Effect of Irrigant Characteristics on Lesion Formation After Radiofrequency Energy Delivery Using Ablation Catheters with Actively Cooled Tips

Irrigation Characteristics and Ablation Lesions Background The delivery of radiofrequency (RF) energy through irrigated ablation catheters may be affected by irrigant osmolarity and by catheter position. We sought to characterize lesion formation characteristics using different irrigants in both ope...

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Published inJournal of cardiovascular electrophysiology Vol. 26; no. 7; pp. 792 - 798
Main Authors NGUYEN, DUY T., OLSON, MATTHEW, ZHENG, LIJUN, BARHAM, WASEEM, MOSS, JOSHUA D., SAUER, WILLIAM H.
Format Journal Article
LanguageEnglish
Published United States Blackwell Publishing Ltd 01.07.2015
Wiley Subscription Services, Inc
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Summary:Irrigation Characteristics and Ablation Lesions Background The delivery of radiofrequency (RF) energy through irrigated ablation catheters may be affected by irrigant osmolarity and by catheter position. We sought to characterize lesion formation characteristics using different irrigants in both open and closed irrigated catheter. Methods An ex vivo model consisting of viable bovine myocardium and a submersible load cell was assembled in a circulating saline bath at 37 °C. An externally irrigated ablation catheter and a closed irrigated catheter were positioned with 10 g of force in both perpendicular and parallel positions. A series of ablation lesions using different irrigants were delivered using a constant rate of irrigation (30 cc/min) at 50 W. Potential clinical applicability was evaluated in vivo by targeting porcine epicardium with different irrigants during open irrigation ablation and assessing lesion sizes. Results Ablation in the perpendicular position produced significantly larger lesions for all irrigants, compared to their respective parallel position ablation. For both open and closed irrigated ablation, half normal saline (HNS) ablation created larger lesions than normal saline (NS), and dextrose water (D5W) lesions were significantly larger than both HNS and NS lesions. Steam pops were mostly observed in the perpendicular position, and the rate of steam pops was statistically higher only for open irrigated D5W, but not for HNS, when compared to NS. Both open and closed irrigated ablation with D5W and HNS in the parallel position created larger lesions than parallel NS ablation without causing more steam pops. In an in vivo porcine model, open irrigated ablation with D5W created larger lesions compared to standard NS irrigation. Conclusions In ex vivo and in vivo models, decreased osmolarity and charge density increased RF energy delivery to tissue, resulting in larger lesions for both open and closed irrigated ablations. A perpendicular catheter position created larger lesions across all irrigants for both open and closed irrigation ablation. The incidence of steam pops was observed more frequently with high power open irrigated using D5W, especially if the catheter was in a perpendicular position. Further research is required to evaluate any clinical role for using different irrigants with an externally irrigated catheter.
Bibliography:ark:/67375/WNG-23KS2CDQ-P
istex:CD78B65E7F384C681360B7D96FCBCDED999B7609
ArticleID:JCE12682
Dr. Sauer receives significant research grants from Biosense Webster and educational grants from St Jude Medical, Boston Scientific, and Medtronic. He has a provisional patent on partially insulated focused ablation. Other authors: No disclosures.
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ISSN:1045-3873
1540-8167
DOI:10.1111/jce.12682