Current status and future potential of ex vivo lung perfusion in clinical lung transplantation

Author:

Zhou Alice L.1ORCID,Larson Emily L.1ORCID,Ruck Jessica M.1ORCID,Ha Jinny S.1,Casillan Alfred J.1,Bush Errol L.1ORCID

Affiliation:

1. Division of Thoracic Surgery, Department of Surgery Johns Hopkins Hospital Baltimore Maryland USA

Abstract

AbstractLung transplantation is accepted as a well‐established and effective treatment for patients with end‐stage lung disease. While the number of candidates added to the waitlist continues to rise, the number of transplants performed remains limited by the number of suitable organ donors. Ex vivo lung perfusion (EVLP) emerged as a method of addressing the organ shortage by allowing the evaluation and potential reconditioning of marginal donor lungs or minimizing risks of prolonged ischemic time due to logistical challenges. The currently available FDA‐approved EVLP systems have demonstrated excellent outcomes in clinical trials, and retrospective studies have demonstrated similar post‐transplant survival between recipients who received marginal donor lungs perfused using EVLP and recipients who received standard criteria lungs stored using conventional methods. Despite this, widespread utilization has plateaued in the last few years, likely due to the significant costs associated with initiating EVLP programs. Centralized, dedicated EVLP perfusion centers are currently being investigated as a potential method of further expanding utilization of this technology. In the preclinical setting, potential applications of EVLP that are currently being studied include prolongation of organ preservation, reconditioning of unsuitable lungs, and further enhancement of already suitable lungs. As adoption of EVLP technology becomes more widespread, we may begin to see future implementation of these potential applications into the clinical setting.

Publisher

Wiley

Subject

Biomedical Engineering,General Medicine,Biomaterials,Medicine (miscellaneous),Bioengineering

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