El Hadi Ait Dads scite author profile

An adaptation of the definition of the basic reproduction number R (0) to time-periodic seasonal models was suggested a few years ago. However, its biological interpretation remained unclear. The present paper shows that in demography, this R (0) is the asymptotic ratio of total births in two successive generations of the family tree. In epidemiology, it is the asymptotic ratio of total infections in two successive generations of the infection tree. This result is compared with other recent work.

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Genealogy with seasonality, the basic reproduction number, and the influenza pandemic

Bacaër

Dads

2010

J. Math. Biol.

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The basic reproduction number R (0) has been used in population biology, especially in epidemiology, for several decades. But a suitable definition in the case of models with periodic coefficients was given only in recent years. The definition involves the spectral radius of an integral operator. As in the study of structured epidemic models in a constant environment, there is a need to emphasize the biological meaning of this spectral radius. In this paper we show that R (0) for periodic models is still an asymptotic per generation growth rate. We also emphasize the difference between this theoretical R (0) for periodic models and the "reproduction number" obtained by fitting an exponential to the beginning of an epidemic curve. This difference has been overlooked in recent studies of the H1N1 influenza pandemic.

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On the probability of extinction in a periodic environment

Bacaër

Dads

2012

J. Math. Biol.

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For a certain class of multi-type branching processes in a continuous-time periodic environment, we show that the extinction probability is equal to (resp. less than) 1 if the basic reproduction number R(0) is less than (resp. bigger than) 1. The proof uses results concerning the asymptotic behavior of cooperative systems of differential equations. In epidemiology the extinction probability may be used as a time-periodic measure of the epidemic risk. As an example we consider a linearized SEIR epidemic model and data from the recent measles epidemic in France. Discrete-time models with potential applications in conservation biology are also discussed.

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(μ, ν)-Pseudo almost automorphic solutions for some non-autonomous differential equations

2015

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The aim of this work is to study the new concept of the (µ, ν)-pseudo almost automorphic functions for some non-autonomous differential equations. We suppose that the linear part has an exponential dichotomy. The nonlinear part is assumed to be (µ, ν)-pseudo almost automorphic. We show some results regarding the completness and the invariance of the space consisting in (µ, ν)-pseudo almost automorphic functions. Then we propose to study the existence of (µ, ν)-pseudo almost automorphic solutions for some differential equations involving reflection of the argument.

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El Hadi Ait Dads

On the biological interpretation of a definition for the parameter R 0 in periodic population models

Genealogy with seasonality, the basic reproduction number, and the influenza pandemic

On the probability of extinction in a periodic environment

(μ, ν)-Pseudo almost automorphic solutions for some non-autonomous differential equations

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