EVALUATION OF MICROWAVE AND RADIO-FREQUENCY CATHETER ABLATION IN A MYOCARDIUM-EQUIVALENT PHANTOM MODEL

被引：55

作者：

WONNELL, TL

STAUFFER, PR

LANGBERG, JJ

机构：

[1] UNIV CALIF SAN FRANCISCO,DEPT RADIAT ONCOL,SAN FRANCISCO,CA 94143

[2] UNIV CALIF SAN FRANCISCO,CARDIOVASC RES INST,SAN FRANCISCO,CA 94143

[3] UNIV CALIF BERKELEY,JOINT GRAD GRP BIOENGN,BERKELEY,CA 94720

来源：

IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING | 1992年 / 39卷 / 10期

关键词：

D O I：

10.1109/10.161341

中图分类号：

R318 [生物医学工程];

学科分类号：

0831 ;

摘要：

A highly localized burst of energy applied to the myocardium via a transvenous catheter-mounted power source can be used to destroy endocardial tissue regions which mediate life-threatening arrhythmias. In the past, high-voltage direct current pulses, radio-frequency (RF) current, and laser light have been used as energy sources. In this paper, the use of 2450 MHz microwave energy applied via a miniature coaxial cable-mounted helical coil antenna designed specifically for this application was investigated as a means to increase the treated volume of cardiac tissue in a controllable and efficient manner during ablation. Using an array of fiber optic temperature probes implanted in a saline-perfused, tissue-equivalent gel phantom model designed to simulate the myocardium during ablation, the heating pattern from the microwave antenna was characterized and compared to that induced by a commercial RF electrode catheter at 550 kHz. Effects of variable contact angle between the heat source and heart wall were assessed in terms of the radial penetration and overall volume of heated tissue. Heating patterns from the RF electrodes dropped off much more abruptly both radially and axially than the microwave antenna such that the volume of effectively heated tissue was more than ten times larger for the microwave antenna when the heat sources were well-coupled to the tissue, and more than four times larger for the microwave antenna when the sources were angled 30-degrees away from the tissue surface.

引用

页码：1086 / 1095

页数：10

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