Book contents
- Frontmatter
- Contents
- Introduction
- Participants
- Non-Participant Contributors
- Part 1 Transmissible diseases with long development times and vaccination strategies
- Part 2 Dynamics of immunity (development of disease within individuals)
- Part 3 Population heterogeneity (mixing)
- Part 4 Consequences of treatment interventions
- Conflicts between the individual and communities in treatment and control
- The design and analysis of HIV clinical trials
- A theory of population dynamics used for improving control of viral diseases: AZT chemotherapy and measles vaccination policy
- The ONCHOSIM model and it use in decision support for river blindness control
- Invited Discussion
- Invited Discussion
- Hydatid disease
- Vaccines and herd immunity: consequences for vaccine evaluation
- An epidemiological approach to the evaluation of disease control strategies for intestinal helminth infections: an age structured model
- The control of directly transmitted infections by pulse vaccination: concepts and preliminary studies
- Operational models for the prevention of blindness
- Part 5 Prediction
A theory of population dynamics used for improving control of viral diseases: AZT chemotherapy and measles vaccination policy
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
- Part 2 Dynamics of immunity (development of disease within individuals)
- Part 3 Population heterogeneity (mixing)
- Part 4 Consequences of treatment interventions
- Conflicts between the individual and communities in treatment and control
- The design and analysis of HIV clinical trials
- A theory of population dynamics used for improving control of viral diseases: AZT chemotherapy and measles vaccination policy
- The ONCHOSIM model and it use in decision support for river blindness control
- Invited Discussion
- Invited Discussion
- Hydatid disease
- Vaccines and herd immunity: consequences for vaccine evaluation
- An epidemiological approach to the evaluation of disease control strategies for intestinal helminth infections: an age structured model
- The control of directly transmitted infections by pulse vaccination: concepts and preliminary studies
- Operational models for the prevention of blindness
- Part 5 Prediction
Summary
Introduction
Virulence of pathogens, the origin and growth of neoplasias, and their treatment by chemotherapy or vaccination, are problems involving many complex processes on different organizational levels of the biological system. In recent years molecular biology has made an important step forward in identifying major elements in these processes. Yet, it becomes increasingly clear that in many cases prognosis is determined by the dynamic interaction between elements of the system, rather than by their presence or absence.
Today, thanks to the efforts of Anderson, Dietz, Hethcote, May and others, it is not a strange idea to employ population dynamics theory for identifying optimal vaccination strategies for human populations. In contrast, drug protocols for individual patients are still determined by trial and error.
The present paper attempts to show how a theory of population dynamics in perturbed environments proves useful for studying disease processes across several organizational levels of the biological system. A method for increasing selectivity of AZT treatment of HIV infected individuals, and a method for improving measles vaccination policy will be described, both being motivated by the same general theory.
The relation between the population and the environmental periodicities
Until recently, the approach to population dynamics was governed by the concept of equilibrium, and environmental disturbances, although much alluded to, were seldom incorporated in the analysis of life-history strategies. In contrast to the predominant view, my work investigates population dynamics over a wide spectrum of time-scales for the environmental perturbation.
- Type
- Chapter
- Information
- Models for Infectious Human DiseasesTheir Structure and Relation to Data, pp. 348 - 359Publisher: Cambridge University PressPrint publication year: 1996