Utility of open window mapping using high-density mapping approach in accessory pathways ablation

Abstract

Abstract Introduction and purpose We sought to described a new protocol of open window mapping (OW) utilizing high-density mapping in accessory pathways (AP) in CARTO® 3 system. This protocol automatically map conventional electrophysiology criteria for AP location, as shorter local EGM AV interval (extended early meets late tool), earliest local activation time (LAT)and annotation at unipolar signal (wavefront annotation). Methods This was a single center, prospective and observational trial of 21 consecutive patients who underwent an AP catheter ablation. Results We included 16 men and 5 women, with a mean age of 32.6±17.9 years. The characteristics of AP, including mapping and ablation were described in Table 1. Twelve AP were of left location and 9 in right location. Mapping was performed in anterograde conduction in 17 patients (80.9%), retrograde in 9 patients (42.9%) and orthodromic tachycardia in 7 patients (33.3%). Mean mapping points were 3205±2034, with 29.2 min±12.5 min of mapping. All 21 patients had a successful ablation after OW mapping and mean radiofrequency time until complete AP elimination was 2.76 s. We present an example of a Left lateral AP OW mapping in antegrade and retrograde conduction in Figure 1, which shows EEML mapping tool, targeting shorter interval EGM AV or VA and color adjust to determine earliest LAT in chamber of exit. Conclusions In our experience, automatically mapping of conventional electrophysiology criteria for AP diagnostic is feasible to localize AP insertion, suggesting an increasing in effectiveness of procedure, and reducing mapping time, ablation time and X-ray exposure time. More studies should be performed to corroborate these conclusions. Funding Acknowledgement Type of funding sources: None.