Interactions between influenza and bacterial respiratory pathogens: implications for pandemic preparedness

Brundage, John F.

doi:10.1016/s1473-3099(06)70466-2

Cited by 348 publications

(320 citation statements)

References 91 publications

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“…Consistent with the prior literature,55, 62 we found that S. pneumoniae was the most frequent bacterial coinfection; however, both S. aureus and other bacterial coinfections were also quite common. This diverse profile of coinfecting pathogens confirms current Infectious Disease Society of America (IDSA) recommendations for broad‐spectrum antibiotic coverage for influenza‐related pneumonia 63.…”

Section: Discussionsupporting

confidence: 92%

The frequency of influenza and bacterial coinfection: a systematic review and meta‐analysis

Klein

Monteforte

Gupta

et al. 2016

Influenza Resp Viruses

425

355

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AimCoinfecting bacterial pathogens are a major cause of morbidity and mortality in influenza. However, there remains a paucity of literature on the magnitude of coinfection in influenza patients.MethodA systematic search of MeSH, Cochrane Library, Web of Science, SCOPUS, EMBASE, and PubMed was performed. Studies of humans in which all individuals had laboratory confirmed influenza, and all individuals were tested for an array of common bacterial species, met inclusion criteria.ResultsTwenty‐seven studies including 3215 participants met all inclusion criteria. Common etiologies were defined from a subset of eight articles. There was high heterogeneity in the results (I 2 = 95%), with reported coinfection rates ranging from 2% to 65%. Although only a subset of papers were responsible for observed heterogeneity, subanalyses and meta‐regression analysis found no study characteristic that was significantly associated with coinfection. The most common coinfecting species were Streptococcus pneumoniae and Staphylococcus aureus, which accounted for 35% (95% CI, 14%–56%) and 28% (95% CI, 16%–40%) of infections, respectively; a wide range of other pathogens caused the remaining infections. An assessment of bias suggested that lack of small‐study publications may have biased the results.ConclusionsThe frequency of coinfection in the published studies included in this review suggests that although providers should consider possible bacterial coinfection in all patients hospitalized with influenza, they should not assume all patients are coinfected and be sure to properly treat underlying viral processes. Further, high heterogeneity suggests additional large‐scale studies are needed to better understand the etiology of influenza bacterial coinfection.

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Section: Discussionsupporting

confidence: 92%

The frequency of influenza and bacterial coinfection: a systematic review and meta‐analysis

Klein

Monteforte

Gupta

et al. 2016

Influenza Resp Viruses

425

355

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“…Earlier reports suggest that influenza virus can cause epithelial damage and/or surface receptor changes, which may increase bacterial colonization (17,18). In contrast, altered tneutrophil functions and excessive production of immunosuppressive IL-10 have been implicated in flu infection-increased susceptibility to secondary streptococcal infection in the lung (19)(20)(21)(22). Recently, IFN-g-mediated macrophage functional depression (23) or macrophage desensitization to bacterial ligand-triggered TLR signaling (20) was also found to play a role in this process.…”

mentioning

confidence: 99%

Influenza Infection Leads to Increased Susceptibility to Subsequent Bacterial Superinfection by Impairing NK Cell Responses in the Lung

Small

Shaler

McCormick

et al. 2010

The Journal of Immunology

190

160

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Influenza viral infection is well-known to predispose to subsequent bacterial superinfection in the lung but the mechanisms have remained poorly defined. We have established a murine model of heterologous infections by an H1N1 influenza virus and Staphylococcus aureus. We found that indeed prior influenza infection markedly increased the susceptibility of mice to secondary S. aureus superinfection. Severe sickness and heightened bacterial infection in flu and S. aureus dual-infected animals were associated with severe immunopathology in the lung. We further found that flu-experienced lungs had an impaired NK cell response in the airway to subsequent S. aureus bacterial infection. Thus, adoptive transfer of naive NK cells to the airway of prior flu-infected mice restored flu-impaired antibacterial host defense. We identified that TNF-α production of NK cells played an important role in NK cell-mediated antibacterial host defense as NK cells in flu-experienced lungs had reduced TNF-α expression and adoptive transfer of TNF-α–deficient NK cells to the airway of flu-infected mice failed to restore flu-impaired antibacterial host defense. Defected NK cell function was found to be an upstream mechanism of depressed antibacterial activities by alveolar macrophages as contrast to naive wild-type NK cells, the NK cells from flu-infected or TNF-α–deficient mice failed to enhance S. aureus phagocytosis by alveolar macrophages. Together, our study identifies the weakened NK cell response in the lung to be a novel critical mechanism for flu-mediated susceptibility to bacterial superinfection.

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“…Histopathological studies in deceased and severe human influenza cases during a pandemic outbreak14, 15, 16 attribute a substantial fraction of influenza deaths to secondary pneumococcal infection. The strength of the interaction between influenza or influenza‐like illness (ILI) and IPD at population level, however, varies across studies from non‐existent to significant 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27.…”

Section: Introductionmentioning

confidence: 99%

Temporal cross‐correlation between influenza‐like illnesses and invasive pneumococcal disease in The Netherlands

Hendriks

Boshuizen

Dekkers

et al. 2017

Influenza Resp Viruses

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BackgroundWhile the burden of community‐acquired pneumonia and invasive pneumococcal disease (IPD) is still considerable, there is little insight in the factors contributing to disease. Previous research on the lagged relationship between respiratory viruses and pneumococcal disease incidence is inconclusive, and studies correcting for temporal autocorrelation are lacking.ObjectivesTo investigate the temporal relation between influenza‐like illnesses (ILI) and IPD, correcting for temporal autocorrelation.MethodsWeekly counts of ILI were obtained from the Sentinel Practices of NIVEL Primary Care Database. IPD data were collected from the Dutch laboratory‐based surveillance system for bacterial meningitis from 2004 to 2014. We analysed the correlation between time series, pre‐whitening the dependent time series with the best‐fit seasonal autoregressive integrated moving average (SARIMA) model to the independent time series. We performed cross‐correlations between ILI and IPD incidences, and the (pre‐whitened) residuals, in the overall population and in the elderly.ResultsWe found significant cross‐correlations between ILI and IPD incidences peaking at lags ‐3 overall and at 1 week in the 65+ population. However, after pre‐whitening, no cross‐correlations were apparent in either population group.ConclusionOur study suggests that ILI occurrence does not seem to be the major driver of IPD incidence in The Netherlands.

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Interactions between influenza and bacterial respiratory pathogens: implications for pandemic preparedness

Cited by 348 publications

References 91 publications

The frequency of influenza and bacterial coinfection: a systematic review and meta‐analysis

The frequency of influenza and bacterial coinfection: a systematic review and meta‐analysis

Influenza Infection Leads to Increased Susceptibility to Subsequent Bacterial Superinfection by Impairing NK Cell Responses in the Lung

Temporal cross‐correlation between influenza‐like illnesses and invasive pneumococcal disease in The Netherlands

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