BACKGROUND: Direct-acting antiviral therapy made possible the novel practice of utilizing hepatitis C virus (HCV)-viremic (HCV RNA-positive) donors into HCV-negative recipients in the United States. Although initial reports of outcomes have been satisfactory, higher-quality longer-term outcomes remain to be elucidated. METHODS: National data were examined from the Organ Procurement and Transplantation Network on adult patients in the United States who underwent a primary, single organ, deceased donor liver transplant from January 1, 2016 to March 31, 2020. Outcomes of HCV-negative recipients (R-) who received an allograft from donors who were HCV RNA-positive (D HCV+) donors were compared with HCV RNA-negative (D HCV-) donors. RESULTS: There has been a 35-fold increase in D HCV+/R- liver transplants over the past 4 y in the United States, from 8 in 2016 to 280 in 2019. There was an almost 6-fold difference in this practice among UNOS geographic regions. Graft survival following D HCV+/R- liver transplantation was excellent, with 1-y rates being 91% and 90% and 2-y rates being 88.5% and 87% for D HCV+/R- and D HCV-/R-, respectively (P = 0.672). In multivariate analysis, adjusting for other donor and recipient attributes, D HCV+/R- was not associated with patient or graft survival. CONCLUSIONS: The practice of D HCV+/R- continues to increase without discernible impact on medium-term outcomes. Notable geographic variation exists, suggesting inconsistent perceptions about the impact of D HCV+/R- transplantation on outcomes. These results strengthen the perceived safety in utilizing HCV-viremic donor organs as a donor pool expansion strategy, not only in the United States, but also worldwide.
BACKGROUND: Direct-acting antiviral therapy made possible the novel practice of utilizing hepatitis C virus (HCV)-viremic (HCV RNA-positive) donors into HCV-negative recipients in the United States. Although initial reports of outcomes have been satisfactory, higher-quality longer-term outcomes remain to be elucidated. METHODS: National data were examined from the Organ Procurement and Transplantation Network on adult patients in the United States who underwent a primary, single organ, deceased donor liver transplant from January 1, 2016 to March 31, 2020. Outcomes of HCV-negative recipients (R-) who received an allograft from donors who were HCV RNA-positive (D HCV+) donors were compared with HCV RNA-negative (D HCV-) donors. RESULTS: There has been a 35-fold increase in D HCV+/R- liver transplants over the past 4 y in the United States, from 8 in 2016 to 280 in 2019. There was an almost 6-fold difference in this practice among UNOS geographic regions. Graft survival following D HCV+/R- liver transplantation was excellent, with 1-y rates being 91% and 90% and 2-y rates being 88.5% and 87% for D HCV+/R- and D HCV-/R-, respectively (P = 0.672). In multivariate analysis, adjusting for other donor and recipient attributes, D HCV+/R- was not associated with patient or graft survival. CONCLUSIONS: The practice of D HCV+/R- continues to increase without discernible impact on medium-term outcomes. Notable geographic variation exists, suggesting inconsistent perceptions about the impact of D HCV+/R- transplantation on outcomes. These results strengthen the perceived safety in utilizing HCV-viremic donor organs as a donor pool expansion strategy, not only in the United States, but also worldwide.
Authors: Anil G Suryaprasad; Jianglan Z White; Fujie Xu; Beth-Ann Eichler; Janet Hamilton; Ami Patel; Shadia Bel Hamdounia; Daniel R Church; Kerri Barton; Chardé Fisher; Kathryn Macomber; Marisa Stanley; Sheila M Guilfoyle; Kristin Sweet; Stephen Liu; Kashif Iqbal; Rania Tohme; Umid Sharapov; Benjamin A Kupronis; John W Ward; Scott D Holmberg Journal: Clin Infect Dis Date: 2014-08-11 Impact factor: 9.079
Authors: James F Crismale; Mian Khalid; Arjun Bhansali; Graciela De Boccardo; Rafael Khaim; Sander S Florman; Ron Shapiro; Thomas D Schiano Journal: Clin Transplant Date: 2019-12-30 Impact factor: 2.863
Authors: J Levitsky; R N Formica; R D Bloom; M Charlton; M Curry; J Friedewald; J Friedman; D Goldberg; S Hall; M Ison; T Kaiser; D Klassen; G Klintmalm; J Kobashigawa; A Liapakis; K O'Conner; P Reese; D Stewart; N Terrault; N Theodoropoulos; J Trotter; E Verna; M Volk Journal: Am J Transplant Date: 2017-07-01 Impact factor: 8.086
Authors: Thomas G Cotter; Sonali Paul; Burhaneddin Sandıkçı; Thomas Couri; Adam S Bodzin; Ester C Little; Vinay Sundaram; Michael Charlton Journal: Hepatology Date: 2019-04-11 Impact factor: 17.425
Authors: Emily Bethea; Ashwini Arvind; Jenna Gustafson; Karin Andersson; Daniel Pratt; Irun Bhan; Michael Thiim; Kathleen Corey; Patricia Bloom; Jim Markmann; Heidi Yeh; Nahel Elias; Shoko Kimura; Leigh Anne Dageforde; Alex Cuenca; Tatsuo Kawai; Kassem Safa; Winfred Williams; Hannah Gilligan; Meghan Sise; Jay Fishman; Camille Kotton; Arthur Kim; Christin C Rogers; Sarah Shao; Mariesa Cote; Linda Irwin; Paul Myoung; Raymond T Chung Journal: Am J Transplant Date: 2020-02-03 Impact factor: 8.086
Authors: A Kwong; W R Kim; J R Lake; J M Smith; D P Schladt; M A Skeans; S M Noreen; J Foutz; E Miller; J J Snyder; A K Israni; B L Kasiske Journal: Am J Transplant Date: 2020-01 Impact factor: 8.086
Authors: Nikhil Kapila; K V Narayanan Menon; Kawtar Al-Khalloufi; Jason M Vanatta; Carla Murgas; Diego Reino; Samer Ebaid; Joshua J Shaw; Neerja Agrawal; Salwa Rhazouani; Viviana Navas; Cedric Sheffield; Asad Ur Rahman; Michael Castillo; Christina C Lindenmeyer; Charles Miller; Cristiano Quintini; Xaralambos B Zervos Journal: Hepatology Date: 2020-04-15 Impact factor: 17.425
Authors: Farina M Hanif; Zain Majid; Nasir Hassan Luck; Abbas Ali Tasneem; Syed Muddasir Laeeq; Muhammed Mubarak Journal: World J Hepatol Date: 2022-04-27
Authors: Thomas G Cotter; Jennifer Wang; Sarah R Lieber; Matthew A Odenwald; Nicole E Rich; Jorge A Marrero; Amit G Singal; Mack C Mitchell; Andrew Aronsohn; Michael Charlton; John Fung Journal: Transplant Direct Date: 2021-06-08