Threshold conditions for a non-autonomous epidemic system describing the population dynamics of dengue

Threshold conditions for a non-autonomous epidemic system describing the population dynamics of dengue

A non-autonomous dynamical system, in which the seasonal variation of a mosquito vector population is modeled, is proposed to investigate dengue overwintering. A time-dependent threshold, R(t), is deduced such that when its yearly average, denoted by R, is less than 1, the disease does not invade th...

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Veröffentlicht in:Bulletin of mathematical biology 2006-11, Vol.68 (8), p.2263-2282
Hauptverfasser: Coutinho, F A B, Burattini, M N, Lopez, L F, Massad, E
Format: Artikel
Sprache:eng
Schlagworte:
Aedes - growth & development
Aedes - virology
Animals
Brazil - epidemiology
Computer Simulation
Dengue - epidemiology
Dengue - transmission
Dengue - virology
Dengue Virus - growth & development
Disease Outbreaks
Female
Humans
Insect Vectors - growth & development
Insect Vectors - virology
Models, Biological
Seasons
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Beschreibung
Zusammenfassung:A non-autonomous dynamical system, in which the seasonal variation of a mosquito vector population is modeled, is proposed to investigate dengue overwintering. A time-dependent threshold, R(t), is deduced such that when its yearly average, denoted by R, is less than 1, the disease does not invade the populations and when R is greater than 1 it does. By not invading the population we mean that the number of infected individuals always decrease in subsequent seasons of transmission. Using the same threshold, all the qualitative features of the resulting epidemic can be understood. Our model suggests that trans-ovarial infection in the mosquitoes facilitates dengue overwintering. We also explain the delay between the peak in the mosquitoes population and the peak in dengue cases.
ISSN:0092-8240
1522-9602
DOI:10.1007/s11538-006-9108-6