Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Necrotizing enterocolitis, a highly lethal disease in the newborn infant characterized by ischemic necrosis of the gastrointestinal tract frequently leading to perforation, is seen primarily in low birth weight infants who have undergone stress, such as hypoxia. In an animal model it was demonstrated that cold stress was as effective as hypoxia in producing the disease in formula-fed newborn rats. Breast milk was completely protective in both cold- and hypoxic-stressed animals. Presumably cold stress produces the same selective circulatory ischemia as does hypoxia. The experiment further supports the concept that any insult or stress which decreases mesenteric blood flow may initiate the changes leading to necrotizing enterocolitis. It was shown also that the incidence of the disease in formula-fed rats was related directly to the number of episodes of either cold or hypoxic stress. These results suggest that a critical amount of ischemia is necessary to initiate these changes and may help to explain the fact that not all infants exposed to hypoxia or cold stress developthe disease.
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PMID:Importance of multiple episodes of hypoxia or cold stress on the development of enterocolitis in an animal model. 117

In the feline intestine studies have implicated superoxide (O.-) and other oxygen derived free radicals as initiators of injury as measured by increased capillary permeability during the reperfusion period. Biochemical mechanisms of this free radical generation include: xanthine oxidase dependent O.- production, hydrogen peroxide (H2O2) formation by superoxide dismutase (SOD), hydroxyl radical (OH-) production via the Haber-Weiss reaction, and lipid radical formation from membrane peroxidation. Pathological consequences of these events include inflammatory neutrophil infiltration, damage to the collagen and mucosal basement membrane, increased capillary permeability, edema, cell degeneration and necrosis. Animal models of neonatal necrotizing enterocolitis (NNEC) indicate that intestinal injury occurs after the etiologic factors (hypothermia, hypoxia) are removed. In order to determine the role of active oxygen species in the pathogenesis of NNEC, weanling hamsters and neonatal piglets were cold stressed and activities of pro/antioxidant enzymes were determined, and histopathologic and ultrastructural studies were performed. Cold stressed weanling hamsters showed a 55.7% (P less than 0.05) decrease in xanthine dehydrogenase/xanthine oxidase activity ratio. Light microscopy revealed scattered colonic mucosal erosions and submucosal edema in 50% of cold stressed animals. Transmission electron microscopy demonstrated degeneration of colonic mucosal epithelial cells, enlarged intracellular spaces, cytoplasmic vacuolization, and nuclear membrane swelling. The colonic serosa was also edematous and infiltrated with bacteria. Large intestinal tissue from cold stressed neonatal piglets showed a significant increase (P less than 0.05) in Mn and Cu, Zn, SOD, CAT, GSH-Red, total GSH, and Glc6-PD at 0 and 12 hrs. post stress.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intestinal post-ischemic reperfusion injury: studies with neonatal necrotizing enterocolitis. 259 24

Increased mucosal permeability may represent an important factor in the etiology of necrotizing enterocolitis (NEC). In the present study we used an immature rat model to assess the permeability effects of a number of stresses commonly seen in infants with NEC. In 10-day-old rats, mucosal permeability to 51Cr EDTA was measured after subjecting the animals to 10-minute ischemia-reperfusion injury, 30 minutes of hypoxia (14% oxygen), cold stress (4 degree C for 4 minutes), and intraperitoneal indomethacin (0.2 or 2.0 mg/kg) or theophylline (40 or 200 mg/kg). When compared with appropriate controls, mucosal permeability was found to be significantly increased by ischemia-reperfusion injury, hypoxia, and high-dose indomethacin, but not by cold, theophylline, or low-dose indomethacin. Renal clearance studies confirmed that elevated blood levels of 51Cr EDTA were due to increased permeability rather than decreased renal excretion of the probe. These studies confirm that mucosal permeability in the immature rat is increased by a variety of insults, and may represent a "common pathway" in the etiology of NEC.
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PMID:Mucosal permeability in the immature rat intestine: effects of ischemia-reperfusion, cold stress, hypoxia, and drugs. 826 5

Necrotizing enterocolitis (NEC) is the most common gastrointestinal disease of prematurely born infants. Maternal milk plays an important protective role against NEC development and is the major source of epidermal growth factor (EGF) for neonates. The aim of this study was to examine the effect of orally administered EGF on the incidence of NEC in a neonatal rat model. Newborn rats were artificially fed either with growth factor-free rat milk substitute (RMS) or RMS supplemented with 500 ng/ml of EGF (RMS+EGF). Experimental NEC was induced by exposure to asphyxia and cold stress. Development of NEC was evaluated by gross and histological scoring of damage in the ileum. Ileal EGF receptor (EGF-R), EGF, and transforming growth factor-alpha mRNA expression was assessed by RT competitive-PCR, and the EGF-R was localized by immunohistochemistry. EGF supplementation of formula reduced the incidence and severity of NEC in rats (13/16 RMS vs. 4/13 RMS+EGF). Ileal EGF-R mRNA expression was markedly increased in the RMS group compared with RMS+EGF. Enhanced EGF-R expression in the RMS group was localized predominantly in the epithelial cells of injured ileum. These data suggest a new potential therapeutic approach for the prevention and treatment of NEC.
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PMID:Epidermal growth factor reduces the development of necrotizing enterocolitis in a neonatal rat model. 1175 Nov 69

Necrotizing enterocolitis (NEC) is a common and devastating gastrointestinal disease of premature infants. Because the proinflammatory cytokines IL-18, IL-12, and interferon (IFN)-gamma have been implicated in other diseases of the small intestine, we hypothesized that these cytokines would play an important role in NEC pathogenesis. NEC was induced in newborn rats via enteral feeding with rat milk substitute and asphyxia and cold stress (RMS). Dam-fed, asphyxia- and cold-stressed littermates were used as controls (DF). After 96 h, the distal ileum was removed from all animals and processed to determine expression and localization of IL-18, IL-12, and IFN-gamma using real-time reverse transcriptase PCR and immunohistology. IL-18 and IL-12 mRNA from the RMS group were increased (p < or = 0.05) compared with DF controls, and there was a correlation between increasing IL-18 and IL-12 mRNA levels and progression of tissue damage (r = 0.629 and 0.588, respectively; p < or = 0.05). Immunohistology revealed IL-18 in the cytoplasm of villi and crypt enterocytes and IL-12-positive monocytes/macrophages were increased with disease progression (r = 0.503, p < or = 0.05). No differences in the number of IFN-gamma-positive cells were observed between groups. These data demonstrate up-regulation of IL-18 and IL-12 in experimental NEC and a correlation between production of these proinflammatory cytokines and progression of tissue damage.
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PMID:Up-regulation of IL-18 and IL-12 in the ileum of neonatal rats with necrotizing enterocolitis. 1203 69

Necrotizing enterocolitis (NEC) is a devastating intestinal disease of premature infants. Maternal milk has been suggested to be partially protective against NEC; however, the mechanisms of this protection are not defined. The aim of this study was to examine the effect(s) of artificial feeding of rat milk (RM)-versus cow milk-based rat milk substitute (RMS) on the development of NEC in a neonatal rat model and elucidate the role of inflammatory cytokines in NEC pathogenesis. Newborn rats were artificially fed with either collected RM or RMS. Experimental NEC was induced by exposure to asphyxia and cold stress and evaluated by histologic scoring of damage in ileum. Intestinal cytokine mRNA expression was determined by real-time PCR. Cytokine histologic localization was performed by confocal microscopy. Similar to human NEC, artificial feeding of RM reduces the incidence and severity of NEC injury in neonatal rats. Freezing and thawing of collected RM did not eliminate the protective effect of maternal milk. Ileal IL-10 expression was significantly increased in the RM group compared with RMS. Increased IL-10 peptide production was detected in the RM group with signal localized predominantly in the cytoplasm of villus epithelial cells. These results suggest that the protective effect of maternal milk is associated with increased production of anti-inflammatory IL-10 in the site of injury. Better understanding of the mechanisms underlying these protective effects could be beneficial either in the prevention of NEC or in the development of future therapeutic strategies to cure NEC.
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PMID:Maternal milk reduces severity of necrotizing enterocolitis and increases intestinal IL-10 in a neonatal rat model. 1259 90

The histopathology of necrotizing enterocolitis (NEC) is characterized by destruction of the mucosal layer in initial stages and by transmural necrosis of the intestinal wall in advanced stages of the disease. To test the hypothesis that enhanced epithelial apoptosis is an initial event underlying the gross histologic changes, we analyzed epithelial apoptosis and tissue morphology in an animal model of NEC and evaluated the effect of caspase inhibition on the incidence of experimental NEC in this model. Apoptosis was analyzed with terminal deoxynucleotidyltransferase-mediated dUTP-FITC nick end labeling (TUNEL) staining in intestinal sections and by measuring caspase 3 activity from intestinal lysates of neonatal rats subjected to formula feeding and cold/asphyxia stress (FFCAS) and from mother-fed (MF) controls. Morphologic evaluation was based on hematoxylin and eosin staining of intestinal sections. FFCAS resulted in histologic changes consistent with NEC, which were absent from MF animals. FFCAS was also associated with a significantly increased rate of nuclear DNA fragmentation in the small intestinal epithelium compared with MF. Elevated tissue caspase 3 activity confirmed the presence of apoptosis in samples with increased DNA fragmentation. Analysis of the coincidence of morphologic damage and apoptosis in corresponding tissue sections indicated that apoptosis precedes gross morphologic changes in this model. Furthermore, supplementation of formula with 8 boc-aspartyl(OMe)-fluoromethylketone, a pan-caspase inhibitor, significantly reduced the incidences of apoptosis and experimental NEC. These findings indicate that in neonatal rats FFCAS induces epithelial apoptosis that serves as an underlying cause for subsequent gross tissue necrosis.
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PMID:Intestinal epithelial apoptosis initiates gross bowel necrosis in an experimental rat model of neonatal necrotizing enterocolitis. 1476 21

Cytokines had important role in the pathogenesis of necrotizing enterocolitis (NEC). The aim of this study is to investigate if IFN-alpha has a prophylaxic effect on experimental NEC development in newborn rat pups. Twenty eight Wistar Albino newborn rat pups were divided into three groups. Control group rats were breast-fed, NEC group and interferon (IFN) group rat pups were hand-fed with premature newborn formula. IFN-alpha was administered subcutaneously at a dose of 50,000 IU/rat/day in IFN group. NEC was induced experimentally by cold stress twice a day in IFN and NEC groups. On the fourth day, the rats were killed, and all the intestine were removed to determine the tissue level of malonaldehyde (MDA) and histologic changes. The microscopic lesions in the NEC group rats were virtually the same as those seen in neonatal NEC, with severe separation of submucosa and/or lamina propria, loss of villi and in some cases necrosis to extention the muscularis. In contrast, in the rats treated with IFN, lesions were moderate separation of submucosa and/or lamina propria, edema in submucosal and muscular layers. Intestinal injury score and MDA levels in NEC group were significantly higher than in the IFN group (P<0.05). In conclusion it was suggested that IFN-alpha was effective in reducing the severity of NEC in rat pups.
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PMID:Interferon-alpha reduces the development of experimental necrotizing enterocolitis. 1503 46

Necrotizing enterocolitis (NEC) is the most common intestinal disease of premature infants. Although increased mucosal permeability and altered epithelial structure have been associated with many intestinal disorders, the role of intestinal barrier function in NEC pathogenesis is currently unknown. We investigated the structural and functional changes of the intestinal barrier in a rat model of NEC. In addition, the effect of EGF treatment on intestinal barrier function was evaluated. Premature rats were divided into three groups: dam fed (DF), formula fed (NEC), or fed with formula supplemented with 500 ng/ml EGF (NEC + EGF); all groups were exposed to asphyxia/cold stress to develop NEC. Intestinal permeability, goblet cell density, mucin production, and composition of tight junction (TJ) proteins were evaluated in the terminal ileum, the site of NEC injury, and compared with the proximal jejunum, which was unaffected by NEC. Animals with NEC had significantly increased intestinal paracellular permeability compared with DF pups. Ileal goblet cell morphology, mucin production, and TJ composition were altered in animals with NEC. EGF treatment significantly decreased intestinal paracellular permeability, increased goblet cell density and mucin production, and normalized expression of two major TJ proteins, occludin and claudin-3, in the ileum. In conclusion, experimental NEC is associated with disruption of the intestinal barrier. EGF treatment maintains intestinal integrity at the site of injury by accelerating goblet cell maturation and mucin production and normalizing expression of TJ proteins, leading to improved intestinal barrier function.
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PMID:Intestinal barrier failure during experimental necrotizing enterocolitis: protective effect of EGF treatment. 1679 26

Necrotizing enterocolitis (NEC) is a potentially fatal illness in premature neonates. Tumor necrosis factor alpha (TNF-alpha) has been shown to play a central role in the inflammatory cascade leading to the development of NEC. Published evidence points to a significant role of pentoxifylline in inhibition of TNF-alpha and in reducing mucosal injury and improving healing in ischemia-reperfusion experiments. Our aim was to investigate the effect of pentoxifylline on the incidence of NEC in a neonatal rat model. Newborn Sprague-Dawley rat pups originating from eight separate litters were delivered by cesarean section at 21.5 d and were formula fed from birth by orogastric gavage. The rat pups were randomized to receive either intraperitoneal pentoxifylline (15 mg/kg/dose) or placebo, given every 8 h beginning at 24 h of age, in a blinded fashion. Experimental NEC was induced by exposure to hypoxia for 60 s followed by cold stress at 4 degrees C for 10 min. The animals were euthanized at development of NEC or at 96 h and intestinal tissue was processed and examined for histologic changes of NEC. The incidence of NEC was significantly lower in the pentoxifylline group [pentoxifylline 5/38 versus placebo 15/36; p = 0.008, odds ratio (OR) = 0.21 95% confidence interval (CI) 0.07-0.67]. Among the pups developing NEC, significantly fewer rat pups treated with pentoxifylline had severe (>or=3) intestinal injury scores [pentoxifylline 1/5 versus placebo 10/15; p = 0.031, OR 0.06, 95% CI 0.01-0.79]. We conclude that intraperitoneal administration of pentoxifylline significantly reduced the incidence and severity of NEC in our experimental animal model.
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PMID:Pentoxifylline reduces the incidence and severity of necrotizing enterocolitis in a neonatal rat model. 1686 1


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