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DAĞLI, EMRULLAH TOLGA

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DAĞLI

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EMRULLAH TOLGA

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End date: 2009 × Start date: 2000 ×

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    The roles of free oxygen radicals, nitric oxide, and endothelin in caustic injury of rat esophagus
    (W B SAUNDERS CO-ELSEVIER INC, 2004) DAĞLI, EMRULLAH TOLGA; Ozel, SK; Dagli, TE; Yuksel, M; Kiyan, G; Kotiloglu, E
    Purpose: The authors aimed to find out the roles of free oxygen radicals, nitric oxide (NO), and endothelin (ET) in caustic injury of rat esophagus. Methods: Forty-five Wistar albino rats were used to form 6 groups. The study groups are summarized as 1, sham (S; n = 7); 2, sham + L-arginine (SA; n 7); 3, sham + L-NAME (SN; n = 7); 4, injury (I; n = 8); 5, injury + L-arginine (IA; n = 8); 6, injury + L-NAME (IN; n = 8). Normal saline in the sham groups and 50% NaOH in the caustic injury groups were administered to the distal esophagus. Free oxygen radicals and NO were detected by chemiluminescence from tissue samples, and they were correlated with histologic examinations. Tissue ET was measured also with immunohistochemistry. Results: The injury was verified histologically. Free oxygen radical levels were found to be increased as well as NO and ET with the caustic injury (P < .05). L-arginine caused a histologic increase in the injury that was close to statistical significance (P = .08). L-NAME showed no significant effect. Conclusions: Free radicals, NO, and ET increase in the early phase of caustic esophageal injury. Understanding their early interactions during the caustic injury may help in future therapeutic strategies. (C) 2004 Elsevier Inc. All rights reserved.
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    Nitric oxide and endothelin relationship in intestinal ischemia/reperfusion injury (II)
    (CHURCHILL LIVINGSTONE, 2001) DAĞLI, EMRULLAH TOLGA; Ozel, SK; Yuksel, M; Haklar, G; Durakbasa, CU; Dagli, TE; Aktan, AO
    Endothelins (ETs) are potent vasoconstrictors derived from vascular endothelium. They have primary roles in many pathophysiologic states including ischemia/reperfusion (I/R) injury. The relationships between nitric oxide (NO) and ETs are still under investigation. In this study on rats we want to focus on the interaction of NO and ET especially in I/R injury. For this purpose ET-1 and PD-156252, a nonselective ET receptor blocker, were given in a mesenteric I/R model and reactive oxygen species were detected directly using chemiluminescence of the ileal tissue. ET administrations to sham and I/R groups caused significant increases in NO concentrations whereas, in terms of peroxynitrite, which is a highly reactive group of free radicals, its increasing effects were seen only in I/R groups. This suggests that in I/R where superoxide levels increase together with NO, the conversion to peroxynitrite is likely and this effect is augmented with ET administration. On the other hand PD administration decreases superoxide and thereby peroxynitrite levels and this study shows that the effect of PD-156252 is established through this mode of action. These data suggest therapeutic approaches that may be beneficial in the treatment of I/R injury. (C) 2001 Harcourt Publishers Ltd.