Litcius/Paper detail

Successful 3-day lung preservation using a cyclic normothermic ex vivo lung perfusion strategy

Aadil Ali, Antti I. Nykänen, Erika L. Beroncal, Edson Brambate, Andrea Mariscal, Vinicius Schenk Michaelsen, Aizhou Wang, M Kawashima, Rafaela Vanin Pinto Ribeiro, Yu Zhang, Eddy Fan, Laurent Brochard, Jonathan Yeung, Tom Waddell, Mingyao Liu, Ana C. Andreazza, Shaf Keshavjee, Marcelo Cypel

2022EBioMedicine55 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Cold static preservation (CSP) at higher temperatures (10°C) has been recently shown as an optimal strategy up to 24-36h of preservation. Here, we hypothesized that alternating 10°C static storage with cycles of normothermic ex vivo lung perfusion (EVLP) would provide conditions for cellular "recharge", allowing for multi-day lung preservation. METHODS: Donor lungs from male Yorkshire pigs were preserved using 10°C CSP with two cycles of 4h EVLP. After a total of 3 days of preservation, a left lung transplant was performed followed by 4h of graft evaluation. As controls, 2 lungs were preserved solely with continuous 10°C preservation for 3 days and transplanted. FINDINGS: For animals receiving lungs preserved using a cyclic EVLP protocol, lung function and histological structures were stable and the recipient systemic partial pressure of oxygen/fraction of inspired oxygen (P/F Ratio) after excluding the contralateral lung was 422 ± 61 mmHg. In contrast, lungs preserved solely in continuous cold static storage at 10°C for 72h developed massive lung failure, resulting in recipient death. Metabolomic analysis revealed that EVLP plays a critical role in the re-vitalization of key central carbon energy metabolites (Glucose, Succinate, N-Acetyl Aspartate) and reducing the expression of the inflammasome activation marker CASP1. INTERPRETATION: In conclusion, we demonstrate for the first time the feasibility of 3-day lung preservation leading to excellent early post-transplant outcomes. The thoughtful combination of cold storage (10°C) and intermittent EVLP can open new opportunities in organ transplantation. FUNDING: This work was supported by the UHN Foundation (Grant#1013612).

Topics & Concepts

LungLung transplantationMedicineCold storagePerfusionEx vivoTransplantationIn vivoSurgeryBiologyInternal medicineBiotechnologyHorticultureTransplantation: Methods and OutcomesOrgan Transplantation Techniques and OutcomesCardiac Ischemia and Reperfusion