References
- Silen W. Experimental models of gastric ulceration and injury. Am J Physiol (Gastrointest Liver Physiol 18) 1988; 255: G395–402
- Morishita T, Gush P. Effect of exogenous acid on the rat gastric mucosal microcirculation in hemorrhagic shock. Gastroenterology 1987; 92, 1958-64
- Ekman T, Bagge U, Bylund-Fellenius A-C, Soussi B, Risberg B. Changes in gastric mucosal microcirculation and purine nucleotide metabolism during hemorrhagic shock in rats. Scand J Gastroenterol 1991; 26: 652–60
- Merserau W A, Hinchey EJ. Effect of gastric acidity on gastric ulceration induced by hemorrhage in the rat, utilizing a gastric chamber technique. Gastroenterology 1973; 64: 1130–5
- Leung F W, Itoh M, Hirabayashi K, Guth PH. Role of blood flow in gastric and duodenal mucosal injury in the rat. Gastroenterology 1985; 88: 281–9
- Perry M A, Wadhwa S, Parks D A, Pickard W, Granger N. Role of oxygen radicals in ischemia-induced lesions in the cat stomach. Gastroenterology 1986; 90: 362–7
- Granger D N, Hollwarth M E, Parks DA. Ischemia-reperfusion injury: role of oxygen-derived free radicals. Acta Physiol Scand 1986; 548: 47–63, Suppl
- Schoenberg M H, Poch B, Younes M, et al. Involvement of neutrophils in postischaemic damage to the small intestine. Gut 1991; 32: 905–12
- Smith S M, Grisham MB. Gastric mucosal injury in the rat. Role of iron and xanthine oxidase. Gastroenterology 1987; 92: 950–6
- Binnaka T, Yamaguchi Y, Kubota Y, Hirohara J, Mizuno T, Sameshima Y. Gastric hemodynamic disturbances induced by hemorrhagic shock in rats. Role of platelet-activating factor. Scand J Gastroenterol 1990; 25: 555–62
- Idstrom J P, Soussi B, Elander A, Bylund-Fellenius A-C. Purine metabolism after in vivo ischemia and reperfusion in rat skeletal muscle. Am J Physiol 1990; 258: H1668–73
- Atkinson DE. The energy charge of the adenylate pool as a regulatory parameter. Interaction with feedback modifiers. Biochemistry 1968; 7: 4030–4
- Weibel ER. Stereological methods. Academic Press, London 1979; Vol I.
- Engler R L, Dahlgren M K, Morris D D, Peterson M A, Schmid-Schoenbein GW. Role of leukocytes in response to acute myocardial ischemia and reflow in dogs. Am J Physiol 1986; 251: H314–22
- Martin L F, Asher E F, Passmore J C, Hartupee D A, Fry DE. Effect of hemorrhagic shock on oxidative phosphorylation and blood flow in rabbit gastrointestinal mucosa. Circ Shock 1987; 21: 39–50
- Andrews F J, Malcontenti C, O'Brien PE. Sequence of gastric mucosal injury following ischemia and reperfusion: the role of reactive oxygen metabolites. Gastroenterology 1991; 5: A25, 100 Suppl
- Kloner R A, Ganote C E, Jennings RB. The 'no-reflow' phenomenon after temporary coronary occlusion in the dog. J Clin Invest 1974; 54: 1496–508
- Flores J, DiBona D R, Beck C H, Leaf A. The role of cell swelling in ischemic renal damage and the protective effect of hypertonic solute. J Clin Invest 1972; 51: 118–26
- Welbourn C RB, Goldman G, Paterson I S, Valeri C R, Shepro D, Hechtman HB. Pathophysiology of ischemia reperfusion injury: central role of the neutrophil. Br J Surg 1991; 78: 651–5
- Schoenberg M H, Fredholm B B, Haglund U, et al. Studies on the oxygen radical mechanism involved in small intestinal reperfusion damage. Acta Physiol Scand 1985; 124: 581–9
- Loewenstein JM. Ammonia production in muscle and other tissues: the purine nucleotide cycle. Physiol Rev 1972; 52, no. 2