Dynamic Exception Points for Fair Liver Allocation

IF 1.9 4区管理学 Q3 BUSINESS

Service Science Pub Date : 2024-06-10 DOI:10.1287/serv.2023.0092

M. Celdir, Mustafa Akan, Sridhar Tayur

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引用次数: 0

Abstract

There are disparities in access to livers based on transplant patients’ height, which disproportionately affects Hispanics, Asians, and women (across all ethnicities), because short patients can receive transplants from a smaller pool of available deceased donors for medical reasons. Reduced likelihood of transplantation leads to higher mortality rates and longer waiting times. We analyze fairness within the current U.S. liver allocation system where patients receive priority dynamically, based on their model for end-stage liver disease (MELD) scores, which reflect the severity of liver disease. We propose a simple adjustment, providing additional (exception) points based on height and MELD score, that can be easily implemented in practice, which materially reduces the disparity without sacrificing overall efficiency. We model the liver allocation system as a multiclass fluid model of overloaded queues with heterogeneous servers. We impose explicit equity constraints for all static patient classes, that is, height. We characterize the optimal solution under the objective of minimizing pretransplant mortality. The discretized version of the optimal policy is numerically solved using estimates from clinical data and a detailed simulation study demonstrates its effectiveness. The optimal policy, called the equity adjusted mortality risk policy, advocates ranking patients based on their short-term mortality risk adjusted for equity among height classes. Interpretation of the shadow prices of equity constraints in the optimal control problem as MELD exception points is novel in the transplant context since they can be seamlessly mapped into the existing system. Our simulations show that for women, the disparity can be almost completely eliminated. Hispanics and Asians greatly benefit from receiving these MELD exception points also. Our work provides a remedy to reduce the disparities in access to liver transplantation within the MELD-based allocation. Our approach can help the on-going analysis of the continuous distribution model for livers because it also considers aspects of candidate biology, notably height and body surface area. Funding: M. Akan was supported by the National Science Foundation [Grant CMMI-1334194] and the Carnegie Mellon University (CMU) [Onetto Fellowship in Operations Management]. Supplemental Material: The online appendix is available at https://doi.org/10.1287/serv.2023.0092 .

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公平肝脏分配的动态例外点

根据移植患者的身高，获得肝脏的机会存在差异，这对西班牙裔、亚裔和女性（在所有种族中）的影响尤为严重，因为由于医疗原因，身材矮小的患者可以从较小的可用死亡供体库中获得移植。移植可能性的降低导致死亡率升高和等待时间延长。我们分析了美国现行肝脏分配系统的公平性，在该系统中，患者根据反映肝病严重程度的终末期肝病模型（MELD）评分动态获得优先权。我们提出了一种简单的调整方法，即根据身高和 MELD 评分提供额外（例外）加分，这种方法在实践中很容易实施，可以在不牺牲整体效率的情况下实质性地缩小差距。我们将肝脏分配系统建模为多类流体模型，即具有异构服务器的超负荷队列。我们对所有静态病人类别（即身高）施加了明确的公平约束。我们描述了在移植前死亡率最小化目标下的最优解。利用临床数据的估计值对最优政策的离散化版本进行了数值求解，并通过详细的模拟研究证明了其有效性。最佳政策被称为公平调整死亡率风险政策，主张根据身高等级之间的公平调整后的短期死亡率风险对患者进行排序。将最优控制问题中公平约束的影子价格解释为 MELD 例外点，这在移植领域是一种创新，因为它们可以无缝映射到现有系统中。我们的模拟结果表明，对于女性来说，差距几乎可以完全消除。西班牙裔和亚裔也能从这些 MELD 例外点中大大受益。我们的工作提供了一种补救措施，可在基于 MELD 的分配中减少肝移植机会方面的差异。我们的方法还考虑了候选者的生物学特征，特别是身高和体表面积，因此有助于对肝脏连续分布模型进行持续分析。资助：M. Akan 得到了美国国家科学基金会 [CMMI-1334194 号基金] 和卡内基梅隆大学 (CMU) [Onetto 运营管理奖学金] 的资助。补充材料：在线附录见 https://doi.org/10.1287/serv.2023.0092 。

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来源期刊

Service Science Multiple-

CiteScore

3.30

自引率

4.30%

发文量

期刊介绍： Service Science publishes innovative and original papers on all topics related to service, including work that crosses traditional disciplinary boundaries. It is the primary forum for presenting new theories and new empirical results in the emerging, interdisciplinary science of service, incorporating research, education, and practice, documenting empirical, modeling, and theoretical studies of service and service systems. Topics covered include but are not limited to the following: Service Management, Operations, Engineering, Economics, Design, and Marketing Service System Analysis and Computational Simulation Service Theories and Research Methods Case Studies and Application Areas, such as healthcare, energy, finance, information technology, logistics, and public services.