Part I Towards a Comprehensive Theory of Cancer Growth
Combining Game Theory and Graph Theory to Model Interactions between Cells in the Tumor Microenvironment
Growth as the Root of all Evil in Carcinomas: Synergy between pH Buffering and Anti-Angiogenesis prevents Emergence of Hallmarks of Cancer
Phase Transitions in Cancer
Part II Cancer Related Signalling Pathways
Spatio-Temporal Modelling of Intracellular Signalling Pathways: Transcription Factors, Negative Feedback Systems and Oscillations
Understanding Cell Fate Decisions by Identifying Crucial System Dynamics
Modelling Biochemical Pathways with the Calculus of Looping Sequences
Dynamic Simulations of Pathways Downstream of TGFβ, Wnt and EGF-Family Growth Factors, in Colorectal Cancer, including Mutations and Treatments with Onco-Protein Inhibitors
Part III Basic Mechanisms of Tumor Progression
Some Results on the Population Behavior of Cancer Stem Cells
Glucose Metabolism in Multicellular Spheroids, ATP Production and Effects of Acidity
Cell-Cell Interactions in Solid Tumors - the Role of Cancer Stem Cells
Hybrid Cellular Potts Model for Solid Tumor Growth
Part IV Tumor-Immune System Interplay and Immunotherapy
Computational Models as Novel Tools for Cancer Vaccines
On the Dynamics of Tumor-Immune System Interactions and Combined Chemo- and Immunotherapy
Modeling the Kinetics of the Immune Response
Part V Computational Method for Improving Chemotherapy.- Optimizing Cancer Chemotherapy: from Mathematical Theories to Clinical Treatment
A Systems Biomedicine Approach for Chronotherapeutics Optimization: Focus on the Anticancer Drug Irinotecan
Modeling the Dynamics of HCV Infected Cells to Tailor Antiviral Therapy in Clinical Practice: Can This Approach Fit for Neoplastic Cells?
Introducing Drug Transport Early in the Design of Hypoxia Selective Anticancer Agents Using a Mathematical Modelling Approach
Top-Down Multiscale Simulation of Tumor Response to Treatment in the Context of In Silico Oncology. The Notion of Oncosimulator
Challenges in the Integration of Flow Cytometry and Time-Lapse Live Cell Imaging Data Using a Cell Proliferation Model
Part I Towards a Comprehensive Theory of Cancer Growth
Combining Game Theory and Graph Theory to Model Interactions between Cells in the Tumor Microenvironment
Growth as the Root of all Evil in Carcinomas: Synergy between pH Buffering and Anti-Angiogenesis prevents Emergence of Hallmarks of Cancer
An Overview of Durability and Damage Tolerance Methodology at NASA Langley Research Center, Jonathan Ransom, Edward Glaessgen, James Ratcliffe
On the -convergence Theory and its Application to Block Copolymer Morphology, Xiaofeng Ren
‘Rainbows’ in homogeneous and radially inhomogeneous spheres: connections with ray, wave and potential scattering theory, John Adam
Understanding the Dynamics of Collision and near-collision motion in the N-body problem, Lennard Bakker
Absolute Stability and Conditional Stability in General Delayed Differential Equations, Junping Shi
Existence of Antiperiodic solutions to semilinear evolution equations in intermediate Banach Spaces, Gaston N’Guerekata, Gisele Mophou
Signal, Image Processing and Machine Learning; The Key to Complex Problems in Medicine and Biology, Masha Zahery, Kayvan Najarian
Real-Time Noise Cancellation using Wavelet Transforms, Eshan Sheybani
Null Controllability of the heat equation with two constraints on the control: application to a discriminating sentinel with given sensitivity, Ousseynou Nakoulima, Sadou Tao
A Galerkin Method Solution of Heat Transfer Problems in Closed Channels: Fluid Flow Analysis, Nasser Ghariban
Optimal Control for Distributed Linear Systems subjected to Null-controllability with constraints on the state, Michelle Mercan
Almost and Pseudo-almost Limit Cycles with Applications to quasiperiodic Solitary Waves, Bourama Toni, Melissa Watts
On Almost periodic Stochastic Difference Equations, Paul Bezandry
An Overview of Durability and Damage Tolerance Methodology at NASA Langley Research Center, Jonathan Ransom, Edward Glaessgen, James Ratcliffe
On the -convergence Theory and its Application to Block Copolymer Morphology, Xiaofeng Ren
‘Rainbows’ in homogeneous and radially inhomogeneous spheres: connections with ray, wave and potential scattering theory, John Adam
1 Cardiac Arrhythmias: Mechanistic Knowledge and Innovation from Computer Models. Natalia A. Trayanova and Patrick M. Boyle
2 Discrete Mechanical Modeling of Mechanoelectrical Feedback in Cardiac Tissue: Novel Mechanisms of Spiral Wave Initiation. Louis D. Weise and Alexander V. Panfilov
3 Multiscale Modelling of Cardiac Perfusion. Jack Lee, Andrew Cookson, Radomir Chabiniok, Simone Rivolo, Eoin Hyde, Matthew Sinclair, Christian Michler, Taha Sochi and Nicolas Smith
4 Using image-based CFD to investigate the intracardiac turbulence. C. Chnafa, S. Mendez, R. Moreno and F. Nicoud
5 Multiscale Modeling of Sickle Cell Anemia. Huan Lei and George Em Karniadakis
6 A three-dimensional continuum model of active contraction in single cardiomyocytes. Alessio Gizzi, Ricardo Ruiz-Baier, Simone Rossi, Aymen Laadhari, Christian Cherubini, and Simonetta Filippi
7 On the Assumption of Laminar ow in Physiological Flows: Cerebral Aneurysms as an Illustrative Example. Oyvind Evju and Kent-Andre Mardal
8 Effects of poroelasticity on fluid-structure interaction in arteries: a computational sensitivity study. M. Bukac, I. Yotov, R. Zakerzadeh, P. Zunino
9 Personalized Anatomical Meshing of Human Body with Applications. Yuri Vassilevski, Alexander Danilov, Yuri Ivanov, Sergey Simakov and Timur Gamilov
1 Cardiac Arrhythmias: Mechanistic Knowledge and Innovation from Computer Models. Natalia A. Trayanova and Patrick M. Boyle
2 Discrete Mechanical Modeling of Mechanoelectrical Feedback in Cardiac Tissue: Novel Mechanisms of Spiral Wave Initiation. Louis D. Weise and Alexander V. Panfilov
3 Multiscale Modelling of Cardiac Perfusion. Jack Lee, Andrew Cookson, Radomir Chabiniok, Simone Rivolo, Eoin Hyde, Matthew Sinclair, Christian Michler, Taha Sochi and Nicolas Smith