Host characteristics impacting Rotarix immunogenicity and correlates of protection for rotavirus gastroenteritis, a multi-site pooled analysis of individual-level clinical trial data

Host characteristics impacting Rotarix immunogenicity and correlates of protection for rotavirus gastroenteritis, a multi-site pooled analysis of individual-level clinical trial data

Julia Baker's work will be funded by her current PhD studentship stipend. Dr. Ben Lopman will contribute time through established rotavirus research grants. Dr. Michael Haber will be providing guidance throughout the research with financial support for his time from the Department of Biostatistics and Bioinformatics at Emory University or another source.

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Extensive evaluations of two rotavirus vaccines, Rotarix (GlaxoSmithKline) and RotaTeq (Merck), have demonstrated their dramatic role in reducing the risk of severe rotavirus disease among young children.(1-5) Despite this progress, rotavirus remains the leading cause of severe diarrheal disease among children under 5 years of age globally, responsible for 215,000 deaths annually.(6)

A central impediment to further reducing the rotavirus burden is the relatively low efficacy of the vaccines in settings where the incidence of severe disease and death is highest.(6,7) Vaccine efficacy ranges from 80-90% in areas of low child mortality and only 40-60% in settings with high child mortality.(1,8) The mechanisms behind this variation are not fully understood(9) with possible hypotheses including differences in circulating strains(10) or host characteristics such as breastfeeding and nutrition, and co-infection with other pathogens.(1,11) Identification of factors that contribute to vaccine immunogenicity may provide insight into potentially modifiable factors for improving vaccine efficacy.

Anti-rotavirus immunoglobulin A (IgA) antibodies are being explored as possible markers for protection(12) and have proven valuable as possible predictors of vaccine efficacy on the aggregate level, when comparing countries by income level.(13) Findings related to individual-level correlates of protection, however, have been inconsistent(14-17) and require further exploration.

To promote optimal rotavirus vaccine strategies and evaluation of new interventions, this study aims to investigate host characteristics that contribute to immune response and, based upon these findings, identify correlates of protection for rotavirus gastroenteritis at the individual level.

This pooled analysis will utilize individual-level data on infants from countries of varying levels of income who participated in GlaxoSmithKline's Rotarix phase II and phase III clinical trials. All relevant demographic, social and behavioral host characteristics available in the data (eg. gender, age at first dose, nutritional status, breastfeeding status, and country of residence) will be evaluated via regression analysis to determine their association with clinical endpoints for immunogenicity, measured by serum anti-rotavirus IgA antibody titer and anti-rotavirus IgA antibody seroconversion. To identify correlates of protection, post-immunization serum IgA antibody data will be analyzed to identify a cutoff at which vaccination provides protection from severe rotavirus gastroenteritis within one and two years after administration of the vaccine. The findings from this research will be communicated to the public through peer-reviewed literature to help guide relevant programmatic and policy decisions.

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},{ "PostingID": 1283, "Title": "GSK-101555", "Description": "A phase II, double-blind, randomized, placebo-controlled study to compare the immunogenicity, reactogenicity and safety of 2 different formulations of GSK Biologicals' live attenuated human rotavirus (HRV) vaccine given as a two-dose primary vaccination in healthy infants previously uninfected with HRV" },{ "PostingID": 1284, "Title": "GSK-444563/013", "Description": "A phase II, randomized, double-blind, placebo-controlled study of safety, reactogenicity and immunogenicity of 2 or 3 doses of GSK Biologicals' oral live attenuated human rotavirus vaccine at 10E6.5 CCID50 viral concentration in healthy infants (approximately 5-10 weeks old) in the Republic of South Africa" },{ "PostingID": 1285, "Title": "GSK-444563/022", "Description": "A phase II, double-blind, randomized, placebo-controlled study to assess the safety, reactogenicity and immunogenicity of three doses of GlaxoSmithKline (GSK) Biologicals' oral live attenuated 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