Case report
Ebstein anomaly is frequently associated with the presence of accessory pathways. Reference Kothari, Gupta, Lokhandwala, Vora, Kerkar and Thakur1 A 22-year-old male with Ebstein anomaly presented due to palpitations. Electrocardiographic examination revealed manifest pre-excitation with clearly visible delta waves, consistent with a right antero-lateral accessory pathway.
Electrophysiology study confirmed the presence of a Mahaim-type accessory pathway with decremental antegrade conduction properties without inducible tachycardia. Prolonged spontaneous atrioventricular conduction led to this uncommonly manifest pre-excitation pattern in a Mahaim pathway. Three-dimensional electroanatomical mapping (CARTO, Biosense Webster) of the accessory pathway was performed along the right (antero-)lateral atrium/tricuspid annulus in pre-excited sinus rhythm only. Optimal potentials were observed at the lateral atrioventricular groove (Fig. 1a,b).
Despite excellent atrioventricular fusion and a sharp “His-like” Mahaim-fiber potential, multiple ablation attempts with good contact force along the lateral tricuspid annulus failed to completely block the accessory pathway. Due to insufficient catheter-tip stability during ablation, we changed our approach. By deflecting the ablation catheter and the steerable sheath, we targeted the ventricular insertion site underneath the tricuspid ring (Fig. 1b,c). Successful radiofrequency ablation was achieved underneath this spot by targeting the Mahaim-fiber potential, resulting in restoration of normal atrioventricular nodal conduction (Fig. 1d).
For successful Mahaim-type fibre ablation in Ebstein anomaly, targeting the ventricular insertion site by hooking the catheter tip underneath the tricuspid ring may be crucial and requires the use of a steerable sheath. Reference Clemens, Peichl and Kautzner2 This report emphasises the importance of recognising atypical accessory pathways in patients with congenital cardiac anomalies and the significance of tailored ablation strategies for optimal outcomes.