| Literature DB >> 32803856 |
Wen Wang1,2, Michael A Rees3, Alan B Leichtman2,4, Peter X-K Song1,2, Mathieu Bray5, Valarie B Ashby1,2, Tempie Shearon1,2, Andrew Whiteman1, John D Kalbfleisch1,2.
Abstract
As proof of concept, we simulate a revised kidney allocation system that includes deceased donor (DD) kidneys as chain-initiating kidneys (DD-CIK) in a kidney paired donation pool (KPDP), and estimate potential increases in number of transplants. We consider chains of length 2 in which the DD-CIK gives to a candidate in the KPDP, and that candidate's incompatible donor donates to theDD waitlist. In simulations, we vary initial pool size, arrival rates of candidate/donor pairs and (living) nondirected donors (NDDs), and delay time from entry to the KPDP until a candidate is eligible to receive a DD-CIK. Using data on candidate/donor pairs and NDDs from the Alliance for Paired Kidney Donation, and the actual DDs from the Scientific Registry of Transplant Recipients (SRTR) data, simulations extend over 2 years. With an initial pool of 400, respective candidate and NDD arrival rates of 2 per day and 3 per month, and delay times for access to DD-CIK of 6 months or less, including DD-CIKs increases the number of transplants by at least 447 over 2 years, and greatly reduces waiting times of KPDP candidates. Potential effects on waitlist candidates are discussed as are policy and ethical issues.Entities:
Keywords: donors and donation: deceased; donors and donation: paired exchange; health services and outcomes research; kidney transplantation/ nephrology; simulation; statistics
Mesh:
Year: 2020 PMID: 32803856 PMCID: PMC9436421 DOI: 10.1111/ajt.16268
Source DB: PubMed Journal: Am J Transplant ISSN: 1600-6135 Impact factor: 9.369