Вопросы вирусологии. 2015; 60: 27-31
Разработка экспериментальной модели сочетанной вирусно-бактериальной пневмонии
Ленева И. А., Леонова Е. И., Махмудова Н. Р., Фалынскова И. Н., Федякина И. Т., Зверев В. В., Михайлова Н. А.
Аннотация
Список литературы
1. Грипп. Информационный бюллетень ВОЗ. 2014; 211. Available at: http://www.who.int/mediacentre/factsheets/fs211/ru/
2. Legand A., Briand S., Shindo N., BrooksW.A., de Jong M.D., Farrar J. et al. Addressing the public health burden of respiratory viruses: the Battle against Respiratory Viruses (BRaVe) Initiative. Future Virology. 2013, 8 (10): 953–68.
3. L’vov D.K., Shchelkanov M.Y., Prilipov A.G., Vlasov N.A., Fedyakina I.T., Deryabin P.G. et al. Evolution of highly pathogenic avian influenza H5N1 virus in natural ecosystems of northern Eurasia (2005-08). Avian Dis. 2010. 54 (1): 483–95.
4. Бухарин О. В., Паньков А. С., Усвяцов Б. Я., Скворцов В. О. Модификация свойств вируса гриппа и Staphylococcus aureus в условиях их ассоциации. Эпидемиология и вакцинопрофилактика. 2011; 3 (58): 24–8.
5. Potter C.W. Chronicle of influenza pandemics. In: Nicholson K.G., Webster R.G., Hay A.J., eds. Textbook of influenza. London: Blackwell Scientific Publications; 1998: 3-18.
6. Morens D.M., Taubenberger J.K., Fauci A.S. Predominant role of bacterial pneumonia as a cause of death in pandemic influenza: implications for pandemic influenza preparedness. J. Infect. Dis. 2008; 198 (7): 962-70.
7. Murray R.J., Robinson J.O., White J.N., Hughes F., Coombs G.W., Pearson J.C. et al. Community-acquired pneumonia due to pandemic A (H1N1)2009 influenzavirus and methicillin resistant Staphylococcus aureus co-infection. PLoS One. 2010; 5 (1): e8705.
8. Centers for Disease Control and Prevention. Bacterial coinfections in lung tissue specimens from fatal cases of 2009 pandemic influenza A (H1N1)—United States, May-August 2009. MMWR Morb. Mortal. Wkly Rep. 2009; 58 (38): 1071–4.
9. McCullers J.A., Rehg J.E. Lethal synergism between influenza virus and Streptococcus pneumoniae: characterization of a mouse model and the role of platelet-activating factor receptor. J. Infect. Dis 2002; 186 (3): 341–50.
10. McCullers J.A. Insights into the interaction between influenza virus and pneumococcus. Clin. Microbiol. Rev. 2006; 19 (3): 571–82.
11. McCullers J.A. Effect of antiviral treatment on the outcome of secondary bacterial pneumonia after influenza. J. Infect. Dis. 2004; 190 (3): 519–26.
12. Iverson A.R, Boyd K.L, McAuley J.L., Plano L.R, Hart M.E, McCullers1 J A. Influenza virus primes mice for pneumonia from Staphylococcus aureus. J. Infect. Dis 2011; 203 (6): 880–8.
13. Lee M.H., Arrecubieta C., Martin F.J., Prince A., Borczuk A.C., Lowy F.D. A postinfluenza model of Staphylococcus aureus pneumonia. J. Infect. Dis. 2010; 201 (4): 508–15.
Problems of Virology. 2015; 60: 27-31
Experimental model of secondary bacterial pneumonia after influenza
Leneva I. А., Leonova E. I., Маkhmudоvа N. R., Falynskova I. N., Fedyakina I. Т., Zverev V. V., Mikhailova N. A.
Abstract
References
1. Gripp. Informatsionnyi byulleten' VOZ. 2014; 211. Available at: http://www.who.int/mediacentre/factsheets/fs211/ru/
2. Legand A., Briand S., Shindo N., BrooksW.A., de Jong M.D., Farrar J. et al. Addressing the public health burden of respiratory viruses: the Battle against Respiratory Viruses (BRaVe) Initiative. Future Virology. 2013, 8 (10): 953–68.
3. L’vov D.K., Shchelkanov M.Y., Prilipov A.G., Vlasov N.A., Fedyakina I.T., Deryabin P.G. et al. Evolution of highly pathogenic avian influenza H5N1 virus in natural ecosystems of northern Eurasia (2005-08). Avian Dis. 2010. 54 (1): 483–95.
4. Bukharin O. V., Pan'kov A. S., Usvyatsov B. Ya., Skvortsov V. O. Modifikatsiya svoistv virusa grippa i Staphylococcus aureus v usloviyakh ikh assotsiatsii. Epidemiologiya i vaktsinoprofilaktika. 2011; 3 (58): 24–8.
5. Potter C.W. Chronicle of influenza pandemics. In: Nicholson K.G., Webster R.G., Hay A.J., eds. Textbook of influenza. London: Blackwell Scientific Publications; 1998: 3-18.
6. Morens D.M., Taubenberger J.K., Fauci A.S. Predominant role of bacterial pneumonia as a cause of death in pandemic influenza: implications for pandemic influenza preparedness. J. Infect. Dis. 2008; 198 (7): 962-70.
7. Murray R.J., Robinson J.O., White J.N., Hughes F., Coombs G.W., Pearson J.C. et al. Community-acquired pneumonia due to pandemic A (H1N1)2009 influenzavirus and methicillin resistant Staphylococcus aureus co-infection. PLoS One. 2010; 5 (1): e8705.
8. Centers for Disease Control and Prevention. Bacterial coinfections in lung tissue specimens from fatal cases of 2009 pandemic influenza A (H1N1)—United States, May-August 2009. MMWR Morb. Mortal. Wkly Rep. 2009; 58 (38): 1071–4.
9. McCullers J.A., Rehg J.E. Lethal synergism between influenza virus and Streptococcus pneumoniae: characterization of a mouse model and the role of platelet-activating factor receptor. J. Infect. Dis 2002; 186 (3): 341–50.
10. McCullers J.A. Insights into the interaction between influenza virus and pneumococcus. Clin. Microbiol. Rev. 2006; 19 (3): 571–82.
11. McCullers J.A. Effect of antiviral treatment on the outcome of secondary bacterial pneumonia after influenza. J. Infect. Dis. 2004; 190 (3): 519–26.
12. Iverson A.R, Boyd K.L, McAuley J.L., Plano L.R, Hart M.E, McCullers1 J A. Influenza virus primes mice for pneumonia from Staphylococcus aureus. J. Infect. Dis 2011; 203 (6): 880–8.
13. Lee M.H., Arrecubieta C., Martin F.J., Prince A., Borczuk A.C., Lowy F.D. A postinfluenza model of Staphylococcus aureus pneumonia. J. Infect. Dis. 2010; 201 (4): 508–15.
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