Abdominal Organ Preservation Solutions in the Age of Machine Perfusion
- PMID: 35939388
- DOI: 10.1097/TP.0000000000004269
Abdominal Organ Preservation Solutions in the Age of Machine Perfusion
Abstract
The past decade has been the foreground for a radical revolution in the field of preservation in abdominal organ transplantation. Perfusion has increasingly replaced static cold storage as the preferred and even gold standard preservation method for marginal-quality organs. Perfusion is dynamic and offers several advantages in comparison with static cold storage. These include the ability to provide a continuous supply of new metabolic substrates, clear metabolic waste products, and perform some degree of organ viability assessment before actual transplantation in the recipient. At the same time, the ongoing importance of static cold storage cannot be overlooked, in particular when it comes to logistical and technical convenience and cost, not to mention the fact that it continues to work well for the majority of transplant allografts. The present review article provides an overview of the fundamental concepts of organ preservation, providing a brief history of static cold preservation and description of the principles behind and basic components of cold preservation solutions. An evaluation of current evidence supporting the use of different preservation solutions in abdominal organ transplantation is provided. As well, the range of solutions used for machine perfusion of abdominal organs is described, as are variations in their compositions related to changing metabolic needs paralleling the raising of the temperature of the perfusate from hypothermic to normothermic range. Finally, appraisal of new preservation solutions that are on the horizon is provided.
Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.
Conflict of interest statement
C.F. and A.J.H. have received research funding and consultancy fees from Guanguong Shunde Innovative Design Institute, Guangdong, China. The other authors declare no conflicts of interest.
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References
-
- A definition of irreversible coma. JAMA. 1968;205:337–340.
-
- Calne RY, Rolles K, White DJ, et al. Cyclosporin A initially as the only immunosuppressant in 34 recipients of cadaveric organs: 32 kidneys, 2 pancreases, and 2 livers. Lancet. 1979;2:1033–1036.
-
- Kalayoglu M, Sollinger HW, Stratta RJ, et al. Extended preservation of the liver for clinical transplantation. Lancet. 1988;1:617–619.
-
- World Health Organization, Organización Nacional de Trasplantes. Global observatory on donation and transplantation. Available at. http://www.transplant-observatory.org/ . Accessed January 8, 2022.
-
- Rana A, Gruessner A, Agopian VG, et al. Survival benefit of solid-organ transplant in the United States. JAMA Surg. 2015; 150:252–259.
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