Temperature monitoring during radiofrequency ablation

被引：54

作者：

Dinerman, JL ^{[1
]}

Berger, RD ^{[1
]}

Calkins, H ^{[1
]}

机构：

[1] JOHNS HOPKINS UNIV HOSP,DEPT MED,DIV CARDIOL,BALTIMORE,MD

来源：

JOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY | 1996年 / 7卷 / 02期

关键词：

radiofrequency catheter ablation; temperature control;

D O I：

10.1111/j.1540-8167.1996.tb00511.x

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

Thermal injury is the primary mechanism of lesion formation during radiofrequency catheter ablation procedures, Irreversible tissue injury requires heating to approximately 50 degrees C. Temperatures above 100 degrees C result in coagulum formation, Because of this importance of temperature during radiofrequency catheter ablation procedures, temperature monitoring has been proposed as a tool to facilitate catheter ablation procedures, The results of recent clinical studies demonstrate that electrode temperatures do not differ at successful and failed ablation sites, electrode temperature does not predict or eliminate the possibility of arrhythmia recurrence, and closed-loop temperature control decreases but does not eliminate the development of coagulum nor guarantees that target temperatures will be achieved, These observations are due in large part to the important distinctions between electrode temperature, the temperature at the electrode-tissue interface, and the temperature at the ablation target, Nonetheless, temperature monitoring and temperature control are valuable tools during radiofrequency ablation procedures as they provide important information regarding the adequacy of tissue heating, minimize the development of coagulum, and maximize lesion size.

引用

页码：163 / 173

页数：11

共 23 条

[1] ASSESSMENT OF EFFECTS OF A RADIOFREQUENCY ENERGY-FIELD AND THERMISTOR LOCATION IN AN ELECTRODE CATHETER ON THE ACCURACY OF TEMPERATURE-MEASUREMENT [J].

BLOUIN, LT ;

MARCUS, FI ;

LAMPE, L .

PACE-PACING AND CLINICAL ELECTROPHYSIOLOGY, 1991, 14 (05) :807-813

[2]

BORGGREFE M, 1987, CIRCULATION, V76, P406

[3]

BURTON CV, 1977, APPL NEUROPHYSIOL, V39, P77

[4] TEMPERATURE MONITORING DURING RADIOFREQUENCY CATHETER ABLATION PROCEDURES USING CLOSED-LOOP CONTROL [J].

CALKINS, H ;

PRYSTOWSKY, E ;

CARLSON, M ;

KLEIN, LS ;

SAUL, JP ;

KAY, GN ;

DAILEY, S ;

EPSTEIN, A ;

PLUMB, V ;

WHARTON, M ;

KANTER, R ;

SORRENTINO, R ;

GREENFIELD, RA ;

WALSH, E ;

WALDO, A ;

BIBLO, L ;

JOHNSON, N ;

LIEBERMAN, R ;

ROSENBAUM, D ;

HUANG, SKS ;

MITTLEMAN, RS ;

WAGSHAL, AB ;

GREENE, T ;

LIEM, B ;

LAUER, M ;

SUNG, R ;

YOUNG, C ;

EVANS, J ;

CASE, C ;

HACKETT, K ;

MILES, W ;

ZIPES, D ;

LAWRENCE, J ;

TOMASELLI, G ;

BERGER, R .

CIRCULATION, 1994, 90 (03) :1279-1286

[5] DIAGNOSIS AND CURE OF THE WOLFF-PARKINSON-WHITE SYNDROME OR PAROXYSMAL SUPRAVENTRICULAR TACHYCARDIAS DURING A SINGLE ELECTROPHYSIOLOGIC TEST [J].

CALKINS, H ;

SOUSA, J ;

ELATASSI, R ;

ROSENHECK, S ;

DEBUITLEIR, M ;

KOU, WH ;

KADISH, AH ;

LANGBERG, JJ ;

MORADY, F .

NEW ENGLAND JOURNAL OF MEDICINE, 1991, 324 (23) :1612-1618

[6]

CALKINS H, 1995, J AM COLL CARDIO FEB, pA360

[7] CONTROLLED DESTRUCTION AND TEMPERATURE DISTRIBUTIONS IN BIOLOGICAL TISSUES SUBJECTED TO MONOACTIVE ELECTROCOAGULATION [J].

EREZ, A ;

SHITZER, A .

JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME, 1980, 102 (01) :42-49

[8] ELECTRODE RADIUS PREDICTS LESION RADIUS DURING RADIOFREQUENCY ENERGY HEATING - VALIDATION OF A PROPOSED THERMODYNAMIC MODEL [J].

HAINES, DE ;

WATSON, DD ;

VEROW, AF .

CIRCULATION RESEARCH, 1990, 67 (01) :124-129

[9] OBSERVATIONS ON ELECTRODE-TISSUE INTERFACE TEMPERATURE AND EFFECT ON ELECTRICAL-IMPEDANCE DURING RADIOFREQUENCY ABLATION OF VENTRICULAR MYOCARDIUM [J].

HAINES, DE ;

VEROW, AF .

CIRCULATION, 1990, 82 (03) :1034-1038

[10] TISSUE HEATING DURING RADIOFREQUENCY CATHETER ABLATION - A THERMODYNAMIC MODEL AND OBSERVATIONS IN ISOLATED PERFUSED AND SUPERFUSED CANINE RIGHT VENTRICULAR FREE WALL [J].

HAINES, DE ;

WATSON, DD .

PACE-PACING AND CLINICAL ELECTROPHYSIOLOGY, 1989, 12 (06) :962-976

← 1 2 3 →