Browsing by Subject "triacylglycerol lipase blood level"
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Item An experimental model of hemolysis-induced acute pancreatitis(Associacao Brasileira de Divulgacao Cientifica, 2003) Saruc M.; Yuceyar H.; Turkel N.; Ozutemiz O.; Tuzcuoglu I.; Yuce G.; Huseyinov A.The literature indicates that acute pancreatitis is a complication of massive hemolysis with a prevalence of about 20%. We describe an experimental model of hemolysis-induced acute pancreatitis. Hemolytic anemia was induced in rats by a single ip injection of 60 mg/kg of 20 mg/ml acetylphenylhydrazine (APH) in 20% (v/v) ethanol on the first experimental day (day 0). One hundred and fifty Wistar albino rats weighing 180-200 g were divided into three groups of 50 animals each: groups 1, 2 and 3 were injected ip with APH, 20% ethanol, and physiological saline, respectively. Ten rats from each group were sacrificed on study days 1, 2, 3, 4 and 5. Serum amylase, lipase levels and pancreatic tissue tumor necrosis factor-α (TNF-α) and platelet-activating factor (PAF) contents were determined and a histological examination of the pancreas was performed. No hemolysis or pancreatitis was observed in any of the rats in groups 2 and 3. In group 1, massive hemolysis was observed in 35 (70%) of 50 rats, moderate hemolysis in seven (14%), and no hemolysis in eight (16%). Thirty-three of 35 (94.2%) rats with massive hemolysis had hyperamylasemia, and 29 of these rats (82.8%) had histologically proven pancreatitis. The most severe pancreatitis occurred on day 3, as demonstrated by histology. Tissue TNF-α and PAF levels were statistically higher in group 1 than in groups 2 and 3. Acute massive hemolysis induced acute pancreatitis, as indicated by histology, in almost 80% of cases. Hemolysis may induce acute pancreatitis by triggering the release of proinflammatory and immunoregulatory cytokines.Item The role of heme in hemolysis-induced acute pancreatitis(2007) Saruç M.; Yuceyar H.; Turkel N.; Ozutemiz O.; Tuzcuoglu I.; Ayhan S.; Yuce G.; Coker I.; Huseyinov A.Background: The aim was to reveal the mechanism of hemolysis-induced acute pancreatitis and to evaluate the role of heme and heme oxygenase activity in inducing pancreatic inflammation in an experimental hemolysis model. Material/Methods: Hemolytic anemia was induced in rats by intraperitoneal injection of 60 mg/kg acetylphenylhydrazine (APH). To evaluate the toxic effect of free heme after hemolysis, heme oxygenase inhibitor (HOI) was used to inhibit the enzyme which decreases the free heme concentration after hemolysis. One hundred and fifty rats were divided into two treatment and three control groups. Rats in the hemolysis group were given APH intraperitoneally. Rats in the HOI+hemolysis group were given Cr(III)mesoporphyrin IX chloride as HOI and then APH intraperitoneally. Serum amylase and lipase levels as well as pancreatic tissue cytokine content were determined and histological examination performed. Results: No hemolysis or pancreatitis was seen in the control groups. Massive hemolysis was seen in 22 of the 30 rats of the hemolysis group and 20 of the 30 rats of the HOI+hemolysis group. The total pancreatitis rates were 60% and 76.6% in the hemolysis and HOI+hemolysis groups, respectively (p<0.05). Pancreatic cytokine levels were significantly higher in the HOI+hemolysis and hemolysis groups than in all control groups. The highest ICAM-1 and MCP-1 levels were in the HOI+hemolysis group. Histological signs of acute pancreatitis were also more severe in this group. Conclusions: Acute massive hemolysis can induce acute pancreatitis. Excess of free vascular heme seems to be an inducer of inflammation by modulating ICAM-1 and MCP-1. © Med Sci Monit, 2007.Item Effects of porcine pancreatic enzymes on the pancreas of hamsters. Part 2: Carcinogenesis studies(2012) Nozawa F.; Yalniz M.; Saruc M.; Standop J.; Egami H.; Pour P.M.Context Our previous study suggested that porcine pancreatic extract in hamsters with peripheral insulin resistance, normalizes insulin output, islet size and pancreatic DNA synthetic rate. It also inhibited the growth of human pancreatic cancer cells in nude mice. Objective To examine the potential value of the porcine pancreatic extract in controlling pancreatic carcinogenesis in this model, the present experiment was performed. Design Hamsters were fed a high fat diet and four weeks later when insulin resistance emerges, they were divided into two groups. One group received 1 g/kg BW of porcine pancreatic extract in drinking water and the other group received tap water. One week later, when insulin output normalizes in porcine pancreatic extract-treated hamsters, a single subcutaneous injection of N-nitrosobis-(2-oxopropyl) amine (BOP) at a dose of 40 mg/kg BW was given to all hamsters. The experiment was terminated at 43 weeks after the porcine pancreatic extract treatment. The number and size of pancreatic tumors, blood glucose, insulin, amylase and lipase levels, the average size of islets and the number of insulin cells/islets were determined. Results The incidence of pancreatic cancer was significantly lower in the porcine pancreatic extract group (P=0.043), as well as the plasma insulin level and the size of the islets in the porcine pancreatic extract group were significantly lower (P<0.001) than in the control group. No significantly differences were found in the glucose level between the groups. Conclusion These results show that porcine pancreatic extract has a potential to inhibit pancreatic cancer growth.Item Acute pancreatitis in Turkey: Results of a nationwide multicenter study(Elsevier B.V., 2024) Köksal A.Ş.; Tozlu M.; Sezgin O.; Oğuz D.; Kalkan İ.H.; Altıntaş E.; Yaraş S.; Bilgiç Y.; Yıldırım A.E.; Barutçu S.; Hakim G.D.; Soytürk M.; Bengi G.; Özşeker B.; Yurci A.; Koç D.Ö.; İrak K.; Kasap E.; Cindoruk M.; Oruç N.; Ünal N.G.; Şen İ.; Gökden Y.; Saruç M.; Ünal H.; Eminler A.T.; Toka B.; Basır H.; Sağlam O.; Ergül B.; Gül Ö.; Büyüktorun İ.; Özel M.; Şair Ü.; Kösem G.; Nedirli F.; Tahtacı M.; Parlak E.Background: Acute pancreatitis (AP) is the most common gastrointestinal disease requiring hospitalization, with significant mortality and morbidity. We aimed to evaluate the clinical characteristics of AP and physicians’ compliance with international guidelines during its management. Methods: All patients with AP who were hospitalized at 17 tertiary centers in Turkey between April and October 2022 were evaluated in a prospective cohort study. Patients with insufficient data, COVID-19 and those aged below 18 years were excluded. The definitions were based on the 2012 revised Atlanta criteria. Results: The study included 2144 patients (median age:58, 52 % female). The most common etiologies were biliary (n = 1438, 67.1 %), idiopathic (n = 259, 12 %), hypertriglyceridemia (n = 128, 6 %) and alcohol (n = 90, 4.2 %). Disease severity was mild in 1567 (73.1 %), moderate in 521 (24.3 %), and severe in 58 (2.6 %) patients. Morphology was necrotizing in 4.7 % of the patients. The overall mortality rate was 1.6 %. PASS and BISAP had the highest accuracy in predicting severe pancreatitis on admission (AUC:0.85 and 0.81, respectively). CT was performed in 61 % of the patients, with the majority (90 %) being within 72 h after admission. Prophylactic NSAIDs were not administered in 44 % of the patients with post-ERCP pancreatitis (n = 86). Antibiotics were administered to 53.7 % of the patients, and 38 % of those received them prophylactically. Conclusions: This prospective study provides an extensive report on clinical characteristics, management and outcomes of AP in real-world practice. Mortality remains high in severe cases and physicians’ adherence to guidelines during management of the disease needs improvement in some aspects. © 2023 IAP and EPC