Intramural Coronary Vasculature Prevents Transmural Radiofrequency Lesion Formation

Fuller, Ithiel A.; Wood, Mark A.

doi:10.1161/01.cir.0000058705.97823.f4

Cited by 76 publications

(46 citation statements)

References 24 publications

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“…Our laboratory has shown that cross-sectional area is a determinant of conduction through gaps in RF lesions in the rabbit RV flap preparation. 12 The gap geometry in all of these studies was linear, comparable to the straight gap in our current study.…”

Section: Discussionsupporting

confidence: 83%

“…12 New Zealand White rabbits (Robinson Services, Inc, Clemmons, NC) were anesthetized with xylazine (7 mg/kg) and ketamine (100 mg/kg), according to American Veterinary Association Panel on Euthanasia guidelines. The hearts were rapidly removed, and the aortic root was perfused under continuous pressure (80 cm H 2 O) with oxygenated Krebs-Henseleit buffer (37°C).…”

Section: Tissue Preparationmentioning

confidence: 99%

“…This technique has been previously demonstrated to produce electrically conductive gaps in RF lesions. 12 The cannula was perfused with room temperature saline at 12 mL/min and shaped to produce the desired gap geometry. Three morphologies of gaps through the RF lesions were produced: straight, bifurcated, and angled ( Figure 1).…”

Section: Radiofrequency Lesion Formationmentioning

confidence: 99%

“…9,12 Still digital images of the epicardial and endocardial surfaces were taken. The path length of the gaps was measured electronically from the still images (ImageJ software, NIH, Bethesda, Md).…”

Section: Protocol and Data Analysismentioning

confidence: 99%

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Effects of Gap Geometry on Conduction Through Discontinuous Radiofrequency Lesions

2006

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Background— Gaps of sufficient cross-sectional dimensions within linear radiofrequency (RF) lesions may allow conduction through the lesion. The purpose of this study was to examine the effects of different gap geometries on conduction through discontinuous RF lesions. Methods and Results— Radiofrequency lesions were created in isolated, perfused rabbit right ventricular (RV) free wall preparations to produce gaps with 3 different lesion geometries: straight, bifurcated, and angled (n=10 each group). Angled preparations contained 2 right angles within the conduction path. Optical mapping was used to assess bidirectional conduction through the myocardium before and after gap formation during pacing at 1000-, 400-, and 200-ms cycle lengths. Histological analysis was performed on each preparation after optical mapping. After lesion formation, 9 of 10 straight gap preparations and 1 of 10 angled gap preparations demonstrated bidirectional conduction ( P <0.001) at all cycle lengths. Nine of 10 bifurcated gap preparations demonstrated bidirectional conduction and 1 demonstrated unidirectional conduction at all cycle lengths. Two bifurcated gap preparations showed rate-dependent unidirectional 2:1 conduction. All unidirectional and rate-dependent block occurred during impulse propagation in the direction of diverging arms of the bifurcation. The occurrence of bidirectional conduction in the gaps was associated with the gap geometry ( P <0.0001). Histological analysis confirmed the continuity of viable myocardium transmurally throughout the length of the gap in each preparation. The sites of conduction block were demonstrated to be just after the first angle in the conduction path for angled gaps and at the branch point of a bifurcated gap. The predominant myofiber orientation was changed relative to the conduction path at angulations of the gaps. Flecainide (0.1 μmol/L) produced bidirectional conduction block in straight and bifurcated gap preparations with bidirectional conduction at baseline. Conclusions— Conduction through discontinuities in RF lesions is associated with gap geometry. Complex gap geometry may allow for unidirectional and/or rate-dependent block. Gaps within RF lesions are susceptible to pharmacological blockade.

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Section: Discussionsupporting

confidence: 83%

Section: Tissue Preparationmentioning

confidence: 99%

Section: Radiofrequency Lesion Formationmentioning

confidence: 99%

Section: Protocol and Data Analysismentioning

confidence: 99%

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Effects of Gap Geometry on Conduction Through Discontinuous Radiofrequency Lesions

2006

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“…In addition, coronary blood flow may shield and cool the subepicardium beneath the vasculature. 27 Alternate energy sources potentially could be more effective. In this study, catheter cryoablation was successful in 1 patient when used as initial therapy but not in a second patient after unsuccessful irrigated-tip radiofrequency ablation.…”

Section: Approaches To Catheter Ablationmentioning

confidence: 99%

Idiopathic Epicardial Left Ventricular Tachycardia Originating Remote From the Sinus of Valsalva

et al. 2006

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Background-Despite the success of catheter ablation for treatment of idiopathic ventricular tachycardia (VT), occasional patients have been reported in whom VT could not be ablated from the right or left ventricular endocardium or from the aortic sinus of Valsalva (ASOV). Methods and Results-In 12 of 138 patients (9%) with idiopathic VT referred for ablation, an epicardial left ventricular site of origin was identified Ͼ10 mm from the ASOV. Coronary venous mapping demonstrated epicardial preceding endocardial activation by Ͼ10 ms (41Ϯ7 versus 15Ϯ11 ms before QRS onset; PϽ0.001). VT induction was facilitated by catecholamines and terminated by adenosine. Ablation through the coronary veins or via percutaneous transpericardial catheterization was successful in 9 patients; 2 required direct surgical ablation as a result of anatomic constraints. No ECG pattern was specific for epicardial VT. However, slowed initial precordial QRS activation, as quantified by a novel metric, the maximum deflection index, was more useful. A delayed precordial maximum deflection index Ն0.55 identified epicardial VT remote from the ASOV with a sensitivity of 100% and a specificity of 98.7% relative to all other sites of origin (PϽ0.001). Conclusions-Although

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Biophysics and Pathophysiology of Lesion Formation by Transcatheter Radiofrequency Ablation

Haines¹

2007

Catheter Ablation of Cardiac Arrhythmias

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Intramural Coronary Vasculature Prevents Transmural Radiofrequency Lesion Formation

Cited by 76 publications

References 24 publications

Effects of Gap Geometry on Conduction Through Discontinuous Radiofrequency Lesions

Effects of Gap Geometry on Conduction Through Discontinuous Radiofrequency Lesions

Idiopathic Epicardial Left Ventricular Tachycardia Originating Remote From the Sinus of Valsalva

Biophysics and Pathophysiology of Lesion Formation by Transcatheter Radiofrequency Ablation

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