2,638 research outputs found

    Complement-mediated neutrophil dysfunction in critical illness

    Get PDF
    Critical illness, constituting an acute illness or injury resulting in organ dysfunction and failure, is associated with a profound, systemic activation of the immune system and inflammation-mediated organ damage. However,critically ill patients suffer a high rate of nosocomial infection with secondary sepsis being a common cause of death. This high prevalence of secondary infections argues for the influence of an immune suppression that may, at first glance, appear paradoxical in light of the pro-inflammatory nature of critical illness. Although immune cell hypo-function has been noted in clinical and experimental critical illness, the mediators of these effects remain poorly defined. In this thesis, neutrophil function was examined in the context of clinically suspected ventilator-associated pneumonia, a common and lethal intensive care acquired infection (ICU-AI],This demonstrated impaired bactericidal functions [phagocytosis and reactive oxygen species production) in neutrophils from both the peripheral and pulmonary compartments; however there was ample evidence of co­existent neutrophil activation [both cell surface markers and soluble mediators) and inflammation. An investigation of possible mediators of neutrophil dysfunction revealed a major role for C5a, the pro-inflammatory anaphylotoxin derived from complement C5. Recombinant C5a applied to healthy donor neutrophils was able to drive the defect in phagocytosis byphospho-inositol 3 kinase delta-mediated inhibition of RhoA and subsequent down regulation of actin polymerisation. The defects in RhoA and actin function were reversible with granulocyte-macrophage colony stimulating factor [GM-CSF) applied ex vivo, restoring phagocytic function to normal. Similar defects in RhoA and actin, and effective treatment with GM-CSF, were found in neutrophils from critically ill patients. In a second cohort of critically ill adults recruited prior to developing any ICU-AI, C5a-mediated neutrophil dysfunction was an independent predictor of acquiring nosocomial infection, being associated with a 5.4 fold increased risk [95%Confidence interval 1.4-21.0). The same cohort of patients also displayed two other features of immune suppression, namely monocyte deactivation and elevated proportions of regulatory T-cells that were also associated with increased risk of infection [relative risk of infection 3 [95%CI1.3-6.9)and 2.4 [95%CI1.3-4.2) respectively). These measures acted additively withC5a-mediated dysfunction, those with no immune impairment having a zerorate of nosocomial infection with cumulative increases in impairments beingassociated with a progressive increase in risk of infection [p=0.0004 by Chisquared for trend). In conclusion, critical illness is characterised by acomplex inflammatory state with features of simultaneous hyper- and hypo-activation. This remarkable duality is illustrated by the ability of a pro-inflammatory molecule, C5a, to drive neutrophil dysfunction, with thisdysfunction being associated with a serious adverse event -nosocomialinfection

    Post-mortem dissection of COVID-19: a pathogenic role for macrophages?

    Get PDF
    Acute respiratory failure is the leading cause of death in severe COVID-19. By combining rapid tissue sampling at autopsy with high dimensional analyses, including measurement of immune cells, proteins and RNA, unparalleled insights into the mechanisms of dysregulated inflammation in COVID-19 have been obtained1–4. Here we summarise some of the conceptual advances revealed by post-mortem studies of severe COVID-19, and make particular reference to the apparent dominance of macrophages, how this may relate to disease pathophysiology, and the opportunities for targeted therapeutic intervention.ACM is supported by a Medical Research Council Clinician Scientist Fellowship (MR/V006118/1). CDL is supported by a Wellcome Trust Clinical Research Career Development Fellowship (206566/Z/17/Z) and receives funding from the UKRI-NIHR COVID-19 Call (MR/V028790/1). PPV is supported by a Wellcome Trust PhD Training Fellowship for Clinicians (214179/Z/18/Z)

    Serial characterisation of monocyte and neutrophil function after lung resection.

    Get PDF
    OBJECTIVES: The primary aim of this prospective study was to perform a comprehensive serial characterisation of monocyte and neutrophil function, circulating monocyte subsets, and bronchoalveolar lavage (BAL) fluid after lung resection. A secondary aim was to perform a pilot, hypothesis-generating evaluation of whether innate immune parameters were associated with postoperative pneumonia. METHODS: Forty patients undergoing lung resection were studied in detail. Blood monocytes and neutrophils were isolated preoperatively and at 6, 24 and 48 h postoperatively. BAL was performed preoperatively and immediately postoperatively. Monocyte subsets, monocyte responsiveness to lipopolysaccharide (LPS) and neutrophil phagocytic capacity were quantified at all time points. Differential cell count, protein and cytokine concentrations were measured in BAL. Pneumonia evaluation at 72 h was assessed using predefined criteria. RESULTS: After surgery, circulating subsets of classical and intermediate monocytes increased significantly. LPS-induced release of proinflammatory cytokines from monocytes increased significantly and by 48 h a more proinflammatory profile was found. Neutrophil phagocytosis demonstrated a small but significant fall. Factors associated with postoperative pneumonia were: increased release of specific proinflammatory and anti-inflammatory cytokines from monocytes; preoperative neutrophilia; and preoperative BAL cell count. CONCLUSIONS: We conclude that postoperative lung inflammation is associated with specific changes in the cellular innate immune response, a better understanding of which may improve patient selection and prediction of complications in the future

    A national survey of the diagnosis and management of suspected ventilator-associated pneumonia.

    Get PDF
    BACKGROUND: Ventilator-associated pneumonia (VAP) affects up to 20% of patients admitted to intensive care units (ICU). It is associated with increased morbidity, mortality and healthcare costs. Despite published guidelines, variability in diagnosis and management exists, the extent of which remains unclear. We sought to characterise consultant opinions surrounding diagnostic and management practice for VAP in the UK. METHODS: An online survey was sent to all consultant members of the UK Intensive Care Society (n=∼1500). Data were collected regarding respondents' individual practice in the investigation and management of suspected VAP including use of diagnostic criteria, microbiological sampling, chest X-ray (CXR), bronchoscopy and antibiotic treatments. RESULTS: 339 (23%) responses were received from a broadly representative spectrum of ICU consultants. All respondents indicated that microbiological confirmation should be sought, the majority (57.8%) stating they would take an endotracheal aspirate prior to starting empirical antibiotics. Microbiology reporting services were described as qualitative only by 29.7%. Only 17% of respondents had access to routine reporting of CXRs by a radiologist. Little consensus exists regarding technique for bronchoalveolar lavage (BAL) with the reported volume of saline used ranging from 5 to 500 mL. 24.5% of consultants felt inadequately trained in bronchoscopy. CONCLUSIONS: There is wide variability in the approach to diagnosis and management of VAP among UK consultants. Such variability challenges the reliability of the diagnosis of VAP and its reported incidence as a performance indicator in healthcare systems. The data presented suggest increased radiological and microbiological support, and standardisation of BAL technique, might improve this situation

    Comprehensive Molecular Testing for Respiratory Pathogens in Community-Acquired Pneumonia.

    Get PDF
    BACKGROUND: The frequent lack of a microbiological diagnosis in community-acquired pneumonia (CAP) impairs pathogen-directed antimicrobial therapy. This study assessed the use of comprehensive multibacterial, multiviral molecular testing, including quantification, in adults hospitalized with CAP. METHODS: Clinical and laboratory data were collected for 323 adults with radiologically-confirmed CAP admitted to 2 UK tertiary care hospitals. Sputum (96%) or endotracheal aspirate (4%) specimens were cultured as per routine practice and also tested with fast multiplex real-time polymerase-chain reaction (PCR) assays for 26 respiratory bacteria and viruses. Bacterial loads were also calculated for 8 bacterial pathogens. Appropriate pathogen-directed therapy was retrospectively assessed using national guidelines adapted for local antimicrobial susceptibility patterns. RESULTS: Comprehensive molecular testing of single lower respiratory tract (LRT) specimens achieved pathogen detection in 87% of CAP patients compared with 39% with culture-based methods. Haemophilus influenzae and Streptococcus pneumoniae were the main agents detected, along with a wide variety of typical and atypical pathogens. Viruses were present in 30% of cases; 82% of these were codetections with bacteria. Most (85%) patients had received antimicrobials in the 72 hours before admission. Of these, 78% had a bacterial pathogen detected by PCR but only 32% were culture-positive (P < .0001). Molecular testing had the potential to enable de-escalation in number and/or spectrum of antimicrobials in 77% of patients. CONCLUSIONS: Comprehensive molecular testing significantly improves pathogen detection in CAP, particularly in antimicrobial-exposed patients, and requires only a single LRT specimen. It also has the potential to enable early de-escalation from broad-spectrum empirical antimicrobials to pathogen-directed therapy

    A New Stalked Filter-Feeder from the Middle Cambrian Burgess Shale, British Columbia, Canada

    Get PDF
    Burgess Shale-type deposits provide invaluable insights into the early evolution of body plans and the ecological structure of Cambrian communities, but a number of species, continue to defy phylogenetic interpretations. Here we extend this list to include a new soft-bodied animal, Siphusauctum gregarium n. gen. and n. sp., from the Tulip Beds (Campsite Cliff Shale Member, Burgess Shale Formation) of Mount Stephen (Yoho National Park, British Columbia). With 1,133 specimens collected, S. gregarium is clearly the most abundant animal from this locality

    Differential response to bacteria, and TOLLIP expression, in the human respiratory tract.

    Get PDF
    OBJECTIVES: The observation that pathogenic bacteria are commonly tolerated in the human nose, yet drive florid inflammation in the lung, is poorly understood, partly due to limited availability of primary human cells from each location. We compared responses to bacterial virulence factors in primary human nasal and alveolar cells, and characterised the distribution of Toll-interacting protein (TOLLIP; an inhibitor of Toll-like receptor (TLR) signalling) in the human respiratory tract. METHODS: Primary cells were isolated from nasal brushings and lung tissue taken from patients undergoing pulmonary resection. Cells were exposed to lipopolysaccharide, lipoteichoic acid, peptidoglycan, CpG-C DNA or tumour necrosis factor (TNF). Cytokines were measured in cell supernatants. TOLLIP was characterised using quantitative real-time PCR and immunofluorescence. RESULTS: In primary alveolar, but not primary nasal, cells peptidoglycan significantly increased secretion of interleukin (IL)-1β, IL-6, IL-8, IL-10 and TNF. TLR2 expression was significantly higher in alveolar cells and correlated with IL-8 production. TOLLIP expression was significantly greater in nasal cells. CONCLUSION: In conclusion, primary human alveolar epithelial cells are significantly more responsive to peptidoglycan than primary nasal epithelial cells. This may partly be explained by differential TLR2 expression. TOLLIP is expressed widely in the human respiratory tract, and may contribute to the regulation of inflammatory responses

    Functional characterisation of human pulmonary monocyte-like cells in lipopolysaccharide-mediated acute lung inflammation.

    Get PDF
    BACKGROUND: We have previously reported the presence of novel subpopulations of pulmonary monocyte-like cells (PMLC) in the human lung; resident PMLC (rPMLC, HLA-DR(+)CD14(++)CD16(+)cells) and inducible PMLC (iPMLC, HLA-DR(+)CD14(++)CD16(-) cells). iPMLC are significantly increased in bronchoalveolar lavage (BAL) fluid following inhalation of lipopolysaccharide (LPS). We have carried out the first functional evaluation of PMLC subpopulations in the inflamed lung, following the isolation of these cells, and other lineages, from BAL fluid using novel and complex protocols. METHODS: iPMLC, rPMLC, alveolar macrophages (AM), neutrophils, and regulatory T cells were quantified in BAL fluid of healthy subjects at 9 hours post-LPS inhalation (n = 15). Cell surface antigen expression by iPMLC, rPMLC and AM and the ability of each lineage to proliferate and to undergo phagocytosis were investigated using flow cytometry. Basal cytokine production by iPMLC compared to AM following their isolation from BAL fluid and the responsiveness of both cell types following in vitro treatment with the synthetic corticosteroid dexamethasone were assessed. RESULTS: rPMLC have a significantly increased expression of mature macrophage markers and of the proliferation antigen Ki67, compared to iPMLC. Our cytokine data revealed a pro-inflammatory, corticosteroid-resistant phenotype of iPMLC in this model. CONCLUSIONS: These data emphasise the presence of functionally distinct subpopulations of the monocyte/macrophage lineage in the human lung in experimental acute lung inflammation
    • …
    corecore