Irrigated catheters showed high acute success rates (94.6%-100%) and a low 0.44% complication rate for supraventricular tachycardia ablation with good 12-month effectiveness.
Do irrigated temperature-controlled and power-controlled catheters improve safety and efficacy compared to non-irrigated solid tip catheters in patients undergoing ablation for supraventricular tachycardias?
Irrigated temperature-controlled and power-controlled catheters are safe and highly effective for the ablation of common supraventricular tachycardias, performing well compared to traditional solid-tip catheters.
Tasa de eventos absoluta: 0% vs 0%
Abstract Background Various generations of radiofrequency mapping-enabled catheters (non-irrigated with solid tip NVT, power-controlled with surround flow irrigation STSF, temperature controlled with microelectrodes and surround flow irrigation QDM) have been developed for routine cardiac arrhythmia treatment. We used data from the prospective observational post-market, international SECURE study comparing ablation characteristics, safety and efficacy profiles of NVT, STSF, and QDM catheters for the ablation of common supraventricular tachycardias (SVTs). Methods Patients undergoing electrophysiology procedures using 3D electro-anatomical mapping and the multi-channel generator were recruited prospectively into SECURE and followed per usual clinical practice for up to 12 months. Data on complications and recurrence were recorded. Results Data on 226 procedures with at least 90-days follow up, between Feb 2022 and Jul 2024 from 14 study sites was collected. This includes 78 ablations for typical flutter, 64 for atrioventricular nodal reentrant tachycardia (AVNRT), and 84 for atrioventricular reciprocating tachycardia (AVRT); 124 procedures performed with QDM, 63 with STSF, and 39 with NVT. The NVT solid tip catheter was not included in any cases of AVRT or CTI dependent flutter, and the STSF catheter was not included in AVNRT analysis. Two serious adverse events were identified in 1 patient undergoing ablation for AVNRT with QDM (0.44% complication rate; 2nd degree heart block, pericardial tamponade requiring emergency right ventricular free wall repair). Two minor complications (groin bruising and pain) occurred in 1 patient undergoing AVRT ablation with STSF. No adverse device effects were directly attributed to specific catheter attributes. No steam pop or visible char on the catheter were identified in any procedure. The acute success rates by arrhythmia were 100% for AVNRT, 97.5% for CTI-dependent flutter with QDM, 100% for CTI-dependent flutter with STSF, 94.6% for AVRT with QDM, and 100% for AVRT with STSF (Table 1). One patient with AVNRT, 2 patients with CTI-dependent flutter and 2 patients with AVRT had an arrhythmia recurrence within the follow-up period (Table 2). Fluoroscopy times and procedure times were not different between the catheter groups. Conclusion These results demonstrate the safety and efficacy of irrigated catheters for supraventricular tachycardia ablation. The overall acute success and complication rate of 0.44% reported for this dataset are comparable to published data on SVT ablation. Accepting the moderate dataset size, there was higher 12-month effectiveness in AVNRT ablation than observed in published data. Temperature-controlled catheters, such as QDM, perform well in the ablation of SVTs when compared to traditional solid-tip catheters.Acute success rates Long-term success
Leung et al. (Sat,) reported a other. Irrigated catheters showed high acute success rates (94.6%-100%) and a low 0.44% complication rate for supraventricular tachycardia ablation with good 12-month effectiveness.