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Query: UMLS:C0432222 (
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47,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Severe cutaneous bum alters gut epithelial homeostasis. In previous studies, treatment with
bombesin
decreased mucosal atrophy and improved maintenance of gut mucosal integrity after severe burn. Our current hypothesis is that
bombesin
reduces burn-induced gut impairment by decreasing gut epithelial cell death. Fifty-four adult male Fisher-344 rats were randomly assigned to three groups: control, sham burn (I), burn (II), and burn +
bombesin
(III). Animals in groups II and III received a 60% total body surface area full thickness scald burn, and the treatment group (III) received
bombesin
subcutaneously (10 microg/kg, every 8 h) beginning immediately before the experiment. The proximal small bowel was harvested at 12 and 72 h after burn with measurement of wet and dry weight, mucosal weight, and protein content, and a 1-cm length of proximal end was excised and fixed in fomalin for histological and immunohistochemical observation. Data are expressed as means +/-
SEM
. Statistical analysis was by done by analysis of variance (significance at P < 0.05). Bombesin treatment attenuated mucosal atrophy demonstrated by restoration of the mucosal weight, mucosal protein content, and maintenance of mucosal height and total mucosal epithelial cell count. Gut epithelial cell apoptosis was, at least in part, inhibited by
bombesin
compared with a significant increase of gut cell apoptosis at 12 h after burn. Gut epithelial proliferation was not affected. Bombesin diminished burn-induced gut mucosal atrophy and gut epithelial cell apoptosis, suggesting that
bombesin
treatment may play an important role in the recovery of gut impairment after severe burn.
...
PMID:Effect of bombesin on gut mucosal impairment after severe burn. 1246 59
Pulmonary neuroendocrine cells (PNEC), including neuroepithelial bodies (NEB), are amine- and peptide (for example,
bombesin
)-producing cells that function as hypoxia/hypercapnia-sensitive chemoreceptors that could be involved in the pathophysiology of sudden infant death syndrome (SIDS). We assessed morphometrically the frequency and size of PNEC/NEB in lungs of infants who died of SIDS (n = 21) and compared them to an equal number PNEC/NEB in lungs of age-matched control infants who died of accidental death or homicide, with all cases obtained from the San Diego SIDS/SUDC Research Project database. As a marker for PNEC/NEB we used an antibody against chromogranin A (CGA), and computer-assisted morphometric analysis was employed to determine the relative frequency of PNEC per airway epithelial area (% immunostained area, %IMS), the size of NEB, the number of nuclei/NEB, and the size of the NEB cells. The lungs of SIDS infants showed significantly greater %IMS of airway epithelium (2.72 +/- 0.28 [standard error of the mean,
SEM
] versus 1.88 +/- 0.24; P < 0.05) and larger NEB (1557 +/- 153 microm(2) versus 1151 +/- 106 microm(2); P < 0.05) compared to control infants. The size of NEB cells was also significantly increased in SIDS cases compared to the controls (180 +/- 6.39 microm(2) versus 157 +/- 8.0 microm(2); P < 0.05), indicating the presence of hypertrophy in addition to hyperplasia. Our findings support previous studies demonstrating hyperplasia of PNEC/NEB in lungs of infants who died of SIDS. These changes could be secondary to chronic hypoxia and/or could be attributable to maturational delay. Morphometric assessment and/or measurement of the secretory products of these cells (for example, CGA,
bombesin
) could provide a potential biological marker for SIDS.
...
PMID:Pulmonary neuroendocrine cells and neuroepithelial bodies in sudden infant death syndrome: potential markers of airway chemoreceptor dysfunction. 1737 91
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