Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular
El-Sherif, A., kashif, T., Ismail, N., Farag, H. (2010). Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular. EKB Journal Management System, 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)), 1-12. doi: 10.21608/icmep.2010.29815
Ashraf F. El-Sherif; Tamer M. kashif; Nour El-Din H. Ismail; Hania H. Farag. "Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular". EKB Journal Management System, 5, International Conference on Mathematics and Engineering Physics (ICMEP-5), 2010, 1-12. doi: 10.21608/icmep.2010.29815
El-Sherif, A., kashif, T., Ismail, N., Farag, H. (2010). 'Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular', EKB Journal Management System, 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)), pp. 1-12. doi: 10.21608/icmep.2010.29815
El-Sherif, A., kashif, T., Ismail, N., Farag, H. Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular. EKB Journal Management System, 2010; 5(International Conference on Mathematics and Engineering Physics (ICMEP-5)): 1-12. doi: 10.21608/icmep.2010.29815

Simulation Studies on Blood Flow, Temperature and Oxygen Transport due to Laser Irradiation of Breast Tumor Vascular

The International Conference on Mathematics and Engineering Physics
Article 19, Volume 5, International Conference on Mathematics and Engineering Physics (ICMEP-5), May 2010, Page 1-12  XML PDF (378.77 K)
Document Type: Original Article
DOI: 10.21608/icmep.2010.29815
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Authors
Ashraf F. El-Sherif; Tamer M. kashif; Nour El-Din H. Ismail; Hania H. Farag
Abstract
Abstract
It has been shown that tumor cells are resistant to radiation and that increasing tumor oxygen levels via laser-mediated hyperthermia treatment increases tumor cell radio sensitivity. Hence, studies of the effects of laser irradiation on tumor oxygen levels are of great interest, as they allow for the optimization of hyperthermia treatment. Accordingly, in this study is to develop a finite element model to simulate the heat transfer due to laser irradiation of tumor tissue, the blood flow through a tumor capillary, and the effect of changing temperature on blood flow rates and oxygen delivery to tumor tissue and. This can be achieved by using finite element models using COMSOL Multiphysics software (FEM lab).
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