UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the field of forensic medicine, shock has been identified as a cause of death owing to various kinds of exogenous insults. The etiology and pathogenesis of shock cannot be explained well by the usual gross appearance in medicolegal autopsies, because it is now generally established that the shock is a functional reaction of the vascular system to bodily injury, and that several organs are secondarily impaired during shock. Thus it seemed to forensic pathologists that these morphological changes in several organs after shock did not reveal any significant differences among the causes of death. We approached to the induction mechanism of shock, and we investigated what etiology induced these morphological changes after shock in order to identify shock as the cause of death. It is now generally accepted that the kidney is a target organ of shock, so we mainly investigated the cause of kidney disorder in a case of burn shock and hemorrhagic shock. 1. Consequences of bacterial translocation (BT) in the shock. The concept of BT indicates that the beginning of shock is induced by the loss of gut barrier function and consequent translocation of bacteria. In general, impaired gut barrier function can be caused either during the shock period by decreased intestinal blood flow and reduced oxygen delivery, resulting during reperfusion in a stage of increased intestinal blood flow, or at a later stage again by reduced flow. A variety of physiological stresses, such as trauma, hemorrhage, thermal injury, surgical operation, various kinds of drags and mental stress, have been shown to cause failure of the gut mucosal barrier, with translocation of bacteria/endotoxin from the gastrointestinal into the mesenteric lymph nodes, and translocation into remote organs and systemic circulation. 2. Burn shock. We designed to evaluate the BT in a burn shock rat model (following 20% full-thickness scald injury). The p38 MAPK pathway is an important stress-responsive signal molecule pathway, and it is responsible for the production and signal transduction of cytokines. This pathway is activated by the bacterial LPS or ischemia, so we examined the effects of FR167653, a specific inhibitor of p38 MAPK, on the development of renal failure after the burn-induced intestinal barrier damage. Our study demonstrated that viable bacteria reached the remote organs after burn by quantitative bacterial culture data and FR167653 blocked the burn-induced intestinal barrier damage, and the immunohistochemical data showed that FR167653 prevented the accumulation of polymorphonuclear leukocytes (PMNs) in the glomerular capillaries after burn, and blockaded the burn-induced renal failure by serum UN assay. FR167653 especially decreased the phosphorylation levels of p38 MAPK in the infant kidney after burn, and TNF-alpha and IL-1beta mRNA decreased through the p38 MAPK pathway. The above-mentioned facts do provide additional support for the hypothesis that postburn renal failure is mediated by endotoxin associated with the bacterial translocation, and we identified the pathophysiologic role of p38 MAPK pathway in the development of renal failure after the burn-induced intestinal barrier damage. 3. Hemorrhagic shock. We evaluated the role of endogenous TNF-alpha in the renal failure and gut bacterial translocation induced by mild hemorrhagic shock (16.7% bleeding of total body blood via a common carotid catheter without fluid resuscitation). FR167653, a potent inhibitor of TNF-alpha up regulation through p38 MAPK pathway, significantly inhibited these increases of TNF-alpha. Adding to this, our study demonstrated that FR167653 prevented renal failure, such as the infiltration of inflammatory cells and tubular cell necrosis after hemorrhage, and the intestinal barrier damage was also dramatically improved by FR167653 treatment. These results show that derived endogenous TNF-alpha plays a key role in renal failure through p38 MAPK activation during the early phase of mild hemorrhagic shock, including the possible participation of BT. According to these results, we hypothesized that the invading leukocytes induced these organs failures after hemorrhagic shock, so we examined the appearances of leukocytes by the immunohistochemical myeloperoxidase (MPO) staining (marker staining for PMNs). The incidences of PMNs in these organs after mild hemorrhagic shock increased significantly, and FR157653 prevented the appearance of PMNs. These results showed the possible effective role of the PMNs on the occurrence of organ failure caused by mild hemorrhagic shock. 4. Forensic practice. Six hundred and seven forensic autopsy cases in our department of forensic medicine during the past 11 years between 1992 and 2002 were analyzed with regard to the cause of death. Shock cases accounted for 18% of all forensic autopsy cases, and among them 65% of cases identified hemorrhagic shock as the cause of death. So we investigated what good grounds to clearly identify the cause of death induced by hemorrhagic shock. Our experimental hemorrhagic shock data showed PMNs activation and priming during hemorrhagic shock, and it might be closely related to BT and remote organ failure. Consequently, we used the MPO staining method, and we immunohistochemically investigated several organs of our practical autopsy cases to detect the appearance of PMNs as a marker of shock induction. We compared the hemorrhagic shock with other causes of death, such as blood loss, asphyxia, drawing and head injury (intracranial hemorrhage). In every organ, a significant appearance of PMNs was observed in the hemorrhagic shock compared to the other causes of death. Especially, the appearance of PMNs in the heart was clear than that of the other organs in the hemorrhagic shock cases. Therefore, detecting the appearance of PMNs as a marker of shock induction is a very useful and significant method forjudging the cause of death in forensic practice.
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PMID:[Induction mechanism of shock: applying the etiology in judgment of the cause of death in forensic practice]. 1552 67

To determine to what extent lipopolysaccharide-induced IL-10 production capacity is determined by polymorphisms in toll-like receptor-4 (TLR4) and the IL-10 promoter region, we measured in vivo IL-10 and TNF-alpha production in patients undergoing elective cardiopulmonary bypass surgery, a major surgical trauma associated with ischemia-reperfusion injury that triggers an endotoxemia and profound inflammatory response in most patients. Ex vivo the IL-10 and TNF-alpha production was measured in a whole blood stimulation assay, using 3 LPS concentrations. Positive correlations were found between TNF-alpha and IL-10 production ex vivo, upon stimulation with each of the LPS concentrations. Also, the estimated TNF-alpha and IL-10 EC50, and TNF-alpha(max) and IL-10max were positively correlated (r = 0.203; p = 0.023 and r = 0.287; p = 0.001, respectively), indicating that these parameters describing LPS sensitivity and maximal production capacity, respectively, can be estimated by measuring either TNF-alpha or IL-10. Interleukin-10 concentrations in patients experiencing endotoxemia in vivo negatively correlated with the IL-10 levels produced upon stimulation with 1000 ng/mL LPS as well as the estimated IL-10max ex vivo. In vivo, a positive correlation between the TNF-alpha concentration at time-point 2 and the IL-10 concentration at time-point 3 was found, consistent with an important contribution of the magnitude of TNF-alpha release upon the subsequent IL-10 production. Carriers of the IL-10 promoter -1330G, -1082A, -819T, -592A (GATA) haplotype had lower IL-10 production ex vivo upon stimulation with 10 and 100 ng/mL LPS and higher EC50 values (the estimated LPS concentration at which 50% of the maximal IL-10 response is reached) as compared to carriers of the other haplotypes combined, indicating decreased LPS sensitivity ex vivo. These individuals did not differ from the others in interleukin-10 production capacity upon stimulation with a high LPS concentration (i.e., 1000 ng/mL) and the estimated IL-10(max) values, were similar, indicating unimpaired maximal IL-10 production capacity ex vivo. Carriers of the IL-10 promoter AGCC haplotype had lower EC50 values as compared to carriers of the other haplotypes combined, indicating increased LPS sensitivity ex vivo. In accordance with this finding, carriers of the AGCC haplotype had higher circulating IL-10 levels in vivo. The common TLR4 polymorphisms (Asp299Gly and Thr399Ile) were associated with slightly higher IL-10 production capacity ex vivo and in vivo, however, this was not statistically significant. Our results indicate that polymorphisms in the proximal IL-10 promoter region are associated with in vivo and ex vivo LPS sensitivity. The contribution to the inter-individual variation, however, is limited since the variation between individuals in LPS sensitivity and IL-10 production capacity can only partly be attributed to these IL-10 promoter polymorphisms.
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PMID:IL-10 and toll-like receptor-4 polymorphisms and the in vivo and ex vivo response to endotoxin. 1576 Jun 78

Endotoxemia (LPS) can exacerbate ischemic tubular injury and acute renal failure (ARF). The present study tested the following hypothesis: that acute ischemic damage sensitizes the kidney to LPS-mediated TNF-alpha generation, a process that can worsen inflammation and cytotoxicity. CD-1 mice underwent 15 min of unilateral renal ischemia. LPS (10 mg/kg iv), or its vehicle, was injected either 45 min before, or 18 h after, the ischemic event. TNF-alpha responses were gauged 2 h post-LPS injection by measuring plasma/renal cortical TNF-alpha and renal cortical TNF-alpha mRNA. Values were contrasted to those obtained in sham-operated mice or in contralateral, nonischemic kidneys. TNF-alpha generation by isolated mouse proximal tubules (PTs), and by cultured proximal tubule (HK-2) cells, in response to hypoxia-reoxygenation (H/R), oxidant stress, antimycin A (AA), or LPS was also assessed. Ischemia-reperfusion (I/R), by itself, did not raise plasma or renal cortical TNF-alpha or its mRNA. However, this same ischemic insult dramatically sensitized mice to LPS-mediated TNF-alpha increases in both plasma and kidney (approximately 2-fold). During late reperfusion, increased TNF-alpha mRNA levels also resulted. PTs generated TNF-alpha in response to injury. Neither AA nor LPS alone induced an HK-2 cell TNF-alpha response. However, when present together, AA+LPS induced approximately two- to fivefold increases in TNF-alpha/TNF-alpha mRNA. We conclude that modest I/R injury, and in vitro HK-2 cell mitochondrial inhibition (AA), can dramatically sensitize the kidney/PTs to LPS-mediated TNF-alpha generation and increases in TNF-alpha mRNA. That ischemia can "prime" tubules to LPS response(s) could have potentially important implications for sepsis syndrome, concomitant renal ischemia, and for the induction of ARF.
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PMID:Ischemic proximal tubular injury primes mice to endotoxin-induced TNF-alpha generation and systemic release. 1579 91

Allograft ischemia and cellular degradation accompanying rejection favor graft colonization by translocated microorganisms. Bacterial colonization adds to the graft destruction. The dendritic cells (DC) of allograft recipients engage in allogeneic and antibacterial reactions; they process and present to lymphocytes 2 types of antigens. This may lead to overstimulation of DCs that may nonspecifically intensify the rejection process. We investigated the effects of allogeneic and bacterial antigens on splenic DCs phenotypes. In vitro stimulation of a spleen DC-enriched population by E. coli, LPS, and CpG DNA brought about an increase in expression of OX6(+) (MHC class II) from 47.4% in the control cells to 65% in the E. coli-stimulated group (P < .05) and 85% in the LPS and CpGDNA groups (P < .05). Interestingly, a significant drop in the frequency of OX62(+) DC was observed after incubation with LPS. Allogeneic heart transplants brought about an increase of OX6(+) in DCs to 100% and a decrease of ED1(+) monocyte frequency. Simultaneously, an increase in expression of W3/13(+) T cells in DC-enriched splenic cells was observed. There was no significant change in the frequency of OX62(+) expression. Both types of antigens evoked splenic DC response; however, there were differences in the frequency of phenotype expression. Allogeneic but not bacterial antigens increased W3/13 antigen expression; the frequency of OX62(+) in cells decreased after LPS but not after bacterial stimulation.
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PMID:Activation of splenic dendritic cells by bacterial and allogeneic antigens. 1580 35

Bacterial infection is implicated in the selective CNS white matter injury associated with cerebral palsy, a common birth disorder. Exposure to the bacterial endotoxin LPS produced death of white matter glial cells in isolated neonatal rat optic nerve (RON) (a model white matter tract), over a 180-min time course. A delayed intracellular Ca(2+) concentration ([Ca(2+)](i)) rise preceded cell death and both events were prevented by removing extracellular Ca(2+). The cytokines TNF-alpha or IL-1beta, but not IL-6, mimicked the cytotoxic effect of LPS, whereas blocking either TNF-alpha with a neutralizing Ab or IL-1 with recombinant antagonist prevented LPS cytotoxicity. Ultrastructural examination showed wide-scale oligodendroglial cell death in LPS-treated rat optic nerves, with preservation of astrocytes and axons. Fluorescently conjugated LPS revealed LPS binding on microglia and astrocytes in neonatal white and gray matter. Astrocyte binding predominated, and was particularly intense around blood vessels. LPS can therefore bind directly to developing white matter astrocytes and microglia to evoke rapid cell death in neighboring oligodendroglia via a calcium- and cytokine-mediated pathway. In addition to direct toxicity, LPS increased the degree of acute cell death evoked by ischemia in a calcium-dependent manner.
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PMID:Acute lipopolysaccharide-mediated injury in neonatal white matter glia: role of TNF-alpha, IL-1beta, and calcium. 1597 42

Iloprost, a stable prostacyclin analogue, regulates expression of genes that are involved in inflammation and in cell growth and inhibits the in vitro production of cytokines. We evaluated the effect of an in vivo weekly iloprost treatment on TNF-alpha and IL6 monocyte production (evaluated by ELISA), on monocyte apoptosis (Annexin V/uptake of propidium iodide by flow cytometry) and on peripheral blood mononuclear cell (PBMC) TNF-alpha receptors (TNF-RI and TNF-RII) mRNA expression (RT-PCR) in 14 atherosclerotic critical limb ischemia patients. PBMC were stimulated with LPS for 24h. TNF-alpha production was significantly reduced by iloprost whereas IL6 production was not affected. Iloprost did not accelerate monocyte apoptosis. TNF-RI mRNA expression was not modified by iloprost, whereas TNF-RII mRNA expression was significantly reduced. Our data show that iloprost may have anti-inflammatory effects in addition to the well-known vasodilatatory and anti-aggregant ones.
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PMID:Iloprost treatment reduces TNF-alpha production and TNF-RII expression in critical limb ischemia patients without affecting IL6. 1609 91

Exposure to ambient particulate matter (PM) is associated with increased mortality and morbidity among subjects with cardiovascular impairment. We hypothesized that exposure of spontaneously hypertensive (SH) rats to PM impairs the recovery of cardiovascular performance after coronary occlusion and reperfusion-ischemia. SH rats were exposed by intratracheal instillation to saline, standard urban PM (Ottawa dust EHC-93, 10 mg/kg body weight) or endotoxin (lipopolysaccharides LPS, 350 EU/animal) to induce a similar pulmonary inflammation. At 4 h postexposure, hearts were isolated and retrograde perfused in a Langendorff model. The experimental protocol included 35 min of coronary occlusion followed by 120 min of reperfusion, during which left ventricular developing pressure (LDVP), coronary flow (CF), and heart rate (HR) were measured. Baseline LVDP in particle-instilled SH rats was significantly decreased compared to saline-instilled animals. In addition, after ischemia the recovery of LDVP was much slower in rats pretreated with PM or LPS compared to saline instilled rats. The direct effects of the soluble PM fraction and the role of Zn2+ were also tested cardiomyocytes (H9C2 cells). Both particle-free filtrate and Zn2+ inhibited ATP or ionophore-stimulated calcium influx in cardiomyocytes. This inhibitory effect was related to an effect on calcium channels, as shown with Nifedipine. This study provides evidence that exposure to instillation of PM has reversible acute effects on the recovery of cardiac physiological parameters after ischemia. The effect may be caused by a direct action of soluble metals on calcium homeostasis in heart, but pulmonary inflammation may also play a significant role.
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PMID:Ambient particulate matter affects cardiac recovery in a Langendorff ischemia model. 1686 54

The flower buds of Buddleja officinalis MAXIM (Loganiaceae) are used to treat headache and inflammatory diseases in traditional Korean medicine. In the present study, the neuroprotective effects of the methanolic extract of B. officinalis (BOME) and of its hexane fraction (BOHF) were investigated in a middle cerebral artery occlusion (MCAo, 120 min occlusion, 24 h reperfusion) Sprague-Dawley rat model. BOME or BOHF (100 mg/kg, p.o.) was twice administered 30 min before the onset of MCAo and 2 h after reperfusion. BOME and BOHF treated groups showed infarct volumes reduced by 33.9% and 68.2%, respectively, at 2 h occlusion. In BOHF treated animals, cyclooxygenase-2 and iNOS inductions were inhibited in ischemic hemispheres at both the mRNA and protein levels. Furthermore, in vitro studies showed that BOME and BOHF both inhibited LPS-induced nitric oxide production in BV-2 mouse microglial cells. These results suggest that the anti-inflammatory and the microglial activation inhibitory effects of B. officinalis extract may contribute to its neuroprotective effects in brain ischemia.
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PMID:Neuroprotective effect of Buddleja officinalis extract on transient middle cerebral artery occlusion in rats. 1688 Jun 13

Severe sepsis is accompanied by acute renal failure (ARF) with renal tubular dysfunction and glucosuria. In this study, we aimed to determine the regulation of renal tubular glucose transporters during severe experimental inflammation. Male C57BL/6J mice were injected with LPS or proinflammatory cytokines, and renal perfusion, glomerular filtration rate (GFR), fractional glucose excretion, and expression of tubular glucose transporters were determined. We found a decreased plasma glucose concentration with impaired renal tissue perfusion and GFR and increased fractional glucose excretion associated with decreased expression of SGLT2, SGLT3, and GLUT2 after LPS injection. Similar alterations were observed after application of TNF-alpha, IL-1beta, IL-6, or IFN-gamma. To clarify the role of proinflammatory cytokines, we performed LPS injections in knockout mice with deficiencies for TNF-alpha, IL-1 receptor type 1, IFN-gamma, or IL-6 as well as LPS injections in glucocorticoid-treated wild-type mice. LPS-induced alterations of glucose transporters also were present in single-cytokine knockout mice. In contrast, glucocorticoid treatment clearly attenuated LPS-induced changes in renal glucose transporter expression and improved GFR and fractional glucose excretion. LPS-induced decrease of renal perfusion was not improved by glucocorticoids, indicating a minor role of ischemia in the development of septic renal dysfunction. Our results demonstrate modifications of tubular glucose transporters during severe inflammation that are probably mediated by proinflammatory cytokines and account for the development of ARF with increased fractional glucose excretion. In addition, our findings provide an explanation why single anti-cytokine strategies fail in the therapy of septic patients and contribute to an understanding of the beneficial effects of glucocorticoids on septic renal dysfunction.
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PMID:Regulation of renal glucose transporters during severe inflammation. 1703 38

Ischemia reperfusion injury is characterized by local and systemic inflammation leading to considerable mortality. Previously, we have reported that soluble T1/ST2 (sST2), a member of the IL-1 receptor gene family, inhibits LPS-induced macrophage proinflammatory cytokine production. Here, we report the therapeutic effect of sST2-Fc in a murine model of intestinal ischemia reperfusion-induced injury. Administration of sST2-Fc fusion protein i.v., 10 min before reperfusion, reduced the production of TNF-alpha dose-dependently in the intestine and in the lungs. The sST2-Fc treatment with the highest dose (100 mug) resulted in inhibited vascular permeability, neutrophilia, and hemorrhage in the intestine and the lungs compared with controls treated with normal IgG. This was associated with down-regulated tissue levels of proinflammatory cytokines, markedly reduced serum TNF-alpha levels, and increased survival of mice from the sST2-Fc-treated group after ischemia and reperfusion injury. The beneficial effect of sST2-Fc treatment was associated with elevated IL-10 production in intestine and lung. sST2-Fc was not able to prevent the inflammatory response associated with intestinal ischemia and reperfusion in IL-10-deficient mice, suggesting that sST2 exerts its anti-inflammatory effect in a IL-10-dependent manner. These results also demonstrate that sST2-Fc may provide a novel, complementary approach in treating ischemic reperfusion injury.
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PMID:ST2, an IL-1R family member, attenuates inflammation and lethality after intestinal ischemia and reperfusion. 1709 2

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