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- Title
Stochastic Model of Bovine Babesiosis with Juvenile and Adult Cattle.
- Authors
Wang, Xueying; Saad-Roy, Chadi M.; van den Driessche, P.
- Abstract
A stochastic model for Bovine Babesiosis (BB) including ticks, and both juvenile and adult cattle is developed. This model is formulated by a system of continuous-time Markov chains (CTMCs) that is derived based on an extension of the deterministic ordinary differential equation model developed by Saad-Roy et al. (Bull Math Biol 77:514–547, 2015). The nonlinear CTMC model is approximated by a multitype branching process, giving a theoretical estimate of the probability of an outbreak of BB. Unlike the deterministic dynamics where the basic reproduction number is a sharp threshold parameter, the stochastic model indicates that there is always a positive probability of disease extinction within the cattle population. For parameter values from Colombia data, conditional probability distributions are numerically obtained for the time to disease extinction or outbreak, and are found to depend on the host type at the initiation of infection. The models with and without the inclusion of juvenile cattle are compared, and our result highlights that neglecting juvenile bovine in the models may lead to faulty predictions of critical disease statistics: particularly, it may underestimate the risk of infection. Endemic disease prevalence in adult cattle is examined for certain parameter values in the corresponding deterministic model. Notably, with long-lasting immunity, increased tick to juvenile infectivity decreases the proportion of infectious adults.
- Subjects
COLOMBIA; STOCHASTIC models; BASIC reproduction number; BABESIOSIS; CATTLE; BRANCHING processes; MARKOV processes
- Publication
Bulletin of Mathematical Biology, 2020, Vol 82, Issue 6, p1
- ISSN
0092-8240
- Publication type
Article
- DOI
10.1007/s11538-020-00734-x