Analysis of a free boundary problem modeling tumor growth

Analysis of a time-delayed free boundary problem for solid tumor growth with angiogenesis and direct influence of inhibitors ⋮ Analysis of a free boundary problem for tumor growth in a periodic external environment ⋮ Analysis of a time-delayed mathematical model for solid avascular tumor growth under the action of external inhibitors ⋮ A time-delayed mathematical model for tumor growth with the effect of a periodic therapy ⋮ Analysis of a free boundary problem for solid avascular tumor growth with a time delay in regulatory apoptosis ⋮ Well-posedness of a multidimensional free boundary problem modelling the growth of nonnecrotic tumors ⋮ Bifurcation solutions of a free boundary problem modeling tumor growth with angiogenesis ⋮ A free boundary problem for necrotic tumor growth with angiogenesis ⋮ Analysis of a radial free boundary tumor model with time-dependent absorption efficiency ⋮ Stability of solutions to a mathematical model for necrotic tumor growth with time delays in proliferation ⋮ Analysis of a nonautonomous free boundary tumor model with infinite time delays ⋮ Analysis of a free boundary problem modeling the growth of spherically symmetric tumors with angiogenesis ⋮ Analysis of a solid avascular tumor growth model with time delays in proliferation process ⋮ Analysis of a free boundary problem modeling spherically symmetric tumor growth with angiogenesis and a periodic supply of nutrients ⋮ Global stability of solutions to a free boundary problem of ductal carcinoma in situ ⋮ Qualitative analysis of a free boundary problem for tumor growth under the action of periodic external inhibitors ⋮ Asymptotic Behaviour of Solutions of a Multidimensional Moving Boundary Problem Modeling Tumor Growth ⋮ Analysis of a free boundary problem for avascular tumor growth with a periodic supply of nutrients ⋮ Bifurcation analysis for a free boundary problem modeling tumor growth ⋮ Bifurcation analysis of a tumor-model free boundary problem with a nonlinear boundary condition ⋮ Global existence and uniqueness of solutions for a free boundary problem modeling the growth of tumors with a necrotic core and a time delay in process of proliferation ⋮ Well-posedness and stability of a free boundary problem modeling the growth of multi-layer tumors ⋮ A qualitative analysis of a free boundary problem modeling tumor growth with angiogenesis ⋮ Analysis of a time-delayed mathematical model for tumour growth with an almost periodic supply of external nutrients ⋮ Analysis of a free boundary problem modeling the growth of multicell spheroids with angiogenesis ⋮ Analysis of a mathematical model for tumor growth with Gibbs-Thomson relation ⋮ Existence and uniqueness of the global solution for a mathematical model of the use of macrophages in tumor medicine ⋮ Asymptotic behavior of solutions of a free-boundary tumor model with angiogenesis ⋮ Analysis of a tumor model free boundary problem with action of an inhibitor and nonlinear boundary conditions ⋮ Another way of solving a free boundary problem related to DCIS model ⋮ Analysis of a two-phase model describing the growth of solid tumors ⋮ Analysis of a free boundary problem for tumor growth with Gibbs-Thomson relation and time delays ⋮ Qualitative analysis of a delayed free boundary problem for tumor growth under the effect of inhibitors ⋮ Analysis of a free boundary problem modeling the growth of nonnecrotic tumors with time delays in proliferation ⋮ Analysis of a delayed mathematical model for tumor growth ⋮ Radially symmetric growth of nonnecrotic tumors ⋮ Analysis for a free boundary problem modeling tumor therapy ⋮ Radially symmetric growth of necrotic tumors and connection with nonnecrotic tumors ⋮ Analysis of a free boundary problem for tumor growth with angiogenesis and time delays in proliferation ⋮ Bifurcation for a free-boundary tumor model with extracellular matrix and matrix degrading enzymes ⋮ A free boundary tumor model with time dependent nutritional supply ⋮ Global asymptotic stability of positive steady states of a solid avascular tumor growth model with time delays ⋮ Lie group action and stability analysis of stationary solutions for a free boundary problem modelling tumor growth ⋮ Qualitative analysis of a time-delayed free boundary problem for tumor growth with angiogenesis and Gibbs-Thomson relation ⋮ Analysis of a delayed free boundary problem with application to a model for tumor growth of angiogenesis ⋮ Analysis of an elliptic-parabolic free boundary problem modelling the growth of non-necrotic tumor cord ⋮ Global well-posedness for a drug transport model in tumor multicell spheroids ⋮ Analysis of a tumor-model free boundary problem with a nonlinear boundary condition ⋮ Analysis of a mathematical model of glioma cells outside the tumor spheroid core ⋮ Well-posedness and stability for an elliptic-parabolic free boundary problem modeling the growth of multi-layer tumors ⋮ Bifurcation of a Mathematical Model for Tumor Growth with Angiogenesis and Gibbs–Thomson Relation

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• Analysis of a mathematical model for the growth of tumors
• Analysis of a mathematical model of the effect of inhibitors on the growth of tumors
• Analysis of a mathematical model for the growth of tumors under the action of external inhibitors
• Growth of nonnecrotic tumors in the presence and absence of inhibitors
• A survey of models for tumor-immune system dynamics
• Free boundary value problems associated with the growth and development of multicellular spheroids
• Models for the Growth of a Solid Tumor by Diffusion
• Analysis of a mathematical model of the growth of necrotic tumors