Christopher S. Ambrose

The rationale for quadrivalent influenza vaccines

Two antigenically distinct lineages of influenza B viruses have circulated globally since 1985. However, licensed trivalent seasonal influenza vaccines contain antigens from only a single influenza B virus and thus provide limited immunity against circulating influenza B strains of the lineage not present in the vaccine. In recent years, predictions about which B lineage will predominate in an upcoming influenza season have been no better than chance alone, correct in only 5 of the 10 seasons from 2001 to 2011. Consequently, seasonal influenza vaccines could be improved by inclusion of influenza B strains of both lineages. The resulting quadrivalent influenza vaccines would allow influenza vaccination campaigns to respond more effectively to current global influenza epidemiology. Manufacturing capacity for seasonal influenza vaccines has increased sufficiently to supply quadrivalent influenza vaccines, and methods to identify the influenza B strains to include in such vaccines are in place. Multiple manufacturers have initiated clinical studies of quadrivalent influenza vaccines. Data from those studies, taken together with epidemiologic data regarding the burden of disease caused by influenza B infections, will determine the safety, effectiveness, and benefit of utilizing quadrivalent vaccines for the prevention of seasonal influenza disease.

Efficacy of live attenuated influenza vaccine in children: a meta-analysis of nine randomized clinical trials.

Nine randomized clinical trials, including approximately 25,000 children aged 6-71 months and 2000 children aged 6-17 years, have evaluated the efficacy of live attenuated influenza vaccine (LAIV) against culture-confirmed influenza as compared to placebo or trivalent inactivated vaccine (TIV). We conducted meta-analyses, based on Mantel-Haenszel relative risks from fixed effect models, to provide an estimate of vaccine efficacy (VE). Relative to placebo, year 1 VE for two doses in vaccine-naïve young children was 77% (95% CI: 72%, 80%; P<0.001) against antigenically similar strains and 72% against strains regardless of antigenic similarity. Efficacy was 85%, 76%, and 73% against antigenically similar A/H1N1, A/H3N2, and B, respectively. Year 1 VE of one dose against antigenically similar strains in vaccine-naive children was 60%; efficacy of one dose in previously vaccinated children in year 2 of the various studies was 87%. In head-to-head trials comparing two doses of TIV and LAIV, vaccine-naïve children who received two doses of LAIV experienced 46% fewer cases of influenza illness caused by antigenically similar strains. Similarly, for studies including older children who had been previously vaccinated, those receiving one LAIV dose experienced 35% fewer cases of influenza illness than those receiving one TIV dose. LAIV showed high VE versus placebo with no evidence of difference by age or by circulating subtype. In these studies, LAIV was more effective than TIV.

The relative efficacy of trivalent live attenuated and inactivated influenza vaccines in children and adults

Please cite this paper as: Ambrose CS et al. (2011) The relative efficacy of trivalent live attenuated and inactivated influenza vaccines in children and adults. Influenza and Other Respiratory Viruses 5(2), 67–75.

Efficacy of live attenuated influenza vaccine in children against influenza B viruses by lineage and antigenic similarity

Seasonal influenza vaccines, including live attenuated influenza vaccine (LAIV), contain three vaccine strains (two type A and one type B). Ideally, the hemagglutinin antigens of the recommended vaccine strains are antigenically similar to epidemic wild-type strains; in actuality, the antigenic match between circulating and vaccine strains each year can vary significantly owing to intermittent genetic reassortment and continuous antigenic drift. For influenza B, antigenic relatedness is further complicated by the existence of two distinct lineages. Consequently, the influenza B vaccine component can be of a completely different antigenic lineage from the circulating epidemic strains. Using data from nine randomized clinical trials in young children (6 months to 6 years of age), vaccine efficacy of LAIV against influenza B strains was assessed across this spectrum of antigenic relatedness. In an integrated analysis, vaccine efficacy of two doses of LAIV in vaccine-naive children was 86% against B strains of the same lineage and closely matched to the vaccine strain, 55% against strains of the same lineage but antigenically drifted from the vaccine strain, and 31% against strains of the opposite B lineage and antigenically unrelated to the vaccine strain. These data provide a more accurate assessment of the protection provided by the current trivalent vaccine and highlight the need for vaccination strategies that provide enhanced protection against both lineages of influenza B such as a quadrivalent influenza vaccine.

The test-negative design: validity, accuracy and precision of vaccine efficacy estimates compared to the gold standard of randomised placebo-controlled clinical trials.

The test-negative design (TND) is an efficient form of case-control study commonly applied to influenza vaccine effectiveness (VE) estimation. TND validity is predicated on the core assumption that the intervention (vaccine) has no effect on other non-targeted aetiologies resulting in similar illness/disease. Here we verify this core assumption and compare efficacy estimates derived by the TND versus classical per-protocol analysis of four datasets obtained from randomised placebo-controlled clinical trials (RCT) of the live attenuated influenza vaccine (LAIV) in children ≤7 years-old and the elderly ≥60 years-old. We further assess generalisability of the TND approach in two other RCT datasets to evaluate monoclonal antibody in the prevention of respiratory syncytial virus (RSV) hospitalisation. Efficacy estimates and their confidence intervals were virtually identical for per-protocol RCT versus TND analyses of LAIV and also for RSV monoclonal antibody. Neither LAIV nor monoclonal antibodies affected the risk of disease aetiologies that were not specifically targeted by the respective interventions (e.g. other respiratory viruses). This study validates the core assumption of the TND approach for influenza vaccine efficacy estimation and confirms the accuracy and precision of its estimates compared to the gold standard of classic per-protocol RCT analysis of the same data sets. The TND approach is generalisable for other conditions such as RSV for which the core assumption is also met. However, when used in observational studies, the TND, like all designs, still requires assessment for bias and confounding that may exist in the absence of randomised participation and blinded follow-up.

Safety and efficacy of live attenuated influenza vaccine in children 2-7 years of age

Three pivotal trials supported the licensure of live attenuated influenza vaccine (LAIV) for children > or =2 years of age: 2 placebo-controlled studies each conducted over 2 seasons, and a 1-year trial comparing LAIV with trivalent inactivated influenza vaccine (TIV). Analyses were conducted to evaluate the safety and efficacy of LAIV in the subgroup of children > or =2 years of age from these trials. Efficacy was demonstrated compared with placebo in children aged 2-7 years in seasons with matched strains (69.2% [95% CI: 52.7, 80.4] and 94.6% [95% CI: 88.6, 97.5]), seasons with primarily mismatched strains (87% [95% CI: 77.0, 92.6]), and during late season epidemics (73.8% [95% CI: 40.4, 89.4]). Compared with TIV recipients, LAIV recipients aged 2-5 years had 52.5% (95% CI: 26.7, 68.7) and 54.4% (95% CI: 41.8, 64.5) fewer cases of influenza illness against matched and mismatched strains, respectively. No unusual or unexpected adverse reactions were noted. The adverse reactions most commonly associated with LAIV were runny nose/nasal congestion and low-grade fever. Hospitalizations and medically significant wheezing were increased in children 6-11 and 6-23 months of age who received LAIV, respectively, but were not increased in children 2-5 years of age.

Shedding and immunogenicity of live attenuated influenza vaccine virus in subjects 5-49 years of age

BACKGROUND Live attenuated influenza vaccine (LAIV) is indicated for influenza prevention in persons 2-49 years of age. This study describes the incidence and duration of vaccine virus shedding and serum immune responses after receipt of LAIV. METHODS A single open-label dose of trivalent LAIV was administered intranasally to 344 subjects in 3 age cohorts: 5-8, 9-17, and 18-49 years of age. Shedding was determined by culture of nasal swabs (on days 1-7, daily; days 9-25, every other day; and day 28). Immunogenicity was measured as serum strain-specific hemagglutinin inhibition (HAI) titers (days 0, 28). RESULTS Among subjects aged 5-8 years, 9-17 years, and 18-49 years, 44%, 27%, and 17% of subjects, respectively, shed vaccine virus after vaccination, and the mean number of positive samples per subject was 2.2, 1.8, and 1.5, respectively. Shedding occurred on days 1-11 postvaccination. Shedding incidence peaked on day 2, and maximum observed titers were highest on days 2-3 (<5, <4, and <3 log(10)TCID(50)/mL, respectively, by age group). Despite positive cultures, all titers were <1 log(10)TCID(50)/mL after days 10, 6, and 6, respectively, by age group. Shedding incidence was inversely correlated to age and baseline serum HAI titer. The seroresponse rate (4-fold rise in HAI) to at least 1 strain was 59% (68%, 64%, and 47%, respectively, by age group), and strain-specific rates were higher in baseline seronegative/serosusceptible subjects. Reactogenicity, most commonly runny nose, headache, and sore throat, was not associated with shedding or seroresponse. CONCLUSIONS This is the first study to comprehensively evaluate nasal shedding of LAIV in individuals 5-49 years of age. Shedding was generally of short duration and at low titers. Study findings support the current recommendation of the Advisory Committee on Immunization Practices that LAIV recipients should only avoid contact with severely immunosuppressed persons (e.g., hematopoietic stem cell transplant recipients) for 7 days after vaccination.

Current status of live attenuated influenza vaccine in the United States for seasonal and pandemic influenza

Abstract  A live attenuated influenza vaccine (LAIV) is currently approved in the United States for the prevention of influenza in individuals 2–49 years of age. This article summarizes the available data describing the safety and efficacy of LAIV for the prevention of influenza in both children and adults. LAIV is administered as an intranasal spray and has been shown to provide high levels of efficacy against influenza illness caused by both matched and mismatched strains in children and adults. In studies comparing LAIV and inactivated influenza vaccine in children, LAIV recipients experienced 35–53% fewer cases of culture‐confirmed influenza illness caused by antigenically matched strains. Protection through a second influenza season against antigenically matched strains has also been seen in children. In adults, definitive comparative studies of LAIV and inactivated vaccine have not been conducted and no statistically significant differences in efficacy have been demonstrated. The most common adverse reactions with LAIV include runny nose/nasal congestion in all age groups, fever >100°F in children, and sore throat in adults. Formulations of LAIV against pandemic influenza strains, including H5N1, H9N2, and H7N3, are currently being tested in preclinical and phase I clinical studies.

The efficacy of intranasal live attenuated influenza vaccine in children 2 through 17 years of age: A meta-analysis of 8 randomized controlled studies

BACKGROUND Nine randomized controlled clinical trials, including approximately 26,000 children aged 6 months to 17 years, have evaluated the efficacy of live attenuated influenza vaccine (LAIV) against culture-confirmed influenza illness compared with placebo or trivalent inactivated influenza vaccine (TIV). The objective of the current analysis was to integrate available LAIV efficacy data in children aged 2-17 years, the group for whom LAIV is approved for use. METHODS A meta-analysis was conducted using all available randomized controlled trials and a fixed-effects model. Cases caused by drifted influenza B were analyzed as originally classified and with all antigenic variants classified as dissimilar. RESULTS Five placebo-controlled trials (4 were 2-season trials) and 3 single-season TIV-controlled trials were analyzed. Compared with placebo, year 1 efficacy of 2 doses of LAIV was 83% (95% CI: 78, 87) against antigenically similar strains; efficacy was 87% (95% CI: 78, 93), 86% (95% CI: 79, 91), and 76% (95% CI: 63, 84) for A/H1N1, A/H3N2, and B, respectively. Classifying B variants as dissimilar, efficacy against all similar strains was 87% (95% CI: 83, 91) and 93% (95% CI: 83, 97) against similar B strains. Year 2 efficacy was 87% (95% CI: 82, 91) against similar strains. Compared with TIV, LAIV recipients experienced 44% (95% CI: 28, 56) and 48% (95% CI: 38, 57) fewer cases of influenza illness caused by similar strains and all strains, respectively. LAIV efficacy estimates for children from Europe, the United States, and Middle East were robust and were similar to or higher than those for the overall population. CONCLUSIONS In children aged 2-17 years, LAIV demonstrated high efficacy after 2 doses in year 1 and revaccination in year 2, and greater efficacy compared with TIV. This meta-analysis provides precise estimates of LAIV efficacy among the approved pediatric age group.

The efficacy of live attenuated influenza vaccine against influenza-associated acute otitis media in children.

Background: Acute otitis media (AOM) is a frequent complication of influenza in young children. Influenza vaccination is known to protect against AOM by preventing influenza illness. We sought to determine the efficacy of the live attenuated influenza vaccine (LAIV) against influenza-associated AOM compared with placebo and trivalent inactivated influenza vaccine (TIV). LAIV is approved for eligible children aged ≥2 years in the United States and in several other countries. Methods: AOM incidence data from 6 randomized, double-blind, placebo-controlled trials and 2 randomized, double-blind, TIV-controlled trials in children 6 to 83 months of age were pooled and analyzed. Results: A total of 290 cases of AOM were identified in 24,046 study subjects. LAIV efficacy against influenza-associated AOM was 85.0% (95% confidence interval [CI], 78.3%–89.8%) compared with placebo and 54.0% (95% CI, 27.0%–71.7%) compared with TIV. Efficacy trended higher in those ≥24 months of age compared with those aged 6 to 23 months. In placebo-controlled trials, among children who acquired influenza despite vaccination, AOM was diagnosed in 10.3% of LAIV recipients and 16.8% of placebo recipients, representing a 38.2% (95% CI, 11.0%–58.2%) relative reduction in the development of AOM. In TIV-controlled studies, among subjects with breakthrough influenza illness, the proportions of LAIV and TIV recipients who developed AOM were similar. Conclusions: Children receiving LAIV had a high level of protection against influenza-associated AOM when compared with placebo or TIV. This was most evident in children older than 2 years, for whom LAIV is indicated. LAIV recipients who contracted breakthrough influenza illness despite vaccination developed AOM at a significantly lower rate than did unvaccinated children who developed influenza.