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Query: UMLS:C0038358 (
gastric ulcer
)
5,179
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined the morphological changes in gastric mucosa and the generation of ammonia after exposure of the rat stomach to urea in the presence of urease, in attempts to investigate a pathophysiological role of urea, urease, and ammonia system in
gastric ulcer
diseases. Exposure of the stomach for 20 min to 2 ml urea (0.025-0.2%) together with urease (100 IU) induced histological damages in a concentration-related manner. Either urea or urease alone did not induce any histological change in the mucosa. Instillation of urea into the stomach generated ammonia in the presence of urease; the amount of ammonia was increased depending on the concentration of urea, and was closely associated with the severity of histological damage. The exposure of the stomach to ammonia (
NH4OH
: 0.01-0.1%) also produced histological damages in the gastric mucosa in a concentration-related manner. The characteristics of injury induced by 0.5-1.0% ammonia were stasis of microcirculation, disruption of the surface epithelial cells, and necrosis of the mucosa. These results demonstrated that ammonia generated from the hydrolysis of urea by urease in the stomach causes damages in the gastric mucosa.
...
PMID:Generation of ammonia and mucosal lesion formation following hydrolysis of urea by urease in the rat stomach. 221 35
Reactive oxygen species (ROS) are reportedly associated with
gastric ulcer
. We previously reported the use of an in vivo 300-MHz electron spin resonance (ESR) spectroscopy/nitroxyl probe technique to detect *OH generation in the stomachs of rats with gastric ulcers induced by
NH4OH
. However, this is an acute ulcer model, and the relationship between in vivo ROS generation and lesion formation remains to be clarified. To address this question, the same technique was applied to a sub-acute water immersion restraint (WIR) model. A nitroxyl probe that was less membrane-permeable was orally administered to WIR-treated rats, and the spectra in the gastric region were obtained by in vivo ESR spectroscopy. The signal intensity of the orally administered probe was clearly changed in the WIR group, but no change occurred in the control group. Both enhanced signal decay and neutrophil infiltration into mucosa were observed 2h after WIR with little formation of any mucosal lesions. The enhanced signal decay was caused by *OH generation, based on the finding that the decay was suppressed by mannitol, desferrioxamine and catalase. Intravenous treatment with either anti-neutrophil antibody or allopurinol also suppressed the enhanced signal decay, and allopurinol depressed neutrophil infiltration into the mucosa. In rats treated with WIR for 6 h, lesion formation was suppressed by 50% with all antioxidants used in this experiment except anti-neutrophil antibody. These findings suggest that *OH, which is generated in the stomach via the hypoxanthine/xanthine oxidase system upon neutrophil infiltrated into the mucosa, induces mucosal lesion formation, but that it accounts for only half the cause of lesion formation.
...
PMID:Non-invasive analysis of reactive oxygen species generated in rats with water immersion restraint-induced gastric lesions using in vivo electron spin resonance spectroscopy. 1510 8
