Numerical Model of Gliomas Diffusion in the Brain

Additional Funding Sources

The project described was supported by the Idaho State HIgher Education Research Council.

Abstract

This project's purpose was to better model and understand the growth rate of gliomas in the brain. I began by learning a programming language named Fenics, specially used for solving partial differential equations. After I become comfortable working with PDE's, the plan is to solve partial differential equations modeling the movement of gliomas, through a Fenics program.

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Numerical Model of Gliomas Diffusion in the Brain

This project's purpose was to better model and understand the growth rate of gliomas in the brain. I began by learning a programming language named Fenics, specially used for solving partial differential equations. After I become comfortable working with PDE's, the plan is to solve partial differential equations modeling the movement of gliomas, through a Fenics program.