The three phases of the macroscopic evolution of the HIV infection are well-known, but it is still difficult to understand how the cellular-level interactions come together to create this characteristic pattern and in particular why there are such differences in individual responses. An “agent-based” approach is chosen, as a means of inferring high-level behaviour from a small set of interaction rules at the cellular level. Here the emphasis is put on the cell mobility and the viral mutations
This dissertation uses mathematical modeling to probe the causes and consequences of multi-strain vi...
<p>(A): The <i>in silico</i> experiments are performed in a 3-dimensional ellipsoidal lattice. The l...
A network model of interacting cellular elements, such as macrophages, viruses, T4 cells, and T8 cel...
The three phases of the macroscopic evolution of the HIV infection are well-known, but it is still d...
The three phases of the macroscopic evolution of the HIV infection are well known, but it is still d...
This study focuses on trying to understand why the range of experience with respect to HIV infectio...
This study focuses on examining why the range of experience with respect to HIV infection is so dive...
We report on the development of a model to understand why the range of experience with respect to HI...
The stochastic nature of early HIV infection is described in a series of models, each of which captu...
Infections can be caused by viruses, which attack certain cells within an infected host. However, th...
Researchers of HIV-1 are today, still unable to determine exactly the biological mechanisms that cau...
The models presented are discrete Monte Carlo(MC) and Cellular Automata(CA) representations of the i...
We use a cellular automata model to study the evolution of human immunodeficiency virus (HIV) infect...
The viral population of HIV-1, like many pathogens that cause systemic infection, is structured and ...
The mechanisms by which HIV-1 infection gradually depletes CD4 + T cells eventually leading to AIDS ...
This dissertation uses mathematical modeling to probe the causes and consequences of multi-strain vi...
<p>(A): The <i>in silico</i> experiments are performed in a 3-dimensional ellipsoidal lattice. The l...
A network model of interacting cellular elements, such as macrophages, viruses, T4 cells, and T8 cel...
The three phases of the macroscopic evolution of the HIV infection are well-known, but it is still d...
The three phases of the macroscopic evolution of the HIV infection are well known, but it is still d...
This study focuses on trying to understand why the range of experience with respect to HIV infectio...
This study focuses on examining why the range of experience with respect to HIV infection is so dive...
We report on the development of a model to understand why the range of experience with respect to HI...
The stochastic nature of early HIV infection is described in a series of models, each of which captu...
Infections can be caused by viruses, which attack certain cells within an infected host. However, th...
Researchers of HIV-1 are today, still unable to determine exactly the biological mechanisms that cau...
The models presented are discrete Monte Carlo(MC) and Cellular Automata(CA) representations of the i...
We use a cellular automata model to study the evolution of human immunodeficiency virus (HIV) infect...
The viral population of HIV-1, like many pathogens that cause systemic infection, is structured and ...
The mechanisms by which HIV-1 infection gradually depletes CD4 + T cells eventually leading to AIDS ...
This dissertation uses mathematical modeling to probe the causes and consequences of multi-strain vi...
<p>(A): The <i>in silico</i> experiments are performed in a 3-dimensional ellipsoidal lattice. The l...
A network model of interacting cellular elements, such as macrophages, viruses, T4 cells, and T8 cel...