Literature DB >> 7843359

A mathematical model for the European spread of influenza.

A Flahault1, S Deguen, A J Valleron.   

Abstract

Following a study modelling the geographical spread of influenza in France, on the basis of population movements through the use of railroad data, we applied the same methodology on a European scale. We simulated an epidemic within a network of 9 European cities (Amsterdam, Berlin, Budapest, Copenhagen, London, Madrid, Milano, Paris, Stockholm), only taking into account regular between-cities air transport. Transportation data were obtained from the International Civil Aviation Organization (1991). The theoretical results show that the time lag for action is probably short (less than one month) after the first detection of an epidemic focus.

Mesh:

Year:  1994        PMID: 7843359     DOI: 10.1007/bf01719679

Source DB:  PubMed          Journal:  Eur J Epidemiol        ISSN: 0393-2990            Impact factor:   8.082


  1 in total

1.  Modelling the 1985 influenza epidemic in France.

Authors:  A Flahault; S Letrait; P Blin; S Hazout; J Ménarés; A J Valleron
Journal:  Stat Med       Date:  1988-11       Impact factor: 2.373
  1 in total
  22 in total

1.  Impact on immunization of seasonal cycle of chickenpox.

Authors:  S Deguen; A Flahault
Journal:  Eur J Epidemiol       Date:  2000       Impact factor: 8.082

2.  Assessing the impact of airline travel on the geographic spread of pandemic influenza.

Authors:  Rebecca F Grais; J Hugh Ellis; Gregory E Glass
Journal:  Eur J Epidemiol       Date:  2003       Impact factor: 8.082

3.  Modeling the spread of annual influenza epidemics in the U.S.: the potential role of air travel.

Authors:  R F Grais; J H Ellis; A Kress; G E Glass
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4.  Potential intensive care unit ventilator demand/capacity mismatch due to novel swine-origin H1N1 in Canada.

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Review 5.  Translational systems approaches to the biology of inflammation and healing.

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Journal:  Immunopharmacol Immunotoxicol       Date:  2010-06       Impact factor: 2.730

6.  The geographical spread of influenza.

Authors:  E Bonabeau; L Toubiana; A Flahault
Journal:  Proc Biol Sci       Date:  1998-12-22       Impact factor: 5.349

7.  Geographic and temporal trends in influenzalike illness, Japan, 1992-1999.

Authors:  Takatsugu Sakai; Hiroshi Suzuki; Asami Sasaki; Reiko Saito; Naohito Tanabe; Kiyosu Taniguchi
Journal:  Emerg Infect Dis       Date:  2004-10       Impact factor: 6.883

Review 8.  Modeling influenza epidemics and pandemics: insights into the future of swine flu (H1N1).

Authors:  Brian J Coburn; Bradley G Wagner; Sally Blower
Journal:  BMC Med       Date:  2009-06-22       Impact factor: 8.775

9.  A model for social spreading of Covid-19: Cases of Mexico, Finland and Iceland.

Authors:  Rafael A Barrio; Kimmo K Kaski; Guđmundur G Haraldsson; Thor Aspelund; Tzipe Govezensky
Journal:  Physica A       Date:  2021-07-17       Impact factor: 3.263

10.  Modeling the impact of air, sea, and land travel restrictions supplemented by other interventions on the emergence of a new influenza pandemic virus.

Authors:  Ka Chun Chong; Benny Chung Ying Zee
Journal:  BMC Infect Dis       Date:  2012-11-19       Impact factor: 3.090
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