Oxygen radicals mediate an important step in the initiation of acute pancreatitis. These reactive oxygen metabolites are generated at an early stage of the disease. The source of the enhanced production of oxygen radicals, however, still remains unclear. Experimentally, the effectiveness of antioxidant treatment varies from one model to the other, the differences depending on the experimental model and not on the form of pancreatitis that was induced. In most studies, the experimental animals were pretreated before acute pancreatitis was induced. This does not mirror clinical reality because patients are admitted to the hospital after the onset of the disease. It was shown in cerulein-induced pancreatitis, however, that scavenger treatment also mitigated the pancreatic tissue damage after induction of acute pancreatitis. Moreover, antioxidant treatment also attenuated the extrapancreatic complications, thus improving the final outcome of the disease. Initial indirect observations also suggest that in human acute, acute recurrent, and chronic pancreatitis, oxygen free radicals are generated and add to the damage. Concomitantly, these patients suffer from a severe depletion of oxidative stress. Whether or not this disbalance is instrumental in the development and course of disease remains unanswered. Supplementation with antioxidants that are deficient in patients with acute pancreatitis might be a feasible option to the present therapy to avoid extrapancreatic complications. Well-defined, controlled clinical trials involving patients suffering from acute pancreatitis are therefore needed to validate the role of oxygen radicals in this disease.
This study demonstrates that in experienced hands, inguinal hernia repair surgery performed by laparoscopic transabdominal preperitoneal hernioplasty using Parietex ProGrip™ self-gripping meshes is rapid, efficient and safe with low pain and low hernia recurrence rate.
The complication rate during the first 2 years after SG in Germany is similar to that published in the literature. In order to improve the quality of bariatric surgery, an evaluation of data from a German multicenter trial is necessary to evaluate the position of SG in the bariatric algorithm.
In experimental models of pancreatitis lipid peroxidation products are increased possibly because of an enhanced generation of oxygen radicals. The purpose of this study was to determine whether lipid peroxidation products are increased in pancreatic tissue and serum of patients suffering from chronic or acute pancreatitis. In 20 patients undergoing operative treatment for chronic ( n = 11) and acute pancreatitis ( n = 9) the levels of malondialdehyde, conjugated dienes, and reduced and oxidized glutathione were determined in resected tissue samples. The excised tissue was examined and evaluated by light microscopy. Shortly before operation the serum concentrations of malondialdehyde, a-amylase, and lipase were measured. Pancreatic tissue from eight organ donors who had no abdominal trauma or pancreatic disease served as control. In chronic pancreatitis, conjugated dienes as well as malondialdehyde concentrations in the tissue were significantly elevated. Reduced glutathione was significantly decreased, suggesting glutathione depletion due to oxidative stress. In acute pancreatitis only the tissue and serum malondialdehyde levels were significantly high, whereas conjugated dienes remained within the normal range. Serum malondialdehyde levels correlated significantly with tissue concentrations (r = 0.76; p < 0.05) but not with the clinical course or the enzyme levels. In chronic pancreatitis, the increased tissue levels of lipid peroxidation products and the changes in glutathione metabolism suggest ongoing peroxidation of lipids due to an enhanced generation of oxygen radicals. In hemorrhagic necrotizing pancreatitis, however, oxygen radical-induced lipid peroxidation cannot be proven. Apparently, other pathomechanisms are involved in the development of the severe tissue damage.
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