Linked e-resources
Details
Table of Contents
Part I: Cancer Onset and Early Growth
Modeling spatial effects in carcinogenesis: stochastic and deterministic reaction-diffusion
Conservation law in cancer modeling
Avascular tumor growth modeling: physical insight in skin cancer
Part II: Tumor and Inter-Cellular Interactions
A cell population model structured by cell age incorporating cell-cell adhesion
A general framework for multiscale modeling of tumor?immune system interactions
The power of the tumor microenvironment: a systemic approach for a systemic disease
Part III: Anti-Tumor Therapies
Modeling immune-mediated tumor growth and treatment
Hybrid multiscale approach in cancer modelling and treatment prediction
Deterministic mathematical modelling for cancer chronotherapeutics: cell population dynamics and treatment optimization
Tumor Microenvironment and Anticancer Therapies: An Optimal Control Approach.
Modeling spatial effects in carcinogenesis: stochastic and deterministic reaction-diffusion
Conservation law in cancer modeling
Avascular tumor growth modeling: physical insight in skin cancer
Part II: Tumor and Inter-Cellular Interactions
A cell population model structured by cell age incorporating cell-cell adhesion
A general framework for multiscale modeling of tumor?immune system interactions
The power of the tumor microenvironment: a systemic approach for a systemic disease
Part III: Anti-Tumor Therapies
Modeling immune-mediated tumor growth and treatment
Hybrid multiscale approach in cancer modelling and treatment prediction
Deterministic mathematical modelling for cancer chronotherapeutics: cell population dynamics and treatment optimization
Tumor Microenvironment and Anticancer Therapies: An Optimal Control Approach.