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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Continuous positive airway pressure (CPAP) administered as a mixture of oxygen and compressed air via nasal prongs has dramatically improved survival rates and lessened the frequency of barotrauma and bronchopulmonary dysplasia in the premature infant with respiratory distress syndrome. Associated with the increased use of nasal CPAP has been the development of marked bowel distension (CPAP belly syndrome), which occurs as the infant's respiratory status improves and the baby becomes more vigorous. To identify contributing factors, we prospectively compared 25 premature infants treated with nasal CPAP with 29 premature infants not treated with nasal CPAP. Infants were followed up for development of distension, defined clinically as bulging flanks, increased abdominal girth, and visibly dilated intestinal loops. We evaluated birth weight, weight at time of distension, method of feeding (oral, orogastric tube), and treatment with nasal CPAP and correlated these factors with radiologic findings. Of the infants who received nasal CPAP therapy, gaseous bowel distension developed in 83% (10/12) of infants weighing less than 1000 g, but in only 14% (2/14) of those weighing at least 1000 g. Only 10% (3/29) of infants not treated with nasal CPAP had distension, and all three weighed less than 1000 g. Presence of sepsis and method of feeding did not correlate with occurrence of distension. Neither necrotizing enterocolitis nor
bowel obstruction
developed in any of the patients with a diagnosis of CPAP belly syndrome. Our study shows that nasal CPAP, aerophagia, and
immaturity
of bowel motility in very small infants were the major contributors to the development of benign gaseous bowel distension.
...
PMID:Benign gaseous distension of the bowel in premature infants treated with nasal continuous airway pressure: a study of contributing factors. 172 37
We report the case of a 6-month-old boy who developed chronic intestinal pseudo-obstruction soon after birth. A rectal biopsy demonstrated
immaturity
of the neuronal cells in the enteral ganglion. His clinical course was stressful, with remission and exacerbation despite conservative treatment with daily bowel irrigation, prokinetic agents, and parenteral nutrition. Since the infant developed serious enterocolitis associated with the increased severity of his
bowel obstruction
, and no substantial gain in body weight was observed, a loop-ileostomy was performed based on X-ray findings with radio-opaque markers, which were employed to evaluate the whole gut transit time. The radio-opaque markers proved extremely useful for determining which loop of the ileum should be utilized for the ileostomy.
...
PMID:The application of radio-opaque markers prior to ileostomy in an infant with chronic intestinal pseudo-obstruction: report of a case. 950 23
Meconium disease (MD) results in
intestinal obstruction
in the neonate where tenacious meconium is found in the distal ileum and proximal colon. The obstructive symptoms improve at several days of age after some of the meconium is passed. We observed premature infants with MD who underwent ileostomy for
intestinal obstruction
due to tenacious meconium. Afterward, meconium was passed well and the clinical symptoms improved. After closing the ileostomy, growth and defecation became normal. The MD in our cases was documented by histologic changes in the maturation of ganglion cells observed at the time of ileostomy creation and closure. For an objective evaluation of the maturation of intestinal ganglion cells (IGC), we attempted to distinguish immature from mature cells by the expression of cathepsin D. We examined the distribution of cathepsin D in IGC in patients with MD to test the hypothesis that ganglion-cell
immaturity
might be related to MD. In ganglion cells at the time of ileostomy, cathepsin D was detected in the perinuclear cytoplasm (immature staining pattern), while at the time of ileostomy closure it was detected in intense granules throughout the cytoplasm (mature staining pattern). We propose that it would be possible to evaluate the maturation of IGC by the intracellular distribution of cathepsin D in MD and suggest that
immaturity
of IGC might be the cause of MD.
...
PMID:The evaluation of meconium disease by distribution of cathepsin D in intestinal ganglion cells. 1066 36
Knowledge regarding the foetal and postnatal development of the enteric nervous system is crucial for the understanding of congenital disorders. While lot of information exists regarding the myenteric and submucosal plexuses, the development of the mucosal plexus has not been previously studied. The mucosal innervation seems to play an important role in the local reflex activity of the gut. In this study, we examined the development of enteric mucosal innervation in the pig at various ages of life. Small and large bowel paraffin-embedded specimens were stained with PGP 9.5 and neurofilament protein in three piglets from six age groups (60 and 90 days gestation, newborn, 4 and 12 weeks old, and adult pigs). Small and large bowel demonstrated identical innervation patterns. Myenteric and submucosal plexuses were stained with PGP 9.5 at 60 days gestation. However, the mucosal staining was first noted clearly at the newborn period. By 4 weeks, PGP 9.5 staining was noted in small amounts within the mucosa. Inner proprial and villous fibres were seen ahead in time to the subepithelial fibres. Both inner proprial and villous staining became quiet prominent by 12 weeks of age and remained unchanged into adulthood. However, the subepithelial fibres appear to increase in adulthood. This study demonstrates for the first time that enteric mucosal innervation first appears only at birth. The
immaturity
of the mucosa generated reflex activity, and secretory functions may have implication in the management of functional
intestinal obstruction
in the premature infant.
...
PMID:Postnatal development of the mucosal plexus in the porcine small and large intestine. 1700 8
Bacterial translocation as a direct cause of sepsis is an attractive hypothesis that presupposes that in specific situations bacteria cross the intestinal barrier, enter the systemic circulation, and cause a systemic inflammatory response syndrome. Critically ill children are at increased risk for bacterial translocation, particularly in the early postnatal age. Predisposing factors include
intestinal obstruction
, obstructive jaundice, intra-abdominal hypertension, intestinal ischemia/reperfusion injury and secondary ileus, and
immaturity
of the intestinal barrier per se. Despite good evidence from experimental studies to support the theory of bacterial translocation as a cause of sepsis, there is little evidence in human studies to confirm that translocation is directly correlated to bloodstream infections in critically ill children. This paper provides an overview of the gut microflora and its significance, a focus on the mechanisms employed by bacteria to gain access to the systemic circulation, and how critical illness creates a hostile environment in the gut and alters the microflora favoring the growth of pathogens that promote bacterial translocation. It also covers treatment with pre- and pro biotics during critical illness to restore the balance of microbial communities in a beneficial way with positive effects on intestinal permeability and bacterial translocation.
...
PMID:Gut microbial translocation in critically ill children and effects of supplementation with pre- and pro biotics. 2293 15
