Assessing Liver Viability: Insights From Mitochondrial Bioenergetics in Ischemia-Reperfusion Injury

•The article underscores the urgency of increasing the pool of viable organs for liver transplantation to combat rising waitlist mortality.•Mitochondrial dysfunction plays a pivotal role in hepatic ischemia-reperfusion injury and overall tissue damage.•Ex situ machine perfusion has proven beneficial...

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Veröffentlicht in:Transplantation proceedings 2024-01, Vol.56 (1), p.228-235
Hauptverfasser: Nwaduru, Chinedu, Baker, Emma, Buff, Michelle, Selim, Motaz, Ovalle, Leo Aviles, Baker, Talia B., Zimmerman, Michael A.
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Sprache:eng
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Zusammenfassung:•The article underscores the urgency of increasing the pool of viable organs for liver transplantation to combat rising waitlist mortality.•Mitochondrial dysfunction plays a pivotal role in hepatic ischemia-reperfusion injury and overall tissue damage.•Ex situ machine perfusion has proven beneficial in the resuscitation of marginal organs for transplantation.•Current viability assessment for marginal organs has limitations for evaluating post-surgical outcomes. Orthotopic liver transplantation remains the definitive treatment for patients with end-stage liver disease. Unfortunately, the increasing demand for donor livers and the limited supply of viable organs have both led to a critical need for innovative strategies to expand the pool of transplantable organs. The mitochondrion, central to hepatic cellular function, plays a pivotal role in hepatic ischemic injury, with impaired mitochondrial function and oxidative stress leading to cell death. Mitochondrial protection strategies have shown promise in mitigating IRI and resuscitating marginal organs for transplant. Machine perfusion (MP) has been proven a valuable tool for reviving marginal organs with very promising results. Evaluation of liver viability during perfusion traditionally relies on parameters including lactate clearance, bile production, and transaminase levels. Nevertheless, the quest for more comprehensive and universally applicable viability markers persists. Normothermic regional perfusion has gained robust attention, offering extended recovery time for organs from donation after cardiac death donors. This approach has shown remarkable success in improving organ quality and reducing ischemic injury using the body's physiological conditions. The current challenge lies in the absence of a reliable assessment tool for predicting graft viability and post-transplant outcomes. To address this, exploring insights from mitochondrial function in the context of ischemia-reperfusion injury could offer a promising path toward better patient outcomes and graft longevity. Indeed, hypoxia-induced mitochondrial injury may serve as a surrogate marker of organ viability following oxygenated resuscitation techniques in the future.
ISSN:0041-1345
1873-2623
DOI:10.1016/j.transproceed.2023.11.019