Rodrigues2014-Vaccination models and optimal control strategies to dengue

Overview
Files
History

Model Identifier

MODEL2003190001

Short description

As the development of a dengue vaccine is ongoing, we simulate an hypothetical vaccine as an extra protection to the population. In a first phase, the vaccination process is studied as a new compartment in the model, and different ways of distributing the vaccines investigated: pediatric and random mass vaccines, with distinct levels of efficacy and durability. In a second step, the vaccination is seen as a control variable in the epidemiological process. In both cases, epidemic and endemic scenarios are included in order to analyze distinct outbreak realities

Model is encoded by Ruby and submitted to BioModels by Ahmad Zyoud.

Format

SBML (L2V4)

Related Publication

Vaccination models and optimal control strategies to dengue.
Rodrigues HS, Monteiro MT, Torres DF
Mathematical biosciences , 1/ 2014 , Volume 247 , pages: 1-12 , PubMed ID: 24513243

Affiliation: CIDMA — Center for Research and Development in Mathematics and Applications, University of Aveiro, Campus Universitário de Santiago, 3810-193 Aveiro, Portugal b ALGORITMI Research Centre, University of Minho, Campus de Azurém, 4800-058 Guimarães, Portugal School of Business Studies, Viana do Castelo Polytechnic Institute, Avenida Miguel Dantas, 4930-678 Valença, Portugal Department of Production and Systems, University of Minho, Campus de Gualtar, 4710-057 Braga, Portugal Department of Mathematics, University of Aveiro, Campus Universitário de Santiago, 3810-193 Aveiro, Portugal

Abstract: As the development of a dengue vaccine is ongoing, we simulate an hypothetical vaccine as an extra protection to the population. In a first phase, the vaccination process is studied as a new compartment in the model, and different ways of distributing the vaccines investigated: pediatric and random mass vaccines, with distinct levels of efficacy and durability. In a second step, the vaccination is seen as a control variable in the epidemiological process. In both cases, epidemic and endemic scenarios are included in order to analyze distinct outbreak realities.

Contributors

Submitter of the first revision: Ahmad Zyoud
Submitter of this revision: Ahmad Zyoud
Modellers: Ahmad Zyoud

Metadata information

isDescribedBy (1 statement)

PubMed 24513243

hasTaxon (1 statement)

Taxonomy Homo sapiens

hasProperty (3 statements)

Mathematical Modelling Ontology Ordinary differential equation model
NCIt Dengue Fever
NCIt Vaccine

Curation status

Non-curated

Modelling approach(es)

ordinary differential equation model

Connected external resources

SBGN view in Newt Editor

Name	Description	Size	Actions
Model files
Rodrigues2014.xml	SBML L2V4 Rodrigues2014-Vaccination models and optimal control strategies to dengue_Original	24.75 KB	Preview \| Download
Additional files
Rodrigues2014.cps	COPASI version 4.27 (Build 217) Rodrigues2014-Vaccination models and optimal control strategies to dengue_Original	58.94 KB	Preview \| Download

Model originally submitted by : Ahmad Zyoud
Submitted: Mar 19, 2020 1:22:33 PM
Last Modified: Mar 19, 2020 1:22:33 PM

Revisions

Version: 1
- Submitted on: Mar 19, 2020 1:22:33 PM
- Submitted by: Ahmad Zyoud
- With comment: Import of Rodrigues2014-Vaccination models and optimal control strategies to dengue