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Vol. 40. Issue 2.
Pages 86-93 (February 2004)
Vol. 40. Issue 2.
Pages 86-93 (February 2004)
Review Articles
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Lung Preservation: Current Practices
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A.M. Padillaa, J.D. Padillab,
Corresponding author
jpadilla@comv.es
Correspondence: Dr. J.D. Padilla Alarcón. Servicio de Cirugía Torácica. Hospital Universitario La Fe. Avda. Campanar, 21. 46009 Valencia. España
Correspondence: Dr. J.D. Padilla Alarcón. Servicio de Cirugía Torácica. Hospital Universitario La Fe. Avda. Campanar, 21. 46009 Valencia. España
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REFERENCES
[1]
M Hertz, D Taylor, EP Trulock, MM Boucek, P Mohacsi, L Edwards, et al.
The Registry of International Society for Heart and Lung Transplantation: nineteenth official report: 2002.
J Heart Lung Transplant, 21 (2002), pp. 950-970
[2]
EP Trulock.
Lung transplantation.
Am J Resp Crit Care Med, 155 (1997), pp. 789-818
[3]
JD Christie, JE Bavaria, HI Palevsky, L Litzky, NP Blumenthal, LR Kaiser, et al.
Primary graft failure following lung transplantation.
Chest, 114 (1998), pp. 51-60
[4]
R Anglés, L Tenorio, C Bravo, J Teixidor, M Rochera, FJ De Latorre, et al.
Lesión de reimplantación en el postoperatorio del trasplante pulmonar. Incidencia, factores predictivos, pronósticos y evolución.
Med Clin (Barc), 113 (1999), pp. 81-84
[5]
RC King, RA Oliver, AR Bins, F Rodríguez, RC Kanithanon, TM Daniel, et al.
Reperfusion injury significantly impacts clinical outcome after pulmonary transplantation.
Ann Thorac Surg, 69 (2000), pp. 1681-1685
[6]
G Thabut, I Vinatier, JB Stern, G Leseche, P Loirat, M Fournier, et al.
Primary graft failure following lung transplantation: predictive factors of mortality.
Chest, 121 (2002), pp. 1876-1882
[7]
J Padilla, V Calvo, J Pastor, E Blasco, F París.
Trasplante unipulmonar y fracaso primario del injerto.
Arch Bronconeumol, 38 (2002), pp. 16-20
[8]
AK Qayumy, M Nikbakhat-Sangari, DV Godin.
The relationship of ischemia–reperfusion injury of transplanted lung and up-regulation of major histocompatibility complex II on host peripheral lymphocytes.
J Thorac Cardiovasc Surg, 115 (1998), pp. 978-989
[9]
SM Fiser, CG Tribble, SM Long, AK Kaza, JE Kern, DR Jones, et al.
Ischemia-reperfusion injury after lung transplantation increases risk of late bronchiolitis obliterans syndrome.
Ann Thorac Surg, 73 (2002), pp. 1041-1048
[10]
J Padilla, V Calvo, J Teixidor, A Varela, M Carbajo, A Álvarez.
Pulmonary "twinning" transplantation procedure.
Transplant Proc, 34 (2002), pp. 1287-1289
[11]
AJ Fisher, SC Donnelly, N Hirani, C Haslett, RM Strieter, JH Dark, et al.
Elevated levels of interleukin-8 in donor lungs is associated with early graft failure after lung transplantation.
Am J Respir Crit Care Med, 163 (2001), pp. 259-265
[12]
AM Ciccone, BF Meyers, TJ Guthrie, RJ Battafarano, EP Trulock, JD Cooper, et al.
Does donor cause of death affect the outcome of lung transplantation?.
J Thorac Cardiovasc Surg, 123 (2002), pp. 429-436
[13]
LL Schulman, T Anandarangam, DW Leibowitz, MR Ditullio, CC McGregor, ME Galantowicz, et al.
Four year prospective study of pulmonary venous thrombosis after lung transplantation.
J Am Soc Echocardiogr, 14 (2001), pp. 806-812
[14]
MA Gillette, DR Hess.
Ventilator-induced lung injury and the evolution of lung-protective strategies in acute respiratory distress syndrome.
Respir Care, 46 (2001), pp. 130-148
[15]
RF Kelly.
Current strategies in lung preservation.
J Lab Clin Med, 136 (2000), pp. 427-440
[16]
M De Perrot, S Keshavjee.
Lung preservation.
Curr Opin Organ Transplant, 6 (2001), pp. 223-230
[17]
MH Yacoub, A Khaghani, N Banner, S Tajkarimi, M Fitzgerald.
Distant organ procurement for heart and lung transplantation.
Transplant Proc, 21 (1989), pp. 2548-2550
[18]
DL Nelson, MM Cox.
Lehninger. Principles of biochemistry, pp. 448-449
[19]
DN Hopkinson, MS Bhabra, TL Hooper.
Pulmonary graft preservation: a worldwide survey of current clinical practice.
J Heart Lung Transplant, 17 (1998), pp. 525-531
[20]
PA Clavien, PR Harvey, SM Strasberg.
Preservation and reperfusion injuries in liver allografts: an overview and synthesis of current studies.
Transplantation, 53 (1992), pp. 957-978
[21]
RL Hardesty, R Aeba, JM Armitage, RL Kormos, BP Griffith.
A clinical trial of University of Wisconsin solution for pulmonary preservation.
J Thorac Cardiovasc Surg, 105 (1993), pp. 660-666
[22]
M Rinaldi, L Martinelli, G Volpato, G Minzioni, C Goggi, V Mantovani, et al.
University of Wisconsin solution provides better lung preservation in human lung transplantation.
Transplant Proc, 27 (1995), pp. 2869-2871
[23]
C Müller, H Furst, H Reichenspurner, J Briegel, J Groh, B Reichart.
Lung procurement by low-potassium dextran and the effect on preservation injury. Munich Lung Transplant Group.
Transplantation, 68 (1999), pp. 1139-1143
[24]
M Strüber, M Wilhelmi, W Harringer, J Niedermeyer, M Anssar, A Künseberck, et al.
Flush perfusion with low potassium dextran solution improves early graft function in clinical lung transplantation.
Eur J Cardiothorac Surg, 19 (2001), pp. 190-194
[25]
S Fischer, A Matte-Martyn, M De Perrot, T Waddell, Y Sekine, M Hutcheon, et al.
Low-potassium dextran preservation solution improves lung function after human lung transplantation.
J Thorac Cardiovasc Surg, 120 (2001), pp. 594-596
[26]
A D'Armini, A Grande, M Rinaldi, C Goggi, M Vigano.
Prospective randomized clinical study of Celsior versus Wisconsin in double lung transplant.
J Heart Lung Transplant, 20 (2000), pp. 183
[27]
G Thabut, I Vinatier, O Brugière, G Lesèche, P Loiret, A Bisson, et al.
Influence of preservation solution on early graft failure in clinical lung transplantation.
Am J Respir Crit Care Med, 164 (2001), pp. 1204-1208
[28]
O Baron, S Fabre, M Treilaud, O Al Habasch, D Duveau, JL Michaud, et al.
Retrospective clinical comparison of Celsior solution to modified blood Wallwork solution in lung transplantation for cystic fibrosis.
Progr Transplant, 12 (2002), pp. 176-180
[29]
CRB Welbourn, G Goldman, IS Paterson, CR Valeri, D Shepro, HB Hechtman.
Pathophysiology of ischemia reperfusion injury: central role of the neutrophil.
Br J Surg, 78 (1991), pp. 651-655
[30]
AB Al-Mehdi, H Shuman, AB Fisher.
Intracellular generation of reactive oxygen species during non-hypoxic lung ischemia.
Am J Physiol, 272 (1997), pp. 1294-1300
[31]
JR Vane, EE Angaard, RM Botting.
Regulatory functions of vascular endothelium.
N Engl J Med, 323 (1990), pp. 27-36
[32]
KC Meyer, RB Love, JJ Zimmerman.
The therapeutic potential of nitric oxide in lung transplantation.
Chest, 113 (1998), pp. 1360-1371
[33]
BF Meyers, J Lynch, EP Trulock, T Guthrie, JD Cooper, CJ Patterson.
Lung transplantation: a decade of experience.
Ann Surg, 230 (1999), pp. 362-370
[34]
RJ Keenan, JD Vega.
Lung transplantation for emphysema.
Advanced therapy in thoracic surgery, pp. 347-353
[35]
S Fujino, I Nagahiro, M Yanashita, M Yano, RA Schmid, JD Cooper, et al.
Preharvest nitroprusside flush improve posttransplantation lung function.
J Heart Lung Transplant, 16 (1997), pp. 1073-1080
[36]
S Fujino, I Nagahiro, AN Triantafillou, CH Boasquevisque, M Yano, JD Cooper, et al.
Inhaled nitric oxide at the time of harvest improves early lung allograft function.
Ann Thorac Surg, 63 (1997), pp. 1383-1390
[37]
G Thabut, O Brugière, G Leseche, JB Stern, DJ Fradj, P Herve, et al.
Preventive effect of inhaled nitric oxide and pentoxifylline on ischemia/reperfusion injury after lung transplantation.
Transplantation, 71 (2001), pp. 1295-1330
[38]
A Ardehali, H Laks, M Levine, R Shpiner, D Ross, L Watson, et al.
A prospective trial of inhaled nitric oxide in clinical lung transplantation.
Transplantation, 72 (2001), pp. 112-115
[39]
M Meade, J Granton, A Matte-Martyn, K McRae, PM Gripps, B Weaver, et al.
A randomized trial of inhaled nitric oxide to prevent reperfusion injury following lung transplantation.
J Heart Lung Transplant, 20 (2001), pp. 254-255
[40]
Y Naka, D Roy, H Liao, NC Chowdhury, RE Michler, MP Oz, et al.
cAMP-mediated vascular protection in an orthoptic rat lung transplant model. Insights into the mechanism of action of prostaglandin E1 to improve lung preservation.
Circ Res, 79 (1996), pp. 773-783
[41]
C Chiang, K Wu, C Yu, H Yan, W Perng, C Wu.
Hypothermia and prostaglandin E1 produce synergistic attenuation of ischemia-reperfusion injury.
Am J Respir Crit Care Med, 160 (1999), pp. 1319-1323
[42]
T Vainikka, L Heikkila, S Kukkonen, H Toivonen, K Verkkala, S Mattila.
Donor lung pretreatment with prostaglandin E(1) does not improve lung graft preservation.
Eur Surg Res, 31 (1999), pp. 429-436
[43]
S Sasaki, K Yasuda, JD McCully, J LoCicero.
Calcium channel blocker enhances lung preservation.
J Heart Lung Transplant, 18 (1999), pp. 127-132
[44]
T Wittwer, M Grote, P Oppelt, U Franke, H Schaefers, T Wahlers.
Impact of PAF antagonist BN 52021 (Ginkolide B) on post-ischemic graft function in clinical lung transplantation.
J Heart Lung Transplant, 20 (2001), pp. 358-363
[45]
Y Sato, JC Hogg, D English, SF Van Eeden.
Endothelin-1 changes polymorphonuclear leukocytes deformability and CD1 1b expression and promotes their retention in the lung.
Am J Respir Cell Mol Biol, 23 (2000), pp. 404-410
[47]
M De Perrot, Y Sekine, S Fischer, TK Waddell, K McRae, M Liu, et al.
Interleukin 8 release during early reperfusion predicts graft function in human lung transplantation.
Am J Respir Crit Care Med, 165 (2002), pp. 211-215
[48]
CA Janeway, P Travers.
Immunobiology: the immune system in health and disease, pp. 9-14
[49]
DM Follete, SM Ruditch, WD Babcock.
Improved oxygenation and increased lung donor recovery with high-dose steroid administration after brain death.
J Heart Lung Transplant, 17 (1998), pp. 423-429
[50]
J Padilla Alarcón.
Obtención y preservación del órgano.
El trasplante pulmonar, pp. 45-55
[51]
MR Zamora, RD Davis, SH Keshavjee, L Schulman, J Levin, U Ryan, et al.
Complement inhibition attenuates human lung transplant reperfusion injury. A multicenter trial.
Chest, 116 (1999), pp. 46S
[52]
A Salvatierra, F Velasco, M Rodríguez, A Álvarez, R López-Pedrera, R Ramírez, et al.
C1-esterase inhibitor prevents early pulmonary dysfunction after lung transplantation in dog.
Am J Respir Crit Care Med, 155 (1977), pp. 1147-1154
[53]
A Salvatierra, R Guerrero, M Rodríguez, A Álvarez, F Soriano, R López-Pedrera, et al.
Antithrombin III prevents early pulmonary dysfunction after lung transplantation in the dog.
Circulation, 104 (2001), pp. 2975-2980
[54]
M Strüber, C Hagl, SW Hirt, J Cremer, W Harringer, A Haverich.
C1-esterase inhibitor in graft failure after lung transplantation.
Intensive Care Med, 25 (1999), pp. 1315-1318
[55]
RJ Novick, KE Gehman, IS Ali, J Lee.
Lung preservation: the importance f endothelial and alveolar type II cell integrity.
Ann Thorac Surg, 62 (1996), pp. 302-314
[56]
C Casals, A Varela, ML Ruano, F Valino, J Pérez-Gil, N Torre, et al.
Increase of C-reactive protein and decrease of surfactant protein A in surfactant after lung transplantation.
Am J Respir Crit Care Med, 157 (1998), pp. 43-49
[57]
RJ Novick.
Innovative techniques to enhance lung preservation.
J Thorac Cardiovasc Surg, 123 (2002), pp. 3-5
[58]
M Strüber, SW Hirt, J Cremar, W Harriger, A Haverich.
Surfactant replacement in reperfusion injury after clinical lung transplantation.
Intensive Care Med, 25 (1999), pp. 862-864
[59]
CN Steimle, TP Guyynn, ML Morganroth, SF Bolling, K Carr, GM Deeb.
Neutrophils are not necessary for ischemia—reperfusion lung injury.
Ann Thorac Surg, 53 (1992), pp. 64-73
[60]
MJ Eppinger, ML Jones, GM Deeb, SF Bolling, PA Ward.
Pattern of injury and role of neutrophils in reperfusion lung injury.
J Surg Res, 58 (1995), pp. 713-718
[61]
MJ Eppinger, GM Deeb, SF Bolling, PA Ward.
Mediators of ischemia-reperfusion injury of rat lung.
Am J Pathol, 150 (1997), pp. 1773-1784
[62]
N Richter, G Raddatz, G Steinhoff, HJ Schafers, HJ Schlitt.
Transmission of donor lymphocytes in clinical lung transplantation.
Transplant Int, 7 (1994), pp. 414-419
[63]
SM Fiser, CG Tribble, SM Long, AK Kaza, JA Kern, IL Kron.
Pulmonary macrophages are involved in reperfusion injury after lung transplantation.
Ann Thorac Surg, 71 (2002), pp. 1134-1138
[64]
S Kokura, R Wolf, T Yoshikawa, DN Granger, TY Aw.
T-lymphocyte-derived tumor necrosis factor exacerbates anoxia-reoxygenation-induced neutrophil-endothelial cell adhesion.
Circ Res, 86 (2000), pp. 205-213
[65]
MA Hidalgo, P Saratchandra, PR Fryer, BJ Fuller, CJ Green.
Effects of hypothermic storage on the vascular endothelium: a scanning electron microscope study of morphological change in human vein.
J Cardiovasc Surg (Torino), 36 (1996), pp. 25-32
[66]
RS Andrade, OD Wangensteen, JK Jo, MY Tsai, RM Bolman.
Effect of hypothermic pulmonary artery flushing on capillary filtration coefficient.
Transplantation, 70 (2000), pp. 267-271
[67]
K Kayano, K Toda, Y Naka, DJ Pinsky.
Identification of optimal conditions for lung graft storage with Euro-Collins solution by use of a rat orthotopic lung transplant model.
Circulation, 100 (1999), pp. 257-261
[69]
T Wittwer, A Fehrenbach, D Meyer, H Brandes, J Albes, J Richter, et al.
Retrograde flush perfusion with low-potassium solutions for improvement of experimental pulmonary preservation.
J Heart Lung Transplant, 19 (2000), pp. 976-983
[70]
M Strüber, J Hohlfeld, T Kofidis, G Warnecke, J Neidermeyer, S Sommer, et al.
Surfactant function in lung transplantation after 24 hours ischemia: advantage of retrograde flush perfusion for preservation.
J Thorac Cardiovasc Surg, 123 (2002), pp. 98-103
[71]
A Varela, M Córdoba, S Serrano-Fiz, R Burgos, C Monter, G Téllez, et al.
Early lung allograft function after retrograde and anterograde preservation.
J Thorac Cardiovasc Surg, 114 (1977), pp. 1119-1120
[72]
A Álvarez, A Salvatierra, R Lama, J Algar, S Cerezo, F Santos, et al.
Preservation with a retrograde second flushing of Eurocollins in clinical lung transplantation.
Transplant Proc, 31 (1999), pp. 1088-1090
[73]
F Venuta, EA Rendina, M Bufi, GD Rocca, T De Giacomo, MG Costa, et al.
Preimplantation retrograde pneumoplegia in clinical lung transplantation.
J Thorac Cardiovasc Surg, 118 (1999), pp. 107-114
[74]
SD Lick, PS Brown, M Kurusz, R Vertrees, CK McQuitty, WE Johnston.
Technique of controlled reperfusion of the transplanted lung in humans.
Ann Thorac Surg, 69 (2000), pp. 910-912
[75]
H Tanaka, Y Chiba, M Sasaki, S Matsukawa, R Muruoka.
Relationship between flushing pressure and nitric oxide production in preserved lung.
Transplantation, 65 (1998), pp. 460-464
[76]
M Haniuda, S Hasegawa, T Shiraisi, CD Dresler, JD Cooper, GA Patterson.
Effects of inflation volume during lung preservation on pulmonary capillary permeability.
J Thorac Cardiovasc Surg, 113 (1996), pp. 85-93
[77]
T Fukuse, T Hirata, S Ishikawa, T Shoji, T Yoshimura, Q Chen, et al.
Optimal alveolar oxygen concentration for cold storage of the lung.
Transplantation, 72 (2001), pp. 300-304
[78]
T Fukuse, T Hirata, T Nakamura, M Kawashima, S Hitomi, H Wada.
Influence of deflated and anaerobic conditions during cold storage on rat lungs.
Am J Respir Crit Care Med, 160 (1999), pp. 621-627
[79]
T Sakuma, C Tsukano, M Ishigaki.
Lung deflation impairs alveolar epithelial fluid transport in ischemic rabbit and rat lungs.
Transplantation, 69 (2000), pp. 1785-1793
[80]
JD Puskas, T Hirai, NA Christie, E Mayer, AS Slustky, GA Patterson.
Reliable thirty-hour lung preservation with donor hyperinflation.
J Thorac Cardiovasc Surg, 104 (1992), pp. 1075-1083
[81]
FL Grover, DA Fullerton, MR Zamora, C Mills, B Ackerman, D Badesch, et al.
The past, present, and future of lung transplantation.
Am J Surg, 173 (1997), pp. 523-533
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