评估美洲寨卡病毒的疫苗接种策略。
Evaluating Vaccination Strategies for Zika Virus in the Americas.
机构信息
Center for Infectious Disease Modeling and Analysis, Yale School of Public Health, New Haven, Connecticut (D.P.D., M.L.N., A.S.P., A.P.G.).
Center for Infectious Disease Modeling and Analysis, Yale School of Public Health, New Haven, Connecticut, and Center for Vaccine Development, University of Maryland School of Medicine, Baltimore, Maryland (M.C.F.).
出版信息
Ann Intern Med. 2018 May 1;168(9):621-630. doi: 10.7326/M17-0641. Epub 2018 Apr 3.
BACKGROUND
Mosquito-borne and sexually transmitted Zika virus has become widespread across Central and South America and the Caribbean. Many Zika vaccine candidates are under active development.
OBJECTIVE
To quantify the effect of Zika vaccine prioritization of females aged 9 to 49 years, followed by males aged 9 to 49 years, on incidence of prenatal Zika infections.
DESIGN
A compartmental model of Zika transmission between mosquitoes and humans was developed and calibrated to empirical estimates of country-specific mosquito density. Mosquitoes were stratified into susceptible, exposed, and infected groups; humans were stratified into susceptible, exposed, infected, recovered, and vaccinated groups. Age-specific fertility rates, Zika sexual transmission, and country-specific demographics were incorporated.
SETTING
34 countries and territories in the Americas with documented Zika outbreaks.
TARGET POPULATION
Males and females aged 9 to 49 years.
INTERVENTION
Age- and sex-targeted immunization using a Zika vaccine with 75% efficacy.
MEASUREMENTS
Annual prenatal Zika infections.
RESULTS
For a base-case vaccine efficacy of 75% and vaccination coverage of 90%, immunizing females aged 9 to 49 years (the World Health Organization target population) would reduce the incidence of prenatal infections by at least 94%, depending on the country-specific Zika attack rate. In regions where an outbreak is not expected for at least 10 years, vaccination of women aged 15 to 29 years is more efficient than that of women aged 30 years or older.
LIMITATION
Population-level modeling may not capture all local and neighborhood-level heterogeneity in mosquito abundance or Zika incidence.
CONCLUSION
A Zika vaccine of moderate to high efficacy may virtually eliminate prenatal infections through a combination of direct protection and transmission reduction. Efficiency of age-specific targeting of Zika vaccination depends on the timing of future outbreaks.
PRIMARY FUNDING SOURCE
National Institutes of Health.
背景
蚊媒传播和性传播的寨卡病毒已在中美洲和南美洲以及加勒比地区广泛传播。许多寨卡疫苗候选物正在积极开发中。
目的
定量分析优先为 9 至 49 岁女性接种寨卡疫苗,随后为 9 至 49 岁男性接种寨卡疫苗对产前寨卡感染发生率的影响。
设计
开发了一种寨卡病毒在蚊子和人类之间传播的房室模型,并根据特定国家蚊子密度的经验估计进行了校准。蚊子分为易感、暴露和感染群体;人类分为易感、暴露、感染、恢复和接种疫苗群体。纳入了特定年龄的生育率、寨卡病毒的性传播以及特定国家的人口统计学数据。
设置
记录有寨卡病毒暴发的 34 个美洲国家和地区。
目标人群
9 至 49 岁的男性和女性。
干预措施
使用效力为 75%的寨卡疫苗进行年龄和性别针对性免疫接种。
测量指标
每年产前寨卡感染数。
结果
对于效力为 75%的基本案例疫苗和 90%的疫苗接种覆盖率,免疫接种 9 至 49 岁的女性(世界卫生组织目标人群)将使产前感染的发生率至少降低 94%,具体取决于特定国家的寨卡病毒发病率。在预计至少 10 年内不会发生疫情的地区,为 15 至 29 岁的女性接种疫苗比为 30 岁及以上的女性接种疫苗更有效。
局限性
人群水平建模可能无法捕捉到蚊子丰度或寨卡病毒发病率的所有局部和邻里水平的异质性。
结论
中等至高度效力的寨卡疫苗可能通过直接保护和减少传播的结合,几乎消除产前感染。寨卡疫苗接种针对特定年龄的效率取决于未来疫情爆发的时间。
主要资金来源
美国国立卫生研究院。
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