PET significantly improves the detection of stage IV disease in EC compared with the conventional staging modalities. PET improves diagnostic specificity for LN staging.
How the innate and adaptive host immune system miscommunicate to worsen COVID-19 immunopathology has not been fully elucidated. Here, we perform single-cell deep-immune profiling of bronchoalveolar lavage (BAL) samples from 5 patients with mild and 26 with critical COVID-19 in comparison to BALs from non-COVID-19 pneumonia and normal lung. We use pseudotime inference to build T-cell and monocyte-to-macrophage trajectories and model gene expression changes along them. In mild COVID-19, CD8+ resident-memory (TRM) and CD4+ T-helper-17 (TH17) cells undergo active (presumably antigen-driven) expansion towards the end of the trajectory, and are characterized by good effector functions, while in critical COVID-19 they remain more naïve. Vice versa, CD4+ T-cells with T-helper-1 characteristics (TH1-like) and CD8+ T-cells expressing exhaustion markers (TEX-like) are enriched halfway their trajectories in mild COVID-19, where they also exhibit good effector functions, while in critical COVID-19 they show evidence of inflammation-associated stress at the end of their trajectories. Monocyte-to-macrophage trajectories show that chronic hyperinflammatory monocytes are enriched in critical COVID-19, while alveolar macrophages, otherwise characterized by anti-inflammatory and antigen-presenting characteristics, are depleted. In critical COVID-19, monocytes contribute to an ATP-purinergic signaling-inflammasome footprint that could enable COVID-19 associated fibrosis and worsen disease-severity. Finally, viral RNA-tracking reveals infected lung epithelial cells, and a significant proportion of neutrophils and macrophages that are involved in viral clearance.
After a thorough staging mediastinoscopy, postinduction remediastinoscopy had a disappointing sensitivity because of adhesions and fibrosis. Integrated PET-CT yielded a better result than that obtained in previous studies with side-by-side PET and CT images.
Epidemiological and clinical reports indicate that SARS-CoV-2 virulence hinges upon the triggering of an aberrant host immune response, more so than on direct virus-induced cellular damage. To elucidate the immunopathology underlying COVID-19 severity, we perform cytokine and multiplex immune profiling in COVID-19 patients. We show that hypercytokinemia in COVID-19 differs from the interferon-gamma-driven cytokine storm in macrophage activation syndrome, and is more pronounced in critical versus mild-moderate COVID-19. Systems modelling of cytokine levels paired with deep-immune profiling shows that classical monocytes drive this hyper-inflammatory phenotype and that a reduction in T-lymphocytes correlates with disease severity, with CD8+ cells being disproportionately affected. Antigen presenting machinery expression is also reduced in critical disease. Furthermore, we report that neutrophils contribute to disease severity and local tissue damage by amplification of hypercytokinemia and the formation of neutrophil extracellular traps. Together our findings suggest a myeloid-driven immunopathology, in which hyperactivated neutrophils and an ineffective adaptive immune system act as mediators of COVID-19 disease severity.
FDG-PET scanning improves the clinical staging of lymph node involvement based on the increased detection of distant nodal metastases and on the superior specificity compared with conventional imaging modalities.
Bronchiolitis obliterans syndrome (BOS) is the most important cause of late mortality following lung transplantation, resulting in major morbidity and a huge burden on healthcare resources. Treatment options are limited, resulting in a mere stabilisation of the lung function decline. Recent introduction of the macrolide antibiotic azithromycin raised new hope after demonstrating lung function improvement in subsets of patients.The present study aimed to provide an overview of the clinical effects on azithromycin in the setting of BOS after lung transplantation, with special emphasis on the anti-inflammatory actions. Moreover, the authors proposed a new frame of thinking centred on a dichotomy in the pathogenesis and clinical phenotype of BOS. Subsets of BOS patients were identified who do or do not respond to azithromycin (regarding forced expiratory volume in one second (FEV1), bronchoalveolar lavage (BAL) neutrophilia/interleukin-8). These observations have shed new light on the current belief that BOS represents a homogenous clinical entity in which the neutrophil is the main culprit.Recent clinical observations, supported by research findings, have revealed a dichotomy in the clinical spectrum of BOS with neutrophilic (partially) reversible allograft dysfunction (responding to azithromycin) and fibroproliferative BOS (not responding to azithromycin). This concept is reinforced by unique data obtained in BOS patients, consisting of histology specimens, physical and radiological examination, FEV1 and BAL examination.The acceptance of this dichotomy can improve understanding of the heterogeneous pathological condition that constitutes bronchiolitis obliterans syndrome, thus encouraging a more accurate diagnosis and, ultimately, better tailored treatment for each bronchiolitis obliterans syndrome patient.
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