Title :
Expanding the Bioheat Equation to Include Tissue Internal Water Evaporation During Heating
Author :
Yang, Deshan ; Converse, Mark C. ; Mahvi, David M. ; Webster, John G.
Author_Institution :
Wisconsin Univ., Madison
Abstract :
We propose a new method to study high temperature tissue ablation using an expanded bioheat diffusion equation. An extra term added to the bioheat equation is combined with the specific heat into an effective (temperature dependent) specific heat. It replaces the normal specific heat term in the modified bioheat equation, which can then be used at temperatures where water evaporation is expected to occur. This new equation is used to numerically simulate the microwave ablation of bovine liver and is compared to experimental ex vivo results.
Keywords :
biodiffusion; biological tissues; biothermics; evaporation; liver; patient treatment; specific heat; bovine liver; expanded bioheat diffusion equation; high temperature tissue ablation; microwave ablation; specific heat; tissue internal water evaporation; Biomedical engineering; Electromagnetic heating; Equations; Heat transfer; Hyperthermia; Liver; Mechanical factors; Temperature dependence; Thermal stresses; Water heating; Ablation; bioheat equation; liver; microwave; specific heat; Animals; Body Temperature; Body Water; Computer Simulation; Heat; Liver; Microwaves; Models, Biological; Swine; Thermal Conductivity; Water Loss, Insensible;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2007.890740
