Statistical modeling alongside observational data predicts long-term immunogenicity of one dose and two doses of pediatric hepatitis A vaccine in the Mendoza province of Argentina

C Espul; H Cuello; I Lo Castro; C Bravo; Y Thollot; J Voznica; C Vigne; L Coudeville

doi:10.1016/j.vaccine.2019.12.049

Statistical modeling alongside observational data predicts long-term immunogenicity of one dose and two doses of pediatric hepatitis A vaccine in the Mendoza province of Argentina

Vaccine. 2020 Feb 11;38(7):1715-1722. doi: 10.1016/j.vaccine.2019.12.049. Epub 2020 Jan 9.

Authors

C Espul¹, H Cuello², I Lo Castro², C Bravo³, Y Thollot⁴, J Voznica⁵, C Vigne⁶, L Coudeville⁷

Affiliations

¹ Ministerio de Salud/Hospital Central de Mendoza, Mendoza, Argentina. Electronic address: cespul@mendoza.gov.ar.
² Seccíon Virología, Hospital Central de Mendoza, Mendoza, Argentina.
³ Sanofi Pasteur, Lyon, France. Electronic address: Catherine.Bravo@sanofi.com.
⁴ Sanofi Pasteur, Lyon, France. Electronic address: Yael.Thollot@sanofi.com.
⁵ Sanofi Pasteur, Lyon, France; Department of Biology, École Normale Supérieure Paris-Saclay, Cachan, France. Electronic address: Jakub.Voznica@pasteur.fr.
⁶ Sanofi Pasteur, Lyon, France. Electronic address: claire.vigne@sanofi.com.
⁷ Sanofi Pasteur, Lyon, France. Electronic address: Laurent.Coudeville@sanofi.com.

PMID: 31928855
DOI: 10.1016/j.vaccine.2019.12.049

Abstract

Background: Follow-up for anti-hepatitis A (HA) antibody persistence up to 10 years was conducted after implementation of universal vaccination against HA virus (HAV) in Mendoza, Argentina. Based on these data, statistical modeling was used to predict the antibody persistence to 30 years.

Methods: A non-interventional study evaluated long-term immunogenicity (geometric mean concentrations [GMCs] and seroprotection rate) following routine vaccination with 1 dose (Group 1: N = 436) or 2 doses (Group 2: N = 108) of HA vaccine. Associated statistical modeling based on a Bayesian approach of mixed effects models on log transformed titers evaluated three models (linear, piecewise linear, and exponential decay, with and without a natural boosting effect).

Results: From the initial cohort, 9 participants (Group 1) and 1 participant (Group 2) showed antibody titers below the seroprotective threshold and received a booster. At Year 10, 190 (Group 1) and 51 (Group 2) participants remained in the study without a booster dose and all were seroprotected. Regarding statistical modeling, the piecewise linear model showed the best fit and demonstrated high and similar seroprotection for each schedule up to 30 years (89% [1-dose schedule], 85% [2-dose schedule]). The 2-dose schedule showed higher GMC (95% CI) than the 1-dose schedule (Year 10: 352 [271-456] versus 78 [69.8-87.6] mIU/mL) and Year 30 (predicted) (37 [13-97] versus 19 [11-34] mIU/mL). Natural boosting had little impact on predicted seroprotection rates at 30 years for the 1-dose schedule (89% [0.8-0.96] and 84% [0.73-0.94] with and without a natural booster, respectively).

Conclusions: Long-term persistence of anti-HAV antibodies was observed up to 10 years with 1-dose and 2-dose vaccine schedules, supporting booster flexibility. Statistical modeling predicted good persistence of seroprotection for each schedule up to 30 years. Natural boosting had a limited impact on seroprotection rate predictions, enabling extrapolation of these results to non-endemic settings for traveler vaccination.

Keywords: Antibody persistence; Argentina; Hepatitis A vaccine; Single dose; Statistical modeling.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Argentina
Bayes Theorem
Hepatitis A Antibodies / blood
Hepatitis A Vaccines / immunology*
Hepatitis A* / prevention & control
Humans
Immunization, Secondary
Immunogenicity, Vaccine*
Models, Statistical*

Substances

Hepatitis A Antibodies
Hepatitis A Vaccines