Leaflet modification using a simplified unicorn technique for TAVI with self-expanding platforms in degenerated bioprosthetic valves

Abstract Background Coronary obstruction during transcatheter aortic valve implantation (TAVI) for degenerated surgical (SAV) or transcatheter aortic valves (TAV) is a life-threatening complication. Several techniques have been proposed to overcome this issue. The aim of this study was to evaluate the efficacy and safety of leaflet modification using a simplified version of the undermining iatrogenic coronary obstruction using radiofrequency needle (UNICORN) technique, originally described for balloon-expandable platforms. Methods This study included consecutive patients undergoing TAVI with self-expanding platforms for degenerated SAV or TAV at our Heart Valve Clinic between 2023 and 2025 who were deemed at high risk of coronary obstruction and received coronary protection with the simplified UNICORN technique. The simplified UNICORN technique involves electrosurgical traversal of the target leaflet with a straight 0.035-inch guidewire supported by a microcatheter. After successful traversal, the wire is exchanged for a stiff 0.035-inch wire and the leaflet is directly ballooned with large balloons prior to laceration and subsequent TAV implantation. Procedural and in-hospital outcomes according to Valve Academic Research Consortium (VARC-3) criteria were evaluated. Results Seven patients were included in this study. Mean age was 76 years and 5/7 were female, presenting with symptomatic bioprosthetic valve failure. The degenerated index valve was SAV in 6/7 and TAV in 1/7 cases. The left coronary artery was at risk in all cases, and the left neo-cusp was the target of all the UNICORN procedures. Additionally, 2/7 of patients received coronary protection for the right coronary artery by means of chimney stenting. A cerebral protection device was used in 3/7 cases. The implanted TAV was Evolut R/PRO (Medtronic) in 6/7 cases and ALLEGRA (Biosensors) in 1/7 cases. VARC-3 technical success was achieved in 6/7 (85.7%) patients, with 1 procedure-related death related to ventricular perforation. Hemodynamic instability after leaflet laceration was observed in 2/7 (28.5%) cases. No peri-procedural coronary obstruction events occurred. Conclusion Leaflet modification using a simplified UNICORN technique for TAV-in-SAV and TAV-in-TAV using self-expanding platforms is feasible and effective in preventing coronary obstruction. Further data are needed to confirm these findings.