Вопросы вирусологии. 2016; 61: 31-33
Экспериментальное изучение сохранения хантавируса в комплексах с субстратами внешней среды
https://doi.org/10.18821/0507-4088-2016-61-1-31-33Аннотация
Список литературы
1. Schmaljohn C., Hjelle B. Hantaviruses: a global disease problem. Emerg. Infect. Dis. 1997; 3 (2): 95–104.
2. Hardestam J., Simon M., Hedlund K.O., Vaheri A., Klingstrom J., Lundkvist A. Ex vivo stability of the rodent-borne Hantaan virus in comparison to that of arthropod-borne members of the Bunyaviridae family. Appl. Environ. Microbiol. 2007; 73 (8): 2547–51.
3. Kallio E.R., Klingstrom J., Gustafsson E., Manni T., Vaheri A., Henttonen H. et al. Prolonged survival of Puumala hantavirus outside the host: evidence for indirect transmission via the environment. J. Gen.Virol. 2006; 87 (8): 2127–34.
4. Иунихина О.В., Компанец Г.Г., Слонова Р.А. Способность хантавируса адсорбироваться на почвообразующих минеральных частицах. Дальневосточный журнал инфекционной патологии. 2008; 13: 134–8.
5. Lee P.W., Gibbs C.J., Gajdusek D.C., Yanagihara R.T. Serotypic classification of hantavirus by indirect immunofluorescent antibody and plaque reduction neutralization tests. J. Clin. Microbiol. 1985; 22 (6): 940–4.
6. Sinclair R.G., Jones E.L., Gerba C.P. Viruses in recreational waterborne disease outbreaks: a review. J. Appl. Microbiol. 2009; 107 (6): 1769–80.
7. Sobsey M.D., Meschke J.S. Virus survival in the environment with special attention to survival in sewage droplets and other environmental media of fecal or respiratory origin. World Health Organization. 2003. Available at: http://www.unc.edu/courses/2008spring/envr/421/001/WHO_VirusSurvivalReport_21Aug2003.pdf. (Accessed 29 May 2014).
8. Bernshtein A.D., Apekina N.S., Mikhailova T.V., Myasnikov Y.A., Khlyap L.A., Korotkov Y.S. et al. Dynamics of Puumala hantavirus infection in naturally infected bank voles (Clethrionomys glareolus). Arch. Virol. 1999; 144 (12): 2415–28.
9. Calisher C.H., Peters C.J., Douglass R.J., Kuenzi, A.J. Hantaviral infections of rodents: Possible scenarios. Arch. Virol. 2009; 154 (8): 1195–7.
10. Yanagihara R., Amyx H.L., Gajdusek D.C. Experimental infection with Puumala virus, the etiologic agent of nephropathia epidemica, in bank voles (Clethrionomys glareolus). J. Virol. 1985; 55 (1): 34–8.
11. Monpoeho S., Maul A., Mignotte-Cadiergues B., Schwartzbrod L., Billaudel S., Ferre V. Best viral elution method available for quantification of enteroviruses in sludge by both cell culture and reverse transcription-PCR. Appl. Environ. Microbiol. 2001; 67 (6): 2484–8.
12. Quignon F., Thomas F., Gantzer C., Huyard A., Schwartzbrod L. Virus adsorption in a complex system: an experimentally designed study. Wat. Res. 1998; 32 (4): 1222–30.
Problems of Virology. 2016; 61: 31-33
Experimental research of the hantavirus survival in complexes with environmental substrates
https://doi.org/10.18821/0507-4088-2016-61-1-31-33Abstract
References
1. Schmaljohn C., Hjelle B. Hantaviruses: a global disease problem. Emerg. Infect. Dis. 1997; 3 (2): 95–104.
2. Hardestam J., Simon M., Hedlund K.O., Vaheri A., Klingstrom J., Lundkvist A. Ex vivo stability of the rodent-borne Hantaan virus in comparison to that of arthropod-borne members of the Bunyaviridae family. Appl. Environ. Microbiol. 2007; 73 (8): 2547–51.
3. Kallio E.R., Klingstrom J., Gustafsson E., Manni T., Vaheri A., Henttonen H. et al. Prolonged survival of Puumala hantavirus outside the host: evidence for indirect transmission via the environment. J. Gen.Virol. 2006; 87 (8): 2127–34.
4. Iunikhina O.V., Kompanets G.G., Slonova R.A. Sposobnost' khantavirusa adsorbirovat'sya na pochvoobrazuyushchikh mineral'nykh chastitsakh. Dal'nevostochnyi zhurnal infektsionnoi patologii. 2008; 13: 134–8.
5. Lee P.W., Gibbs C.J., Gajdusek D.C., Yanagihara R.T. Serotypic classification of hantavirus by indirect immunofluorescent antibody and plaque reduction neutralization tests. J. Clin. Microbiol. 1985; 22 (6): 940–4.
6. Sinclair R.G., Jones E.L., Gerba C.P. Viruses in recreational waterborne disease outbreaks: a review. J. Appl. Microbiol. 2009; 107 (6): 1769–80.
7. Sobsey M.D., Meschke J.S. Virus survival in the environment with special attention to survival in sewage droplets and other environmental media of fecal or respiratory origin. World Health Organization. 2003. Available at: http://www.unc.edu/courses/2008spring/envr/421/001/WHO_VirusSurvivalReport_21Aug2003.pdf. (Accessed 29 May 2014).
8. Bernshtein A.D., Apekina N.S., Mikhailova T.V., Myasnikov Y.A., Khlyap L.A., Korotkov Y.S. et al. Dynamics of Puumala hantavirus infection in naturally infected bank voles (Clethrionomys glareolus). Arch. Virol. 1999; 144 (12): 2415–28.
9. Calisher C.H., Peters C.J., Douglass R.J., Kuenzi, A.J. Hantaviral infections of rodents: Possible scenarios. Arch. Virol. 2009; 154 (8): 1195–7.
10. Yanagihara R., Amyx H.L., Gajdusek D.C. Experimental infection with Puumala virus, the etiologic agent of nephropathia epidemica, in bank voles (Clethrionomys glareolus). J. Virol. 1985; 55 (1): 34–8.
11. Monpoeho S., Maul A., Mignotte-Cadiergues B., Schwartzbrod L., Billaudel S., Ferre V. Best viral elution method available for quantification of enteroviruses in sludge by both cell culture and reverse transcription-PCR. Appl. Environ. Microbiol. 2001; 67 (6): 2484–8.
12. Quignon F., Thomas F., Gantzer C., Huyard A., Schwartzbrod L. Virus adsorption in a complex system: an experimentally designed study. Wat. Res. 1998; 32 (4): 1222–30.
