EPIDEMIC PROCESS OF RUBELLA DURING MASS VACCINATION OF CHILDREN


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Abstract

Aim. To reveal features of rubella epidemic process during start of mass immunization and to determine rubella virus genotypes circulating in Saint-Petersburg. Materials and methods. Official data on rubella morbidity during 1995 — 2007 and number of vaccinated against rubella children and adults were used in this study. During 2006 — 2008 males aged 17 — 20 years with rubella diagnosis were eligible for laboratory test on rubella. Nasopharyngeal swabs and blood specimens were tested by PCR and virus isolation on cell culture (PK13). Genotyping of isolates was performed on the basis of 600 nucleotide sequence of E1 gene from 8731 to 9653 n.p. Results. It was shown that mass vaccination of children and young women against rubella during 4 years resulted in 3-fold drop of rubella incidence in whole population, which diminishes the probability of infection in pregnant women and born of children with congenital rubella syndrome. In age structure of rubella morbidity the proportion of children aged 3 — 6 and 7 — 14 years decreased by 1.5-fold. Epidemic process loss the features of autoregulating system (periodicity and seasonal incidence peaks). Results of genotyping showed that isolates belonged to genotype 1E. High degree of homology (97.7 — 99,6%) to isolates from Barnaul and Belorussia was demonstrated. Conclusion. Issues on isolates’ origin and success of measures on elimination of endemic rubella could be resolved by further studies on isolation and genotyping of rubella virus strains in Saint-Petersburg and North-East region of Russian Federation in the whole.

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ЭПИДЕМИЧЕСКИЙ ПРОЦЕСС ПРИ КРАСНУХЕ В УСЛОВИЯХ МАССОВОЙ ИММУНИЗАЦИИ ДЕТЕЙ
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About the authors

L. M Tsybalova

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

E. V Timofeeva

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

J. V Buzitskaya

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

T. M Gudkova

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

V. L Maksakova

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

O. V Parkov

Influenza Research Institute; Administration of Federal Service for Surveillance for Protection of Consumers Rights and Human Welfare in Saint-Petersburg, SaintPetersburg, Russia

References

  1. Зверев В.В., Юминова Н.В. Проблемы кори, краснухи и эпидемического паротита в Российской Федерации. Вопр. вирусол. 2004, 3: 8-11.
  2. Инфекционная заболеваемость в Российской Федерации. Информационный сборник статистических и аналитических материалов. М., 2007.
  3. Лаврентьева И.Н., Семериков В.В., Жебрун А.Б. и др. Краснуха в России: изменчивость возбудителя в период вакцинопрофилактики инфекции. Журн. микробиол. 2008, 3: 26-31.
  4. Отвагин С.А., Брико Н.И. Сравнительная характеристика заболеваемости скарлатиной, ветряной оспой, краснухой, корью, коклюшем, эпидемическим паротитом населения Москвы в последние годы. Эпидемиол. инфекц. бол. 2005, 6: 13-16.
  5. Семериков В.В., Лаврентьева И.Н., Ткаченко В.И. и др. Краснуха. Пермь-Санкт-Петербург-Москва, Звезда, 2002.
  6. Тюнников Г.И., Яшина Л.Н., Серегин С.В. и др. Генотипирование вируса краснухи, циркулирующего на территории Западной Сибири в эпидемический период 2004 — 2006 годов. Журн. микробиол. 2007, 6: 26-29.
  7. Элиминация кори и краснухи и предупреждение врожденной краснушной инфекции. Стратегический план Европейского региона ВОЗ 2005-2010 гг. Женева, ВОЗ, 2005.
  8. Zheng D.P., Ярулин В.Р., Зверев В.В. и др. Особенности генотипов вируса краснухи, циркулирующего в России. Журн. микробиол. 2005, 6: 19-23.
  9. Bardeletti G., Gautheron D.C. Phospolipid and cholesterol composition of rubella virus in and its host cell BHK21 grown in suspension cultures. Arch. Virol. 1976, 52: 19-29.
  10. Frey T.K., Abernathy E.S., Bosma T.J. et al. Molecular analysis of rubella virus epidemiology across three continents, North America, Europe, and Asia, 1961—1997. JID. 1998: 642-50.
  11. Hübshen J.M., Yermalovich M., Semeiko G. Co-circulation of multiple rubella virus strains in Belarus forming novel clade 1. J. Gen. Virol. 2007, 88 (7): 1960-1966.
  12. Lee J-J., Bowden D.S., Marshall G.A. Membrane junction associated with rubella virus infected cells. J. Sumbicrosc. Cytopathol. 1996, 28: 101- 108.
  13. Lee J-J., Bowden D.S. Rubella virus replication and links to teratogenicity. Clin. Microbiol. Rev. 2000, 13: 571–587.
  14. Update of standard nomenclature for wild-type rubella viruses, 2007. Wkly Epidemiol. Rec. 24, 15 June 2007.
  15. Zheng D.P., Frey T.K., Katow S. Global distribution of rubella virus genotypes. Emerg. Infect. Dis. 2003, 12 (9): 1523-1530.

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Copyright (c) 2009 Tsybalova L.M., Timofeeva E.V., Buzitskaya J.V., Gudkova T.M., Maksakova V.L., Parkov O.V.

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