P635 Echocardiographic-fluoroscopic fusion imaging: a new technology applied in pediatric ventricular tachycardia ablation

Abstract

Abstract Introduction Eleven-year-old male presented with nonsustained ventricular tachycardia presented for ablation of ventricular tachycardia located on the left lateral wall that is likely associated with anterolateral papillary muscle. Although he was asymptomatic, his atria have become dilated over time thus he was scheduled for a catheter ablation. Echocardiographic-fluoroscopic fusion imaging has shown transseptal puncture using this technology is safe and required less time in crossing the atrial septum; however, fusion imaging with 3D echocardiography overlay of left ventricular papillary muscle onto fluoroscopy has not been used in ventricular tachycardia ablations. Purpose The purpose of this clinical case was to evaluate the application of this new technology of echocardiography-fluoroscopy fusion imaging to guide left ventricular tachycardia ablation. Methods Echocardiographic-fluoroscopic fusion imaging was used for transseptal puncture and a 3D echocardiographic image of the left ventricle with anterolateral papillary muscle was overlaid onto fluoroscopy (Figure 1). The radiofrequency catheter was used to ablate the left anterolateral papillary muscle. With fused imaging, the ablation catheter was seen at the left anterolateral papillary muscle, and care was taken to prevent perforation of the lateral wall of the left ventricle. Results With fusion imaging of the left anterolateral papillary muscle overlaid onto fluoroscopy, the lateral wall of the left ventricular was also delineated. The catheter was easily visualized with fusion imaging to prevent perforation of the left ventricle while radiofrequency ablation was performed (Figure 1). Discussion 3D echocardiography provides excellent soft tissue definition of the lateral wall of the left ventricle and papillary muscle while fluoroscopy provides clear visualization of the ablation catheter. The ability of fusion imaging to overlay the 3D echocardiographic images onto fluoroscopy allowed for easy visualization of the anterolateral papillary muscle while the radiofrequency ablation was performed to avoid lateral wall perforation of the left ventricle. Future studies of echocardiographic-fluoroscopic fusion imaging should evaluate the potential to reduce procedure time and improve patient outcomes. Abstract P635 Figure.