Impact of rotavirus genotype and local rotavirus gastroenteritis incidence on Rotarix vaccine efficacy estimates: a multi-site pooled analysis of individual-level clinical trial data

Impact of rotavirus genotype and local rotavirus gastroenteritis incidence on Rotarix vaccine efficacy estimates: a multi-site pooled analysis of individual-level clinical trial data

Extensive evaluations of Rotarix have demonstrated its efficacy against severe rotavirus gastroenteritis among young children. However, the relatively low vaccine efficacy in high-burden settings leaves the children most at risk of serious rotavirus outcomes with the least benefit from vaccination. Heterogeneity in nutritional deficiencies, gut flora, co-infections, maternally-acquired antibodies, and immune system immaturity may all reduce immune response to rotavirus infection or vaccination. Other factors and measurement errors may also affect efficacy estimates. Rotavirus diversity could partially explain the variation in efficacy estimates, with some evidence suggesting lowered vaccine protection against certain genotypes. Specifically, the effectiveness of rotavirus vaccines may be reduced against one specific genotype (G2P[4]) compared to protection against other rotavirus genotypes. High child mortality regions, which are also those with greater rotavirus burden, have much greater genotype diversity than low child mortality regions. In settings with greater genotype diversity, differing genotype-specific efficacies may explain why the ‘overall' efficacy is lower in high burden settings. A challenge to investigating this question is the limited statistical power available in most individual trials when data were stratified by rotavirus genotype. By pooling data from rigorously-conducted clinical trials, we can assess the extent to which lower overall efficacy in low income settings is a result of reduced protection against certain genotypes.The imperfectly immunizing nature of rotavirus infections and vaccination further complicates assessment of vaccine efficacy. Rotavirus infections are imperfectly immunizing in the sense that several infections are required for complete immunity, so more exposure to rotavirus results in faster acquisition of immunity. When rotavirus incidence is higher, the unvaccinated accumulate immunity faster than they would in a low incidence setting. Because incidence impacts the rate of change in individual susceptibility, comparing efficacy between settings with different incidence rates may result in different estimates of protection, even when biological protection offered by vaccine is the same. Only after accounting for incidence can study populations in different locations be considered comparable. Local incidence differences have not been extensively studied in the context of rotavirus, leaving the magnitude of bias on vaccine efficacy estimates uncertain.This extended analysis aims to evaluate the extent to which rotavirus genotype and local incidence rates influence vaccine efficacy estimates. The pooled analysis will use individual-level data collected for GSK's Rotarix Phase II and Phase III clinical trials. Regression analyses will be used to evaluate 1) genotype-specific vaccine efficacy, and 2) the relationship between local incidence rates and vaccine efficacy estimates. The findings from this research will be disseminated through publication in peer-reviewed journals to help guide current and future evaluation of rotavirus vaccines.

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Amin AB, Tate JE, Waller LA, Lash TL, Lopman BA. Monovalent Rotavirus Vaccine Efficacy Against Different Rotavirus Genotypes: A Pooled Analysis of Phase II and III Trial Data. Clin Infect Dis. 2023 Feb 8;76(3)
DOI: 10.1093/cid/ciac699