Srikant Duggirala scite author profile

Female farm swine (50-60 kg) were intubated and underwent general anesthesia with inhaled isoflurane 2% to 3%. Swine were randomly allocated to either linear or focal ablation. Each pig underwent both Original ArticleBackground-A common strategy for ablation of scar-based ventricular tachycardia is delivering multiple lesions in a linear pattern. Methods and Results-We tested the efficacy of a novel linear irrigated multipolar ablation catheter capable of creating linear lesions with a single application. Healthy swine underwent endocardial and epicardial linear ablation using a novel linear irrigated ablation catheter; control animals underwent focal lesions in a linear pattern over 3.5 cm with an irrigated radiofrequency catheter. The linear catheter contained 7 irrigated electrodes spaced over 3.5 cm and could deliver ≤25 W to each electrode. Linear ablation required significantly less radiofrequency time than focal ablation (56±11 versus 497±110 seconds; P<0.0001). At gross pathology, linear (n=18) epicardial lines were longer than focal (n=8) epicardial lines (3.3±0.7 versus 2.1±0.9 cm; P<0.0005), with greater volume (3.8±2.9 versus 1.5±1.6 cm 3 ; P=0.002). There was no difference between linear (n=22) and focal (n=7) endocardial line length or volume. Gaps (length 2.8±0.9 mm) were present in 53% of focal lines and 0% of linear ablation lines. No perforations, steam pops, or thrombus were noted. Conclusions-Compared with sequential focal radiofrequency ablation in a linear pattern, an irrigated multipolar linear ablation catheter safely delivers contiguous endocardial or epicardial lesions without gaps in a single ablation. This catheter shows promise for decreasing ventricular tachycardia ablation procedure time and improving outcome.

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Epicardial Catheter Ablation Using High-Intensity Ultrasound

Nazer

Salgaonkar

Diederich

et al. 2015

Circ: Arrhythmia and Electrophysiology

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Background-Epicardial radiofrequency catheter ablation of ventricular tachycardia remains challenging because of the presence of deep myocardial scar and adjacent cardiac structures, such as the coronary arteries, phrenic nerve, and epicardial fat that limit delivery of radiofrequency energy. High-intensity ultrasound (HIU) is an acoustic energy source able to deliver deep lesions through fat, while sparing superficial structures. We developed and tested an epicardial HIU ablation catheter in a closed chest, in vivo swine model. Methods and Results-The

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Spatiotemporal electrophysiological changes in a murine ablation model

et al. 2011

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