2019 - 21年印度全国疫苗接种、维生素A补充及驱虫计划的空间定位与整合
Spatial targeting and integration across vaccination, vitamin A and deworming programs throughout India 2019-21.
作者信息
Rerolle Francois, Dey Arnab K, Benmarhnia Tarik, Arnold Benjamin F
机构信息
Francis I. Proctor Foundation, University of California, San Francisco, CA, USA.
Climate, Atmospheric Sciences, and Physical Oceanography, Scripps Institution of Oceanography, University of California, San Diego, CA, USA.
出版信息
Int J Epidemiol. 2024 Oct 13;53(6). doi: 10.1093/ije/dyae160.
BACKGROUND
Currently, most large-scale public health programs, such as immunization or anti-parasitic deworming, work in relative isolation. Integrating efforts across programs could potentially improve their efficiency, but identifying populations that could benefit from multiple programs has been an operational challenge.
METHODS
We analyzed a nationally representative survey conducted in India between 2019 and 2021 to assess and map coverage of seven vaccines [Bacillus Calmette-Guérin (BCG), hepatitis B, polio, diphtheria-tetanus-pertussis (DTP), haemophilus influenza type b (Hib), rotavirus and measles-containing vaccine (MCV)], plus Vitamin A supplementation and anti-parasitic deworming treatment among 86 761 children aged 1-3 years old.
RESULTS
National coverage varied widely by program, from 42% (rotavirus) to 95% (BCG). There was high correlation between district-level coverage estimates (r ≥ 0.7) and extensive spatial overlap in low-coverage populations. In simulated implementation strategies, we show that an integrated strategy that targets full immunization coverage for four core vaccines (BCG, polio, DTP, MCV) would achieve similar coverage to an optimal (but unrealistic) implementation strategy and far better coverage than multiple efforts focused on individual vaccines. Targeting the most under-vaccinated districts within states based on spatial clustering or coverage thresholds led to further improvements in full coverage per child targeted. Integration of anti-parasitic deworming or rotavirus vaccination into a core vaccine delivery mission could nearly double their coverage (from ∼45% to ∼85%).
CONCLUSIONS
Integrated delivery and geographic targeting across core vaccines could accelerate India's progress toward full immunization coverage. An integrated platform could greatly expand coverage of non-core vaccines and other child health interventions.
背景
目前,大多数大规模公共卫生项目,如免疫接种或抗寄生虫驱虫项目,都是相对独立开展工作的。整合各项目的工作有可能提高其效率,但确定能从多个项目中受益的人群一直是一个操作上的挑战。
方法
我们分析了2019年至2021年在印度进行的一项具有全国代表性的调查,以评估和绘制86761名1至3岁儿童中七种疫苗[卡介苗(BCG)、乙肝疫苗、脊髓灰质炎疫苗、白喉-破伤风-百日咳疫苗(DTP)、b型流感嗜血杆菌疫苗(Hib)、轮状病毒疫苗和含麻疹疫苗(MCV)]的接种覆盖率,以及维生素A补充剂和抗寄生虫驱虫治疗的覆盖率。
结果
各项目的全国覆盖率差异很大,从42%(轮状病毒疫苗)到95%(卡介苗)不等。地区层面的覆盖率估计之间存在高度相关性(r≥0.7),低覆盖率人群存在广泛的空间重叠。在模拟实施策略中,我们表明,针对四种核心疫苗(卡介苗、脊髓灰质炎疫苗、白喉-破伤风-百日咳疫苗、含麻疹疫苗)实现全面免疫覆盖的综合策略,将实现与最优(但不现实)实施策略相似的覆盖率,且比专注于单一疫苗的多项努力的覆盖率要好得多。根据空间聚类或覆盖率阈值,针对各州内疫苗接种率最低的地区,可进一步提高每个目标儿童的全面覆盖率。将抗寄生虫驱虫或轮状病毒疫苗接种纳入核心疫苗接种任务中,其覆盖率可几乎翻倍(从约45%提高到约85%)。
结论
核心疫苗的综合接种和地理定位可加速印度在实现全面免疫覆盖方面的进展。一个综合平台可大幅扩大非核心疫苗和其他儿童健康干预措施的覆盖范围。
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