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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The pathogenesis of necrotizing enterocolitis (NEC) presumptively is due to an inappropriate intestinal epithelial immunologic response of immature gut to luminal stimuli.
Glutamine
is essential for intestinal crypt cell proliferation and enhances the cellular response to growth factors. We aimed to test the hypothesis that the supplementation of enteral feedings with glutamine may stimulate an immature intestine and decrease the intestinal inflammatory change in NEC. Immediately after birth, the neonatal rats were weighed and randomized into one of four treatment groups. Group 1 consisted of rats whom were breast-fed. Group 2 (NEC group) consisted of neonates whom were fed with a special rodent formula. Rats in groups 3 and 4 were fed in a similar fashion to those in group 2, and glutamine 0.3 mg/kg per day and dexamethasone 0.5 mg/kg per day were added to their formula, respectively. The neonatal rats were weighed and killed on day 4: the last 4 cm of terminal ileum was harvested for morphological studies and detection of nitrite and nitrate levels in tissue. The animals in the NEC group showed various degrees of inflammatory changes similar to clinical NEC. The inflammatory changes of the intestine appeared to be attenuated in both glutamine- and steroid-treated animals compared to those in the NEC group. Only steroid treatment decreased the tissue levels of these nitrogen oxides that were increased in rats in the NEC group. We herein provide evidence that maturational agents such as glutamine and dexametasone can attenuate the local intestinal inflammatory damage in experimental NEC. These findings support the hypothesis that the gut
immaturity
in premature infants represents a risk factor for NEC.
...
PMID:Enteral glutamine supplementation and dexamethasone attenuate the local intestinal damage in rats with experimental necrotizing enterocolitis. 1455 27
Glutamine
may have benefits during
immaturity
or critical illness in early life but its effects on outcome end hardpoints are controversial. Our aim was to review randomized studies on glutamine supplementation in pups, infants, and children examining whether glutamine affects outcome. Experimental work has proposed various mechanisms of glutamine action but none of the randomized studies in early life showed any effect on mortality and only a few showed some effect on inflammatory response, organ function, and a trend for infection control. Although apparently safe in animal models (pups), premature infants, and critically ill children, glutamine supplementation does not reduce mortality or late onset sepsis, and its routine use cannot be recommended in these sensitive populations. Large prospectively stratified trials are needed to better define the crucial interrelations of "glutamine-heat shock proteins-stress response" in critical illness and to identify the specific subgroups of premature neonates and critically ill infants or children who may have a greater need for glutamine and who may eventually benefit from its supplementation. The methodological problems noted in the reviewed randomized experimental and clinical trials should be seriously considered in any future well-designed large blinded randomized controlled trial involving glutamine supplementation in critical illness.
...
PMID:Glutamine randomized studies in early life: the unsolved riddle of experimental and clinical studies. 2301 24
