Yuji Ishida, Michael R Gold, Joshua E Payne, Adam R Bainey, Michael E Field, Patrick Badertscher, Jeffrey R Winterfield
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引用次数: 0
Abstract
Background: Catheter mapping and ablation of premature ventricular contractions (PVCs) requires accurate annotation of earliest local activation time (LAT), but displacement in catheter position between sinus rhythm (SR) and the PVC complicates three-dimensional mapping localization. An automated algorithm to annotate LAT sites at the corresponding sinus rhythm sites would provide an alternative to manual annotation and improve procedural efficiency.
Methods: A retrospective single center study assessed 64 patients undergoing catheter ablation of PVCs. We divided the study patients into two groups: the patients underwent RF ablation using the CARTO 3 version 7 with LAT-hybrid™ module (hybrid group) and the other patients using the CARTO 3 version 6 without LAT-hybrid™ module (conventional group).
Results: The primary results of this study demonstrate that the mean hybrid distance is 4.03 ± 2.33 mm, and this automated algorithm can correct for the positional shift with accuracy comparable to manual correction. Moreover, this algorithm showed significantly shorter RF time and the shorter PVC offset compared to the conventional method.
Conclusion: PVC mapping with the LAT-hybrid™ module demonstrated that an automated algorithm can map in more detail with no compromise in accuracy. The LAT-hybrid™ module showed significantly shorter RF time and PVC offset from the earliest LAT in LVOT cases.
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