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Long-term ex situ normothermic perfusion of human split livers for more than 1 week

Current machine perfusion technology permits livers to be preserved ex situ for short periods to assess viability prior to transplant. Long-term normothermic perfusion of livers is an emerging field with tremendous potential for the assessment, recovery, and modification of organs. In this study, we...

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Published in:Nature communications 2023-08, Vol.14 (1), p.4755-4755, Article 4755
Main Authors: Lau, Ngee-Soon, Ly, Mark, Dennis, Claude, Jacques, Andrew, Cabanes-Creus, Marti, Toomath, Shamus, Huang, Joanna, Mestrovic, Nicole, Yousif, Paul, Chanda, Sumon, Wang, Chuanmin, Lisowski, Leszek, Liu, Ken, Kench, James G., McCaughan, Geoffrey, Crawford, Michael, Pulitano, Carlo
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Language:English
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Summary:Current machine perfusion technology permits livers to be preserved ex situ for short periods to assess viability prior to transplant. Long-term normothermic perfusion of livers is an emerging field with tremendous potential for the assessment, recovery, and modification of organs. In this study, we aimed to develop a long-term model of ex situ perfusion including a surgical split and simultaneous perfusion of both partial organs. Human livers declined for transplantation were perfused using a red blood cell-based perfusate under normothermic conditions (36 °C) and then split and simultaneously perfused on separate machines. Ten human livers were split, resulting in 20 partial livers. The median ex situ viability was 125 h, and the median ex situ survival was 165 h. Long-term survival was demonstrated by lactate clearance, bile production, Factor-V production, and storage of adenosine triphosphate. Here, we report the long-term ex situ perfusion of human livers and demonstrate the ability to split and perfuse these organs using a standardised protocol. Long-term machine perfusion of human livers outside the body is an emerging field with tremendous potential for the assessment, recovery, and modification of organs prior to transplantation. Here, the authors report the long-term ex situ perfusion of human livers and demonstrate the ability to split and perfuse these organs using a standardised protocol.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-40154-8