Title :
Numerical models of RF ablation in myocardium
Author :
Pearce, John A. ; Thomsen, S.
Author_Institution :
Biomed. Eng. Program, Texas Univ., Austin, TX, USA
Abstract :
Numerical finite difference method models of electrosurgical disk electrode current density, thermal and damage fields reveal patterns corresponding approximately to observations in histologic sections. Loss of birefringence was used as the hallmark of thermal damage. Kinetic rate coefficients for this process were estimated from experiments with laser sources and heated metallic blocks. Predicted temperature histories compare favorably with experimental measurements. The method may be used to predict transient temperature field histories and damage extent in planning cardiac ablation protocols
Keywords :
bioelectric phenomena; biothermics; birefringence; cardiology; current density; finite difference methods; muscle; physiological models; radiofrequency heating; surgery; RF ablation; cardiac ablation protocol planning; damage extent; damage fields; electrosurgical current; electrosurgical disk electrode current density; heated metallic blocks; histologic sections; kinetic rate coefficients; laser sources; myocardium; numerical finite difference method models; temperature histories; thermal damage; thermal fields; transient temperature field histories; Birefringence; Current density; Electrodes; Finite difference methods; History; Kinetic theory; Myocardium; Numerical models; Radio frequency; Temperature;
Conference_Titel :
Engineering in Medicine and Biology Society, 1995., IEEE 17th Annual Conference
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7803-2475-7
DOI :
10.1109/IEMBS.1995.575104
