A HYBRID MODEL FOR TUMOR SPHEROID GROWTH IN VITRO I: THEORETICAL DEVELOPMENT AND EARLY RESULTS
From MaRDI portal
Publication:5386714
DOI10.1142/S0218202507002479zbMath1135.92016OpenAlexW2156447979MaRDI QIDQ5386714
Hans G. Othmer, Magdalena A. Stolarska, Yang-Jin Kim
Publication date: 14 May 2008
Published in: Mathematical Models and Methods in Applied Sciences (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0218202507002479
Reaction-diffusion equations (35K57) PDEs in connection with biology, chemistry and other natural sciences (35Q92) Medical applications (general) (92C50) Biomechanical solid mechanics (74L15) Cell biology (92C37)
Related Items
Existence of solutions for hybrid systems of differential equations under exogenous information with discontinuous source term ⋮ The formation of tight tumor clusters affects the efficacy of cell cycle inhibitors: a hybrid model study ⋮ Multiscale cancer modeling: In the line of fast simulation and chemotherapy ⋮ A hybrid model of tumor-stromal interactions in breast cancer ⋮ Transformed epithelial cells and fibroblasts/myofibroblasts interaction in breast tumor: a mathematical model and experiments ⋮ A multiscale model for heterogeneous tumor spheroid in vitro ⋮ Differentiated cell behavior: a multiscale approach using measure theory ⋮ Coarse-graining and hybrid methods for efficient simulation of stochastic multi-scale models of tumour growth ⋮ The role of the microenvironment in regulation of CSPG-driven invasive and non-invasive tumor growth in glioblastoma. Brain tumor growth ⋮ What mathematical models can or cannot do in glioma description and understanding ⋮ ON THE FOUNDATIONS OF CANCER MODELLING: SELECTED TOPICS, SPECULATIONS, AND PERSPECTIVES ⋮ Mathematical modeling of the proliferation gradient in multicellular tumor spheroids ⋮ Modeling the role of TGF-\(\beta\) in regulation of the Th17 phenotype in the LPS-driven immune system ⋮ Three-dimensional multispecies nonlinear tumor growth. II: Tumor invasion and angiogenesis ⋮ PREFACE — CHALLENGING MATHEMATICAL PROBLEMS IN CANCER MODELLING ⋮ Multi-scale models of cell and tissue dynamics ⋮ Bayesian inference of agent-based models: a tool for studying kidney branching morphogenesis ⋮ Morphogenesis modelization of a fractone-based model ⋮ An adaptive multigrid algorithm for simulating solid tumor growth using mixture models ⋮ A numerical algorithm for avascular tumor growth model ⋮ Interaction of tumor with its micro-environment: a mathematical model ⋮ Hopf bifurcation in a model of TGF-\(\beta\) in regulation of the Th17 phenotype ⋮ Three-dimensional multispecies nonlinear tumor growth. I: Model and numerical method ⋮ From the mathematical kinetic theory for active particles on the derivation of hyperbolic macroscopic tissue models ⋮ Contact inhibition of growth described using a multiphase model and an individual cell based model ⋮ Multiscale phenomena and patterns in biological systems: special issue in honour of Hans Othmer ⋮ Modelling collective cell migration: neural crest as a model paradigm ⋮ Hybrid models of cell and tissue dynamics in tumor growth ⋮ Derivation of continuum models from discrete models of mechanical forces in cell populations ⋮ A Measure-Theoretic Model for Collective Cell Migration and Aggregation ⋮ Boundedness of solutions of a non-local reaction–diffusion model for adhesion in cell aggregation and cancer invasion ⋮ Role of senescent tumor cells in building a cytokine shield in the tumor microenvironment: mathematical modeling
Cites Work
- Unnamed Item
- A multiphase model describing vascular tumour growth
- A history of the study of solid tumour growth: the contribution of mathematical modelling
- On the mechanics of a growing tumor
- A single-cell approach in modeling the dynamics of tumor microregions
- A new approach to modelling the formation of necrotic regions in tumours
- Incompressible porous media models by use of the theory of mixtures
- Residual stress in an elastic body: A theory for small strains and arbitrary rotations
- A two-phase model of solid tumour growth
- A mathematical model of the stress induced during avascular tumour growth
- The influence of growth-induced stress from the surrounding medium on the development of multicell spheroids
- Mathematical modelling of drug transport in tumour multicell spheroids and monolayer cultures
- The role of stress in the growth of a multicell spheroid
- CONTINUUM THEORIES OF MIXTURES: BASIC THEORY AND HISTORICAL DEVELOPMENT
- CELLULAR AUTOMATON MODELS OF TUMOR DEVELOPMENT: A CRITICAL REVIEW
- A linear-elastic model of anisotropic tumour growth
This page was built for publication: A HYBRID MODEL FOR TUMOR SPHEROID GROWTH IN VITRO I: THEORETICAL DEVELOPMENT AND EARLY RESULTS
