Mathematical Modelling of Cancer Stem Cell-Targeted Immunotherapy.

Mathematical Modelling of Cancer Stem Cell-Targeted Immunotherapy. Math Biosci. 2019 Oct 14;:108269 Authors: Sigal D, Przedborski M, Sivaloganathan D, Kohandel M Abstract The cancer stem cell hypothesis states that tumors are heterogeneous and comprised of several different cell types that have a range of reproductive potentials. Cancer stem cells (CSCs), represent one class of cells that has both reproductive potential and the ability to differentiate. These cells are thought to drive the progression of aggressive and recurring cancers since they give rise to all other constituent cells within a tumor. With the development of immunotherapy in the last decade, the specific targeting of CSCs has become feasible and presents a novel therapeutic approach. In this paper, we construct a mathematical model to study how specific components of the immune system, namely dendritic cells and cytotoxic T-cells interact with different cancer cell types (CSCs and non-CSCs). Using a system of ordinary differential equations, we model the effects of immunotherapy, specifically dendritic cell vaccines and T-cell adoptive therapy, on tumor growth, with and without chemotherapy. The model reproduces several results observed in the literature, including temporal measurements of tumor size from in vivo experiments, and it is used to predict the optimal treatment schedule when combining different treatment modalities. Importantly, the model also demonstra...
Source: Mathematical Biosciences - Category: Statistics Authors: Tags: Math Biosci Source Type: research