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References

  • 1
    Carrel A. On the permanent life of tissues outside of the organism. J Exp Med 1912; 15: 516528.
  • 2
    Couch NP, Cassie GF, Murray JE. Survival of the excised dog kidney perfused in pump-oxygenator system. Surgery 1958; 44: 666682.
  • 3
    Belzer FO, Ashby BS, Dunphy JE. 24-hour and 72-hour preservation of canine kidneys. Lancet 1967; 2: 536538.
  • 4
    Benjamin JL, Sell KW. Effects of temperature on kidneys preserved by hypothermic perfusion. Transplantation 1972; 14: 501510.
  • 5
    Folkman J. Organ Perfusion and Preservation. In: NormanJC, ed. New York, NY: Appleton-Century-Crofts, 1968: 236240.
  • 6
    Benjamin JL, Sell KW. Assessment of renal function during isolated in vitro perfusion. Transplantation Proc 1971; 8: 616618.
  • 7
    Telander RL. Prolonged normothermic perfusion of the isolated primate and sheep kidney. Surgery Gyn Obstet 1964; 118: 347353.
  • 8
    Terajima H, Shirakata Y, Yagi T et al. Successful long-term xenoperfusion of the pig liver. continuous administration of prostaglandin E1 and insulin. Transplantation 1997; 63: 507512.
  • 9
    Butler AJ, Rees MA, Wight DG et al. Successful extracorporeal porcine liver perfusion for 72 hours. Transplantation 2002; 73: 12121218.
  • 10
    Borie DC, Eyraud D, Boleslawski E et al. Functional metabolic characteristics of intact pig livers during prolonged extracorporeal perfusion: potential for a unique biological liver-assist device. Transplantation 2001; 72: 393405.
  • 11
    Tomerra JF, Geyer RP. Perfluorochemical perfusion of the rat heart: in vivo and in vitro. J Mol Cell Cardiol 1982; 14: 573585.
  • 12
    Nakaya S, Sekita M, Ohyanagi SM et al. Kidney preservation with perfusion of perfluorochemical emulsions at room temperature. Proceedings of the Xth International Congress for Nutrition. Symposium on Perfluorochemical Artificial Blood. Kyoto, Osaka, Japan: Igakushobo Medical Publisher, 1975: 187201.
  • 13
    Southard JH. Viability assays in organ preservation. Cryobiology 1989; 26: 232238.
  • 14
    Belzer FO, Hoffmann RM, Southard JH. A new perfusate for kidney preservation. Transplantation 1982; 33: 322323.
  • 15
    Collins GM, Bravo-Shugarman M, Terasaki PI. Kidney preservation for transportation. Initial perfusion and 30 hours ice storage. Lancet 1969; 2: 12191222.
  • 16
    Hoffmann RM, Southard JH, Lutz M, Mackety A, Belzer FO. Synthetic perfusate for kidney preservation. Its use in 72-hour preservation of dog kidneys. Arch Surg 1983; 118: 919921.
  • 17
    Squifflet JP, Pirson Y, Gianello P, Van Cangh P, Alexandre GP. Safe preservation of human renal cadaver transplants by Euro-Collins solution up to 50 hours. Transpl Proc 1981; 13: 693696.
  • 18
    Brasile L, Stubenitsky BM, Booster MH, Areneda D, Haisch C, Kootstra G. Hypothermia- a limiting factor in using warm ischemically damaged kidneys. Am J Transplant 2001; 1: 316320.
  • 19
    Brasile L, Stubenitsky BM, Booster MH et al. Overcoming severe renal ischemic- the role of ex vivo warm perfusion. Transplantion 2002; 73: 897901.
  • 20
    Brasile L, Clarke J, Green E, Haisch C. The feasibility of organ preservation at warmer temperatures. Transpl Proc 1996; 28: 349351.
  • 21
    Brasile L, Del Vecchio P, Rudofsky U, Haisch CE, Clarke J. Postmortem organ salvage using an oxygen supplemented perfusate. ACBSIB 1994; 41: 7882.
  • 22
    Brasile L, Green E, Haisch C. Ex vivo resuscitation of kidneys after postmortem warm ischemia. ASAIO 1997; 43: M427M430.
  • 23
    Stubenitsky BM, Booster MH, Arenada D, Haisch C, Kootstra G. Exsanguineous metabolic support perfusion- a new strategy to improve graft function after kidney transplantation. Transplantation 2000; 70: 12541258.
  • 24
    Stubenitsky BM, Booster MH, Brasile L, Arenada D, Haisch C, Kootstra G. Pretransplant prognostic testing on damaged kidneys during ex vivo warm perfusion. Transplantation 2000; 71: 716720.
  • 25
    Mukaida N, Morita M, Ishikawa Y. Novel mechanisms of glucorticoid- mediated gene repression. J Biol Chem 1994; 269: 1328913295.
  • 26
    Belzer FO, Ashby BS, Huang JJ, Dunphy J. Etiology of rising perfusion pressure in isolated perfusion pressure in isolated organ perfusion. Ann Surg 1968; 168: 383391.
  • 27
    Claes G, Blohme I. Experimental and clinical results of continuous albumin perfusion of kidneys. In: PeggDE, ed. Organ Preservation II. Edinburgh, London, New York: Churchill Livingstone 1973; 5157.
  • 28
    Belzer FO, Hoffman RM, Southard JHA. New perfusate for kidney preservation. Transplantation 1982; 33: 322323.
  • 29
    Hoffman R, Southard J, Lutz Mackety A, Belzer F. 72-hour preservation of dog kidneys using a purely synthetic perfusate containing hydroxyethyl starch. Arch Surg 1983; 118: 919921.
  • 30
    Chatterjee S, Berne T. Failure of 48 hours of cold storage of canine kidneys using. Sack's solution. Transplantation 1975; 19: 441442.
  • 31
    Sacks S, Petritsch P, Kaufman J. Canine kidney preservation using a new perfusate. Lancet 1973; 1: 10241028.
  • 32
    Collins G, Bravo-Sugarman M, Terasaki P. Kidney preservation for transportation. Initial perfusion and 30 hours' ice storage. Lancet 1969; 2: 12191222.
  • 33
    Collins G, Taft P, Green R, Ruprecht R, Halasz N. Adenine nucleotide levels in preserved and ischemically injured canine kidneys. World J Surg 1977; 1: 237243.
  • 34
    Collins G, Green R, Halasz N. Importance of anion content and osmolarity in flush solutions for 48- to 72-hour hypothermic kidney storage. Cryobiology 1979; 16: 217220.
  • 35
    Dreikorn K, Horsch R, Lohl L. 48- to 72-hour preservation of canine kidneys by initial perfusion and hypothermic storage using Euro-Collins' solution. Eur Urol 1980; 6: 221224.
  • 36
    Menz L, Codd J, Jellinek M, Garvin P. Ultrastructural observations in canine kidneys perfused hypothermically for 7 days in a comparative study of three preservation solutions. Cryobiology 1982; 19: 407427.
  • 37
    Griffiths G, Kormano M, Morris T. Relationship of perfusion pressure to the microvasculature of the preserved canine kidney. Invest Radiol 1977; 12: 238347.
  • 38
    Grundman R, Pitschi H, Berr F. Nonpulsatile vs pulsatile canine kidney perfusion. Surgery 1974; 75: 178182.
  • 39
    Ross H, Marshall V, Escott M. 72-hour canine kidney preservation without continuous perfusion. Transplantation 1976; 21: 498501.
  • 40
    Filo R, Dickson L, Suba E, Sell K. Immunologic injury induced by ex vivo perfusion of canine renal autografts. Surgery 1974; 76: 88100.
  • 41
    Southard J, Lutz M, Ametani M, Belzer F. Stimulation of ATP synthesis in hypothermically perfused dog kidneys by adenosine and PO4. Cryobiology 1984; 21: 1319.
  • 42
    Kleist H, Jonsson O, Lunstam S, Naucler J, Pettersson S, Schersten T. Metabolism in the hypothermically perfused kidney: utilization of mevalonate in the human and in the dog kidney. Eur Surg Res 1982; 14: 236244.
  • 43
    Southard J, Rice M, Belzer F. Preservation of renal function by adenosine stimulated ATP synthesis in hypothermically perfused dog kidneys. Cryobiology 1985; 22: 237242.
  • 44
    Belzer F, Ashby B, Downes G. Lactic and dehydrogenase as an index of future function of cadaveric kidneys during isolated perfusion. Surg Forum 1968; 19: 105106.
  • 45
    Pavlock G, Southard J, Starling J, Belzer F. Lysosomal enzyme release in hypothermically perfused dog kidneys. Cryobiology 1984; 21: 521528.
  • 46
    Belzer F, Hoffman R, Huang J, Downes G. Endothelial damage in perfused dog kidney and cold sensitivity of vascular Na-K-ATPase. Cryobiology 1972; 9: 457460.
  • 47
    Pettersson S, Claes G, Schersten T. Fatty acid and glucose utilization during continuous hypothermic perfusion of dog kidneys. Eur Surg Res 1974; 6: 7986.
  • 48
    Skrede S, Slaattelid O. Fatty acid metabolism during hypothermic perfusion of the isolated dog kidney. Scand J Clin Lab Invest 1979; 39: 765771.
  • 49
    Gabbai FB, Boggiano C, Peter T et al. Inhibition of inducible nitric oxide synthase intensifies injury and functional deterioration in autoimmune interstitial nephritis. J Immunol 1997; 159: 62666275.
  • 50
    Radomski MW, Palmer RM, Moncada S. Free in PMC, glucocorticoids inhibit the expression of an inducible, but not the constitutive, nitric oxide synthase in vascular endothelial cells. Proc Natl Acad Sci U S A 1990; 87: 1004310047.
  • 51
    Di Rosa M, Radomski M, Carnuccio R, Moncada S. Glucocorticoids inhibit the induction of nitric oxide synthase in macrophages. Biochem Biophys Res Commun 1990; 172: 12461252.
  • 52
    Miller MJ, Sandoval M. Nitric Oxide III. A molecular prelude to intestinal inflammation. Am J Physiol 1999; 276: G795G799.