A study to identify risk factors that modify Rotarix efficacy and influence the time to rotavirus gastroenteritis among vaccinated and unvaccinated African infants.

Aim 1: To identify demographic and clinical characteristics that modify the effect of Rotarix among infants in Malawi and South Africa. I will determine if there is a significant interaction (a = 0.1) between treatment type (Rotarix versus placebo) and baseline infant characteristics on the effect of vaccine. The effect of the vaccine will be analyzed for all rotavirus gastroenteritis cases and severe rotavirus gastroenteritis cases. Modifiers assessed will depend on the data available; proposed modifiers to be assessed are age at vaccination, breastfeeding status, nutrition status, birth weight, gestational age at birth, and co-administration of vaccines and medicines at time of vaccination. Aim 1 will utilize the randomized design of the clinical trial and will be completed by conducting Poisson regression. A Wald test will be used to determine if there is a significant interaction between vaccine type (Rotarix versus placebo) and baseline infant characteristics on the additive and multiplicative scales, rate differences and rate ratios, respectively. Vaccine efficacy will be calculated as 1 - IRR where IRR is the rate ratio comparing the rate of rotavirus gastroenteritis among those given Rotarix to the rate among those given placebo. Stratum specific estimates will be calculated for risk factors that modify the effect of the vaccine. I will compare the absolute (additive scale) and relative (multiplicative scale) population effects. I will also analyze the immunogenicity data to determine if the statistical interactions may be signaling a true biological effect.Aim 2: To identify demographic and clinical characteristics associated with time to breakthrough cases of rotavirus gastroenteritis after Rotarix vaccination. A breakthrough case of rotavirus gastroenteritis was defined as a case occuring 14-days after an infant had received a full vaccine series (2 Rotarix/placebo doses). I will first analyze the median time to the occurrence of breakthrough cases of rotavirus (any severity and severe) comparing the vaccinated to unvaccinated group. Next, I will conduct a cohort study of only vaccinated infants in the clinical trial. Each risk factor will be analyzed as a potential exposure variable influencing the time to occurrence of breakthrough case of rotavirus. I will conduct a crude and adjusted analysis for each variable using an accelerated failure time model to calculate the time ratios comparing levels of each risk factor. I will report the median time ratio of time to breakthrough case of rotavirus. I will also create weighted Kaplan-Meier cumulative incidence curves. In addition, I will compare the time-to-event results in the treatment (vaccine) group to the results from the placebo group to better understand how the vaccine works in these populations. Risk factors assessed will depend on the data available; proposed risk factors to be assessed are age at vaccination, breastfeeding status, nutrition status, birth weight, gestational age at birth, and co-administration of vaccines and medicines at time of vaccinationAim 3: To determine the predicted effectiveness of Rotarix when introduced into routine vaccination schedules in developing countries in Africa. Aim 3 will use the results of Aim 1 and Aim 2 to predict the effectiveness of Rotarix in developing countries. I will use baseline data of the risk factors analyzed to determine how the vaccine would be expected to perform in selected countries based on the results of these analyses. I will also utilize the parametric g-formula to predict vaccine efficacy under potential exposure contrasts. The parametric g-formula is a type of marginal structure model. These types of models are used to replicate the finding of a randomized trial in observational data. Although these data are randomized for vaccine treatment, I will use the parametric g-formula to calculate the effects of joint randomization (treatment and risk factor) to estimate the efficacy under different exposure scenarios.All analyses will be conducted using SAS software (version 9.3 for Windows, SAS Institute Inc., Cary, NC, USA). My committee will advise me throughout the data analysis process. The methodological approaches to each aim may evolve as my committee advises. My tentative committee will be Dr. Michele Jonsson-Funk (chair and pharmacoepidemiologist); Dr. Sylvia Becker-Dreps (clinician and rotavirus expert); Dr. Michael Hudgens (biostatician and vaccine expert); Dr. Daniel Westreich (infectious disease epidemiologist); and Dr. David Weber (vaccine expert/infectious disease epidemiologist).This committee is subject to the availability of the persons listed, but will include Dr. Jonsson-Funk, Dr. Becker-Dreps, and Dr. Hudgens.