Abstract
Information about influenza vaccine effectiveness (IVE) is important for vaccine strain selection and immunization policy decisions. The test-negative design (TND) case-control study is commonly used to obtain IVE estimates. However, the definition of the control patients may influence IVE estimates. We have conducted a TND study using the Dutch Sentinel Practices of NIVEL Primary Care Database which includes data from patients who consulted the General Practitioner (GP) for an episode of acute influenza-like illness (ILI) or acute respiratory infection (ARI) with known influenza vaccination status. Cases were patients tested positive for influenza virus. Controls were grouped into those who tested (1) negative for influenza virus (all influenza negative), (2) negative for influenza virus, but positive for respiratory syncytial virus, rhinovirus or enterovirus (non-influenza virus positive), and (3) negative for these four viruses (pan-negative). We estimated the IVE over all epidemic seasons from 2003/2004 through 2013/2014, pooled IVE for influenza vaccine partial/full matched and mismatched seasons and the individual seasons using generalized linear mixed-effect and multiple logistic regression models. The overall IVE adjusted for age, GP ILI/ARI diagnosis, chronic disease and respiratory allergy was 35% (95% CI: 15–48), 64% (95% CI: 49–75) and 21% (95% CI: −1 to 39) for all influenza negative, non-influenza virus positive and pan-negative controls, respectively. In both the main and subgroup analyses IVE estimates were the highest using non-influenza virus positive controls, likely due to limiting inclusion of controls without laboratory-confirmation of a virus causing the respiratory disease.
Highlights
The most effective way to prevent influenza virus infection and illness is by vaccination [1]
We estimated (1) the overall influenza vaccine effectiveness (IVE) excluding seasons 2003/2004 and 2004/2005 since those two seasons had a low number of subjects in the control group, especially the non-influenza virus positive controls, (2) the overall IVE including the pandemic season of 2009/2010 were the vaccination status was based on receiving the seasonal influenza vaccine only, (3) the overall IVE using the patients which were swabbed within 4 days after symptom onset and (4) we
Our study shows differences in the IVE estimates when using three different control groups which are in line with other studies
Summary
The most effective way to prevent influenza virus infection and (severe) illness is by vaccination [1]. The composition of the influenza vaccine should be reconsidered annually, and eventually updated, due to amino acid substitutions causing antigenic drifts of the hemagglutinin and neuraminidase virus surface proteins which occurs continually over time to escape neutralization by the immune response [2,3]. ⇑ Corresponding author at: Antonius Deusinglaan 1, 9713 AV Groningen, The ity of the vaccine to prevent influenza virus infection in the general population during an influenza season (vaccine effectiveness [VE]) varies each year [4]. VE information is important for immunization policy decision makers, e.g. to decide which type of vaccine should be used (i.e. inactivated or live attenuated virus, with or without adjuvant) and who should be immunized (e.g. health care workers, children, elderly) [5]. Retrospective studies using observational data are performed to estimate the VE annually [4,6]
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