National Kidney Registry
TypeNonprofit
Industry
FoundedJuly 12, 2007 (2007-07-12)
Headquarters,
U.S.
Area served
U.S.
Websitekidneyregistry.org

The National Kidney Registry (NKR) is a national registry in the United States listing kidney donors and recipients in need of a kidney transplant. NKR facilitates over 450 "Kidney Paired Donation" (KPD) or "Paired Exchange" transplants annually.[1][2]

More than one-third of potential living kidney donors who want to donate their kidney to a friend or family member cannot because of blood type or antibody incompatibility.[3] Historically, these donors would be turned away and the patient would lose the opportunity to receive a life-saving kidney transplant. KPD overcomes donor-recipient incompatibility by swapping kidneys between multiple donor-recipient pairs, and connecting them in longer chains, as well as taking an altruistic non-directed donor, and start chains of kidney transplants.

What the NKR does is consolidate the incompatible pairs of donors and recipients from transplant centers all over the United States, into a single registry, and facilitate the transplant process.

History

The NKR was founded in 2007 by the Hil family, after their youngest daughter lost her kidney function at age ten. Both parents were ruled out from donating to their daughter because they were biologically incompatible. After many unsuccessful attempts to find a compatible donor through all of the kidney paired exchange programs in the United States, a compatible donor was found. After this transplant ordeal, the Hil family founded the National Kidney Registry to eliminate the problem of incompatible donors, by building a national kidney paired donation (KPD) program.[4]

The NKR organized its first swap on Valentine's Day in 2008 at Cornell Medical Center in New York City.[5] This first swap was a 3-deep chain that ended with a bridge donor who donated two months later, extending the chain to 5-deep.[6] This chain was broken after the bridge donor reneged following many failed cross matches that required the donor to repeatedly go to the hospital for blood draws.

The NKR's second swap started with the shipment of a kidney from Cornell to UCLA School of Medicine. This was the first time a living donor kidney was shipped on a commercial airplane. This second chain crossed the country three times, facilitating eight total transplants at UCLA, Cornell, Stanford University School of Medicine, and California Pacific Medical Center.[7] Ultimately, this chain was broken when the bridge donor reneged.

Based on these early experiences, many safeguards were implemented to reduce the risk of broken chains, which dropped the frequency of broken chains from 33% in 2008 to 2% in 2015.[2]

In 2012, the NKR broke the world record for the largest kidney swap by organizing a 30-deep chain involving 60 donors and recipients. This chain was started by Rick Ruzzamenti, a 44-year-old from Riverside, California. The swap took four months to complete and involved 17 different transplant centers across 11 states.[8] Three years later, on March 26, the next record breaking chain was set into motion by Kathy Hart, a 48-year-old attorney from Minneapolis. This swap took two months to complete and involved 26 different transplant centers.[9]

The NKR has facilitated 3214 kidney transplants, as of March 17, 2019.[10]

Key Innovations

The rapid growth of KPD transplants in the United States has been driven by the following key NKR innovations.

  • Shipped Kidneys - The NKR was the first KPD program to utilize commercial airlines to ship kidneys. This allows kidney donors to undergo surgery near their home, eliminating the need to travel to a distant city to donate. This innovation has evolved to include the use of air charter jets and turboprop aircraft, on board couriers for connecting flights, charter flights combined with direct commercial moves, red-eye flights from West to East, and helicopter transport for shorter distances.
  • HLA coding standardization - In the startup period, the NKR experienced virtual cross match failure rates in excess of 50% because HLA coding schemes were not sufficiently standardized in the United States. The NKR implemented a standardized HLA coding scheme and forced the identification of more antigen and antibody data such as DP, Bw, Cw, DQ and DQA.[11] This refinement and expansion of HLA data increased the virtual cross match accuracy from less than 50% to greater than 95% allowing more patients to get transplanted in a shorter period of time.[12]
  • Finance & contracting - In late 2009, a 3-deep cluster being organized by the NKR fell apart the day before the swap was scheduled to commence because the hospitals in the swap could not agree on how to pay each other for the donor surgeries. Not only did this swap fall apart, but the last minute cancellation was the catalyst for a broken chain as the bridge donor for this cluster eventually withdrew. In response to this and prior financial challenges, the NKR assembled a team of finance experts from member centers and developed a financial model that would eliminate these challenges. Once the financial model was agreed upon by all member centers, the NKR created a universal "center to center agreement" that would allow any member center to ship a kidney to, or accept a kidney from, another member center.[13]
  • GPS tracking - In 2010, the NKR implemented the first GPS tracking systems used for shipping organs in the United States.[14] After several near misses including a case where a kidney was off-loaded from an "overweight" midnight red-eye flight out of LAX (Los Angeles International Airport), the NKR made GPS tracking mandatory for all kidney shipments. In this case, the kidney sat in the baggage storage area for approximately two hours before it was discovered by an airline employee. An emergency private jet was ordered and later departed Los Angeles at 4:00 AM. The kidney arrived in Philadelphia on time and was successfully transplanted. By 2015, the NKR was the largest user of GPS tracking systems in the United States for organ shipments.
  • Simultaneous Mutually Exclusive Loops and Chain (SMELAC) - KPD matching is characterized as an NP-Hard problem in computational complexity theory.[15] There are several ways to approach the KPD matching problem. The NKR uses an exhaustive search algorithm with expert system selection logic based on the NKR Medical Board's match offer selection policy.[16] The exhaustive search algorithm would require supercomputer resources if not for the NKR's use of donor preselect screening, which was patterned from brokerage industry limit orders and eliminates matches that will ultimately be declined. The initial NKR matching algorithm included only chain (Domino & NEAD) based matching for 2 deep chains. By 2009 the matching engine was extended to 3 deep chains, then 6 deep chains, then 12 deep chains. In 2010, stand alone loop matching was implemented along with an upgrade that accommodated 20 deep chains. In 2011, a major upgrade of the matching engine enabled Simultaneous Mutually Exclusive Loops and Chain (SMELAC) matching.[17] The SMELAC algorithm allowed the NKR to determine if the utilization of a chain, a loop or both would be the best approach for any given match run.
  • Repairing real-time swap failures - A real-time swap failure occurs when a swap falls apart after one or more donor surgeries have begun, leaving a patient, whose donor has already donated, without a kidney. Real-time swap failures can occur when a donor surgery must be aborted due to previously undetected donor medical conditions and when a recipient reacts badly to the surgery after the surgery has started. The NKR's historical statistics indicate that a real time-swap failure occurs once every 200 - 300 transplants.[18] Out of the seven real-time swap failures that the NKR experienced by the end of 2015, all patients that were initially left without a kidney when the swap failed received a kidney within 1 – 6 months. Chain end donors and non-directed donors are the only way to recover from a real-time swap failure. The NKR has been able to quickly repair swap failures because of the large number of chains it starts each year, including 83 chains in 2015.[2]
  • Center Liquidity Contribution (CLC) Program – Similar to a frequent flyer program, the CLC Program rewards transplant centers that bring 'O' donors to the exchange and provides an incentive for centers to not withhold 'O' NDDs and favorable blood type pairs (e.g. 'A' patient with an 'O' paired donor) from the NKR in order to facilitate local swaps. The CLC program was implemented in 2014 after 6 consecutive years of unabated growth in the NKR unmatched pool. After the CLC program was implemented, the NKR pool size peaked at 306 unmatched pairs and began consistently trending down, dropping below 200 unmatched pairs by 2018. Even with the declining pool size, the number of NKR transplants continued to increase, reducing the median wait time to under two months with the greatest reduction realized for ‘O’ patients with ‘A’ paired donors. This unprecedented dynamic was contrary to all simulations and academic publications which hypothesized that KPD pool sizes would continue to grow over time as high PRA patient and unfavorable blood type combination pairs accumulated in the pool.[19]
  • Exploratory cross matching - Exploratory cross matching for KPD was pioneered by Dr. Adam Bingaman at the Methodist Specialty & Transplant Hospital to test for HLA compatibility in advance of initiating a swap.[20] In 2013, the NKR adopted this approach in a multi-center environment to test donor, patient compatibility before a match is offered.[21] Although NKR's adoption of exploratory cross matching helped a few highly sensitized patients get transplanted and reduced the rate of swap failures due to unacceptable cross match results, it was not until the implementation of donor blood cryopreservation in 2015 that exploratory cross matching yielded substantial results.
  • Cryopreserved donor blood - Human blood can be cryopreserved and stored indefinitely in liquid nitrogen freezers at a temperature of -196 °C to facilitate rapid cross matching without requiring fresh blood from donors.[22] In 2015, the NKR created a national lab service, so cryopreserved donor blood could be stored for donors across NKR's 70+ member centers. The implementation of the cryopreservation service allowed NKR centers to dramatically reduce the time to complete a cross match from 1–2 weeks to 1–2 days, facilitating more transplants for highly sensitized patients and reducing swap failures caused by unacceptable cross matches. Donor blood cryopreservation also reduces the number of times a donor needs to have blood drawn for cross matching, making paired exchange more convenient for donors.[21]
  • Advanced Donation Program - The Advanced Donation Program (ADP) is a paired exchange separated in time. This program allows living donors to donate their kidney before their Intended Recipient receives a kidney. Some ADP donors have donated only a few weeks before their Intended Recipients received a kidney. Some ADP donors are donating 10–20 years before their Intended Recipient expects to need a transplant, and some ADP donors are donating in the hope that their Intended Recipient will never need a transplant. Garet Hil, Founder of the NKR, donated his kidney through the ADP program in 2015 which initiated a swap that facilitated eight transplants. Most long term ADP cases involve older donors who want to donate on behalf of their intended recipient before they become too old to donate.[23]
  • Living Donor Insurance &Support - In 2017 the NKR was the first KPD organization to provide donor insurance and other important donor support benefits to donors participating in paired exchange. In addition to the donor insurance the NKR also provides all donors legal support, donor complication coverage, donor kidney transplant prioritization, automated screening and history and 5 follow up surveys.[24]
  • Remote Donation - In 2017, the NKR launched the Remote Donation Network (RDN). The RDN allows someone who wants to donate a kidney to a friend or family member in a distant city without requiring the donor to travel to the transplant center in the distant city. Remote donation utilizes proven logistics systems pioneered in kidney swaps by the National Kidney Registry over the past decade to safely transport the kidney from the donor's local hospital to the transplant center in the distant city. Research has proven that shipping a live kidney for transplant has no significant impact on patient outcomes.[25][26]

Media Coverage

The NKR's innovations have generated significant media coverage including a front-page story in the New York Times.[27] and nationally televised interviews by Katie Couric with the CBS Evening News.[28] Diane Sawyer from ABC News,[29] and Byron Pitts at Nightline.[30]

References

  1. Transplant:Donor Relation by Transplant Center (Report). Organ Procurement and Transplantation Network. Retrieved April 6, 2016.
  2. 1 2 3 Paired Exchange Results Quarterly Report (Report). National Kidney Registry. 2015.
  3. Segev; Gentry; Warren; Reeb; Montgomery (April 20, 2005). "Kidney Paired Donation and Optimizing the Use of Live Donor Organs". JAMA. 293 (15): 1883–1890. doi:10.1001/jama.293.15.1883. PMID 15840863.
  4. "Garet Hil".
  5. "First Valentine's Day Donor Chain" (Press release). National Kidney Registry. February 20, 2008.
  6. "Acts of Kindness Between Strangers". NBC New York Nightly. Retrieved April 7, 2016.
  7. Asynchronous, Out-of-Sequence, Transcontinental Chain Kidney Transplantation. American Journal of Transplantation (Report). 2009.
  8. "Largest Kidney Donor Chain: National Kidney Registry sets world record". www.worldrecordacademy.com. World Record Academy. February 21, 2012.
  9. Pitts; Louszko; Cappetta; Effron; Valiente (April 14, 2015). "Donating a Kidney to a Complete Stranger in Order to Save a Loved One". ABC News.
  10. "National Kidney Registry | Facilitating Living Kidney Donation". National Kidney Registry.
  11. Baxter-Lowe; Cecka; Kamoun; Sinacore; Melcher (February 26, 2016). "Center-Defined Unacceptable HLA Antigens Facilitate Transplants for Sensitized Patients in a Multi-Center Kidney Exchange Program". XX. American Journal of Transplantation: 1–7. {{cite journal}}: Cite journal requires |journal= (help)
  12. Veale; Hil. "National Kidney Registry: 213 Transplants in 3 Years". Clinical Transplants 2010: 333–344. {{cite journal}}: Cite journal requires |journal= (help)
  13. Mast; Vaughan; Busque; Veale; Roberts; Straub; Flores; Canari; Levy; Tietjen; Hil; Melcher (June 8, 2011). "Managing Finances of Shipping Living Donor Kidneys for Donor Exchanges". American Journal of Transplantation. 11 (9): 1810–4. doi:10.1111/j.1600-6143.2011.03690.x. PMID 21831153. S2CID 21203899.
  14. "NKR Introduces GPS Tracking Technology" (Press release). National Kidney Registry. August 16, 2010.
  15. Timmer (January 6, 2015). "The math of organ donation:Kidneys are an NP-Hard problem". Ars Technica.
  16. "Medical Board Policies". www.kidneyregistry.org. National Kidney Registry. Retrieved April 10, 2016.
  17. Veale; Hil (April 9, 2012). "The National Kidney Registry:175 Transplants in One Year". Clinical Transplants 2011. {{cite journal}}: Cite journal requires |journal= (help)
  18. "Where Are We Going with Kidney Paired Donation? A Nationally-run Private Program Works Best". American Society of Transplantation. {{cite journal}}: Cite journal requires |journal= (help)
  19. Segev, Dorry L.; Gentry, Sommer E.; Melancon, J. Keith; Montgomery, Robert A. (October 2005). "Characterization of waiting times in a simulation of kidney paired donation". American Journal of Transplantation. 5 (10): 2448–2455. doi:10.1111/j.1600-6143.2005.01048.x. ISSN 1600-6135. PMID 16162194.
  20. Bingaman; Wright Jr.; Kapturczak; Shen; Vick; Murphey (March 1, 2012). "Single-Center Kidney Paired Donation: The Methodist San Antonio Experience". American Journal of Transplantation. 12 (8): 2125–2132. doi:10.1111/j.1600-6143.2012.04070.x. PMID 22548839. S2CID 25144900.
  21. 1 2 "National Kidney Registry Initiates Donor Blood Cryo-Preservation" (Press release). National Kidney Registry. December 2, 2014.
  22. Berz; McCormack; Winer; Colvin; Quesenberry (November 12, 2007). "Cryopreservation of Hematopoietic Stem Cells". Am. J. Hematol. 82 (6): 463–472. doi:10.1002/ajh.20707. PMC 2075525. PMID 17266054.
  23. Flechner; Leeser; Pelletier; Morgievich; Miller; Thompson; McGuire; Sinacore; Hil (March 31, 2015). "The Incorporation of an Advanced Donation Program Into Kidney Paired Exchange: Initial Experience of the National Kidney Registry". XX. American Journal of Transplantation: 1–6. {{cite journal}}: Cite journal requires |journal= (help)
  24. "National Kidney Registry Press Release".
  25. Treat, Eric G.; Miller, Eric T.; Kwan, Lorna; Connor, Sarah E.; Maliski, Sally L.; Hicks, Elisabeth M.; Williams, Kristen C.; Whitted, Lauren A.; Gritsch, Hans A. (November 2014). "Outcomes of shipped live donor kidney transplants compared with traditional living donor kidney transplants". Transplant International. 27 (11): 1175–1182. doi:10.1111/tri.12405. ISSN 1432-2277. PMID 25052215. S2CID 2156607.
  26. Treat, Eric; Chow, Eric K. H.; Peipert, John D.; Waterman, Amy; Kwan, Lorna; Massie, Allan B.; Thomas, Alvin G.; Bowring, Mary Grace; Leeser, David (November 22, 2017). "Shipping living donor kidneys and transplant recipient outcomes". American Journal of Transplantation. 18 (3): 632–641. doi:10.1111/ajt.14597. ISSN 1600-6143. PMC 6354257. PMID 29165871.
  27. Sack, Kevin (February 18, 2012). "60 Lives, 30 Kidneys, All Linked". New York Times.
  28. Couric, Katie (November 10, 2010). "Kidney Chains Link Strangers". CBS Evening News.
  29. Sawyer, Diane (February 20, 2012). "Kidney Donation Leads to Unexpected Kindness". ABC News.
  30. Pitts; Louszko; Cappetta; Effron; Valiente (April 15, 2015). "Changing Lives Through Donating Kidneys to Strangers". ABC News Nightline.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.