RF ablation thermal simulation model: Parameter sensitivity analysis

OBJECTIVE: The aim of the research is to obtain the relative influences of some critical electro-thermal parameters on the ablation temperature and lesion volume during temperature-controlled radiofrequency ablation (RFA) of liver tumor by parameter sensitivity analysis. METHODS: The finite element method (FEM) has been used to establish the simulation model of RFA temperature field, and the sensitivity of the tissue parameters has been analyzed. The effects of six parameters have been taken into account, including the thermal specific capacity (Cp), the thermal conductivity ([Formula: see text]), the electrical conductivity (Sigma), the density (rho), the dielectric constant (Epsilon) and the resistance ([Formula: see text]). The simulation processes based on different parameter values have been accomplished with Comsol Multiphysics software, and the sensitivity parameters have been obtained utilizing the variance contribution rate (SS%) or the main effects. RESULTS: It was found that the ablation temperature and lesion volume increased with increasing the values of [Formula: see text] and Sigma, but was a reverse situation for Cp and rho. Besides, the influence of [Formula: see text] on ablation volume was relatively small and Epsilon had a negligible effect on ablation temperature. CONCLUSIONS: It is concluded that these parameter sensitivity results can provide scientific and reliable reference for the specificity analysis of the RF ablation models.