The Mathematical Biology of Human Infections

The Mathematical Biology of Human Infections

Humans are constant victims of infectious diseases. Biomedical research during this century has led to important insights into the molecular details of immune defense. Yet, many questions relating to disease require a quantitative understanding of the complex systems that arise from the nonlinear in...

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Bibliographic Details
Main Author: Martin A. Nowak
Format: Article
Language:English
Published: Resilience Alliance 1999-12-01
Series:Ecology and Society
Subjects:
CTL response
HIV
antivirals
epidemiology
immune response
infectious diseases
mathematical biology
models of evolution
prions
resistance
treatment
viruses
Online Access:http://www.ecologyandsociety.org/vol3/iss2/art12/
Description
Summary:Humans are constant victims of infectious diseases. Biomedical research during this century has led to important insights into the molecular details of immune defense. Yet, many questions relating to disease require a quantitative understanding of the complex systems that arise from the nonlinear interactions between populations of immune cells and infectious agents. Exploration of such questions has lead to a newly emerging field of mathematical biology describing the spread of infectious agents both within and between infected individuals. This essay will discuss simple and complex models of evolution, and the propagation of virus and prion infections. Such models provide new perspectives for our understanding of infectious disease and provide guidelines for interpreting experimental observation; they also define what needs to be measured to improve understanding.
ISSN:1708-3087

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