A New Computerized Boundary Element Algorithm for Cancer Modeling of Cardiac Anisotropy on the ECG Simulation

Main Article Content

Mohamed Abdelsabour Fahmy

Abstract

Aims: The main aim of this paper is to propose a new boundary element method (BEM) algorithm for cancer modeling of cardiac anisotropy on the electrocardiogram (ECG) Simulation.

Study design:  Original research paper.

Place and Duration of Study: Jamoum laboratory, June 2018, Makkah, Saudi Arabia.

Methodology: a new boundary element algorithm was proposed and implemented for solving the governing equations of new cancer mathematical modeling in conjunction with the governing equations of ECG simulation.

Results: The effect of cardiac anisotropy on the ECG. Also, the effect of anisotropy on the relation between healthy and infected tissues.

Conclusion: For a known set of conductivities, numerical results show that the boundary element algorithm, for cancer modeling of cardiac anisotropy on the ECG simulation is very accurate, due to the excellent agreement of our results with the corresponding finite difference results, effects of anisotropic tissues that relate between people and (plants, insects and animals) are also studied as a new advantage for the proposed model.

Keywords:
Boundary element algorithm, cardiac anisotropy, cancer mathematical modeling, electrocardiogram (ECG).

Article Details

How to Cite
Fahmy, M. (2019). A New Computerized Boundary Element Algorithm for Cancer Modeling of Cardiac Anisotropy on the ECG Simulation. Asian Journal of Research in Computer Science, 2(3), 1-10. https://doi.org/10.9734/ajrcos/2018/v2i328756
Section
Original Research Article