UMLS:C0243026 - FACTA Search

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

The activation of a pro-inflammatory cascade after infection, major surgery, burn or trauma appears to be important in the development of subsequent immune dysfunction, susceptibility to sepsis and multiple organ failure. It is well known that T-cell plays a critical role in the systemic response to infection. Distinct patterns of cytokines are produced by two different types of T-helper cells (Th). Th1 lymphocytes produce IFN-gamma and IL-2, favoring cell mediated immunity; Th2 cells secrete IL-4, IL-5, IL-10, IL-13, favoring humoral immunity. Cytokines produced in systemic inflammatory response syndrome (SIRS) may effect Th subset predominance and subsequent immune responses. We measured Thl/Th2 balance in patients with severe sepsis, SIRS patients with non sepsis, and healthy subjects by flow cytometry. In patients with severe sepsis, Th2 antibody mediated (humoral) immune responses predominate. We believe that severe sepsis clearly induce polarization of T-helper lymphocyte activity with a clear shift in Th2 direction. This type of response may lead immunosuppression. Modulation of Th cell subset predominance may present a novel therapeutic option in the treatment of severe sepsis.
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PMID:[Th1/Th2 balance in systemic inflammatory response syndrome (SIRS)]. 1559 90

Bacterial factors stimulate the release of tissue factor as well as proinflammatory and antiinflammatory cytokines. TNF augments inflammation, TNF and IFN-gamma induce coagulation, and IL-1beta induces coagulation and fibrinolysis. IL-8 augments synergistic inflammation and coagulation. IL-6 augments coagulation and inhibits fibrinolysis. IL-10 inhibits inflammatory process and inhibits fibrinolysis. IL-4, IL-13, and TGF-beta act for anticoagulation. Administration of IL-2, G-CSF or IFN-gamma has been reported to have side effect of induction of coagulation. IL-12 induces coagulation first and fibrinolysis later. On the other, tissue factor induces proinflammatory (except TNF) and antiinflammatory cytokines, and thrombin enhances inflammation. Patients who died of SIRS/sepsis have been complicated with hypercoagulopathy and impaired fibrinolysis correlated with increased IL-10 production. Inhibition of IL-10 production or administration of fiblynolitic agents may be useful. Recently, activated protein C (APC) which has antiinflammatory effect has been paid attention in the treatment of SIRS/sepsis.
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PMID:[Correlation between intravascular coagulation/fibrinolysis system and cytokines]. 1559 92

Substantial attention has been paid to the role of the toll-like receptor (TLR) ligands of late and their role in regulating the innate immune response. They serve as exogenous danger signals important in informing and driving the distal adaptive immune response to pathogens. Less clear has been the role of the nominal endogenous danger signals released and recognized in stressed cells following genotoxic or metabolic stress as occurs in progressively growing tumors. HMGB1 (high-mobility group B1) is a nuclear protein well characterized for its ability to modify DNA access to transcriptional proteins that is released from necrotic cells as well as secreted through the endosomal route from hematopoietic cells, serving as a late mediator of sepsis. It interacts with high-affinity RAGE (receptor for advanced glycation end products) and TLR2 receptors. Here we show that HMGB1 enhances interferon gamma release from macrophage (but not dendritic cell)-stimulated NK cells. This is effective only when coupled with other pro-inflammatory cytokines particularly with IL-2 in combination with IL-1 or IL-12. We have used this information to suggest that HMGB1, which also promotes epithelial migration and proliferation, drives repair in the absence or inhibition of other factors but enhances inflammation in their presence. The implications for tumorigenesis and tumor progression are quite important as they may be for other states of chronic inflammation.
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PMID:Monocytes promote natural killer cell interferon gamma production in response to the endogenous danger signal HMGB1. 1560 95

Studies have shown that following bacterial infection or endotoxin administration, immune functions are regulated differently in mice of different genetic background. Since the susceptibility to sepsis following trauma-hemorrhage is dependant on the severity of injury, it is important to determine whether genetic background of the animal influence immune functions after trauma-hemorrhage. The aim of our studies, therefore, was to assess differences in the immune functions in genetically different strains of age-matched C3H/HeN and C57BL/6 male mice following trauma-hemorrhage. The analysis for immune functions included: proliferation of splenocyte and bone-marrow cells, IL-2 and IFN-gamma release by splenocytes, and TNF-alpha and IL-10 release by splenic, peritoneal, liver (Kupffer cell), and bone-marrow macrophages. The results show significant differences in splenocyte and bone-marrow functions, and in the release of the mediators of immune function by immune competent cells: (a) between the two genetic strains, and (b) in each mouse strain following trauma-hemorrhage. Thus, genetic background appears to significantly influence the severity of immune responses in males following trauma-hemorrhage.
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PMID:Mouse genetic background influences severity of immune responses following trauma-hemorrhage. 1586 90

The current studies demonstrate protective and harmful effects of neutrophils (PMN) during experimental sepsis after cecal ligation and puncture (CLP). It is known that CLP induces signaling defects in blood PMN. When PMN were depleted 12 h after CLP, there were dramatic reductions in levels of bacteremia, evidence for reduced liver and renal dysfunction, sharp reductions in serum levels of cytokines (IL-1beta, IL-6, IL-10, TNF-alpha, and IL-2), and improved survival. In contrast, PMN depletion before CLP resulted in substantial increases in bacteremia and no evidence for attenuation of liver and renal failure dysfunction. These data suggest that at the onset of sepsis, PMN are important in regulating the levels of bacteremia, whereas after the onset of sepsis, as they lose innate immune functions, their presence is associated with higher levels of bacteremia and intensified organ dysfunction.
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PMID:Harmful and protective roles of neutrophils in sepsis. 1598 19

Bacterial translocation (BT) is defined as the passage of indigenous bacteria colonizing the intestine through the epithelial mucosa to the mesenteric lymph nodes and other sites. It can even cause the development of lethal sepsis. BT is being studied extensively, most research being conducted on animal, mostly murine, models. The cause of BT is not well known. Despite advances in antimicrobial therapy, the mortality rate associated with bacteremia is still high, and sepsis can often originate from the patient's own intestinal flora. Consequently, a better understanding of the mechanisms of BT as well as mechanisms operating to prevent bacteria from translocating from the gastrointestinal tract may provide more logical treatment of particular patients. BT may be promoted by immunosuppression (probably one of the most important factors causing the increase in BT), disturbances in the normal ecology of the gastrointestinal tract, allowing some indigenous bacteria to overgrow others, and by mucosal injuries. This article discusses the potential role of various factors responsible for BT and the relationship between BT and neoplastic disease. It also emphasizes the significance of the immune system, which appears to play a role in the ontogeny of gut-associated lymphoid tissue (GALT), including the role of IL-2 (which induces an increase in BT) and the macrophage, which participates in the transport of bacteria from the intestinal lumen to mesenteric lymph nodes. A better understanding of the immunopathology of BT may contribute to the development of novel means of therapy for sepsis and other serious complications of bacterial infection.
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PMID:[Bacterial translocation and its clinical significance]. 1599 93

Regulation of immune response is marked by complex interactions among the cells that recognize and present antigens. Antigen presenting cells (APCs), the antigen presenting cell component of the innate immune response plays an important role in effector CD4+ T cell response. Thermal injury and/or superimposed sepsis in rats' leads to suppressed CD4+ T cell functions. We investigated modulations of CD4+ T cell function by APCs (purified non-T cells) from thermally injured and/or septic rats. Rats were subjected to 30% total body surface area scald burn or exposed to 37 degrees C water (Sham burn) and sepsis was induced by cecal-ligation and puncture (CLP) method. At day 3 post-injury animals were sacrificed and CD4+ T cells and APCs from mesenteric lymph nodes (MLN) were obtained using magnetic microbead isolation procedure. APCs from injured rats were co-cultured with sham rat MLN CD4+ T cells and proliferative responses (thymidine incorporation), phenotypic changes (Flow cytometry), IL-2 production (ELISA) and CTLA-4 mRNA (RT-PCR) were determined in naive rat CD4+ T cells. The data indicate that APCs from thermally injured and/or septic rats when co-cultured with CD4+ T cells suppressed CD4+ T cell effector functions. This lack of CD4+ T cell activation was accompanied with altered co-stimulatory molecules, i.e., CD28 and/or CTLA-4 (CD152). In conclusion, our studies indicated that defective APCs from thermally injured and/or septic rats modulate CD4+ T cell functions via changes in co-stimulatory molecules expressed on naive CD4+ T cells. This altered APC: CD4+ T cell interaction leads to suppressed CD4+ T cell activation of healthy animals.
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PMID:Antigen presenting cells (APCs) from thermally injured and/or septic rats modulate CD4+ T cell responses of naive rat. 1625 13

Simultaneous pancreas-kidney transplantation (SPKT) improves long-term survival of insulin-dependent diabetes mellitus patients with diabetic nephropathy. The increasing success of SPKT is a result of improved surgical technique, better organ preservation, potent antirejection therapy, and effective use of antibiotics to prevent and treat infectious complications. However, morbidity and mortality following SPKT remain high mainly owing to infection. From 1988 to 2004, the 51 patients who underwent SPKT were 32 women and 19 men of mean age 34 +/- 4 years old with diabetes and end-stage renal disease. The mean duration of diabetes mellitus was 23 +/- 4 years. The incidence of HCV and HBV infections were 19.6% and 13.7%, respectively. Preoperative work-up included identification and elimination prior to surgery of potential sources of infection. All patients prior to SPKTx had been treated by dialysis (26 +/- 20 months). The kidneys were always placed into the left retroperitoneal space first; at the same time the pancreatic grafts were prepared on the back table. The reconstruction of the superior mesenteric and the splenic arteries was performed using a Y graft of donor iliac artery to the common or external donor's iliac artery. The pancreas was transplanted intraperitoneally to the right iliac vessels. The portal vein was sutured to the common or external iliac vein and the arterial conduit of donor iliac artery. In 20 of the patients, bladder drainage and in 31, enteric drainage was used for the pancreatic juice exterioration. Patients received immunosuppression with a calcineurin inhibitor (tacrolimus or cyclosporin), mycophenolic acid or azathioprine, and steroids. Antibody induction (alternatively anti-IL-2 monoclonal antibody or ATG) was used in last 38 patients. Antibacterial (tazobactam) and antifungal (fluconazole) as well as antiviral (gancyclovir) prophylactic treatment was given to all patients for 7 to 10 days after transplantation. Thirty-eight recipients are alive, 26 with function of both grafts; 8 with functioning kidney grafts; and 4 with nonfunctioning grafts on dialysis treatment from 1 to 14 years after transplantation. Thirteen patients (24.5%) died during the first year after transplantation. Infectious complications were the main cause of death. Systemic infections accounted for the death of five patients and CNS infection for death of another five patients. Three patients died with functioning grafts due to cardiopulmonary disorders (myocardial infarction, pulmonary embolus) early in the postoperative period. A total of 102 infections were diagnosed in 51 patients during the posttransplant course. Twenty-one episodes of CMV infection (systemic 20, duodenal site 1), 73 bacterial infections (systemic 13, pulmonary 13, urinary tract 15, intestinal 8, wound 23), and 8 fungal infections (central nervous system 5, gastrointestinal tract 3). Some patients had more than one type of infection. Overall mortality in the investigated group was 24.5%. Infectious complications were the main cause of death (77%), including systemic infection (38.5%) and CNS infection (38.5%). The predominant etiology of the systemic infections was bacterial. The etiology of CNS infections was fungal. In conclusion, infectious complications are the main cause of morbidity and mortality following SPKT. The early diagnosis of infection, particularly fungal complications, is necessary. The administration of broad-spectrum prophylactic antibiotics, antifungal, and antiviral agents is recommended.
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PMID:Infectious complications after simultaneous pancreas-kidney transplantation. 1629 61

The clinical presentation of acute pancreatitis varies significantly from mild self-limiting discomfort to a severe life-threatening condition. Once the disease process is initiated, the severity of the disease is largely determined by a complex network of activated inflammatory mediators such as cytokines, proteolytic enzymes, reactive oxygen species, and many more which render the local injury to a systemic disease with multiple organ dysfunction, sepsis, and considerable mortality. Remarkable progress in diagnostic modalities, intensive care technologies, and organ preserving surgical techniques have decreased mortality of severe acute pancreatitis during the past decades. However, the treatment of acute pancreatitis still remains largely supportive and no specific approach exists to prevent evolving complications. A large body of clinical and experimental evidence suggests that cytokines are key factors in the pathomechanism of local and systemic complications of acute pancreatitis. Targeting cytokine activity as therapeutic approach to acute pancreatitis is a challenging concept and the results of modulating activation of TNF-alpha, IL-1beta, IL-2, IL-10, PAF and various chemokines has indeed been promising in the experimental setting even if tested under therapeutic conditions. However, experience from a limited number of clinical trials on anti cytokine strategies in acute pancreatitis has remarkably emphasized that translating successful experimental observations into reproducible clinical associations seems to be difficult.
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PMID:Anti-cytokine strategies in acute pancreatitis: pathophysiological insights and clinical implications. 1635 48

Polymicrobial sepsis is associated with immunosuppression caused by the predominance of anti-inflammatory mediators and profound loss of lymphocytes through apoptosis. Dendritic cells (DC) are potent antigen-presenting cells and play a key role in T cell activation. We tested the hypothesis that DC are involved in sepsis-mediated immunosuppression in a mouse cecal ligation and puncture (CLP) model, which resembles human polymicrobial sepsis. At different time-points after CLP, DC from the spleen and peripheral lymph nodes were characterized in terms of expression of costimulatory molecules, cytokine synthesis, and subset composition. Splenic DC strongly up-regulated CD86 and CD40 but not CD80 as soon as 8 h after CLP. In contrast, lymph node DC equally increased the expression of CD86, CD40, and CD80. However, this process of maturation occurred later in the lymph nodes than in the spleen. Splenic DC from septic mice were unable to secrete interleukin (IL)-12, even upon stimulation with CpG or lipopolysaccharide+CD40 ligand, but released high levels of IL-10 in comparison to DC from control mice. Neutralization of endogenous IL-10 could not restore IL-12 secretion by DC of septic mice. In addition, the splenic CD4+CD8- and CD4-CD8+ subpopulations were lost during sepsis, and the remaining DC showed a reduced capacity for allogeneic T cell activation associated with decreased IL-2 synthesis. Thus, during sepsis, splenic DC acquire a state of aberrant responsiveness to bacterial stimuli, and two DC subtypes are selectively lost. These changes in DC behavior might contribute to impaired host response against bacteria during sepsis.
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PMID:Dendritic cells during polymicrobial sepsis rapidly mature but fail to initiate a protective Th1-type immune response. 1636 54

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