Catheter‐directed neodymium:YAG laser injury of the left ventricle for arrhythmia ablation: Dosimetry and hemodynamic, hematologic, and electrophysiologic effects

Long linear lesions, necessary for duplication of the surgical maze procedure during catheter ablation of atrial fibrillation, may be created by using laser radiation delivered through flexible diffusing optical fiber tips. Further development of steerable catheters for endocardial atrial ablation and studies correlating thermal damage zones with electrophysiologic indicators of irreversible conduction block are warranted.

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Neodymium: YAG contact laser photocoagulation of the in vivo canine epicardium: Dosimetry, effects of various lasing modes, and histology

Littmann

Svenson

Chuang

et al. 1993

Lasers Surg Med

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Significant linear correlation was found between the total delivered energy and all measured lesion parameters. Transmural lesions were found at energy levels of 270-480 J. Maximum depth measured up to 1.68 cm; at high energies, it was limited by myocardial thickness only. At constant energy levels, power and lasing time did not independently affect lesion dimensions; lasing mode and fiber mode had statistically significant but minor effects. Laser lesions were homogeneous and sharply demarcated without epicardial crater or endocardial thrombus formation. Endocardial surface cooling by circulating blood and the presence of epicardial vessels resulted in modifications in lesion morphology. In 29 out of 74 grossly transmural lesions, there was a 0.082 +/- 0.127 cm thin surviving subendocardium. Forty-five coagulation lesions were truly transmural with no surviving myocardial strands. In conclusion, contact epicardial LPC can result in deep, transmural myocardial coagulation lesions. Lesion dimensions can be adequately controlled by total delivered energy. Closed heart epicardial Nd:YAG laser photocoagulation could become a new, less invasive surgical technique for the treatment of drug-resistant ventricular tachycardia.

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Catheter‐directed neodymium:YAG laser injury of the left ventricle for arrhythmia ablation: Dosimetry and hemodynamic, hematologic, and electrophysiologic effects

Cited by 15 publications

References 13 publications

Laser catheter coagulation of normal and scarred ventricular myocardium in dogs

Laser catheter coagulation of normal and scarred ventricular myocardium in dogs

Linear lesions in myocardium created by Nd:YAG laser using diffusing optical fibers: In vitro and in vivo results

Neodymium: YAG contact laser photocoagulation of the in vivo canine epicardium: Dosimetry, effects of various lasing modes, and histology

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