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Many experimental models have been created to explain the pathophysiology of acute pancreatitis (AP). Investigations have been undertaken in this laboratory into the influence of strong oxidants introduced into the pancreas retrogradely through the bile-pancreatic duct. In these experiments a potentially toxic metabolite of ethanol-peracetic acid was used to induce AP. Wistar rats were treated with 1 mM and 40 mM peracetate and with a solvent as a control for 1 and 3 hours respectively. After a period of observation the samples of pancreata were examined in a light and electron microscope together with the content of sulphydryl groups as a marker of intracellular oxidative stress. The morphological examination showed profound changes in the histology of the pancreas and also in its subcellular structures, especially in groups 3 and 4 (with a higher concentration of peracetate). The changes included parenchymal haemorrhage and widespread acinar cell necrosis. The level of the sulphydryl groups decreased in the rats treated with peracetate. This suggests that the severity of the disease strongly depends on the intensity of the oxidative stress. The results confirmed the axial role of oxygen-derived free radicals in the pathogenesis of AP.
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p.179-183,fig.,ref.
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- Medical University, Debinki 7, 80-211 Gdansk, Poland
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Bibliografia
- 1. Allen DW, Newman LM, Okazaki IJ (1991) Inhibition of arachidonic acid incorporation into erythrocyte phospholipids by peracetic acid and other peroxides. Role of arachidoboyl-6:1palmitoyl-sn-glycero-3-phosphocholine acyl transferase, Biochim. Biophys Acta, 1081: 267–273.
- 2. Beger H G, Krautzberger W, Bittner R, Block S, Buchler M (1985) Results of surgical treatment of necrotising pancreatitis. World J Surg, 9: 972.
- 3. Bergenfeldt M, Sköld G, Borgström A (1996) Acute pancreatitis after ingestion of acetic acid. Pancreas, 2: 207–209.
- 4. Bialek R, Willemer R, Arnold R, Adler G (1991) Evidence of intracellular activation of serine proteases in acute cerulein-induced acute pancreatitis in rats. Scand J Gastroenterol, 26: 190–196.
- 5. Fernandez-del Castillo, Schmidt J, Warshaw AL, Rattner DW (1994) Interstitial protease activation is the central event in progression to necrotizing pancreatitis. Surgery, 116: 497–504.
- 6. Jocelyn PC (1989) Spectrophotometric assay of thiols. Methods Enzymol, 143: 44–67.
- 7. Kusske AM, Rongione AJ, Ashley SW, McFadden DW, Reber HA (1996) Interleukin-10 prevents death in lethal necrotizing pancreatitis in mice. Surgery, 120: 284–289.
- 8. Nagai H, Henrich H, Wünsch PH, Fischbach W, Mossner J (1989) Role of pancreatic enzymes and their substrates in autodigestion of the pancreas. In vitro studies with isolated rat pancreatic acini. Gastroenterology, 96: 838–847.
- 9. Noronha M., Salgadinho A, Ferreira de Almeida MJ, Dreiling DA, Bordalo O (1981) Alcohol and the pancreas. I. Clinical associations and histopathology of minimal pancreatic inflammation. Am J Gastroenterol, 76: 114–119.
- 10. Puig-Divi V, Molero X, Selas A, Guarner F, Guarner L, Malagelada J-R (1996) Induction of chronic pancreatic disease by trinitrobenzene sulfonic acid infusion into rat pancreatic ducts. Pancreas, 4: 417–424.
- 11. Rinderknecht H (1986) Action of pancreatic zymogens. Normal activation, premature activation, protective mechanism against inappropriate activation. Dig Dis Scie, 31: 314–321.
- 12. Sanfey H, Bulkley GB, Cameron JL (1984) The role of oxygen derived free radicals in the pathogenesis of acute pancreatitis. Ann Surg, 200: 405–413.
- 13. Schoenberg MH, Buchler M, Gaspar M, Stinner A, Younes M, Malzer J, Bultmann B, Beger HG (1990) Oxygen free radicals in acute pancreatitis of the rat. Gut, 31: 1138–1143.
- 14. Singh M, Simsek H (1990) Ethanol and the pancreas. Current status. Gastroenterology, 98: 1051–1062.
- 15. Sledzinski Z, Wozniak M, Antosiewicz J (1995) Protective effect of low molecular weight superoxide dismutase mimic — 4-hydroxy-TEMPO — on free radical toxicity in experimental pancreatitis. Intern J Pancreat, 18: 153–160.
- 16. Śledzinski Z, Woźniak, Brunelli A, Lezoche E, Scutti E, Kossowska E, Jankowski K, Stanek A, Bertoli E (2000) The experimental pancreatitis induced by synthetic prooxidant — tert-butyl hydroperoxide. Pancreas, 20: 146–151.
- 17. Wang XD, Wang Q, Andersson and Ihse I (1996) Alterations in intestinal function in acute pancreatitis in an experimental model. B J Surg, 83: 1537–1542.
- 18. Wisner JR, Green D, Ferrell L, Renner JG (1988) Evidence for a role of oxygen derived free radicals in the pathogenesis of cerulein induced acute pancreatitis in rats. Gut, 29: 1516–1523.
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Bibliografia
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