Bayesian Hierarchical Evaluation of Dose-Response for Peanut Allergy in Clinical Trial Screening. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association Haber, L. T., Reichard, J. F., Henning, A. K., Dawson, P. n., Chinthrajah, R. S., Sindher, S. B., Long, A. n., Vincent, M. J., Nadeau, K. C., Allen, B. C. 2021: 112125

Abstract

Risk-based labeling based on the minimal eliciting doses (EDs) in sensitized populations is a potential replacement for precautionary allergen labeling of food allergens. We estimated the dose-response distribution for peanut allergen using data from double-blind placebo-controlled food challenges (DBPCFCs) conducted in the US at multiple sites, testing a population believed to be similar to the general U.S. food allergic population. Our final (placebo-adjusted) dataset included 548 challenges of 481 subjects. Bayesian hierarchical analysis facilitated model fitting, and accounted for variability associated with various levels of data organization. The data are best described using a complex hierarchical structure that accounts for inter-individual variability and variability across study locations or substudies. Bayesian model averaging could simultaneously consider the fit of multiple models, but the Weibull model dominated so strongly that model averaging was not needed. The ED01 and ED05 (and 95% credible intervals) are 0.052 (0.021, 0.13) and 0.49 (0.22, 0.97) mg peanut protein, respectively. Accounting for challenges with severe reactions at the LOAEL, by using the dose prior to the LOAEL as the new LOAEL, the ED01 drops to 0.029 (0.014, 0.074) mg peanut protein. Our results could aid in establishing improved food labeling guidelines in the management of food allergies.

View details for DOI 10.1016/j.fct.2021.112125

View details for PubMedID 33722597