Book contents
- Frontmatter
- Contents
- Introduction
- Participants
- Non-Participant Contributors
- Part 1 Transmissible diseases with long development times and vaccination strategies
- Overview of data analysis: diseases with long development times
- HPV and cervical cancer
- An age-structured model for measles vaccination
- Invited Discussion
- Invited Discussion
- Piece-wise constant models to estimate age- and time-specific incidence of toxoplasmosis from age- and time-specific seroprevalence data
- New methodology for AIDS back calculation
- Imperfect HIV vaccines, the consequences for epidemic control and clinical trials
- Feasibility of prophylactic HIV-vaccine trials: some statistical issues
- The design of immunisation programmes against hepatitis B virus in developing countries
- The effect of different mixing patterns on vaccination programs
- Optimal vaccination patterns in age-structured populations I: the reproduction number
- Optimal vaccination patterns in age-structured populations II: optimal strategies
- Part 2 Dynamics of immunity (development of disease within individuals)
- Part 3 Population heterogeneity (mixing)
- Part 4 Consequences of treatment interventions
- Part 5 Prediction
HPV and cervical cancer
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Introduction
- Participants
- Non-Participant Contributors
- Part 1 Transmissible diseases with long development times and vaccination strategies
- Overview of data analysis: diseases with long development times
- HPV and cervical cancer
- An age-structured model for measles vaccination
- Invited Discussion
- Invited Discussion
- Piece-wise constant models to estimate age- and time-specific incidence of toxoplasmosis from age- and time-specific seroprevalence data
- New methodology for AIDS back calculation
- Imperfect HIV vaccines, the consequences for epidemic control and clinical trials
- Feasibility of prophylactic HIV-vaccine trials: some statistical issues
- The design of immunisation programmes against hepatitis B virus in developing countries
- The effect of different mixing patterns on vaccination programs
- Optimal vaccination patterns in age-structured populations I: the reproduction number
- Optimal vaccination patterns in age-structured populations II: optimal strategies
- Part 2 Dynamics of immunity (development of disease within individuals)
- Part 3 Population heterogeneity (mixing)
- Part 4 Consequences of treatment interventions
- Part 5 Prediction
Summary
Introduction
Cervical cancer is the second commonest female cancer worldwide. Over the last few years, the evidence that sexually transmitted human papillomavirus (HPV) infection is involved in the development of most cases of cervical cancer has become virtually conclusive (Howley 1991, Schiffman 1992). HPV is therefore among the most important targets for practical cancer prevention. Screening for HPV is cheap and reliable, and animal studies suggest that vaccination may prove effective both in curing established infection and in preventing re-infection (Campo et al. 1993).
Against this background, formal modelling of the transmission and persistence of HPV infection would be a useful next step towards understanding the epidemic. The data required for preliminary simple models are beginning to emerge from case-control and prospective studies, but it is already clear that the natural history of infection is complex and heterogeneous. Statistical models of the natural history of various chronic diseases are reviewed by Gore (this volume). As for HIV, HPV susceptibility and infectiousness may be significantly influenced by other sexually transmitted infections as well as by genetic and immunological host factors.
The aim of this paper is to summarise the evidence that HPV is the cause of most cervical cancers, and to indicate what data should now be collected to elucidate its transmission dynamics. There have been rapid advances over the last few years in HPV diagnostic methods and our understanding of the relationship between HPV, dysplasia and malignancy. Much of the material summarised below is described in the recent IARC Scientific Report entitled The Epidemiology of HPV and Cervical Cancer (IARC 1992).
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- Models for Infectious Human DiseasesTheir Structure and Relation to Data, pp. 28 - 37Publisher: Cambridge University PressPrint publication year: 1996