Spatio-temporal waves and targeted vaccination in recurrent epidemic network models

Authors
Anna Litvak-Hinenzon and Lewi Stone

Abstract

The success of an infectious disease to invade a population is strongly controlled by the population’s specific connectivity structure. Here, a network model is presented as an aid in understanding the role of social behaviour and heterogeneous connectivity in determining the spatio-temporal patterns of disease dynamics. We explore the controversial origins of longterm recurrent oscillations believed to be characteristic of diseases that have a period of temporary immunity after infection. In particular, we focus on sexually transmitted diseases such as syphilis, where this controversy is currently under review. Although temporary immunity plays a key role, it is found that, in realistic small-world networks, the social and sexual behaviour of individuals also has a great influence in generating long-term cycles. The model generates circular waves of infection with unusual spatial dynamics that depend on focal areas that act as pacemakers in the population. Eradication of the disease can be efficiently achieved by eliminating the pacemakers with a targeted vaccination scheme. A simple difference equation model is derived, which captures the infection dynamics of the network model and gives insights into their origins and their eradication through vaccination. Illustrative videos may be found in the electronic supplementary material.

Keywords
small-world networks; vaccination; sexually transmitted disease; epidemic model; temporary immunity

J. of the Royal Society Interface
Published online before print October 28, 2008, doi: 10.1098/​rsif.2008.0343

Full Text PDF

Captions for Supplementary Videos (of epidemics spread, vaccination and extinction)
White - Susceptible, Red - Infectious, Green - Recovered, Blue - Vaccinated

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Symmetry-breaking perturbations and strange attractors

Authors
Anna Litvak-Hinenzon and Vered Rom-Kedar

Abstract
The asymmetrically forced, damped Duffing oscillator is introduced as a prototype model for analyzing the homoclinic tangle of symmetric dissipative systems with symmetry-breaking disturbances. Even a slight fixed asymmetry in the perturbation may cause a substantial change in the asymptotic behavior of the system, e.g., transitions from two-sided to one-sided strange attractors as the other parameters are varied. Moreover, slight asymmetries may cause substantial differences in the relative size of the basins of attraction of the two wells. These changes seem to be associated with homoclinic bifurcations. Numerical evidence indicates that strange attractors appear near curves corresponding to specific secondary homoclinic ifurcations. These curves are found using analytical perturbational tools.

PACS numbers
05.451b, 02.30.Hq, 46.90.1s

Published in
Phys. Rev. E. 55(5), pp 4964-4978, 1997

To view full text in pdf

About Me

I am a Mathematician.

Some of my Research Interests in the past and present include:
Dynamical systems; Nonlinear dynamics; Mathematical Biology;
Machine Learning;
Population Dynamics; Networks; Epidemiology; Vaccination Schemes;
Hamiltonian dynamics;
Resonances in near integrable Hamiltonian systems and instabilities;
Chaos; Strange attractors;
Bifurcations; Near integrable dynamics; Near Hamiltonian dynamics (slight dissipation);
Homoclinic tangles; Homoclinic bifurcations; Asymmetry perturbations;
Discrete Breathers (DB); Quantum DB and their applications;

Ph.D. - The Weizmann Institute Of Science, Rehovot, Israel, 2000.
Thesis: Parabolic resonances in Hamiltonian systems
Advisor: Prof. Vered Rom-Kedar
M.Sc. thesis (1996): The homoclinic tangle of slightly dissipative, forced, two dimensional systems
B.A. in Mathematics and in Fine Arts, University of Haifa, Israel, 1993.

At the beginning of the 21st century (2000-2004) I was a PostDoc at the Mathematics Institute, University of Warwick, Coventry, UK.
First, as a LOCNET Postdoctoral Research Fellow of Prof. Robert S. MacKay
and then as a Marie Curie Individual Research Fellow.
(LOCNET was a EC RTN on: Localisation by Nonlinearity and Spatial Discreteness, and Energy Transfer, in Crystals, Biomolecules and Josephson Arrays)

Then, I have spent some time researching and lecturing Bio-Maths (2005-2008), enjoying research on epidemiology, population networks and small world (and the world is small, I have checked), with Prof. Lewi Stone, at the Bio-Mathematics Unit at the Tel-Aviv University, Israel.

Currently I work at ViryaNet as Director of Performance Management; at the past I worked at two lovely start-ups, was engaged in mathematical algorithms and research & development in machine learning.

I am a part of a family including:Mom (me), Dad, two amazing Kids,
a Dog, a Cat, and some more Pets

On top of the mentioned above I also enjoy practicing Kan-Rei-Kai Karate and playing the flute.