View clinical trials related to Lobar Pneumonia.
Filter by:Copeptin serves as a biomarker emanating from the pituitary gland, functioning as the precursor to arginine vasopressin (AVP). Its role in the regulation of endothelial dysfunction, inflammation, and water-electrolyte balance has been established. The measurement of AVP levels poses challenges due to its brief half-life and the intricate nature of its detection method. In contrast, copeptin provides an indirect means of gauging circulating AVP levels, as it can be conveniently assessed through a sandwich immunoassay. As a neuroendocrine stress hormone, copeptin emerges as a prognostic indicator, reflective of an individual's stress burden. Moreover, its applicability extends to various acute conditions such as ischemic stroke or myocardial infarction. Notably, copeptin proves to be a dependable tool in the differential diagnosis of diverse ailments characterized by polyuria and polydipsia. Lower respiratory tract infection (LRTI) stands as the predominant cause of morbidity and mortality among children and adolescents globally. Notably, copeptin has demonstrated utility in forecasting the severity and complications associated with severe pneumonia in adults. While early investigations into copeptin's role in pediatric LRTI suggest its potential for diagnosing pneumonia and predicting complications, the outcomes of these studies present conflicting results. Although there has been a notable increase in studies on copeptin in pediatric patients over the past decade, research specifically exploring its correlation with pneumonia remains scarce. This prospective case-control study is designed to investigate the potential association between copeptin levels and the severity of illness in pediatric patients with pneumonia. The study aims to determine whether copeptin levels can serve as a reliable predictor of disease severity in pneumonia, offering valuable insights for clinical application. The outcomes of this research may contribute significantly to our comprehension of copeptin's role in disease prognosis and management, thereby facilitating the development of more efficacious diagnostic and therapeutic approaches. Additionally, the study seeks to identify the factors influencing copeptin levels and establish a cut-off value for copeptin in pediatric patients diagnosed with pneumonia.
Pulmonary bacterial infections such as exacerbations of chronic bronchitis, nosocomial and community-acquired pneumonia represent a major public health issue. Antibiotics have shown their efficacy by direct antimicrobial activity and their limit particularly in case of multidrug-resistant microorganisms or in treating patients with aggravating pathologies. Innate immunity could be an alternative or complementary therapeutic pathway. Innate immunity receptors bind universal and invariant microbial molecular patterns present in bacteria, virus, fungus or parasite. Toll-like Receptors (TLR) activation by microbial agonist stimulates the innate immunity response which results in the production of chemokines, cytokines, antimicrobial molecules and the recruitment of innate cells. The " Pulmonary Infection and Innate Immunity " team of the Immunity and Infection Center in Lille (Group of Dr. Sirard and Carnoy) has a long expertise in the study of TLR5 and its agonist, the flagellin, a structural protein of bacterial flagella. TLR5 is expressed on the cell surface of macrophages, monocytes, dendritic and epithelial cells. Several studies in mice have shown the flagellin prophylactic potential during bacterial infections through a TLR5 dependent stimulation of innate immunity. Recently, the group of Dr. Sirard and Carnoy has shown that flagellin can be used in association with antibiotics to treat Streptococcus pneumoniae respiratory infections in mice. The results demonstrate that an agonist of TLR can increase the therapeutic index of an antibiotic and improve the pulmonary anti-infectious reaction. This innovative approach allows us to consider new antibacterial strategies where antibiotics have reached their limit (nosocomial infection, multidrug-resistant bacteria…). TLR agonists can activate multiple human cell type. Indeed, blood cells activation by TLR agonists have been recently characterized in healthy volunteers. However, there is no available data on the ability of TLR agonists to activate cells from patients with infectious pneumopathies. A study in these patients is inevitable if one is to consider the therapeutic use of agonists in respiratory pathologies.
The purposes of this study are: 1. To determine whether procalcitonin level at admission of pediatric patients with bacterial infections can be used as a marker for prediction of defervescence and hospitalization length 2. To examine the kinetics of procalcitonin in pediatric patients with bacterial infections and persistent fever