Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal
El-Sherif, A., kashif, T. (2010). Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal. EKB Journal Management System, 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)), 1-10. doi: 10.21608/icmep.2010.29814
Ashraf F. El-Sherif; Tamer M. kashif. "Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal". EKB Journal Management System, 5, International Conference on Mathematics and Engineering Physics (ICMEP-5), 2010, 1-10. doi: 10.21608/icmep.2010.29814
El-Sherif, A., kashif, T. (2010). 'Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal', EKB Journal Management System, 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)), pp. 1-10. doi: 10.21608/icmep.2010.29814
El-Sherif, A., kashif, T. Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal. EKB Journal Management System, 2010; 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)): 1-10. doi: 10.21608/icmep.2010.29814

Theoretical and Simulation Studies on Treatment of Breast Cancer using Laser-Induced Photothermal

The International Conference on Mathematics and Engineering Physics
Article 18, Volume 5, International Conference on Mathematics and Engineering Physics (ICMEP-5), May 2010, Page 1-10  XML PDF (638.38 K)
Document Type: Original Article
DOI: 10.21608/icmep.2010.29814
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Authors
Ashraf F. El-Sherif; Tamer M. kashif
Abstract
Abstract
The effects of laser irradiation on are of great interest, as they allow for the optimization of hyperthermia treatment. Thermal effect of laser radiation is now used routinely in surgery to incise, coagulate, or vaporize tissues. The laser irradiation power is converted into heat in the target volume with resulting coagulative, necrosis, secondary degeneration and atrophy, and tumor shrinkage with minimal damage to surrounding structures [1]. Accordingly, the main purpose of this study is to develop a finite element model to simulate the laser distribution through the tumor tissue and the heat transfer due to this laser irradiation. Also, we studied the effects of varying laser intensity and cooling conditions at the breast surface. This can be achieved by using finite element models using COMSOL Multiphysics (FEM lab) software
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