Time-Integrated Aortic Regurgitation Index Helps Guide Balloon Postdilation During Transcatheter Aortic Valve Replacement and Predicts Survival.
Academic Article
Overview
abstract
Background Balloon postdilation ( BPD ) has emerged as an effective strategy to reduce paravalvular regurgitation ( PVR ) during transcatheter aortic valve replacement ( TAVR ). We investigated the utility of a time-integrated aortic regurgitation index ( TIARI ) to guide balloon postdilation ( BPD ) after valve deployment. Methods and Results All consecutive patients who had echocardiography, aortography, and hemodynamic tracings recorded immediately after valve deployment during TAVR were included in the study. Catheter-derived invasive hemodynamic parameters were calculated offline. Among 157 patients who underwent TAVR , 49 (32%) patients required BPD to reduce significant PVR after valve deployment. Two experienced operators decided whether the patients required BPD for significant PVR . Median TIARI measured immediately after valve deployment was significantly lower in patients who required BPD when compared with patients who did not require BPD ( P<0.001). In a multivariable analysis, lower TIARI (odds ratio: 0.81; P=0.003) and higher PVR grade on aortography and echocardiography ( P<0.001 for both) were associated with BPD . Adding TIARI to echocardiography and aortographic PVR assessment resulted in a significant increase in global χ2 ( P<0.001), an integrated discrimination index of 9% ( P=0.002), and combined C-statistics of 0.99 for predicting BPD . Higher TIARI after valve deployment was associated with better survival (hazard ratio: 0.94, P=0.014), while other hemodynamic and imaging parameters did not predict mortality after TAVR . Conclusions Among patients undergoing TAVR , a TIARI measured immediately after valve deployment adds incremental value to guide BPD over aortography and echocardiography. Higher residual TIARI is associated with better survival after TAVR .