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Query: UMLS:C0243026 (sepsis)
 52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The traditional and most frequently employed surgical approach to perforated necrotizing enterocolitis (NEC), laparotomy and bowel resection with enterostomy creation, has been associated with an unacceptably high mortality and major morbidity (sepsis, short-gut syndrome, strictures, long-term total parenteral nutrition (TPN), prolonged and costly hospitalizations with multiple operations, the inevitable open-and-close procedure for "hopeless" extensive gut ischemia in approximately 10% of laparotomy cases, etc.). The use of the laparotomy "patch, drain, and wait" (PD&W) approach to this serious of NEC complication has provided a simple, direct, and effective means of dealing with this problem. The basic principle is to resect no gut and do no enterostomies. The details are presented here as well as the multiple types of "patching" and the importance of use of extensive direct-vision draining with bilateral small Penrose drains from the undersurfaces of both diaphragms into the pelvis with exit sites in both lower quadrants. Proper and effective patching and draining cannot be done blindly,but requires direct vision (laparotomy or laparoscopy). The critical components and timing of the "waiting" are emphasized, including the vital importance of strict avoidance of early post-drainage laparotomy in the 7- to 14-day post-drainage period (whether the drainage is percutaneous, laparotomy PD&W, or laparoscopy PD&W) due to the early, life-threatening-ending hypervascularity that occurs at this time and if left unmolested will function beneficially as life- and gut-saving "good angiogenesis". The bilateral Penrose drains capture fecal fistulas and function quite well as de-facto enterostomies as the peritoneal cavity is rapidly obliterated by adhesions and massive, florid hypervascularity/gut hypoxia triggered "good angiogenesis" (no peritoneal cavity, no peritonitis). Broad-spectrum triple antibiotics and the routine use of TPN contribute to favorable results. The lessons/experiments of nature encountered in newborns with midgut atresia(s) and remarkable levels of gut survival, in the occasional case with only meconium peritonitis and no obstruction ("auto-anastomosis") are pertinent here as the TPN of PD&W is provided in atresia(s) by the maternal-placental circulation and the sterile peritoneal cavity of atresia(s) is simulated by the combination of antibiotics and peritoneal-cavity obliteration. Life- and gut-saving "good angiogenesis" is common to both situations. A 15-year personal experience with the PD&W laparotomy approach to perforated NEC in 23 cases is reported here with no mortality in the initial 60 postoperative days, no major morbidity, and no second operation required in 70% (spontaneous "auto-anastomosis") of cases. All infants with extensive gut ischemia/necrosis (NEC totalis) who would otherwise be classified as "hopeless" and managed by open-and-close only were managed in this experience successfully by PD&W with preservation of both life and an adequate amount of gut, although a second operation was required in these cases to re-establish intestinal continuity. A particularly striking observation was the rapid transition of these infants from profound illness to near-normalcy in a matter of hours after the initiation of PD&W--much like the rapid clinical changes accompanying the lancing of a boil or an abscess. An involvement of hypoxia-induced "good angiogenesis" with marked hypervascularity and involving molecules, genes, and receptors of the vascular endothelial growth factor family of hypoxia-induced angiogenesis molecules is speculated upon, and clinical studies to document these speculations are suggested as well as studies evaluating the potential of laparoscopic PD&W. The usefulness of Argyle chest-tube "venting" and "stenting" by trans-anal passage above colonic "patched" areas as seen in 2 cases is worthy of further study and use.
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PMID:Successful use of the "patch, drain, and wait" laparotomy approach to perforated necrotizing enterocolitis: is hypoxia-triggered "good angiogenesis" involved? 1095 62

During sepsis the host's system-wide response to microbial invasion seems dysregulated. Here we explore the diverse multiorgan transcriptional programs activated during systemic inflammation in a cecal ligation/puncture model of sepsis in rats. Using DNA microarrays representing 7398 genes, we examined the temporal sequence of sepsis-induced gene expression patterns in major organ systems including lung, liver, kidney, thymus, spleen, and brain. Although genes known to be associated with systemic inflammation were identified by our global transcript analysis, many genes and expressed sequence tags not previously linked to the septic response were also elucidated. Taken together, our results suggest activation of a highly complex transcriptional response in individual organs of the septic animal. Several overlying themes emerged from our genome-scale analysis that includes 1) the sepsis response elicited gene expression profiles that were either organ-specific, common to more than one organ, or distinctly opposite in some organs; 2) the brain is protected from sepsis-induced gene activation relative to other organs; 3) the thymus and spleen have an interesting cohort of genes with opposing gene expression patterns; 4) genes with proinflammatory effects were often balanced by genes with anti-inflammatory effects (eg, interleukin-1beta/decoy receptor, xanthine oxidase/superoxide dismutase, Ca2+-dependent PLA2/Ca2+-independent PLA2); and 5) differential gene expression was observed in proteins responsible for preventing tissue injury and promoting homeostasis including anti-proteases (TIMP-1, Cpi-26), oxidant neutralizing enzymes (metallothionein), cytokine decoy receptors (interleukin-1RII), and tissue/vascular permeability factors (aquaporin 5, vascular endothelial growth factor). This global perspective of the sepsis response should provide a molecular framework for future research into the pathophysiology of systemic inflammation. Understanding, on a genome scale, how an organism responds to infection, may facilitate the development of enhanced detection and treatment modalities for sepsis.
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PMID:Molecular signatures of sepsis: multiorgan gene expression profiles of systemic inflammation. 1158 46

Septic encephalopathy is associated with breakdown of the blood-brain barrier and cerebral oedema. These features are also common properties of brain tumours. Perimicrovessel oedema, disruption of associated astrocyte end feet and neuronal injury occur in a porcine model of acute septic encephalopathy. The adrenergic system has been implicated in the inflammatory response to sepsis and may play a role in controlling blood-brain barrier permeability, since the beta2-adrenoceptor agonist dopexamine inhibits perimicrovessel oedema formation whereas the alpha1-adrenoceptor agonist methoxamine provokes it. Electron microscopy revealed tight junction opening in high-grade astrocytoma microvessels. Expression of the tight junction protein occludin is reduced in these microvessels and this reduction is inversely correlated with the degree of cerebral oedema. Normal astrocytes secrete factors that induce barrier properties in endothelial cells, whereas high-grade astrocytomas secrete vascular endothelial growth factor, which stimulates angiogenesis, down regulates occludin and increases endothelial cell permeability. The water channel protein aquaporin-4 is normally expressed in astrocyte foot processes around cerebral microvessels. Its expression is massively up-regulated in high-grade astrocytoma and around metastatic adenocarcinoma. There is a significant correlation between aquaporin-4 expression and the degree of cerebral oedema, but it is not clear whether increased aquaporin-4 expression enhances oedema formation or clearance. These results suggest that the pathophysiology of brain oedema is multifactorial, but that there may be common processes operating regardless of the aetiology.
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PMID:Blood-brain barrier breakdown in septic encephalopathy and brain tumours. 1216 31

Vascular permeability plays a key role in a wide array of life-threatening and sight-threatening diseases. Vascular endothelial growth factor can increase vascular permeability. Using a model system for nonproliferative diabetic retinopathy, we found that pigment epithelium-derived factor (PEDF) effectively abated vascular endothelial growth factor-induced vascular permeability. A 44-amino acid region of PEDF was sufficient to confer the antivasopermeability activity. Additionally, we identified four amino acids (glutamate-101, isoleucine-103, leucine-112, and serine-115) critical for this activity. PEDF, or a derivative, could potentially abate or restore vision loss from diabetic macular edema. Furthermore, PEDF may represent a superior therapeutic approach to sepsis-associated hypotension, nephrotic syndrome, and other sight-threatening and life-threatening diseases resulting from excessive vascular permeability.
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PMID:Identification of the antivasopermeability effect of pigment epithelium-derived factor and its active site. 1509 82

Numerous cytokines, including vascular endothelial growth factor (VEGF), are implicated in the pathogenesis of sepsis. While overexpression of VEGF produces pulmonary capillary leak, the role of VEGF in sepsis is less clear. We investigated VEGF in sepsis, utilizing a VEGF trap (VEGF(T)). Polymicrobial sepsis was induced in C57BL/6 mice by cecal ligation and puncture (CLP) and resulted in significantly increased plasma VEGF levels (234 vs. 46 pg/mL; p = 0.03). Inhibition of VEGF had no effect on mortality or lung leak but did attenuate plasma IL-6 (120 vs. 236 ng/mL; p = 0.02) and IL-10 (16 vs. 41 ng/mL; p = 0.03). These alterations in inflammatory cytokines were associated with increased levels of the dominant negative inhibitory C/EBPbeta. In vitro, VEGF stimulated IL-6, IL-10 and reduced the inhibitory isoform of C/EBPbeta in cultured macrophages. Together these data suggest VEGF can regulate inflammatory cytokine production in murine polymicrobial sepsis, via regulation of C/EBPbeta.
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PMID:Vascular endothelial growth factor blockade reduces plasma cytokines in a murine model of polymicrobial sepsis. 1613

To gain insight in the pathogenesis of increased vascular permeability during sepsis, we studied the effect of plasma obtained during human experimental endotoxemia on the permeability of cultured endothelial monolayers. Eight healthy subjects received an i.v. dose of 2 ng/kg Escherichia coli O:113 lipopolysaccharide (LPS). The concentration of various plasma mediators that supposedly induce vascular permeability was measured over time. Plasmas that were obtained before, and 2 and 4 h after the administration of LPS were added to human umbilical venular endothelial cells that were cultured on semipermeable membranes.The permeability of the endothelial monolayers to fluorescein isothiocyanate-labeled bovine serum albumin was determined and expressed as the relative concentration of fluorescein isothiocyanate-bovine serum albumin when compared with that measured across empty Transwell-COL (Corning Life Sciences B.V., Schiphol-Rijk, The Netherlands) membranes (i.e., without endothelial monolayers). The permeability levels were correlated with the concentrations of various mediators.Experimental endotoxemia resulted in elevated levels of tumor necrosis factor alpha, interleukin (IL) 1beta, IL-6, IL-8, IL-10, and vascular endothelial growth factor and a moderate increase of IL-12 and IFN-gamma (all P values < 0.01). Incubation of human umbilical venular endothelial cells with plasma obtained 2 and 4 h after the administration of LPS increased the relative permeability from a baseline level (median) of 17% (range, 14% - 31%) to 23% (range, 12% - 39%; P = not significant) and 28% (range, 11% - 40%; P < 0.05), respectively. Plasma levels of vascular endothelial growth factor and IL-10, but not TNF-alpha or any other mediators, significantly correlated with the increase in endothelial permeability (r = 0.47, P = 0.038; r = 0.43, P = 0.038, respectively). The data presented here demonstrate that plasmas obtained from experimental human endotoxemia increase endothelial albumin permeability in vitro. Thus, cultured human endothelial monolayers provide a model to study sepsis-associated vascular changes.
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PMID:Plasma obtained during human endotoxemia increases endothelial albumin permeability in vitro. 1667 Jun 37

Sepsis, the systemic inflammatory response to infection, is a leading cause of morbidity and mortality. The mechanisms of sepsis pathophysiology remain obscure but are likely to involve a complex interplay between mediators of the inflammatory and coagulation pathways. An improved understanding of these mechanisms should provide an important foundation for developing novel therapies. In this study, we show that sepsis is associated with a time-dependent increase in circulating levels of vascular endothelial growth factor (VEGF) and placental growth factor (PlGF) in animal and human models of sepsis. Adenovirus-mediated overexpression of soluble Flt-1 (sFlt-1) in a mouse model of endotoxemia attenuated the rise in VEGF and PlGF levels and blocked the effect of endotoxemia on cardiac function, vascular permeability, and mortality. Similarly, in a cecal ligation puncture (CLP) model, adenovirus-sFlt-1 protected against cardiac dysfunction and mortality. When administered in a therapeutic regimen beginning 1 h after the onset of endotoxemia or CLP, sFlt peptide resulted in marked improvement in cardiac physiology and survival. Systemic administration of antibodies against the transmembrane receptor Flk-1 but not Flt-1 protected against sepsis mortality. Adenovirus-mediated overexpression of VEGF but not PlGF exacerbated the lipopolysaccharide-mediated toxic effects. Together, these data support a pathophysiological role for VEGF in mediating the sepsis phenotype.
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PMID:Vascular endothelial growth factor is an important determinant of sepsis morbidity and mortality. 1670 4

Sepsis involves a heterogeneous class of syndromes, and septic shock, a severe form of sepsis, is associated with the development of progressive damage in multiple organs. The present study examined the time-dependent alterations of endothelin-1 (ET-1) and vascular endothelial growth factor (VEGF) levels in liver tissue in a septic rat model. Healthy male Wistar rats aged 15 weeks received 15 mg/kg lipopolysaccharide (LPS) and were sacrificed at different time points (1, 3, 6, and 10 hrs after treatment). Rats that did not receive LPS were considered to be controls. A 28-fold increase in the ET-1 level was observed in liver tissue 10 hrs after LPS administration. VEGF was also altered in hepatic tissue in a time-dependent manner. A gradual increase of VEGF expression in liver tissue after LPS administration was observed. Expression of Flt-1, the vascular permeability receptor of VEGF, was also increased in liver tissue after LPS administration. ET-1 is a potent vasoconstrictor and, therefore, may play a role in the regulation of hepatic perfusion in a sepsis model. On the other hand, VEGF may be involved in capillary leakage in liver tissue after LPS administration. The present findings suggest that there might be a loss of balance between the ET-1 and VEGF levels in the septic liver at different time points, which could contribute to the pathogenesis of acute liver injury in endotoxemia.
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PMID:Altered expression of endothelin, vascular endothelial growth factor, and its receptor in hepatic tissue in endotoxemic rat. 1674 Oct 73

Vascular disease in the patient with diabetes represents a potentially devastating complication. Tri-neuropathy (sensory, motor, and autonomic) often predisposes patients to ulceration and vascular disease leads to delayed healing. Vascular pathology compromises blood flow and oxygen provision, affecting healing, infection, sepsis, amputation, and mortality. Recent research suggests that vascular reconstruction should not be withheld on the basis of arteriolar-capillary involvement and while oxygen levels may provide important prognostic and diagnostic information, no single noninvasive parameter or test can reliably predict healing of existing wounds. Hyperglycemia has been identified as a risk factor for macrovascular disease but evidence to substantiate that improved glucose control affects vascular pathology or wound healing is limited. Similarly, the exact role of vascular endothelial growth factor or nicotine on vascular pathology and healing remains unclear. Although the literature may be mired in discrepancies, vascular health is known to affect healing. Further research to resolve controversy and to better direct care is needed.
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PMID:Controversies regarding vascular disease in the patient with diabetes: a review of the literature. 1805 45

We developed a live Escherichia coli model of acute sepsis in pigs with emphasize on biomarkers reflecting the early inflammatory response of sepsis. Healthy pigs, 25-35 kg, were challenged intravenously (IV) (n = 12) or intrapulmonary (n = 6) with live E. coli and observed for 3 and 5 h respectively. Control pigs received culture medium (n = 6 + 3). Haemodynamic parameters and a broad panel of inflammatory mediators were measured. The dose of bacteria was carefully titrated to obtain a condition resembling the early phase of human septic shock. The IV group displayed a pro-inflammatory response [significant increase in tumour necrosis factor-alpha, interleukin (IL)-6 and IL-8] and an early anti-inflammatory response (significant increase in IL-10). For the first time, we demonstrate a significant increase in IL-12 and matrix metalloproteinase-9 (MMP) early in pig sepsis. Coagulation was activated (significant increase in thrombin-antithrombin complexes) and there was a significant decrease in the serum proteins suggesting capillary leakage. Haemodynamic parameters reflected a septic condition with significant decrease in systemic blood pressure, increases in heart rate, pulmonary artery pressure and base deficit. None of these changes was observed in the control group. Interleukin-1beta and vascular endothelial growth factor increased in both groups. Nitric oxide measurements suggested an initial pulmonary vascular endothelial inflammatory response. The intrapulmonary group, which did not resemble septic condition, showed a substantial increase in MMP-9. In this porcine model of sepsis, IL-12 and MMP-9 were detected for the first time. These biomarkers may have an impact in the understanding and future treatment of sepsis.
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PMID:New biomarkers in an acute model of live Escherichia coli-induced sepsis in pigs. 1846 95


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