INTRODUCTION: High pulmonary artery flow rates can result in severe reperfusion injury after lung transplantation. Our hypothesis was that selective activation of the adenosine A(2A) receptor with a highly specific analog (ATL-146e) would inhibit leukocyte activation and decrease reperfusion injury after high-flow reperfusion. METHODS: Using our isolated, ventilated, blood-perfused rabbit lung model, all groups (n = 8 per group) underwent lung harvest, 4 hours of cold storage, and blood reperfusion for 30 minutes. Measurements of pulmonary artery pressure (in millimeters of mercury), arterial oxygenation (in millimeters of mercury), myeloperoxidase, peak inspiratory pressure, and wet/dry weight ratio were obtained. Groups 1 (high flow) and 2 (high flow ATL-146e) underwent reperfusion at 120 mL/min for 30 minutes. Groups 3 (controlled high flow) and 4 (controlled high flow ATL-146e) underwent controlled reperfusion with an initial reperfusion of 60 mL/min for the first 5 minutes, followed by a rate of 120 mL/min for 25 minutes. During reperfusion, groups 2 and 4 received ATL-146e at 4 microg. kg(-1). min(-1). RESULTS: ATL-146e significantly improved lung physiologic measurements under both high-flow (group 1 vs group 2) and controlled high-flow (group 3 vs group 4) conditions after 30 minutes. CONCLUSIONS: The adenosine A(2A) receptor analogue ATL-146e significantly decreases the severity of reperfusion injury in the setting of both high-flow and controlled high-flow reperfusion.
INTRODUCTION: High pulmonary artery flow rates can result in severe reperfusion injury after lung transplantation. Our hypothesis was that selective activation of the adenosine A(2A) receptor with a highly specific analog (ATL-146e) would inhibit leukocyte activation and decrease reperfusion injury after high-flow reperfusion. METHODS: Using our isolated, ventilated, blood-perfused rabbit lung model, all groups (n = 8 per group) underwent lung harvest, 4 hours of cold storage, and blood reperfusion for 30 minutes. Measurements of pulmonary artery pressure (in millimeters of mercury), arterial oxygenation (in millimeters of mercury), myeloperoxidase, peak inspiratory pressure, and wet/dry weight ratio were obtained. Groups 1 (high flow) and 2 (high flow ATL-146e) underwent reperfusion at 120 mL/min for 30 minutes. Groups 3 (controlled high flow) and 4 (controlled high flow ATL-146e) underwent controlled reperfusion with an initial reperfusion of 60 mL/min for the first 5 minutes, followed by a rate of 120 mL/min for 25 minutes. During reperfusion, groups 2 and 4 received ATL-146e at 4 microg. kg(-1). min(-1). RESULTS: ATL-146e significantly improved lung physiologic measurements under both high-flow (group 1 vs group 2) and controlled high-flow (group 3 vs group 4) conditions after 30 minutes. CONCLUSIONS: The adenosine A(2A) receptor analogue ATL-146e significantly decreases the severity of reperfusion injury in the setting of both high-flow and controlled high-flow reperfusion.
Authors: Abbas Emaminia; Damien J Lapar; Yunge Zhao; John F Steidle; David A Harris; Victor E Laubach; Joel Linden; Irving L Kron; Christine L Lau Journal: Ann Thorac Surg Date: 2011-10-31 Impact factor: 4.330
Authors: Eman A Hamad; Weizhong Zhu; Tung O Chan; Valerie Myers; Erhe Gao; Xue Li; Jin Zhang; Jianliang Song; Xue-Qian Zhang; Joseph Y Cheung; Walter Koch; Arthur M Feldman Journal: PLoS One Date: 2012-07-06 Impact factor: 3.240