Rationale: Current clinical prediction scores for acute lung injury (ALI) have limited positive predictive value. No studies have evaluated predictive plasma biomarkers in a broad population of critically ill patients or as an adjunct to clinical prediction scores. Objectives: To determine whether plasma angiopoietin-2 (Ang-2), von Willebrand factor (vWF), interleukin-8 (IL-8), and/or receptor for advanced glycation end products (sRAGE) predict ALI in critically ill patients. Methods: Plasma samples were drawn from critically ill patients (n ¼ 230) identified in the emergency department. Patients who had ALI at baseline or in the subsequent 6 hours were excluded, and the remaining patients were followed for development of ALI. Measurements and Main Results: Nineteen patients developed ALI at least 6 hours after the sample draw. Higher levels of Ang-2 and IL-8 were significantly associated with increased development of ALI (P ¼ 0.0008, 0.004, respectively). The association between Ang-2 and subsequent development of ALI was robust to adjustment for sepsis and vasopressor use. Ang-2 and the Lung Injury Prediction Score each independently discriminated well between those who developed ALI and those who did not (area under the receiver operating characteristic curve, 0.74 for each), and using the two together improved the area under the curve to 0.84 (vs. 0.74, P ¼ 0.05). In contrast, plasma levels of sRAGE and vWF were not predictive of ALI. Conclusions: Plasma biomarkers such as Ang-2 can improve clinical prediction scores and identify patients at high risk for ALI. In addition, the early rise of Ang-2 emphasizes the importance of endothelial injury in the early pathogenesis of ALI.
The early sequence of events leading to the development of the acute respiratory distress syndrome (ARDS) in patients with sepsis remains inadequately understood. The purpose of this study was to identify changes in gene expression early in the course of illness, when mechanisms of injury may provide the most relevant treatment and prognostic targets. We collected whole blood RNA in critically ill patients admitted from the Emergency Department to the intensive care unit within 24 h of admission at a tertiary care center. Whole genome expression was compared in patients with sepsis and ARDS to patients with sepsis alone. We selected genes with >1 log2 fold change and false discovery rate <0.25, determined their significance in the literature, and performed pathway analysis. Several genes were upregulated in 29 patients with sepsis with ARDS compared with 28 patients with sepsis alone. The most differentially expressed genes included key mediators of the initial neutrophil response to infection: olfactomedin 4, lipocalin 2, CD24, and bactericidal/permeability-increasing protein. These gene expression differences withstood adjustment for age, sex, study batch, white blood cell count, and presence of pneumonia or aspiration. Pathway analysis demonstrated overrepresentation of genes involved in known respiratory and infection pathways. These data indicate that several neutrophil-related pathways may be involved in the early pathogenesis of sepsis-related ARDS. In addition, identifiable gene expression differences occurring early in the course of sepsis-related ARDS may further elucidate understanding of the neutrophil-related mechanisms in progression to ARDS.
The complement-derived anaphylatoxin, C5a, is a potent phlogistic molecule that mediates its effects by binding to C5a receptor (C5aR; CD88). We now demonstrate specific binding of radiolabeled recombinant mouse C5a to mouse dermal microvascular endothelial cells (MDMEC) with a Kd50 of 3.6 nM and to ∼15,000–20,000 receptors/cell. Recombinant mC5a competed effectively with binding of [125I]rmC5a to MDMEC. Enhanced binding of C5a occurred, as well as increased mRNA for C5aR, after in vitro exposure of MDMEC to LPS, IFN-γ, or IL-6 in a time- and dose-dependent manner. By confocal microscopy, C5aR could be detected on surfaces of MDMEC using anti-C5aR Ab. In vitro expression of macrophage inflammatory protein-2 (MIP-2) and monocyte chemoattractant protein-1 (MCP-1) by MDMEC was also measured. Exposure of MDMEC to C5a or IL-6 did not result in changes in MIP-2 or MCP-1 production, but initial exposure of MDMEC to IL-6, followed by exposure to C5a, resulted in significantly enhanced production of MIP-2 and MCP-1 (but not TNF-α and MIP-1α). Although LPS or IFN-γ alone induced some release of MCP-1 and MIP-2, pre-exposure of these monolayers to LPS or IFN-γ, followed by addition of C5a, resulted in synergistic production of MIP-2 and MCP-1. Following i.v. infusion of LPS into mice, up-regulation of C5aR occurred in the capillary endothelium of mouse lung, as determined by immunostaining. These results support the hypothesis that C5aR expression on MDMEC and on the microvascular endothelium of lung can be up-regulated, suggesting that C5a in the co-presence of additional agonists may mediate pro-inflammatory effects of endothelial cells.
Multiple organ dysfunction syndrome is the leading cause of death in patients in surgical intensive care units and is accompanied by consumptive hemostatic changes often leading to disseminated intravascular coagulation (DIC), progressive complement activation, and unregulated release of pro-inflammatory mediators.
Background N-Formyl-methionylleucyl-phenylalanine (FMLP) is a bacterial oligopeptide which stimulates neutrophil chemotaxis, degranulation and superoxide generation. Inhalation of FMLP produces bronchoconstriction in man; in the rabbit this is in part neutrophil dependent. The effects of inhalation of FMLP on peripheral blood leucocytes in normal subjects has been studied. Methods This was an open study in non-asthmatic subjects. Change in total peripheral white cell count were studied for 15 minutes after inhalation of 04 umol FMLP in six subjects. Change in total and differential white cell count and spontaneous neutrophil chemiluminescence were then studied five and 30 minutes after inhalation of 0 4 pmol FMLP (n = 7) or diluent (n = 4). Finally, leucocytes from three subjects were labelled ex vivo with technetium-99m labelled sulphur colloid and reinfused. The effect of inhalation of FMLP or diluent on pulmonary neutrophil flux was studied by continuous gamma scanning of a pulmonary window. Results Leucopenia occurs rapidly after inhalation of FMLP, the nadir of the white cell count (53% of baseline) occurring at four minutes. This was followed by a rebound increase in white cell count evident at 15 minutes (154% of baseline). Five
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