Title of article
Computational and Mathematical Methods to Estimate the Basic Reproduction Number and Final Size for Single-Stage and Multistage Progression Disease Models for Zika with Preventative Measures
Author/Authors
Padmanabhan, P Foxcroft School - Middleburg, USA , Seshaiyer, P Department of Mathematical Sciences - George Mason University - Fairfax, USA
Pages
17
From page
1
To page
17
Abstract
We present new mathematical models that include the impact of using selected preventative measures such as insecticide treated
nets (ITN) in controlling or ameliorating the spread of the Zika virus. For these models, we derive the basic reproduction number
and sharp estimates for the final size relation. We first present a single-stage model which is later extended to a new multistage model
for Zika that incorporates more realistic incubation stages for both the humans and vectors. For each of these models, we derive
a basic reproduction number and a final size relation estimate. We observe that the basic reproduction number for the multistage
model converges to expected values for a standard Zika epidemic model with fixed incubation periods in both hosts and vectors.
Finally, we also perform several computational experiments to validate the theoretical results obtained in this work and study the
influence of various parameters on the models.
Keywords
Single-Stage , Zika , ITN , Basic
Journal title
Computational and Mathematical Methods in Medicine
Serial Year
2017
Full Text URL
Record number
2608211
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