1032 FEASIBILITY AND RELIABILITY OF COMPREHENSIVE THREE DIMENSIONAL TRANSESOPHAGEAL ECHOCARDIOGRAPHY SCREENING PROCESS FOR TRANSCATHETER MITRAL VALVE REPLACEMENT

Abstract

Abstract The procedural planning of transcatheter mitral valve replacement (TMVR) requires a specific imaging assessment to establish patient eligibility. Computed tomography (CT) is considered the reference method. In this setting, data regarding the role of transesophageal echocardiography (TEE) are lacking. Aims To evaluate the feasibility and reliability of a comprehensive 3D-TEE screening in TMVR candidates. Methods we performed a retrospective observational study including 72 consecutive patients who underwent a pre-procedural CT and 3D-TEE for TMVR evaluation. The measurements of mitral annulus (MA), length of anterior mitral leaflet (AML), native left ventricular outflow tract (LVOT) and predicted neo-LVOT acquired with CT and 3DTEE were compared using a novel semi-automated software for post processing analysis (3mensio Structural Heart 10.1 - 3mSH, Pie Medical Imaging, Bilthoven, Netherlands). The final suitability decision was given by the valve manufacturer based on CT measurements and clinical conditions. Results Among 72 patients screened, all patients had adequate image quality for 3D-TEE analysis. 3D-TEE and CT measurements for AML length (r=0.97), MA area (r=0.90), perimeter (r=0.68), anteroposterior (r=0.88) and posteromedial-anterolateral (r=0.74) diameters were found highly correlated, as well as for native LVOT (r=0.86) and predicted neo-LVOT areas (r=0.96) (all P -values <0.0001). An almost perfect agreement among CT and 3d TEE was found in assessing the eligibility for TMVR implantation (Cohen Kappa 0.83, p<0.001). Conclusions 3D-TEE appraisements showed good correlations with CT measurements and high accuracy to predict TMVR screening success. Central Illustration. Mitral annulus segmentation and neo-LVOT area measurement performed by means of the 3mensio software (Pie Medical Imaging, Bilthoven, Netherlands) in a step-by-step fashion by TEE and CT imaging. After the virtual simulation of a valve implantation, the minimal systolic neo-LVOT area is manually measured by planimetry on a plane orthogonal to the centerline.