Mixed immunotherapy and chemotherapy of tumors: modeling, applications and biological interpretations

Optimal treatment strategies for delayed cancer-immune system with multiple therapeutic approach ⋮ Comparative study for optimal control nonlinear variable-order fractional tumor model ⋮ Parameter estimation and sensitivity analysis for a model of tumor-immune interaction in the presence of immunotherapy and chemotherapy ⋮ A modified numerical method for bifurcations of fixed points of ODE systems with periodically pulsed inputs ⋮ Phase transitions in tumor growth. III: Vascular and metastasis behavior ⋮ Study of dose-dependent combination immunotherapy using engineered T cells and IL-2 in cervical cancer ⋮ The stability analysis of tumor-immune responses to chemotherapy system driven by Gaussian colored noises ⋮ The impact of distributed time delay in a tumor-immune interaction system ⋮ Mixed immunotherapy and chemotherapy of tumors: feedback design and model updating schemes ⋮ On immunotherapies and cancer vaccination protocols: a mathematical modelling approach ⋮ Analysis of the dynamics of a tumor-immune system with chemotherapy and immunotherapy and quadratic optimal control ⋮ Optimal control strategy for cancer remission using combinatorial therapy: a mathematical model-based approach ⋮ Is the Allee effect relevant in cancer evolution and therapy? ⋮ Stability and bifurcation analysis of delay induced tumor immune interaction model ⋮ Activation of effector immune cells promotes tumor stochastic extinction: a homotopy analysis approach ⋮ Noise and delay enhanced stability in tumor-immune responses to chemotherapy system ⋮ Mathematical model of tumor-immune surveillance ⋮ A mathematical prognosis model for pancreatic cancer patients receiving immunotherapy ⋮ Avoiding healthy cells extinction in a cancer model ⋮ A mathematical model for pancreatic cancer growth and treatments ⋮ Mathematical and numerical analysis of a mathematical model of mixed immunotherapy and chemotherapy of cancer ⋮ Combination therapies and intra-tumoral competition: insights from mathematical modeling ⋮ A deterministic and stochastic model for the system dynamics of tumor-immune responses to chemotherapy ⋮ Ordinary differential equation models for adoptive immunotherapy ⋮ Dynamical analysis of chemotherapy models with time-dependent infusion ⋮ Mathematical modelling and analysis of the tumor treatment regimens with pulsed immunotherapy and chemotherapy ⋮ Dynamic analysis of a model on tumor-immune system with regulation of PD-1/PD-L1 and stimulation delay of tumor antigen ⋮ Optimal control problem for a general reaction-diffusion tumor-immune interaction system of mixed immunotherapy and chemotherapy ⋮ Optimal control with isoperimetric constraint for chemotherapy of tumors ⋮ Implementation of fractional optimal control problems in real-world applications ⋮ Modeling CAR T-cell therapy with patient preconditioning ⋮ Mathematical model of tumour spheroid experiments with real-time cell cycle imaging ⋮ Modeling cancer immunotherapy: assessing the effects of lymphocytes on cancer cell growth and motility ⋮ A mathematical model of chemotherapy with variable infusion ⋮ Mathematical modelling for the role of CD\(4^+\)T cells in tumor-immune interactions ⋮ Analysis of tumor cells in the absence and presence of chemotherapeutic treatment: the case of Caputo-Fabrizio time fractional derivative ⋮ Dynamics of a tumor-immune model considering targeted chemotherapy ⋮ Existence of periodic solution for a tumor growth model with vaccine interaction ⋮ State-dependent impulsive control strategies for a tumor-immune model ⋮ An extended mathematical model of tumor growth and its interaction with the immune system, to be used for developing an optimized immunotherapy treatment protocol ⋮ A mathematical model of combined \textit{bacillus Calmette-Guerin} (BCG) and interleukin (IL)-2 immunotherapy of superficial bladder cancer ⋮ Iterative method for estimating the robust domains of attraction of non-linear systems: application to cancer chemotherapy model with parametric uncertainties ⋮ Chemotherapy and immunotherapy for tumors: a study of quadratic optimal control ⋮ Optimal control of inhibiting tumor, new approach to sufficient \(\varepsilon\)-optimality and numerical computation ⋮ Model for acid-mediated tumour invasion with chemotherapy intervention. II: Spatially heterogeneous populations ⋮ Optimal control for selected cancer chemotherapy ODE models: a view on the potential of optimal schedules and choice of objective function ⋮ The dose-dense principle in chemotherapy ⋮ Mathematical modelling of the inhibitory role of regulatory T cells in tumor immune response ⋮ What mathematical models can or cannot do in glioma description and understanding ⋮ On the modelling of genetic mutations and immune system competition ⋮ Mathematical modeling on helper T cells in a tumor immune system ⋮ Global dynamics of a breast cancer competition model ⋮ Optimization of interleukin-21 immunotherapeutic strategies ⋮ Mathematical model of chimeric anti-gene receptor (CAR) T cell therapy with presence of cytokine ⋮ Modelling lymphoma therapy and outcome ⋮ Modeling anti-tumor Th1 and Th2 immunity in the rejection of melanoma ⋮ Bounding the dynamics of a chaotic-cancer mathematical model ⋮ Bridging blood cancers and inflammation: the reduced cancitis model ⋮ Dynamical behaviour of a tumor-immune system with chemotherapy and optimal control ⋮ Modeling the effect of immunotherapies on human castration-resistant prostate cancer ⋮ Diffusive tumor-immune interaction systems under immunotherapy ⋮ Chemotherapy for tumors: An analysis of the dynamics and a study of quadratic and linear optimal controls ⋮ The combined effects of optimal control in cancer remission ⋮ Modelling pulsed immunotherapy of tumour-immune interaction ⋮ Stability analysis of a chemotherapy model with delays ⋮ A validated mathematical model of tumor growth including tumor-host interaction, cell-mediated immune response and chemotherapy ⋮ A structural methodology for modeling immune-tumor interactions including pro- and anti-tumor factors for clinical applications ⋮ A mathematical model of cell-mediated immune response to tumor ⋮ Stability and Hopf bifurcations in a competitive tumour-immune system with intrinsic recruitment delay and chemotherapy ⋮ Chemoimmunotherapy for the treatment of prostate cancer: insights from mathematical modelling ⋮ Cost-effectiveness analysis of optimal strategy for tumor treatment ⋮ Dynamic analysis of an antitumor model and investigation of the therapeutic effects for different treatment regimens ⋮ Tumor clearance analysis on a cancer chemo-immunotherapy mathematical model ⋮ Optimal control of tumour-immune model with time-delay and immuno-chemotherapy ⋮ Parameter identification problems and analysis of the impact of porous media in biofluid heat transfer in biological tissues during thermal therapy ⋮ Spatial avascular growth of tumor in a homogeneous environment ⋮ An investigation on Monod-Haldane immune response based tumor-effector-interleukin-2 interactions with treatments ⋮ A mathematical model of tumor-immune interactions ⋮ Simulation of tumor response to immunotherapy using a hybrid cellular automata model ⋮ Optimization of combination therapy for chronic myeloid leukemia with dosing constraints ⋮ Mathematical modeling, analysis, and simulation of tumor dynamics with drug interventions ⋮ Combined therapy for treating solid tumors with chemotherapy and angiogenic inhibitors ⋮ Bifurcation analyses and hormetic effects of a discrete-time tumor model ⋮ Natural killer cells recruitment in oncolytic virotherapy: a mathematical model ⋮ Targeting the quiescent cells in cancer chemotherapy treatment: is it enough? ⋮ Cancer immunoediting: a process driven by metabolic competition as a predator-prey-shared resource type model ⋮ A cancer model for the angiogenic switch ⋮ On probabilistic certification of combined cancer therapies using strongly uncertain models ⋮ A Mathematical Model of Gene Therapy for the Treatment of Cancer ⋮ Algorithmic asymptotic analysis: extending the arsenal of cancer immunology modeling ⋮ A two-compartment model interacting with dynamic drugs ⋮ A multi-drug pharmacokinectic optimal control approach in cancer chemotherapy ⋮ Effects of mutations and immunogenicity on outcomes of anti-cancer therapies for secondary lesions ⋮ Can the Kuznetsov model replicate and predict cancer growth in humans? ⋮ Dynamics of breast cancer under different rates of chemoradiotherapy ⋮ Two-compartment model interacting with proliferating regulatory factor ⋮ Mixed therapy in cancer treatment for personalized drug administration using model reference adaptive control ⋮ Mathematical modeling of tumor growth and treatment: triple negative breast cancer ⋮ PDE modeling of bladder cancer treatment using BCG immunotherapy ⋮ Analysis of stochastic dynamics of tumor with drug interventions

• Thermodynamical analysis of the dynamics of tumor interaction with the host immune system
• Modeling immunotherapy of the tumor -- immune interaction
• Nonlinear dynamics of immunogenic tumors: Parameter estimation and global bifurcation analysis
• Mathematical modelling of the competition between tumors and immune system considering the role of the antibodies
• The dynamics of an optimally controlled tumor model: A case study
• Modelling and mathematical problems related to tumor evolution and its interaction with the immune system
• Analysis of a mathematical model for the growth of tumors under the action of external inhibitors
• Critical analysis and perspectives on kinetic (cellular) theory of immune competition
• Cells behaving badly: A theoretical model for the fas/FasL system in tumour immunology
• Behavior of tumors under nonstationary therapy
• A mathematical model of cancer treatment by immunotherapy
• A Mathematical Tumor Model with Immune Resistance and Drug Therapy: An Optimal Control Approach
• QUALITATIVE ANALYSIS OF A MEAN FIELD MODEL OF TUMOR-IMMUNE SYSTEM COMPETITION
• Toward Cultural Oncology: The Evolutionary Information Dynamics of Cancer
• ANALYSIS OF A NEW MODEL FOR TUMOR-IMMUNE SYSTEM COMPETITION INCLUDING LONG-TIME SCALE EFFECTS
• MATHEMATICAL TOPICS ON THE MODELLING COMPLEX MULTICELLULAR SYSTEMS AND TUMOR IMMUNE CELLS COMPETITION
• MODELLING OF THE IMMUNE RESPONSE: CONCEPTUAL FRAMEWORKS AND APPLICATIONS
• MATHEMATICAL MODELLING OF MACROPHAGE DYNAMICS IN TUMOURS
• Optimal control of innate immune response
• Cell death and the maintenance of immunological memory
• Modeling tumor regrowth and immunotherapy
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