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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The protective effects of hydroxyethyl starch-conjugated deferoxamine (HES-DFO), a macromolecular iron chelator, on the initial pathophysiological cascade in septic shock were evaluated following cecal ligation puncture (CLP) in rats. Animals were given an intravenous dose of 3.0 mL of either vehicle (HES) or HES-DFO immediately following completion of the CLP procedure. Animals were sacrificed 30, 60, 120, and 240 min following CLP, and samples of lung, kidney, bowel, and liver were collected for subsequent analysis of glutathione, myeloperoxidase, and evidence for lipid peroxidation based on measurement of thiobarbituric acid reactive substances and conjugated dienes. In addition, the endotoxin levels were determined in the plasma and histomorphological examination was conducted on tissue samples collected at each time point. At almost all time points, a reduction in lipid peroxidation was noted in the HES-DFO-treated rats (p < .05). Glutathione and myoloperoxidase levels were less affected. Lung tissue from animals receiving HEs demonstrated marked microatelectases, septal destruction, and splicing of basal membranes, which were greatly attenuated in animals having received HES-DFO. Similarly, tubulotoxic and mitochondrial damages observed in kidney samples from HES-treated animals were noticeably reduced in the animals having received the chelator. Liver and gut samples demonstrated unspecific inflammatory injury in both groups of animals. In summary, oxygen radical-mediated tissue damage occurs rapidly following CLP-induced sepsis. Based on histological and biochemical endpoints, treatment with the polymeric iron chelator, HES-DFO, significantly attenuates systemic oxidant injury, the degree of protection being most impressive in the lung and kidney.
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PMID:Protective effects of hydroxyethyl starch-deferoxamine in early sepsis. 860

Vibrio vulnificus is an estuarine bacterium that causes septicemia and serious wound infection. Cytolysin produced by V. vulnificus has been incriminated as one of the important virulence determinants of bacterial infection. Cytolysin (8 hemolytic units) given intravenously to mice via their tail veins caused severe hemoconcentration and lethality. Cytolysin treatment greatly increased pulmonary wet weight and vascular permeability as measured by (125)I-labeled albumin leakage without affecting those factors of other organs significantly. Blood neutrophils were markedly decreased in number after cytolysin injection, with a concomitant increase in the level of pulmonary myeloperoxidase activity, indicating that cytolysin-induced neutropenia might be due to pulmonary sequestration of neutrophils. By microscopic examination, severe perivascular edema and neutrophil infiltration were evident in lung tissues. These results suggest that increased vascular permeability and neutrophil sequestration in the lungs are important factors in lethal activity by cytolysin.
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PMID:Pulmonary damage by Vibrio vulnificus cytolysin. 911 7

Phagocytic cells, such as polymorphonuclear neutrophils, monocytes, and macrophages, are essential for defense against infection caused by a variety of microorganisms. The mechanisms used by these cells to destroy microbes comprise a potent oxidative armamentarium including superoxide, hydrogen peroxide, and hypochlorous acid. In addition, granule contents such as proteolytic enzymes, lysozyme, lactoferrin, and myeloperoxidase are released into the phagosome to destroy ingested microorganisms. Inflammatory cytokines, such as tumor necrosis factor (TNF), interleukin-1 (IL-1), and IL-6, enhance the phagocytic and microbicidal activity of the cells and increase their stickiness. It has been demonstrated in a variety of animal and clinical studies that activated phagocytes can damage the host they are designed to protect, using the mechanisms described above. Alkylxanthines, including pentoxifylline, are potent inhibitors of this inflammatory damage by two major actions: (a) reduction of the production of inflammatory cytokines (especially TNF) by phagocytes stimulated with a variety of microbial products (e.g., endotoxin); and (b) reversal of the effect of these cytokines on phagocytes. Thus, pentoxifylline counteracts the following effects of inflammatory cytokines on phagocytes: increased adherence, shape change resulting in larger size and rigidity, increased oxidative burst, priming for an enhanced oxidative burst, increased degranulation, and decreased chemotactic movement. In addition, these activities synergize with the normal anti-inflammatory mediator adenosine. Alkylxanthines have the potential to be effective therapy for conditions in which inflammatory cytokines and phagocytes cause damage, including the sepsis syndrome, ARDS, AIDS, and arthritis.
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PMID:Cytokines, phagocytes, and pentoxifylline. 869 56

Tissue injury is a common occurrence in multiple organ failure, a possible clinical complication of Gram-negative bacterial sepsis. Gram-negative bacteria, in part through lipopolysaccharide (LPS), tumor necrosis factor, and other cytokines, activate neutrophils to increase oxygen consumption and produce reactive oxygen species (ROS). ROS have been suggested to play a critical role in the pathogenesis of multiple organ failure. Accordingly, we hypothesized that the susceptibility of tissues to ROS can be reduced by augmenting the antioxidant status of the affected tissues. Rats were challenged intravenously with LPS (Escherichia coli: 0111:B4) at a dose of 1 mg/kg body weight, and 0, 2, 4, or 6 h later were treated intravenously with plain liposomes or alpha-tocopherol liposomes (20 mg alpha-tocopherol/kg body weight); treated rats were then killed 24 h after LPS challenge. Animals challenged with LPS were extensively damaged in the liver, as evidenced by an increase in plasma alanine aminotransferase and aspartate aminotransferase activities, and also in the lung, as indicated by a decrease in pulmonary angiotensin-converting enzyme and alkaline phosphatase activities. The injection of LPS also resulted in increased myeloperoxidase activities in the two organs, suggestive of activation of the inflammatory response. Within the pulmonary and hepatic organs of LPS-challenged animals, the involvement of oxidative stress mechanisms was evident, because a significant decrease in reduced glutathione and an increase in lipid peroxidation were observed. In contrast, the administration of alpha-tocopherol liposomes in the post-LPS-challenge period resulted in a significant alleviation of both lung and liver injuries, evidenced by a general reversal of the altered biochemical indices toward normal among treated animals. The therapeutic effect was found to be greater when liposomal alpha-tocopherol treatment was given earlier during the development of injury. Plain liposomes administered immediately after LPS injection also protected hepatic and pulmonary tissues from injuries. However, unlike alpha-tocopherol liposomes, plain liposomes did not confer any beneficial effect when administered at later timepoints post-LPS injection. These data suggest that alpha-tocopherol, administered in a liposomal form, may serve as a potentially effective pharmacological agent in the treatment of LPS-induced tissue injuries.
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PMID:Treatment of LPS-induced tissue injury: role of liposomal antioxidants. 882 99

An azaindolidine derivative, SJC13, selectively inhibits expression and mRNA synthesis of E-selectin and vascular cell adhesion molecule-1 (VCAM-1) in human umbilical vein endothelial cells (HUVEC) stimulated with lipopolysaccharide (LPS). The present experiments were performed to determine the in vivo effects of SJC13 against the lethality of LPS. In a mouse model of septic shock, intravenous administration of SJC13 5 min prior to LPS injection prevented significantly the lethality at doses of 3 mg/kg and 10 mg/kg. The prophylactic effect was dose-dependent. When injected up to 1 h after LPS injection, SJC13 inhibited significantly the lethality. Neutrophil emigration into lung tissues during sepsis induced with LPS, as assessed by lung myeloperoxidase (MPO) content and histological examination, was significantly prevented by SJC13 administration. These data demonstrate that SJC13 has therapeutic anti-inflammation potential in vivo.
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PMID:Protection against septic shock in mice with SJC13, an azaindolidine derivative that is a cell adhesion molecule inhibitor. 889 55

We report here a case of Cogan's syndrome associated with systemic vasculitis as well as myeloperoxidase-specific antineutrophil cytoplasmic antibody (MPO-ANCA)-related glomerulonephritis. A 71-year-old woman with the diagnosis of aortitis syndrome and pulmonary fibrosis for 7 years, complained of vertigo and hearing impairment. A diagnosis of serous otitis media was made. Although steroid therapy was effective, the symptoms relapsed several times. Seven months after the first manifestation of aural symptoms, she developed painful red eyes bilaterally and proteinuria. On admission, perinuclear ANCA without cytoplasmic ANCA was detected by indirect immunofluorescence assay and MOP-ANCA was detected by enzyme linked immunosorbent assay using the 363 ELISA Unit. Renal biopsy showed necrotizing crescentic glomerulonephritis without immune deposits. A diagnosis of atypical Cogan's syndrome with systemic vasculitis and pulmonary fibrosis was made from the clinical and histological findings. As nephrotic syndrome progressed after admission, she was started on high-dose corticosteroid administration. Urinary protein and other symptoms, except for hearing acuity, improved in parallel with a decrease in the MPO-ANCA titer to normal values. While tapering the dose of corticosteroid, the MPO-ANCA titer increased again and dyspnea occurred. Although pulse methylpredonisolone therapy was performed, the patient died of respiratory failure complicated with sepsis. Postmortem lung biopsy showed pulmonary fibrosis and massive alveolar hemorrhage. The findings of this case study suggest that MPO-ANCA may be closely related to the pathogenesis of Cogan's syndrome.
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PMID:[A case of myeloperoxidase-specific antineutrophil cytoplasmic antibody (MPO-ANCA)-related glomerulonephritis associated with Cogan's syndrome]. 891 96

Endotoxin-induced lung injury is characterized by neutrophil infiltration of the lungs. The various mechanisms which mediate movement of neutrophils from vascular space to lung interstitium and alveoli remain unclear. Macrophage-inflammatory protein 2 (MIP-2) is a potent chemoattractant for neutrophils and may play a significant role in recruiting neutrophils in acute lung injury in rats. Experiments were performed in male Sprague Dawley rats to: (1) evaluate the kinetics of neutrophil influx in the lung following intraperitoneal administration of Salmonella enteritidis lipopolysaccharide (LPS); (2) determine the expression of transcripts for chemokines and adhesion molecules in the lung following intraperitoneal LPS; and (3) elucidate the effects of intra-alveolar instillation of recombinant rat MIP-2 on neutrophil influx into the lung. Intraperitoneal LPS resulted in an increase in neutrophil sequestration in the lung capillaries of rats as early as 45 min following administration, and there was a parallel increase in lung myeloperoxidase activity. There were also major increases in mRNA in whole-lung homogenates of LPS-treated rats for chemokines MIP-2 and KC (cytokine-induced neutrophil chemoattractant) and adhesion molecules P- and E-selectin at 1 and 2 h following LPS. When recombinant rat MIP-2 was instilled into the alveolar space of rats through a catheter wedged into a bronchus, there was profound neutrophil localization both in the vascular and alveolar space which significantly differed (P < 0.05) from the contralateral lungs of the same animals, and lungs of control animals instilled with control buffer. These observations reveal that MIP-2 is a potent chemoattractant in rat lungs, and suggest that chemoattractants locally released in alveoli can recruit neutrophils to those alveoli. This suggests that alveolar macrophages may play an important role in neutrophil sequestration in sepsis and other inflammatory lung diseases which produce a neutrophilic alveolitis.
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PMID:Intra-alveolar macrophage-inflammatory peptide 2 induces rapid neutrophil localization in the lung. 891 72

Urethan is a commonly used animal anesthetic for nonrecovery laboratory surgery. However, urethan has diverse biological effects that may complicate the interpretation of experimental findings. This study examined the effect of urethan on the response to an intravenous bolus of lipopolysaccharide (LPS; 30 mg/kg) in rats. In instrumented rats, urethan (1.2 gm/kg i.p.) completely prevented the fall in arterial pressure immediately after LPS administration but did not prevent late cardiovascular collapse. In uninstrumented rats, urethan also attenuated indexes of organ injury measured 4 h after LPS administration, including mural bowel hemorrhage, hemoconcentration, hypoglycemia, metabolic acidosis, and lung myeloperoxidase activity, a measure of neutrophil sequestration. The peak increase in tumor necrosis factor-alpha (TNF-alpha) 90 min after LPS administration was reduced 88% by urethan (2,060 +/- 316 vs. 16,934 +/- 847 pg/ml; P < 0.001). In uninstrumented animals, urethan at 1.2 gm/kg reduced the 90% mortality rate of a lethal dose of LPS to 0-10% when given up to 24 h before LPS administration but did not reduce mortality when given 2 h after LPS. Urethan neither directly bound LPS by Limulus assay nor inhibited LPS-stimulated TNF-alpha mRNA expression in cultured mouse peritoneal macrophages, but TNF-alpha mRNA expression was suppressed by serum from a urethan-treated rat. Moreover, rauwolscine, which shares alpha 2-adrenoceptor-blocking activity with urethan, also prevented death from a subsequent 90% lethal dose LPS bolus. We conclude that urethan or its metabolites protect against LPS, in part, by reducing TNF-alpha release and speculate that this may be mediated by alpha 2-adrenoceptors. These actions of urethan make it an undesirable anesthetic agent for in vivo studies of sepsis or LPS.
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PMID:Urethan anesthesia protects rats against lethal endotoxemia and reduces TNF-alpha release. 894 58

Inflammatory bowel disease is associated with mucosal neutrophil recruitment and activatation, mediated in part by arachidonic acid metabolites. G-CSF attenuates the immune response to sepsis and ameliorates glycogen storage disease Ib-related colitis. These actions may be effected through the shedding of neutrophil adhesion molecules, or inhibition of proinflammatory mediator synthesis. Immune complex colitis was used to evaluate the effect of rhG-CSF on colonic mucosal inflammation, neutrophil recruitment and the generation of eicosanoids. Immune complex colitis was induced in White New Zealand rabbits. Animals were pretreated with rhG-CSF either 24 h before induction, or at induction, with dosages of 50 and 200 micrograms/kg. rhG-CSF caused a time- and dose-dependent neutrophilia in all animals. Pretreatment with rhG-CSF resulted in increased tissue myeloperoxidase levels, despite a histologically similar mucosal polymorphonuclear cell infiltrate between treated and control colitis groups. Leukotriene B4 (LTB4) and thromboxane B2 (TXB2) dialysis fluid levels were lower in treated animals, in particular in the groups receiving two doses (LTB4: both P < 0.01; TXB2: both P < 0.01. Prostaglandin E2 (PGE2) levels in dialysis fluid of the rhG-CSF-treated animals showed no difference from controls. In this model of experimental colitis, high-dose therapy with G-CSF resulted in a marked decrease of proinflammatory mediators, but mucosal generation of the protective PGE2 was preserved. These results suggest that prolonged high-dose therapy with G-CSF may have anti-inflammatory effects in colitis.
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PMID:Efficacy of recombinant granulocyte colony-stimulating factor (rhG-CSF) in experimental colitis. 897 23

The role of bronchoalveolar macrophages (BAMs) in the aggravation of cerulein-induced pancreatitis was studied by measuring expression of cytokine-induced neutrophil chemoattractant (CINC) in vitro. Pancreatitis was induced by four intramuscular injections of cerulein (50 microg/kg at 1-hr intervals). Pancreatitis rats were injected intraperitoneally with 30 mg/kg lipopolysaccharide (LPS) 6 hr following the first cerulein injection as a septic challenge. Rats were divided into four groups: group I, nonpancreatitis without LPS; group II, pancreatitis without LPS; group III, nonpancreatitis with LPS; and group IV, pancreatitis with LPS. Hyperactivity of BAMs in response to LPS was assessed as a function of in vitro CINC production. CINC concentrations of the serum and bronchoalveolar lavage fluid in group IV were significantly higher than those in groups I, II, and III. BAMs in group II harvested 6 hr following the first cerulein injection had significantly greater CINC production than those in group I. Northern blot analysis revealed abundant CINC mRNA transcripts in BAMs from groups III and IV. Additionally, myeloperoxidase activity in the lung of group IV rats 8 and 12 hr following the first cerulein injection was significantly higher than that in group I, II, and III rats. Significant differences in static lung compliance in group IV were found compared with groups I, II, and III. These results indicate that BAMs from rats with cerulein-induced pancreatitis were primed and had enhanced release of CINC following LPS exposure. Enhanced expression of CINC may modulate the pathogenesis of pancreatitis-associated lung injury complicated with sepsis.
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PMID:Enhanced expression of cytokine-induced neutrophil chemoattractant (CINC) by bronchoalveolar macrophages in cerulein-induced pancreatitis rats. 900 32


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