Evaluating vaccination policies to accelerate measles elimination in China: a meta-population modelling study

Abstract Background Measles is among the most highly infectious human diseases. By virtue of increasingly effective childhood vaccination, together with targeted supplemental immunization activities (SIAs), health authorities in the People’s Republic of China have reduced measles’ reproduction numbe...

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Published in:International journal of epidemiology 2019-08, Vol.48 (4), p.1240-1251
Main Authors: Hao, Lixin, Glasser, John W, Su, Qiru, Ma, Chao, Feng, Zhilan, Yin, Zundong, Goodson, James L, Wen, Ning, Fan, Chunxiang, Yang, Hong, Rodewald, Lance E, Feng, Zijian, Wang, Huaqing
Format: Article
Language:English
Subjects:
Adolescent
Adult
Aged
Child
Child, Preschool
China - epidemiology
Communicable Disease Control
Cross-Sectional Studies
Disease Susceptibility
Female
Health Policy
Humans
Infant
Infant, Newborn
Logistic Models
Male
Measles - epidemiology
Measles - prevention & control
Measles Vaccine - administration & dosage
Middle Aged
Models, Biological
Vaccination - legislation & jurisprudence
Young Adult
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Summary:Abstract Background Measles is among the most highly infectious human diseases. By virtue of increasingly effective childhood vaccination, together with targeted supplemental immunization activities (SIAs), health authorities in the People’s Republic of China have reduced measles’ reproduction number from about 18 to 2.3. Despite substantial residual susceptibility among young adults, more in some locales than others, sustained routine childhood immunization likely would eliminate measles eventually. To support global eradication efforts, as well as expedite morbidity and mortality reductions in China, we evaluated alternative SIAs via mechanistic mathematical modelling. Methods Our model Chinese population is stratified by immune status (susceptible to measles infection; infected, but not yet infectious; infectious; and recovered or immunized), age (0, 1–4, 5–9, …, 65+ years) and location (31 provinces). Contacts between sub-populations are either empirical or a mixture of preferential and proportionate with respect to age and decline exponentially with distance between locations at age-dependent rates. We estimated initial conditions and most parameters from recent cross-sectional serological surveys, disease surveillance and demographic observations. Then we calculated the reproduction numbers and gradient of the effective number with respect to age- and location-specific immunization rates. We corroborated these analytical results by simulating adolescent and young adult SIAs using a version of our model in which the age-specific contact rates vary seasonally. Results Whereas the gradient indicates that vaccinating young adults generally is the optimal strategy, simulations indicate that a catch-up campaign among susceptible adolescent schoolchildren would accelerate elimination, with timing dependent on uptake. Conclusions These results are largely due to indirect effects (i.e. fewer infections than immunized people might otherwise cause), which meta-population models with realistic mixing are uniquely capable of reproducing accurately.
ISSN:0300-5771
1464-3685
1464-3685
DOI:10.1093/ije/dyz058