. Environ. Microbiol., 50, 261-264.
– reference: Sasaki, A., Suzuki, H., Sakai, T., Sato, M., Sakai, T., Sato, M., Shobugawa, Y., and Sato, R. (2007) Measles outbreaks in high schools closely associated with sporting events in Niigata, Japan. J. infection, 55, 179-183.
– reference: Lykins, B. W., Goodrich, J. A., and Hoff, J. C. (1986) Concern with using chlorine-dioxide disinfection in the USA. J. water., 39, 376-386.
– reference: Wistrom, A. O., Chou, T., Chang, D. P. Y., and Schroeder, E.D. (1996) A method for Measuring haloform formation during wastewater chlorination. War. Res., 30, 3146-3151.
– reference: Don, G. (1998) The chlorine dioxide handbook. Am. Water Works Assoc. 3-4.
– reference: Junli, H., Li, W., Nenqi, R., Li, L. X., Fun, S. R., and Guanle, Y. (1997) Disinfection effect of chorine dioxide on viruses, algae and animal planktons in water. Wat. Res., 31, 455-460.
– reference: Aleta, E., M., and Berg, J. D. (1986) A review of chlorine dioxide in drinking water treatment J. Am. Water Works Assoc., 78, 62-72.
– reference: Li, J. W., Xin, Z. T., Wang, X. W., Zheng, J. L. and Chao, F. H. (2002) Mechanisms of inactivation of hepatitis A virus by chlorine. Appl. Environ. Microbiol., 68, 4951-4955.
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  doi: 10.1099/vir.0.83393-0
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  doi: 10.1128/AEM.68.10.4951-4955.2002
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  doi: 10.1016/S0043-1354(96)00195-9
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  doi: 10.1016/j.jinf.2007.04.004
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SubjectTerms Adenovirus
Adenoviruses, Canine - drug effects
Adenoviruses, Human - drug effects
Antiviral activity
Antiviral Agents - pharmacology
Calicivirus, Feline - drug effects
Canine distemper virus
Canine parvovirus
Chlorine Compounds - pharmacology
Chlorine dioxide
Distemper Virus, Canine - drug effects
Feline calicivirus
Herpesvirus 1, Human - drug effects
Human adenovirus
Human herpesvirus
Influenza virus
Measles virus
Measles virus - drug effects
Orthomyxoviridae - drug effects
Oxides - pharmacology
Parvovirus, Canine - drug effects
Sodium hypochlorite
Sodium Hypochlorite - pharmacology
Virus inactivation
Title Evaluation of the Antiviral Activity of Chlorine Dioxide and Sodium Hypochlorite against Feline Calicivirus, Human Influenza Virus, Measles Virus, Canine Distemper Virus, Human Herpesvirus, Human Adenovirus, Canine Adenovirus and Canine Parvovirus
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https://www.ncbi.nlm.nih.gov/pubmed/20616431
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Volume 15
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ispartofPNX Biocontrol Science, 2010, Vol.15(2), pp.45-49
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