Systems biology of tumor microenvironment : quantitative modeling and simulations
Author(s)
Bibliographic Information
Systems biology of tumor microenvironment : quantitative modeling and simulations
(Advances in experimental medicine and biology, 936)
Springer, c2016
- : hard
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
This edited volume discusses the complexity of tumor microenvironments during cancer development, progression and treatment. Each chapter presents a different mathematical model designed to investigate the interactions between tumor cells and the surrounding stroma and stromal cells. The topics covered in this book include the quantitative image analysis of a tumor microenvironment, the microenvironmental barriers in oxygen and drug delivery to tumors, the development of tumor microenvironmental niches and sanctuaries, intravenous transport of the circulating tumor cells, the role of the tumor microenvironment in chemotherapeutic interventions, the interactions between tumor cells, the extracellular matrix, the interstitial fluid, and the immune and stromal cells. Mathematical models discussed here embrace both continuous and agent-based approaches, as well as mathematical frameworks of solid mechanics, fluid dynamics and optimal control theory. The topics in each chapter will be of interest to a biological community wishing to apply the mathematical methods to interpret their experimental data, and to a biomathematical audience interested in exploring how mathematical models can be used to address complex questions in cancer biology.
Table of Contents
Foreword
Preface
List of Contributors
1. Lloyd MC, Johnson JO, Kasprzak A, Bui MM "Image Analysis of the Tumor Microenvironment"
2. Martinez-Gonzalez A, Calvo GF, Ayuso JM, Ochoa I, Fernandez LJ, Perez-Garcia VM "Hypoxia in Gliomas: Opening Therapeutical Opportunities Using a Mathematical-Based Approach"
3. Welter M, Rieger H "Computer Simulations of the Tumor Vasculature: Applications to Interstitial Fluid Flow, Drug Delivery, and Oxygen Supply"
4. He X, Lee B, Jiang Y "Cell-ECM Interactions in Tumor Invasion"
5. Rejniak KA "Circulating Tumor Cells: When Solid tumor Meets Fluid Microenvironment"
6. Lolas G, Jensen L, Bourantas G, Tsikourkitoudi V, Syrigos K "Modeling Proteolytically Driven Tumor Lymphangiogenesis"
7. Kianercy A, Pienta KJ "Positive feedback loops between inflammatory, bone and cancer cells during metastatic niche construction"
8. Perez-Velazquez J, Gevertz JL, Karolak A, Rejniak KA "Microenvironmental Niches and Sanctuaries: a Route to Acquired Resistance"
9. Curtis LT, Frieboes HB "The Tumor Microenvironment as a Barrier to Cancer Nanotherapy"
10. Gevertz JL "Microenvironment-Mediated Modeling of Tumor Response to Vascular-Targeting Drugs"
11. Ledzewicz U, Schaettler H "Optimizing Chemotherapeutic Anti-Cancer Treatment and the Tumor Microenvironment: An Analysis of Mathematical Models"
12. Macklin P, Frieboes HB, Sparks JL, Ghaffarizadeh A, Friedman SH, Juarez E, Jonckheere E, Mumenthaler S, "Progress towards computational 3-D multicellular systems biology"
Index
by "Nielsen BookData"