UMLS:C0036690 - FACTA Search

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

Oral administration of interleukin-6 (IL-6) has been shown to reduce hemorrhage-induced bacterial translocation from the gut in mice and rats. To examine the intestinal microvasculature, mice were given the electron-dense tracer horseradish peroxidase (HRP) after hemorrhage and IL-6 or vehicle administration. In normal mice and in those hemorrhaged and given IL-6, the electron-dense marker, administered intravenously, could be found in intestinal capillaries and between mucosal epithelial cells, suggesting that the microvasculature was patent. In mice given saline after shock, however, no marker was present in the gut, suggesting that the intestinal microvasculature was unable to deliver the marker to the epithelia. When mice were given HRP intralumenally (il) the tracer was able to penetrate between intestinal epithelial cells only in mice given vehicle after hemorrhage. This finding suggests that hemorrhaged mice were susceptible to sepsis and endotoxic shock from the leaky gut. In normal and IL-6-treated mice, the tracer was unable to pass from the lumen between mucosal epithelial cells, because the presence of an intact zonula occludens prevented passage. Functional studies supported the electron microscopy findings. Bacteria were cultured from the livers of mice fed vehicle after hemorrhage, but not from those fed IL-6. These data support the conclusions that parts of the intestinal microvasculature remain diminished after hemorrhage and resuscitation and that oral IL-6 restores this circulation.
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PMID:Microvascular effects of oral interleukin-6 on ischemia/reperfusion in the murine small intestine. 1075 42

Acute respiratory distress syndrome (ARDS) is the result of severe injuries of different etiologies of the capillary system in patients with previously healthy lungs, resulting in noncardiogenic pulmonary edema. The authors studied 42 infants in whom the histopathologic aspects were suggestive for ARDS. The etiologic factors of this syndrome were: severe gastroenteritis with hypovolemic or endotoxic shock (13 cases), sepsis (9 cases), fulminans purpura (2 cases), severe neurological disorders (13 cases), pulmonary infections (5 cases). In such conditions, if the infant presents hyperpnea followed by generalised cyanosis, refractory to oxygen therapy, and if there are clinical and radiologic signs of acute pulmonary edema, the diagnosis of ARDS must be considered and a complete intensive care therapy is compulsory in order to alleviate the severe prognosis of this syndrome.
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PMID:Etiological, clinical and pathomorphological aspects of acute respiratory distress syndrome in children. 1075 53

Gram-negative sepsis and subsequent endotoxic shock after surgery remain problematic in the United States and throughout the world. While morphine is widely prescribed for postoperative trauma pain management, there are reports that morphine may compromise the immune system and contribute to postoperative sepsis. The current study tested the hypothesis that morphine attenuates leukocyte rolling and sticking in both arterioles and venules via nitric oxide production. Nude mice implanted with slow-release morphine pellets were used in this study. The dorsal skinfold chamber model for intravital fluorescence microscopy on awake mice was used. Leukocyte/endothelial interactions were evaluated after bolus injection of oxidized low density lipoprotein. Morphine was found to significantly attenuate leukocyte rolling and sticking in both the arterial and venular side of the microcirculation. This attenuation was reversed by simultaneous implantation of naloxone pellets. The mechanisms of this attenuation were further investigated by administration of the nitric oxide synthase inhibitors NG-nitro-l-arginine (NOLA) and aminoguanidine (AG) in drinking water. NOLA was found to significantly reverse this morphine-induced attenuation of leukocyte rolling and sticking in both arterioles and venules. However, AG did not have the same effect. The results indicate that morphine interferes with leukocyte/endothelial cell interactions via stimulation of nitric oxide production.
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PMID:Morphine attenuates leukocyte/endothelial interactions. 1096 86

It is well recognized that the reciprocal interaction established between the immune and neuroendocrine systems is crucial for the homeostatic adaptation of individuals during septicemia. In the present study, using an in vivo rat model, we investigated the degree of participation of central and peripheral epinergic systems in the modulation of the hypothalamic-pituitary-adrenal and immune axes' functions during endotoxemia. For this purpose, acute endotoxemia was induced in adult male rats pretreated intraperitoneally with either different inhibitors of phenylethanolamine-N-methyltransferase (PNMT) [which are active either peripherally (SKF 29661) or both peripherally and centrally (SKF 64139), thus lowering epinephrine (EPI) synthesis] or vehicle only (CTRL). Twelve hours after pretreatment, animals were intraperitoneally injected with vehicle alone (basal) or vehicle containing bacterial lipopolysaccharide (LPS) and sacrificed 2 h later. A significant (p < 0.05 vs. the respective basal value) hypoglycemia was found in all groups studied. No pretreatment modified basal plasma adrenocorticotropic hormone (ACTH), glucocorticoid and cytokine concentrations. Endotoxin-stimulated ACTH secretion was severalfold (p < 0.05) higher than the respective basal value in CTRL and in SKFs-pretreated rats; however, the plasma ACTH levels after LPS were significantly (p < 0.05 vs. CTRL and SKF-29661 values) reduced in SKF-64139-pretreated rats. All groups studied showed an appropriate adrenal response to endotoxin challenge. Although no differences were found in basal anterior pituitary (AP) ACTH content among groups, LPS treatment significantly (p < 0.05 versus the respective basal value) decreased AP ACTH in CTRL and SKF 29661 groups. No pretreatment modified the basal medial basal hypothalamus (MBH) corticotropin-releasing hormone (CRH) content. Conversely, SKF 64139 pretreatment significantly (p < 0.05 vs. CTRL and SKF 29661 values) reduced basal median eminence (ME) CRH content, and LPS administration significantly (p < 0.05) decreased ME CRH in CTRL and SKF-29661-pretreated rats. SKF 64139 pretreatment significantly (p < 0.05) enhanced basal MBH and ME arginine vasopressin (AVP) contents. LPS administration significantly (p < 0.05) decreased MBH AVP in CTRL and SKF-29661-pretreated rats and diminished (p < 0.05 vs. basal values) ME AVP in all groups. The plasma tumor necrosis factor alpha (TNFalpha) concentrations were enhanced severalfold (p < 0.05 vs. basal values) after LPS treatment in CTRL rats, but not in SKFs-treated animals. In order to explore the reduced cytokine release after LPS in PNMT-inhibited rats, additional ex vivo experiments were performed by using peripheral mononuclear cells (PMNC) from both CTRL and SKF-29661-pretreated rats. The results of these experiments confirmed an immune dysfunction after inhibition of peripheral EPI synthesis; in fact, basal and concanavalin-A-stimulated TNFalpha secretions were significantly (p < 0.05) lower in SKF-29661-treated than in CTRL PMNC, while, interestingly, addition of EPI (10(-7) M) to the medium fully restored these effects. These data demonstrate that: (1) the mechanism whereby LPS-induced hypoglycemia was independent of epinergic activity; (2) selective central inhibition of epinergic function reduced endotoxin-stimulated ACTH secretion, an effect that could mainly be due to a decrease in CRH-ergic activity; (3) the central epinergic system positively and negatively modulates CRH- and AVPergic functions, respectively, and (4) inhibition of peripheral PNMT activity reduced immune system function in vivo and ex vivo. It is further suggested that low peripheral levels of EPI could be beneficial for the body's defense mechanisms during endotoxic shock.
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PMID:Modulatory role of the epinergic system in the neuroendocrine-immune system function. 1096 35

Due to its opsonizing role, plasma fibronectin (pFN) binds to circulating degradation products deriving from collagenous structures and mediates their elimination by the reticuloendothelial system (RES). In septic shock, an overflow of this material may lead to a lack of pFN and an impaired RES activity. In fact, low pFN levels have been reported to correlate with unfavorable clinical outcome. However, dysfunction of the RES is also caused by other shock related factors, and death from septic shock also has been observed in the presence of normal FN levels. To investigate the involvement of opsonic FN in the progression of sepsis, we discriminated between biologically active FN and FN bound to gelatin-like material in pigs developing a hyperdynamic endotoxic shock. All FN determinations were performed with the immunochemical assay. Discrimination between free FN and complexed FN was achieved by separation on gelatin sepharose. A continuous decrease of total FN and free FN was observed in the septic group reaching 57% and 50% of the initial level at the end of the 5-h observation period, respectively. However, a significant difference was not detected before both the microcirculatory and macrocirculatory alterations indicative of hyperdynamic endotoxic shock were completely established. Complexed FN was increased slightly in both groups without any group specific differences. We conclude that the FN-mediated opsonization of circulating gelatine-like material does not play a critical role in early circulatory shock.
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PMID:Plasma concentration of biologically active fibronectin and fibronectin bound to gelatin-like material in a porcine model of hyperdynamic endotoxic shock. 1104 14

A crucial aspect of the inflammatory response is the recruitment of activated neutrophils (PMN) to the site of damage. Lytic enzymes and oxygen radicals released by PMN are important in clearing an infection or cellular debris, but can also produce host tissue damage. Failure to properly regulate the inflammatory response contributes to a variety of human diseases like sepsis and multiple organ dysfunction syndrome, the leading cause of morbidity and mortality in surgical intensive care units. Many aspects of human disease pathology, including hepatic PMN infiltration, can be recapitulated in mice using an endotoxic shock model. Six quantitative trait loci that predispose to high infiltration of PMN in hepatic sinusoids after high-dose endotoxin administration were provisionally identified. Two of these loci, Hpi1 and Hpi2 on mouse chromosomes 5 and 13, were mapped to the significant and highly significant level using a low-resolution genome scan on 122 intercross animals. These loci interact epistatically to produce a high degree of PMN infiltration. Intercross and recombinant inbred strain mice with a specific genotype at these loci always had a high infiltration response, indicating that genotype analysis at just these two loci can accurately predict a high PMN infiltration response. Genetic predisposition to the degree of PMN infiltration in the inflammatory response in mice suggests that analogous genetic mechanisms occur in human beings that could be used for diagnostic purposes.
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PMID:Quantitative trait loci modulate neutrophil infiltration in the liver during LPS-induced inflammation. 1105 46

Sepsis and endotoxaemia initiate the generation of thrombin, which is responsible for the conversion of fibrinogen to fibrin, platelet aggregation and acts as an inflammatory mediator affecting numerous types of cells, including myocardial, smooth muscle and endothelial cells. Human Gram-negative septic shock, frequently seen in intensive care units, is a condition with high mortality. This condition can be replicated in the endotoxaemic pig. As many of the toxic effects of sepsis are due to thrombin generation, it was of interest to study, using this porcine experimental septic shock model, whether inhibition of thrombin could alleviate the effects of endotoxaemia. For this purpose melagatran, a direct synthetic thrombin inhibitor with a molecular weight of 429 Da, was employed. Melagatran does not significantly interact with any other enzymes in the coagulation cascade or fibrinolytic enzymes aside from thrombin. Furthermore, melagatran does not require endogenous co-factors such as antithrombin or heparin co-Factor II for its antithrombin effect, which is important, as these inhibitors are often consumed in septic patients. We have shown that melagatran exerts a beneficial effect on renal function, as evaluated by plasma creatinine and urinary output, during experimental septic shock. These effects were most pronounced during the later phase of the experimental period, after the infusion of melagatran had been discontinued. Prevention of intrarenal coagulation may be attributable to this finding. In addition, melagatran had beneficial effects on systemic haemodynamics (left ventricular stroke work index, pulmonary capillary wedge pressure and systemic vascular resistance index) in endotoxaemic pigs. This result may be explained by the ability of melagatran to inhibit thrombin, thereby counteracting thrombin's cellular effects. Thus, it can be seen, using this experimental model of septic shock, that melagatran may help to alleviate some of the damaging effects of endotoxaemia, although more research is required to test this further.
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PMID:Effects of melagatran, a novel direct thrombin inhibitor, during experimental septic shock. 1106 Jul 33

Endotoxic shock, or Gram-negative septic shock, can occur as a component of Gram-negative sepsis and is characterised by hypotension, poor tissue perfusion and multi-organ dysfunction. Despite antibiotic therapy and intensive care management, the morbidity and mortality rates of Gram-negative septic shock remain high. Endotoxin mediates its effects through interaction with receptors on the surface of a variety of host cells. These interactions result in the production and release of numerous biochemical mediators including nitric oxide, cytokines, prostaglandins and leukotrienes and toxic oxygen radicals. It is these biochemical mediators that exert toxic effects during endotoxic shock and which are often the target of novel treatment strategies. Several of these pharmacological agents are currently being investigated for use in Gram-negative septic shock and include inhibitors of the enzyme responsible for nitric oxide production, scavengers of the nitric oxide molecule and cytokine modulators. Although many agents have been studied for potential use as modulators of cytokine levels, this study will focus on pentoxifylline and the 21-aminosteroids, or lazaroids. Examination of the literature regarding pharmacological agents used to treat endotoxic shock often yields confusing and contradictory results. The reasons for these mixed results include differences in models, drug dosages, dosing methods and intervals and timing of administration relative to disease duration and severity. However, despite mixed results, several of the drugs discussed in this paper offer promise in the therapy of an often frustrating and lethal condition.
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PMID:Novel agents in the therapy of endotoxic shock. 1106 Jul 48

Although studies have indicated that calcitonin gene-related peptide (CGRP), a potent vasodilatory peptide, is upregulated after endotoxic shock, it remains controversial whether this peptide increases during sepsis and, if so, whether the gut is a significant source of CGRP under such conditions. To study this, polymicrobial sepsis was induced by cecal ligation and puncture (CLP) followed by fluid resuscitation. Plasma levels of CGRP were measured at 2, 5, and 10 h after CLP (i.e., early, hyperdynamic sepsis) and at 20 h after CLP (late, hypodynamic sepsis). The results indicate that plasma CGRP did not increase at 2--5 h but increased by 177% at 10 h after CLP (P < 0.05). At 20 h after the onset of sepsis, however, the elevated plasma CGRP returned to the sham level. To determine the source of the increased plasma CGRP, the liver, spleen, small intestine, lungs, and heart were harvested, and tissue CGRP was assayed at 10 h after CLP in additional animals. Only the small intestine showed a significant increase in tissue levels of CGRP (by 129%, P < 0.05). Determination of portal vs. systemic levels of CGRP indicates that portal CGRP was 65.7 +/- 22.7% higher than the systemic level at 10 h after CLP, whereas portal CGRP in sham-operated rats was only 4.9 +/- 2.1% higher. Immunohistochemistry examination revealed that CGRP-positive stainings increased in the intestinal tissue but not in the liver at 10 h after the onset of sepsis. The distribution of CGRP stainings was associated with intestinal nerve fibers. These results, taken together, demonstrate that upregulation of CGRP occurs transiently during the progression of sepsis (at the late phase of the hyperdynamic sepsis), and the gut appears to be a major source of such an increase in circulating levels of this peptide.
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PMID:The small intestine plays an important role in upregulating CGRP during sepsis. 1120 65

Tumor necrosis factor-stimulated gene 14 (TSG-14)/PTX3 was identified originally as a TNF-alpha and IL-1beta-stimulated gene from normal, human foreskin fibroblasts and vascular endothelial cells, respectively. TSG-14 gene encodes a 42-kDa-secreted glycoprotein with a carboxy-terminal half that shares homology with the entire sequence of C-reactive protein (CRP) and serum amyloid P component (SAP), acute-phase proteins of the pentraxin family. Some experimental evidence suggests that TSG-14 plays a role in inflammation, yet its function and mechanism of action remain unclear. We have generated transgenic mice that overexpress the murine TSG-14 gene under the control of its own promoter. From eight transgenic founders, two lineages were derived and better characterized: Tg2 and Tg4, carrying two and four copies of the transgene, respectively. TSG-14 transgenic mice were found to be more resistant to the endotoxic shock induced by LPS and to the polymicrobial sepsis caused by cecal ligation and puncture (CLP). Moreover, macrophages derived from the transgenic mice produced higher amounts of nitric oxide in response to IFN-gamma, TNF-alpha, and LPS as compared with macrophages from wild-type animals, and the augmented response appears to be the consequence of a higher responsiveness of transgenic macrophages to IFN-gamma. The data shown here are the first in vivo evidence of the involvement of TSG-14 in the inflammatory process and suggest a role for TSG-14 in the defense against bacterial infections.
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PMID:TSG-14 transgenic mice have improved survival to endotoxemia and to CLP-induced sepsis. 1140 78

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