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Case Reports
. 2025 Feb;31(2):589-598.
doi: 10.1038/s41591-024-03429-1. Epub 2025 Jan 8.

Transplantation of a genetically modified porcine heart into a live human

Bartley P Griffith  1 Alison Grazioli  2 Avneesh K Singh  3 Andy Tully  3 Javier Galindo  3 Kapil K Saharia  2 Aakash Shah  1 Erik R Strauss  4 Patrick N Odonkor  4 Brittney Williams  4 Henry J Silverman  2 Allen Burke  5 Cinthia B Drachenberg  5 Chris L Wells  2 Timm Dickfeld  2 Susie N Hong  2 Albert J Hicks 3rd  2 Manjula Ananthram  2 Anuj Gupta  2 Robert H Christenson  5 Lo Tamburro  5 Tianshu Zhang  3 Alena Hershfeld  3 Billeta Lewis  3 Erika D Feller  6 Kasinath Kuravi  7 Lori Sorrells  7 Erwan Morgand  8 Fariza Mezine  8 Valentin Goutaudier  9 Martine Rothblatt  10 Christine L Lau  3 Bradley Taylor  1 Steve Perrin  11 Alexandre Loupy  9 David Ayares  7 Muhammad M Mohiuddin  12   13
Affiliations
Case Reports

Transplantation of a genetically modified porcine heart into a live human

Bartley P Griffith et al. Nat Med. 2025 Feb.

Abstract

Following our previous experience with cardiac xenotransplantation of a genetically modified porcine heart into a live human, we sought to achieve improved results by selecting a healthier recipient and through more sensitive donor screening for potential zoonotic pathogens. Here we transplanted a 10-gene-edited pig heart into a 58-year-old man with progressive, debilitating inotrope-dependent heart failure due to ischemic cardiomyopathy who was not a candidate for standard advanced heart failure therapies. He was maintained on a costimulation (anti-CD40L, Tegoprubart) blockade-based immunomodulatory regimen. The xenograft initially functioned well, with excellent systolic and diastolic function during the first several weeks posttransplantation. Subsequently, the xenograft developed rapidly progressing diastolic heart failure, biventricular wall thickening and, ultimately, near-complete loss of systolic function necessitating initiation of extracorporeal membranous oxygenation on day 31. Given these setbacks, the patient chose to transition to comfort care after 40 days. As with our first patient, histology did not reveal substantial immune cell infiltration but suggested capillary endothelial injury with interstitial edema and early fibrosis. No evidence of porcine cytomegalovirus replication in the xenograft was observed. Strategies to overcome the obstacle of antibody-mediated rejection are needed to advance the field of xenotransplantation.

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Conflict of interest statement

Competing interests: This study was supported by the University of Maryland Medical Center and University of Maryland School of Medicine. The source animal was provided by Revivicor, and the Tegoprubart antibody was provided by Eledon Pharmaceuticals, both in kind. CareDx and Karius analytics were provided in kind. United Therapeutics Inc. provided funding to the University of Maryland Foundation to help defray the cost of this transplant. No financial support was provided by Eledon Pharmaceuticals or XVIVO. Federal funding was used for the preclinical trial studies leading to this work. M.R. is the CEO of United Therapeutics. D.A., K.K. and L.S. are employees of Revivicor, a subsidiary of United Therapeutics. S.P. is the CEO of Eledon Pharmaceuticals. Members of the Program in Cardiac Xenotransplantation received research funding from United Therapeutics. There are no other competing interests to disclose.

References

    1. Griffith, B. P. et al. Genetically modified porcine-to-human cardiac xenotransplantation. N. Engl. J. Med. 387, 35–44 (2022). - DOI - PubMed - PMC
    1. Mohiuddin, M. M. et al. Graft dysfunction in compassionate use of genetically engineered pig-to-human cardiac xenotransplantation: a case report. Lancet 402, 397–410 (2023). - DOI - PubMed - PMC
    1. Mohiuddin, M. M. et al. Progressive genetic modifications of porcine cardiac xenografts extend survival to 9 months. Xenotransplantation 29, e12744 (2022). - DOI - PubMed - PMC
    1. Goerlich, C. E. et al. Blood cardioplegia induction, perfusion storage and graft dysfunction in cardiac xenotransplantation. Front. Immunol. 12, 667093 (2021). - DOI - PubMed - PMC
    1. Singh, A. K. et al. Cardiac xenotransplantation: progress in preclinical models and prospects for clinical translation. Transpl. Int. 35, 10171 (2022). - DOI - PubMed - PMC

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