Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada

Mathematical models provide unique insights to real-world problems. Within the context of infectious diseases, models are used to explore the dynamics of infections and control mechanisms. Human papillomavirus (HPV) globally infects about 630 million people, many of these infections develop into can...

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Bibliographic Details
Main Author: Rogers, Carley
Language:en
Published: 2013
Subjects:
HPV
Online Access:http://hdl.handle.net/10393/26228
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.#10393-262282014-06-14T03:50:33ZUsing Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in CanadaRogers, CarleyMathematical ModelODEsHuman PapillomavirusHPVvaccineCanadaOrdinary Differential EquationsDosing ScheduleGrade of VaccinationDoseNational Immunization ProgramLiterature ReviewMathematical models provide unique insights to real-world problems. Within the context of infectious diseases, models are used to explore the dynamics of infections and control mechanisms. Human papillomavirus (HPV) globally infects about 630 million people, many of these infections develop into cancers and genital warts. Vaccines are available to protect against the most prevalent and devastating strains of HPV. The introduction of this vaccine as part of a national immunization program in Canada is a complex decision for policy-makers in which mathematical models can play a key role. We use the current recommendations provided by the World Health Organization to explore the integral role mathematical models have in the decision to incorporate the HPV vaccine within a national immunization program. We then provide a review of the literature discussing the role of mathematical models in the decision to include a vaccine in a national immunization program within the context of the HPV vaccine. Next, we evaluate the current standing of mathematical models used within the context of HPV immunization, to highlight the types of models used, underlying assumptions and general recommendations made about these immunization programs. Then, we create and analyze a model to explore the possibility of bettering the current HPV vaccine strategy in Canada. We focus on the effects of the grade of vaccination and the number of doses required to eradicate the targeted strains of HPV.2013-10-09T17:59:48Z2013-10-09T17:59:48Z20132013-10-09Thèse / Thesishttp://hdl.handle.net/10393/26228en
collection NDLTD
language en
sources NDLTD
topic Mathematical Model
ODEs
Human Papillomavirus
HPV
vaccine
Canada
Ordinary Differential Equations
Dosing Schedule
Grade of Vaccination
Dose
National Immunization Program
Literature Review
spellingShingle Mathematical Model
ODEs
Human Papillomavirus
HPV
vaccine
Canada
Ordinary Differential Equations
Dosing Schedule
Grade of Vaccination
Dose
National Immunization Program
Literature Review
Rogers, Carley
Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
description Mathematical models provide unique insights to real-world problems. Within the context of infectious diseases, models are used to explore the dynamics of infections and control mechanisms. Human papillomavirus (HPV) globally infects about 630 million people, many of these infections develop into cancers and genital warts. Vaccines are available to protect against the most prevalent and devastating strains of HPV. The introduction of this vaccine as part of a national immunization program in Canada is a complex decision for policy-makers in which mathematical models can play a key role. We use the current recommendations provided by the World Health Organization to explore the integral role mathematical models have in the decision to incorporate the HPV vaccine within a national immunization program. We then provide a review of the literature discussing the role of mathematical models in the decision to include a vaccine in a national immunization program within the context of the HPV vaccine. Next, we evaluate the current standing of mathematical models used within the context of HPV immunization, to highlight the types of models used, underlying assumptions and general recommendations made about these immunization programs. Then, we create and analyze a model to explore the possibility of bettering the current HPV vaccine strategy in Canada. We focus on the effects of the grade of vaccination and the number of doses required to eradicate the targeted strains of HPV.
author Rogers, Carley
author_facet Rogers, Carley
author_sort Rogers, Carley
title Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
title_short Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
title_full Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
title_fullStr Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
title_full_unstemmed Using Mathematical Modelling to Evaluate Human Papillomavirus Vaccination Programs in Canada
title_sort using mathematical modelling to evaluate human papillomavirus vaccination programs in canada
publishDate 2013
url http://hdl.handle.net/10393/26228
work_keys_str_mv AT rogerscarley usingmathematicalmodellingtoevaluatehumanpapillomavirusvaccinationprogramsincanada
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