Optimal Chemotherapy for Brain Tumor Growth in a Reaction-Diffusion Model
DOI10.1137/20M135995XzbMath1472.92098OpenAlexW3168304100MaRDI QIDQ4997145
Seyyed Abbas Mohammadi, Chiu-Yen Kao, Mohsen Yousefnezhad
Publication date: 28 June 2021
Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1137/20m135995x
Numerical methods based on necessary conditions (49M05) Reaction-diffusion equations (35K57) PDEs in connection with biology, chemistry and other natural sciences (35Q92) Biochemistry, molecular biology (92C40) Cell biology (92C37) Existence theories for optimal control problems involving partial differential equations (49J20)
Related Items (4)
Cites Work
- Unnamed Item
- On the MTD paradigm and optimal control for multi-drug cancer chemotherapy
- Maximization of viability time in a mathematical model of cancer therapy
- Variational problems on classes of rearrangements and multiple configurations for steady vortices
- Elliptic partial differential equations of second order
- Mathematical biology. Vol. 1: An introduction.
- Mathematical biology. Vol. 2: Spatial models and biomedical applications.
- Optimal control of advective direction in reaction-diffusion population models
- Ultimate dynamics and optimal control of a multi-compartment model of tumor resistance to chemotherapy
- Improved model prediction of glioma growth utilizing tissue-specific boundary effects
- A mathematical model for brain tumor response to radiation therapy
- On viable therapy strategy for a mathematical spatial cancer model describing the dynamics of malignant and healthy cells
- Optimisation of Cancer Drug Treatments Using Cell Population Dynamics
- A Review of Optimal Chemotherapy Protocols: From MTD towards Metronomic Therapy
- Optimal Control Applied to Competing Chemotherapeutic Cell-Kill Strategies
- Minimization of Region-Scalable Fitting Energy for Image Segmentation
This page was built for publication: Optimal Chemotherapy for Brain Tumor Growth in a Reaction-Diffusion Model
