A novel nonfluoroscopic catheter tracking system significantly reduced radiation exposure during atrial fibrillation and flutter ablation by 61% and 90%, respectively.
Cohort (n=134)
Does a nonfluoroscopic sensor-guided electromagnetic navigation system reduce radiation exposure in patients undergoing catheter ablation for atrial fibrillation or flutter?
The use of a nonfluoroscopic sensor-guided electromagnetic navigation system significantly reduces radiation exposure during AF and AFL ablation without increasing procedural time.
Absolute Event Rate: 1107% vs 2835%
p-value: p=0.0001
BACKGROUND: Fluoroscopic guidance is used to position catheters during cardiac ablation. We evaluated the impact of a novel nonfluoroscopic sensor-guided electromagnetic navigation system (MG) on radiation exposure during catheter ablation of atrial fibrillation (AF) or atrial flutter (AFL). METHODS: A total of 134 consecutive patients referred for ablation of AF (n = 44) or AFL (n = 90) ablation were prospectively enrolled. In one group the MG system was used for nonfluoroscopic catheter positioning, whereas in the conventional group standard fluoroscopy was utilized. Fluoroscopy times were assessed for each stage of procedure and total radiation exposure was quantified. RESULTS: Patient characteristics were similar between the groups. The procedural end point was achieved in all. Median (interquartile range IQR) fluoroscopy times were 12.5 minutes (7.6, 17.4) MG group versus 21.5 minutes (15.3, 23.0) conventional group (P < 0.0001) for AF ablation, and 0.8 minutes (0.4, 2.5) MG group versus 9.9 minutes (5.1, 22.5) conventional group (P < 0.0001) for AFL ablation. Median (IQR) total radiation exposure (μGy·m(2)) was 1,107 (906, 2,033) MG group versus 2,835 (1,688, 3,855) conventional group (P = 0.0001) for AF ablation, and 161 (65, 537) MG group versus 1,651 (796, 4,569) conventional group (P < 0.0001) for AFL ablation. No difference in total procedural time was seen. CONCLUSIONS: The use of a novel nonfluoroscopic catheter tracking system is associated with a significant reduction in radiation exposure during AF and AFL ablation (61% and 90% reduction, respectively). In the era of heightened awareness of the importance of radiation reduction, this system represents a safe and efficient tool to decrease radiation exposure during electrophysiological ablation procedures.
Malliet et al. (Sat,) conducted a cohort in Atrial fibrillation (AF) or atrial flutter (AFL) (n=134). Nonfluoroscopic sensor-guided electromagnetic navigation system (MG) vs. Standard fluoroscopy was evaluated on Total radiation exposure during AF ablation (μGy·m2) (p=0.0001). A novel nonfluoroscopic catheter tracking system significantly reduced radiation exposure during atrial fibrillation and flutter ablation by 61% and 90%, respectively.
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