Abstract 15000: Advanced Hemodynamics in the Assessment of Waitlist Mortality

Introduction: Our analysis seeks to determine whether it or advanced hemodynamic variables, including aortic pulsatility index (API), pulmonary artery pulsatility index (PAPI), left ventricular stroke work index (LVSWI), or right ventricular stroke work index (RVSWI), correlated more strongly than traditional metrics with waitlist mortality for heart transplant. Hypothesis: Advanced hemodynamic markers of cardiac function, including API and PAPI, correlate more strongly with waitlist mortality than traditional hemodynamic criteria, including SBP and PCWP. Methods: This retrospective analysis of the Scientific Registry of Transplant Candidates (SRTR) included adults listed at all Statuses after the new heart allocation system in 2018. Hemodynamic data was obtained for patients listed after the 2018 policy change. Kaplan-Meier survival analysis was completed, with API, PAPI, LVSWI, and RVSWI as the independent variable stratified into quintiles. Results: There were 9,418 patients listed for heart transplant since the new policy implementation, with 8,636 patients with complete hemodynamic data at listing. Kaplan-Meier survival analysis revealed that API and LVSWI were best at stratifying patients appropriately in terms of waitlist survival with homogeneity of dispersion between groups (Figure 1), (lowest API quintile to highest: HR 2.04, 95%CI 1.94 - 2.15; HR 1.70, 1.59 - 1.81; HR 1.40, 1.29-1.51; HR 1.19, 1.08 - 1.30). The traditional parameters of PCWP, CO and systolic blood pressure had considerable dispersion of risk between quintiles while the right-sided parameters of PAPI and RVSWI did not. Conclusions: Advanced left-sided hemodynamic parameters better risk strategy waitlist mortality and the urgent need for heart transplantation than traditional metrics or right-sided advanced parameters.