Title :
Numerical simulation of heat transfer in human tissue according to improved vascular structure model
Author :
Prishvin, Mikheil ; Manukyan, Liana ; Jeladze, Veriko ; Petoev, Ivan ; Tabatadze, Vaso ; Kakulia, David ; Zaridze, Revaz
Author_Institution :
Lab. of Appl. electrodynamics & Radio Phys., Tbilisi State Univ., Tbilisi
Abstract :
A new algorithm for construction of artificial blood vessel networks and a new approach to simulate heat exchange in tissue are presented. The algorithm produces discrete three-dimensional geometric representations of both arterial and venous networks. The key feature of the algorithm is that growth begins from the root points and it can work with any enclosed geometry. The main difference of proposed method is that blood perfusion occurs mainly in capillary. Two different methods of constructing blood velocity vector field in tissue accounting capillary blood flow are presented. It is needed for precise thermal analysis using the modified bio-heat equation to provide better prediction of thermal response of tissues exposed to RF energy.
Keywords :
biological effects of radiation; biological tissues; blood vessels; haemorheology; heat transfer; physiological models; radiofrequency heating; thermal analysis; RF energy; bio-heat equation; blood perfusion; capillary blood flow; heat transfer; human tissue; vascular structure model; Blood flow; Electrodynamics; Equations; Geometry; Heat transfer; Humans; Intelligent networks; Laboratories; Numerical simulation; Radio frequency;
Conference_Titel :
Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory, 2008. DIPED 2008. 13th International Seminar/Workshop on
Conference_Location :
Tbilisi
Print_ISBN :
978-966-02-4649-2
DOI :
10.1109/DIPED.2008.4671826
