Do specific virus–bacteria pairings drive clinical outcomes of pneumonia?

AbstractBacterial pneumonia is a common contributor to severe outcomes of influenza. Epidemiological data suggest that the incidence, severity and associated bacterial pathogens differ between epidemics and by geographical location within epidemics. Data from animal models demonstrate that differences in both viral and bacterial strains alter the incidence and outcomes of pneumonia. For influenza viruses, evolutionary changes to specific virulence factors appear to alter the ability of viruses within particular lineages to prime the host for secondary bacterial infection. Although bacterial strains differ considerably in disease potential in the setting of viral co-infection, the bacterial virulence factors underlying this finding are currently unknown. The hypothesis that geographical variation exists in the prevalence of bacterial strains expressing factors that enable efficient disease potentiation during viral epidemics should be considered as one explanation for regional differences in severity. This would have implications for surveillance, vaccine development, and the conduct of clinical trials for the prevention or treatment of pneumonia

Reducing the Burden of Influenza-Associated Complications with Antiviral Therapy

INTRODUCTION: Influenza imposes an annual burden on individuals, society, and healthcare systems. This burden is increased by the development of complications that are often more severe than the primary infection. Here, we examine the main complications associated with influenza and review the effectiveness of antiviral therapy in reducing the incidence of such events. MATERIAL AND METHODS: The content of this review is taken from the study of the authors' extensive collection of reference materials, examination of the bibliographical content of relevant papers, and the results of Medline searches. RESULTS: The most commonly encountered complications in adults are sinusitis, pharyngitis, bronchitis, and, particularly in the elderly, bacterial pneumonia. Such complications may exacerbate pulmonary complaints. Children are particularly prone to post-influenza croup and otitis media. Complications involving the central nervous system, heart, or skeletal muscle also occur in influenza patients. Influenza-associated complications impose sizeable healthcare costs in terms of outpatient contacts, hospitalizations, and antibiotic use. Vaccination is the primary prevention strategy for influenza and its complications, but has limitations. Neuraminidase inhibitors have demonstrated efficacy in reducing the incidence of influenza-associated complications in populations with different ages and risks. CONCLUSIONS: Influenza complications place a large burden on healthcare providers and society. Neuraminidase inhibitors can reduce the incidence of such complications, particularly in high-risk groups