Literature DB >> 1578191

Small amplitude, long period outbreaks in seasonally driven epidemics.

I B Schwartz1.   

Abstract

It is now documented that childhood diseases such as measles, mumps, and chickenpox exhibit a wide range of recurrent behavior (periodic as well as chaotic) in large population centers in the first world. Mathematical models used in the past (such as the SEIR model with seasonal forcing) have been able to predict the onset of both periodic and chaotic sustained epidemics using parameters of childhood diseases. Although these models possess stable solutions which appear to have the correct frequency content, the corresponding outbreaks require extremely large populations to support the epidemic. This paper shows that by relaxing the assumption of uniformity in the supply of susceptibles, simple models predict stable long period oscillatory epidemics having small amplitude. Both coupled and single population models are considered.

Mesh:

Year:  1992        PMID: 1578191     DOI: 10.1007/bf00160532

Source DB:  PubMed          Journal:  J Math Biol        ISSN: 0303-6812            Impact factor:   2.259


  14 in total

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Authors:  J A Yorke; N Nathanson; G Pianigiani; J Martin
Journal:  Am J Epidemiol       Date:  1979-02       Impact factor: 4.897

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Authors:  G Sugihara; R M May
Journal:  Nature       Date:  1990-04-19       Impact factor: 49.962

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Journal:  J Math Biol       Date:  1986       Impact factor: 2.259

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Authors:  R M Anderson; R M May
Journal:  Nature       Date:  1979-08-02       Impact factor: 49.962

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Authors:  J A Yorke; W P London
Journal:  Am J Epidemiol       Date:  1973-12       Impact factor: 4.897

6.  Recurrent outbreaks of measles, chickenpox and mumps. I. Seasonal variation in contact rates.

Authors:  W P London; J A Yorke
Journal:  Am J Epidemiol       Date:  1973-12       Impact factor: 4.897

7.  Infinite subharmonic bifurcation in an SEIR epidemic model.

Authors:  I B Schwartz; H L Smith
Journal:  J Math Biol       Date:  1983       Impact factor: 2.259

8.  Measles in England and Wales--I: An analysis of factors underlying seasonal patterns.

Authors:  P E Fine; J A Clarkson
Journal:  Int J Epidemiol       Date:  1982-03       Impact factor: 7.196

9.  Oscillatory phenomena in a model of infectious diseases.

Authors:  Z Grossman
Journal:  Theor Popul Biol       Date:  1980-10       Impact factor: 1.570

10.  Directly transmitted infections diseases: control by vaccination.

Authors:  R M Anderson; R M May
Journal:  Science       Date:  1982-02-26       Impact factor: 47.728
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  11 in total

1.  Serotype cycles in cholera dynamics.

Authors:  Katia Koelle; Mercedes Pascual; Md Yunus
Journal:  Proc Biol Sci       Date:  2006-11-22       Impact factor: 5.349

2.  Impact of vaccination on the spatial correlation and persistence of measles dynamics.

Authors:  B M Bolker; B T Grenfell
Journal:  Proc Natl Acad Sci U S A       Date:  1996-10-29       Impact factor: 11.205

3.  Seasonal dynamics in an SIR epidemic system.

Authors:  E Augeraud-Véron; N Sari
Journal:  J Math Biol       Date:  2013-02-13       Impact factor: 2.259

4.  Rewiring for adaptation.

Authors:  Ira B Schwartz; Leah B Shaw
Journal:  Physics (College Park Md)       Date:  2010-02-22

5.  Modeling seasonal rabies epidemics in China.

Authors:  Juan Zhang; Zhen Jin; Gui-Quan Sun; Xiang-Dong Sun; Shigui Ruan
Journal:  Bull Math Biol       Date:  2012-03-01       Impact factor: 1.758

6.  Seasonal infectious disease epidemiology.

Authors:  Nicholas C Grassly; Christophe Fraser
Journal:  Proc Biol Sci       Date:  2006-10-07       Impact factor: 5.349

7.  Disease persistence in epidemiological models: the interplay between vaccination and migration.

Authors:  Jackson Burton; Lora Billings; Derek A T Cummings; Ira B Schwartz
Journal:  Math Biosci       Date:  2012-05-28       Impact factor: 2.144

8.  Positive periodic solutions of an epidemic model with seasonality.

Authors:  Gui-Quan Sun; Zhenguo Bai; Zi-Ke Zhang; Tao Zhou; Zhen Jin
Journal:  ScientificWorldJournal       Date:  2013-11-10

Review 9.  Modeling the transmission dynamics and control of rabies in China.

Authors:  Shigui Ruan
Journal:  Math Biosci       Date:  2017-02-08       Impact factor: 2.144

10.  Analysis of an SIR epidemic model with pulse vaccination and distributed time delay.

Authors:  Shujing Gao; Zhidong Teng; Juan J Nieto; Angela Torres
Journal:  J Biomed Biotechnol       Date:  2007
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