Purpose: Radiation exposure (RE) is a matter of concern for patients with congenital heart disease (CHD) who not infrequently need multiple interventional procedures under fluoroscopy guidance. We sought to evaluate the safety and feasibility of a minimally fluoroscopic approach in patients with CHD undergoing catheter ablation using a new image integration module (IIM).
Methods: Consecutive patients with CHD undergoing catheter ablation using the Carto Univu™ IIM were included. A near-zero fluoroscopy procedure was defined by an effective dose (ED) ≤ 1 mSv. RE parameters (total fluoroscopy time [TFT], total dose area product [tDAP], and ED), ablation outcomes, and complications were evaluated.
Results: Fifty-five patients with CHD underwent 63 ablation procedures (supraventricular tachycardia, n = 53; ventricular tachycardia, n = 10). The CHD was simple in 25%, moderate in 42%, and complex in 33%. The use of the IIM resulted in very low levels of RE (median TFT 0.13 min [IQR 0-1.04], median tDAP 54.5 cGy cm2 [IQR 9.5-176.4], median ED 0.136 mSv [IQR 0.02-0.49]). Patients with complex CHD had significantly higher RE when compared with patients with simple and moderate defects. A total of 56/63 ablation procedures (89%) were performed with an ED ≤ 1 mSv. One patient developed sinus node dysfunction requiring pacemaker implantation.
Conclusions: The use of a minimally fluoroscopic approach was safe and feasible resulting in very low RE during catheter ablation of patients with CHD. A near-zero fluoroscopy ablation was possible in up to 89% of the procedures.
Keywords: Catheter ablation; Congenital heart disease; Radiation exposure.