Summary: Geographic variation in model for end stage liver disease (MELD) scores at transplant across donation service areas has fueled a major policy debate over allocation of donor livers. An important caveat to this perceived disparity is the focus on allocation MELD, in which patients with lower calculated MELD scores may be assigned a higher score if their calculated MELD is thought to underestimate the risk of waitlist mortality. Analysis of calculated MELD at transplant demonstrates much less variation between regions. Some high allocation MELD regions actually have low calculated MELD scores relative to the rest of the country. The different pictures painted by allocation versus calculated MELD scores highlight the critical role MELD exception points play in geographic differences in access to transplantation. A national liver review board was recently implemented to impose national standardization of MELD exception scores in an effort to mitigate geographic disparity. A potential flaw in this strategy is the assumption that the risk of mortality associated with a given MELD score or exception diagnosis is the same across geographic areas. We know that social determinants of health and access to care vary widely across the country, however, and that these differences have a significant impact on health outcomes. Imposing a geographically uniform MELD exception scoring policy that does not account for these important differences may have the unintended effect of overestimating the risk of waitlist mortality for exception patients in some regions while underestimating that risk in others, thus worsening geographic disparity rather than mitigating it. I hypothesize that significant geographic variation exists in the prevalence and appropriateness of MELD exceptions scores at the county level, and that appropriate adjustment to MELD exception scores based on a candidate’s location will mitigate geographic disparity in liver transplant waitlist mortality. Despite abundant literature on geographic disparity in liver transplantation, few studies actually apply formal geospatial analysis to geographically based questions facing the field. I propose to utilize such techniques to accomplish the following unique aims: (1) determine the prevalence and appropriateness of MELD exceptions on a county level and diagnose the presence of geographic clusters where these exceptions provide an inappropriate advantage to transplant candidates with MELD exception scores; (2) determine adjusted MELD exception scores which would equalize waitlist mortality risk between exception and non-exception patients in each geographic area; and (3) simulate waitlist outcomes under an alternative allocation scenario where MELD exception points are assigned according to geographic region as determined in Aim 2. This study will provide a more granular and personalized approach to the estimation of waitlist mortality. The mentoring and training afforded by this award will foste...