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)

Although the expression of monocyte histocompatibility leukocyte antigen (HLA)-DR has been shown to be decreased during human sepsis, its level of expression in other nonseptic critical conditions is unclear. The aim of this study was to compare the level of HLA-DR expression on circulating monocytes among patients with septic, hemorrhagic, and cardiogenic shocks and severe sepsis without shock. At admission, HLA-DR expression was exclusively decreased in patients with septic shock (n = 30; P < 0.001), whereas the expression was similar between the other studied groups: cardiogenic shock (n = 16), hemorrhagic shock (n = 11), severe sepsis without shock (n = 18), and healthy volunteers (n = 8). HLA-DR expression was not predictive for overall mortality, but at day 1, an HLA-DR expression of less than 14 of mean fluorescence intensity (that corresponds to 40% labeled monocytes) was predictive of mortality exclusively in patients with septic shock (odds ratio, 11.4 and 95% confidence interval, 1.7; 78.4; P < 0.008). Catecholamine infusion, mechanical ventilation, positive blood culture, and number of units of blood or plasma transfused did not correlate with decreased HLA-DR expression. Thus, the decrease in HLA-DR expression is specific to septic shock and is associated, in septic shock patients, with increased mortality risk.
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PMID:Histocompatibility leukocyte antigen-D related expression is specifically altered and predicts mortality in septic shock but not in other causes of shock. 1554 22

It has been generally accepted that the frequency of the HLA-DR-antigen expression on monocytes reflects the individual's immune state; therefore it has been regarded as a key indicator of the immune status in SIRS (systemic inflammatory response syndrome)-sepsis. One of the diagnostic indices for the level of immunoparalysis, it characterizes CARS (compensatory anti-inflammatory response syndrome). Lately, it has been frequently reported that the frequency of HLA-DR-antigen expression on monocytes is abnormally reduced in those patients with SIRS-sepsis. Reports suggest that the prognosis is very poor in cases with long-term sharp declines in HLA-DR-antigen expression on monocytes.
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PMID:[Monocyte HLA-DR expression as predictors of clinical outcome for patients with sepsis]. 1559 96

Pre-term neonates are at high risk to develop early-onset sepsis which possibly is caused by an immature immune system. Monocytes play a pivotal role as professional phagocytic and antigen-presenting cells in the innate immunity. In the present study, we investigated in monocytes from cord blood the expression of human leukocyte antigen (HLA)-DR as a marker for antigen-presenting capability, the expression of the high-affinity receptor for IgG (FcgammaRI/CD64), and the capacity to phagocytize non-opsonized Escherichia coli. We compared 70 infants in three groups according to their gestational age (group I: 20 very low birth weight infants (VLBWI), 24-31 weeks of gestation; group II: 25 pre-term infants, 32-36 weeks of gestation, and group III: 25 term neonates). The expression of CD64 as well as the phagocytic capacity of monocytes from cord blood were highest in VLBWI (p < 0.05 and p < 0.01, respectively). In contrast, HLA-DR expression was significantly (p < 0.05) diminished in VLBWI, which possibly leads to a reduced antigen-presenting capacity. We conclude that monocytes have different functional properties during gestational aging, which perhaps participate in the high incidence of infections in VLBWI.
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PMID:Monocyte switch in neonates: high phagocytic capacity and low HLA-DR expression in VLBWI are inverted during gestational aging. 1561 Mar 64

The spleen is critical for host defense against pathogens, including Plasmodium falciparum. It has a dual role, not only removing aged or antigenically altered erythrocytes from the blood but also as the major lymphoid organ for blood-borne or systemic infections. The human malaria parasite P. falciparum replicates within erythrocytes during asexual blood stages and causes repeated infections that can be associated with severe disease. In spite of the crucial role of the spleen in the innate and acquired immune response to malaria, there is little information on the pathology of the spleen in human malaria. We performed a histological and quantitative immunohistochemical study of spleen sections from Vietnamese adults dying from severe falciparum malaria and compared the findings with the findings for spleen sections from control patients and patients dying from systemic bacterial sepsis. Here we report that the white pulp in the spleens of patients dying from malaria showed a marked architectural disorganization. We observed a marked dissolution of the marginal zones with relative loss of B cells. Furthermore, we found strong HLA-DR expression on sinusoidal lining cells but downregulation on cordal macrophages. P. falciparum infection results in alterations in splenic leukocytes, many of which are not seen in sepsis.
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PMID:Fatal Plasmodium falciparum malaria causes specific patterns of splenic architectural disorganization. 1578 39

Low surface HLA-DR expression is a feature in sepsis. However, the mechanisms that regulate HLA-DR expression have not been elucidated. The current study investigates regulation of HLA-DR gene transcription, post transcriptional events and shedding of surface HLA-DR, as well as the regulation of HLA-DR by GM-CSF and an immunomodulatory cytokine. Plasma and PBMC were collected from septic patients and healthy volunteers. An ELISA was developed to measure soluble HLA. PCR techniques were used to determine HLA-DR mRNA levels, and flow cytometry and fluorescent microscopy were used for measurement of surface expressed and intracellular HLA-DR. Septic patients fulfilling the criteria of the American College of Chest Physicians (ACCP) for sepsis were recruited for the study (n=70). HLA-DR was measured on three consecutive days, days seven and fourteen. Patients were excluded from the study if on immunosuppressive therapy. Results: Higher levels of shed HLA-DR were found in the plasma of septic patients compared to healthy controls. The level of HLA-DR mRNA was significantly lower in septic patients compared to healthy controls, however an increased intracellular HLA-DR expression was observed. When HL-60 cells were treated with GM-CSF, gene transcription, surface expression and shedding of HLA-DR were all up-regulated. These results indicate that the mechanisms involved in the regulation of HLA-DR in sepsis include shedding of HLA-DR from the cell surface and regulation of HLA-DR gene transcription. Post-translational processing of HLA-DR was also seen to be compromised. GM-CSF was shown to regulate HLA-DR at all these levels.
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PMID:HLA-DR regulation and the influence of GM-CSF on transcription, surface expression and shedding. 1591 91

Sepsis is still a major cause of postoperative morbidity and mortality. Numerous biochemical indicators have been evaluated regarding their potential in predicting prognosis in sepsis. Generally, one must differentiate between indicators: those for preoperative detection of patients at risk for lethal sepsis and those for early prediction of lethal outcome of septic complications. The first include the analysis of mononuclear phagocyte interleukin (IL)-12-synthesizing capability. Reduced IL-12 levels were associated with higher lethality. Cytokine-associated gene polymorphisms such as the loss of monocyte HLA-DR expression and homozygotism for the tumor necrosis factor B2 allele have a place in preoperative risk evaluation, as they were associated with worse prognosis in sepsis. Among the most important biochemical indicators for early prediction of lethal outcome in sepsis are decreased L-selectin and elevated IL-18, IL-6, and PCT plasma concentrations. Increased nuclear factor kappaB activity in mononuclear phagocytes and elevated calcitonin gene-related protein plasma concentrations were associated with unfavourable prognosis.
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PMID:[Indicators for early prediction of outcome in sepsis]. 1609 22

Multiple trauma patients have an impaired immune system and thus frequently develop life-threatening septic complications. Because there is an ongoing debate on which are the most predictive immunologic parameters of clinical outcome, we prospectively studied 19 multiple trauma patients with sepsis (mean age, 38.7 +/- 15.8 years; mean Injury Severity Score, 40.6 +/- 11.6) over a period of 14 days. The following parameters were measured daily after admission to the intensive care unit: ex vivo lipopolysaccharide (LPS)-induced tumor necrosis factor alpha (TNF-alpha) production, monocyte human leukocyte antigen (HLA)-DR expression, constitutive interleukin (IL) 6 secretion, white blood cell count, and C-reactive protein. In addition, procalcitonin, neopterin, LPS-binding protein, and constitutive TNF-alpha secretion were measured every third day. Immediately after trauma, all patients had significantly lower levels of HLA-DR and ex vivo LPS-stimulated TNF-alpha secretion than healthy controls (n = 7; P < 0.001). On the day after clinical diagnosis of sepsis, before any other parameter differed between survivors (n = 13) and nonsurvivors (n = 6), ex vivo LPS-induced TNF-alpha secretion was significantly lower (P < 0.05) in nonsurvivors than in survivors. We conclude that ex vivo LPS-induced TNF-alpha production is an earlier predictor of clinical outcome in multiple trauma patients with sepsis than monocyte HLA-DR expression, constitutive IL-6 secretion, or any other parameter assessed.
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PMID:Lipopolysaccharide-induced tumor necrosis factor alpha production and not monocyte human leukocyte antigen-DR expression is correlated with survival in septic trauma patients. 1652 50

This study reports the design of an immunofluorescent method for the co-determination of neutrophil CD64 (PMN-CD64), monocyte CD64 (MON-CD64) and monocyte HLA-DR (MON-Ia) expression with the Cell-Dyn CD4,000 haematology analyser. Normal PMN-CD64, MON-CD64 and MON-Ia expression, defined as the mean+/-2SD of 25 healthy adults after correction for isotype control staining, corresponded to 17-67, 515-1045 and 170-670 AFU respectively. Analytical reproducibility determined by duplicate analysis of 12 random samples revealed good assay consistency for all three analysed antigens, with day to day variation in normal subjects being relatively minor in significance. CD4,000 PMN-CD64 and HLA-DR values showed good inter-method correlation with flow cytometry although short term (12 h) stability studies suggested an in vitro trend for increasing PMN-CD64 and variable HLA-DR antigen expression with progressive storage. Observed ranges of PMN-CD64, MON-CD64 and MON-Ia for 109 randomly-selected clinical samples were 31-1058, 307-2843 and 10-876 AFU. Abnormal PMN-CD64 and MON-CD64 shared the same trend (upregulation) while abnormal monocyte MON-Ia was characterised by declining expression. Normal PMN-CD64 was only seen with normal (45/52) or intermediate (7/52) MON-CD64, while high PMN-CD64 was mostly associated with intermediate (18/22) or high (3/22) MON-CD64. MON-Ia expression was largely independent (p=0.04) of PMN-CD64 although marked decreases in MON-Ia were invariably associated with intermediate or high PMN-CD64. MON-Ia expression was inversely related (p<0.0001) to absolute granulocyte counts, and patients with high PMN-CD64 were more likely (8/25) to have in excess of 10% Band Cells compared to samples with normal/intermediate PMN-CD64 (0/84). When compared to C-reactive protein (CRP), high PMN-CD64 and MON-CD64 were always associated with an increased CRP concentration, but minor proportions of samples with normal PMN-CD64 (11/52) or normal MON-CD64 (11/65) could also have an increased CRP. The procedures described in this communication overcome a number of limitations associated with flow cytometry, and co-determination of CD64 and HLA-DR antigen expression may provide complimentary insights into patient heterogeneity in the assessment of suspected sepsis compared to CD64 analysis alone.
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PMID:Simultaneous determination of membrane CD64 and HLA-DR expression by blood neutrophils and monocytes using the monoclonal antibody fluorescence capability of a routine haematology analyser. 1655 67

Inflammation and infection seem to be important causes of morbidity and mortality in chronic kidney disease (CKD) patients; subclinical infections have been proposed as an important cause of inflammatory syndrome, but to date this hypothesis remains speculative. We developed a method for the molecular detection of the presence of bacterial DNA in a population of CKD patients in order to correlate the molecular data with the degree and level of inflammation and to evaluate its usefulness in the diagnosis of subclinical infection. The study was divided into two phases: (1) a population of 81 CKD patients was screened for the prevalence and level of inflammation and the presence of possible infection, and (2) a subgroup of 38 patients, without evident clinical causes of inflammation, underwent complete molecular evaluation for subclinical infection using bacterial DNA primers for sequencing. Additionally, complete analysis was carried out in the blood and dialysate compartments of the hemodialyzers used. The general population showed a certain degree of subclinical inflammation and no difference was found between patients with and without evident causes of inflammation. Hemoculture-negative patients were positive for the presence of bacterial DNA when molecular methods were used. We found a correlation trend between the presence of bacterial DNA and the increase in hs-CRP, IL-6 and oxidative stress (advanced oxidation protein product) levels and a reduction in the mean fluorescence intensity for HLA-DR. Hemodialyzer membranes seem to have properties that stick to bacteria/bacterial DNA and work as concentrators. In fact, patients with negative bacterial DNA in the circulating blood displayed positivity in the blood compartment of the dialyzer. The dialysate was negative for bacterial DNA but the dialysate compartment of the hemodialyzers used was positive in a high percentage. Moreover our data suggest that bacterial DNA can traverse hemodialysis membranes. Molecular methods have been found to be far more sensitive than standard methods in detecting subclinical infection. The presence of bacterial DNA seems to influence the variation in some parameters of inflammation and immunity. Apart from the limitations and pitfalls, the molecular method could be useful to screen for subclinical infection and diagnose subclinical sepsis when the hemoculture is negative. However, the identification of the microorganism implicated must be done with species-specific primers.
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PMID:Inflammation and subclinical infection in chronic kidney disease: a molecular approach. 1717 May 41

During sepsis, the anti-infectious response is closely linked to an overwhelming inflammatory process. The latter is illustrated by the presence in plasma of numerous inflammatory cytokines, markers of cellular stress (e.g. high mobility group box-1 protein), complement-derived compounds (e.g. anaphylatoxin C5a), lipid mediators, and activated coagulation factors. All mediators contribute in synergy to tissue injury, organ dysfunction, and possibly to lethality. To dampen this overzealous process, a counter-regulatory loop is initiated. The anti-inflammatory counterpart involves few anti-inflammatory cytokines (e.g. interleukin-10, transforming growth factor-beta), numerous neuromediators (e.g. adrenalin, acetylcholine), and some other factors (e.g. heat shock proteins, ligand of TREM-2, adenosine). These mediators modify the immune status of circulating leukocytes as illustrated by their decreased cell-surface expression of HLA-DR or their reduced ex vivo pro-inflammatory cytokine production in response to Toll-like receptor agonists (e.g. endotoxin, lipoproteins). However, circulating leukocytes remain responsive to whole bacteria and produce normal or even enhanced levels of anti-inflammatory cytokines. Thus, the immune dysregulation observed in sepsis corresponds to a reprogramming of circulating leukocytes.
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PMID:Determining the degree of immunodysregulation in sepsis. 1746 19

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