This groundbreaking book describes the emerging field of theoretical immunology, in
particular the use of mathematical models to describe the spread of infectious diseases …

Since the early 1980s there has been a tremendous effort made in the math-ematical
modeling of the human immunodeficiency virus (HIV), the virus which causes AIDS …

During the past 6 years, there have been substantial advances in our understanding of
human immunodeficiency virus 1 and other viruses, such as hepatitis B virus and hepatitis C …

We review mathematical models of HIV dynamics, disease progression, and therapy. We
start by introducing a basic model of virus infection and demonstrate how it was used to …

The recent development of potent antiviral drugs not only has raised hopes for effective
treatment of infections with HIV or the hepatitis B virus, but also has led to important …

This text discusses mathematical modelling, analysis and control of the immune system and
disease dynamics. The purpose of the book is the practical application of mathematics to …

Understanding the cellular and molecular mechanisms that control the ability of the immune
system to mount a protective response against pathogen-derived foreign antigens, but avoid …

Infection with the human immunodeficiency virus (HIV) results in severe damage to the
immune system and consequent disease (AIDS) after a long and variable incubation period …

Mathematical models have proven valuable in understanding the dynamics of HIV-1
infection in vivo. By comparing these models to data obtained from patients undergoing …

Mathematical models have been used to understand the factors that govern infectious
disease progression in viral infections. Here we focus on hepatitis B virus (HBV) dynamics …