University of Wisconsin solution with butanedione monoxime and calcium improves rat lung preservation

Background. A limitation to fully using lung transplantation for patients with end-stage lung diseases is short, safe preservation time (4 to 6 hours). Our goal is to extend this to 24 hours or more, which would greatly improve clinical lung transplantation. Methods. We used the isolated perfused rat lung to test how two preservation solutions (low potassium dextran and University of Wisconsin solution) affected quality of lungs after 6, 12, and 24 hours of preservation. Also, we tested modifications of the University of Wisconsin solution, including reversing the ratio of Na/K, the addition of 1.5 mmol/L calcium, and the combination of calcium and butanedione monoxime, agents that improve cardiac preservation. After preservation at 4°C, lungs were reperfused at 37°C with a physiologically balanced solution. Pulmonary artery flow rate, airway peak inspiratory pressure, and tissue edema were used to assess degree of preservation and reperfusion injury. Results. Low potassium dextran solution gave poor preservation (decreased pulmonary artery flow, tissue edema) after 12 hours of cold storage. There were no differences between regular and reversed Na/K ratio University of Wisconsin solutions at 12 or 24 hours of preservation. Addition of calcium had no beneficial effect on lung preservation. However, University of Wisconsin solution with calcium and butanedione monoxime gave excellent 24-hour cold storage, with pulmonary artery flow rate, tissue edema, and airway peak inspiratory pressure equal to control (0 hours of preservation) lungs. Conclusions. The University of Wisconsin solution appears capable of lung preservation for up to 24 hours if modified to contain calcium and butanedione monoxime. The mechanism of action of butanedione monoxime may be related to the suppression of smooth muscle contraction resulting in vasodilation of the cold-stored lung on reperfusion.