Introduction <p>Because ventricular tachycardia (VT) is often hemodynamically unstable, ablation is typically performed in the baseline rhythm. While prior studies have assessed the electrogram (EGM) features of VT isthmuses mapped in baseline rhythm, they have largely relied on proprietary or manual analysis. We hypothesized that EGM morphologic features could be automatically calculated using the information typically obtained during mapping, and could aid in detecting VT isthmus areas and their components during substrate mapping.</p> Methods <p>Patients undergoing ischemic VT ablation with detailed electroanatomic maps in both VT and a baseline rhythm were studied. Entrance, middle, exit, and adjacent bystander isthmus segments were determined in VT and registered to baseline rhythm maps. EGM features (voltage, velocity, signal duration, median vector angle difference (MVAD), number of deflections, and the maximum duration between electrogram segments) were assessed in both rhythms and compared between isthmus and non-isthmus regions and between isthmus segments.</p> Results <p>There were 25,284 points in baseline rhythm and 10,923 in VT among 10 patients (all men, median age 67.0 (8.5) years). Significant differences between isthmus and non-isthmus regions were present in all features for both rhythms except for MVAD, which was only significant in VT. Baseline rhythm conduction was progressively more directionally uniform from isthmus entrance to exit. A multivariable regression model of points in baseline rhythm demonstrated an AUC of 0.810 for predicting VT isthmus regions.</p> Conclusion <p>Automated EGM analysis can help identify isthmus in scar-related VT, different isthmus segments from each other, and may aid in targeting substrate for ablation.</p> Graphical Abstract <p></p>

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Automated analysis of electrogram characteristics in baseline rhythm can distinguish isthmus regions and segments in reentrant ventricular tachycardia

  • Deepak Saluja,
  • Jonah A. Majumder,
  • Lawrence Zeldin,
  • Haiqiu Yang,
  • Hirad Yarmohammadi,
  • Elaine Y. Wan,
  • Edward J. Ciaccio,
  • Christine P. Hendon,
  • Angelo Biviano

摘要

Introduction

Because ventricular tachycardia (VT) is often hemodynamically unstable, ablation is typically performed in the baseline rhythm. While prior studies have assessed the electrogram (EGM) features of VT isthmuses mapped in baseline rhythm, they have largely relied on proprietary or manual analysis. We hypothesized that EGM morphologic features could be automatically calculated using the information typically obtained during mapping, and could aid in detecting VT isthmus areas and their components during substrate mapping.

Methods

Patients undergoing ischemic VT ablation with detailed electroanatomic maps in both VT and a baseline rhythm were studied. Entrance, middle, exit, and adjacent bystander isthmus segments were determined in VT and registered to baseline rhythm maps. EGM features (voltage, velocity, signal duration, median vector angle difference (MVAD), number of deflections, and the maximum duration between electrogram segments) were assessed in both rhythms and compared between isthmus and non-isthmus regions and between isthmus segments.

Results

There were 25,284 points in baseline rhythm and 10,923 in VT among 10 patients (all men, median age 67.0 (8.5) years). Significant differences between isthmus and non-isthmus regions were present in all features for both rhythms except for MVAD, which was only significant in VT. Baseline rhythm conduction was progressively more directionally uniform from isthmus entrance to exit. A multivariable regression model of points in baseline rhythm demonstrated an AUC of 0.810 for predicting VT isthmus regions.

Conclusion

Automated EGM analysis can help identify isthmus in scar-related VT, different isthmus segments from each other, and may aid in targeting substrate for ablation.

Graphical Abstract