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Genetic Modulation: Future Trends Toward Graft Optimization During Machine Perfusion

Sabrina Stimmeder, Bettina Leber, Robert Sucher, Philipp Stiegler

2023Transplantation19 citationsDOIOpen Access PDF

Abstract

Dynamic preservation methods such as normothermic, subnormothermic, and hypothermic machine perfusion circuits have emerged as viable alternatives to conventional static cold storage. These organ perfusion technologies serve as preservation methods and enable organ assessment, reconditioning, and repair before transplantation. Gene therapy is a novel strategy with the potential to transform the field of graft optimization and treatment. Thereby specific pathways involved in the transplantation process can be targeted and modified. This review aims to provide an overview of gene delivery methods during ex vivo machine perfusion of kidney and liver grafts. Recent literature on state-of-the-art gene therapy approaches during ex situ organ preservation, especially with respect to ischemia-reperfusion injury, as well as acute and chronic graft rejection have been analyzed. Additionally, potential challenges that could affect further refinement of this therapeutic modality are outlined.

Topics & Concepts

Machine perfusionEx vivoPerfusionTransplantationMedicineIschemiaOrgan transplantationGenetic enhancementReperfusion injuryKidney transplantationIn vivoBioinformaticsSurgeryGeneBiologyCardiologyLiver transplantationBiotechnologyBiochemistryOrgan Transplantation Techniques and OutcomesRNA Interference and Gene DeliveryTransplantation: Methods and Outcomes
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