Abstract
Background
Correct preoperative topical diagnostics of atrial and ventricular arrhythmias allows for operation time reduction by facilitating the ablation target localization, especially in case of several ectopic sources.
Purpose
To implement a non-invasive electrocardiographic imaging (ECGI) technique in CARTO system for aiming at topical diagnostics of focal arrhythmias improving.
Methods
Twelve patients (m/f – 10/2, age (min–max) – 50,5 (32–71)) with focal arrhythmias underwent ECGI in combination with CT or MR imaging. Two subjects had atrial premature contractions (PAC), while ten patients suffered from ventricular premature contractions (PVC) with indications for ablation. Before the ablation procedure Carto LAT mapping was performed in all patients. Using ECGI epi-/endocardial polygonal models of the heart were created, isopotential and activation maps were calculated, uploaded into the Carto system and merged with the CARTO FAM models (Figure 1).
Results
For six patients with PVC and two patients with PAC, earliest activation zones (EAZs) anatomical locations obtained by invasive and non-invasive methods were the same (RVOT septum, RVOT lateral-anterior and RV lateral-basal walls, right aortic cusp, LVOT, coronary sinus (CS), CS ostium, RA posterior wall), and arrhythmias ablation was successful. Two patients featured coherent EAZs (RV lateral-basal wall and RVOT septum) but a negative ablation outcome. In one patient, EAZs were situated in different anatomical regions: CARTO showed the PVC EAZ in RV septum, whereas Amycard system identified endocardial surface of lateral-basal RV wall. In this patient, PVC was ablated partially. For another patient with MRI late enhancement area in LV lateral wall the EAZs were in the same LV segment but with mismatch in epi/endocardial surface.
Conclusion
Non-invasive and invasive activation maps merge can improve localization of ablation targets in focal arrhythmias, potentially increasing effectiveness of the EP procedure and reducing operation time.
NON-INVASIVE IMAGING TO IDENTIFY SUSCEPTIBILITY FOR VENTRICULAR ARRHYTHMIAS IN ISCHEMIC CARDIOMYOPATHY
