在疟疾传播变化的情况下，RTS,S/AS01 疫苗接种计划的模拟影响。

Simulated impact of RTS,S/AS01 vaccination programs in the context of changing malaria transmission.

机构信息

Department of Epidemiology and Public Health, Swiss Tropical and Public Health Institute, Basel, Switzerland.

出版信息

PLoS One. 2012;7(3):e32587. doi: 10.1371/journal.pone.0032587. Epub 2012 Mar 6.

DOI:10.1371/journal.pone.0032587

PMID:22412892

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3295753/

Abstract

INTRODUCTION

The RTS,S/AS01 pre-erythrocytic malaria vaccine is in phase III clinical trials. It is critical to anticipate where and how it should be implemented if trials are successful. Such planning may be complicated by changing levels of malaria transmission.

METHODS/RESULTS: Computer simulations were used to examine RTS,S/AS01 impact, using a vaccine profile based on phase II trial results, and assuming that protection decays only slowly. Settings were simulated in which baseline transmission (in the absence of vaccine) was fixed or varied between 2 and 20 infectious mosquito bites per person per annum (ibpa) over ten years. Four delivery strategies were studied: routine infant immunization (EPI), EPI plus infant catch-up, EPI plus school-based campaigns, and EPI plus mass campaigns. Impacts in changing transmission settings were similar to those in fixed settings. Assuming a persistent effect of vaccination, at 2 ibpa, the vaccine averted approximately 5-7 deaths per 1000 doses of vaccine when delivered via mass campaigns, but the benefit was less at higher transmission levels. EPI, catch-up and school-based strategies averted 2-3 deaths per 1000 doses in settings with 2 ibpa. In settings where transmission was decreasing or increasing, EPI, catch-up and school-based strategies averted approximately 3-4 deaths per 1000 doses.

DISCUSSION

Where transmission is changing, it appears to be sufficient to consider simulations of pre-erythrocytic vaccine impact at a range of initial transmission levels. At 2 ibpa, mass campaigns averted the most deaths and reduced transmission, but this requires further study. If delivered via EPI, RTS,S/AS01 could avert approximately 6-11 deaths per 1000 vaccinees in all examined settings, similar to estimates for pneumococcal conjugate vaccine in African infants. These results support RTS,S/AS01 implementation via EPI, for example alongside vector control interventions, providing that the phase III trials provide support for our assumptions about efficacy.

摘要

简介

RTS,S/AS01 疟疾疫苗是一种处于 III 期临床试验阶段的疟疾疫苗。如果临床试验成功，迫切需要对疫苗的使用地区和使用方式进行预测。但是疟疾传播水平的变化可能会使疫苗的规划变得复杂。

方法/结果：我们使用计算机模拟的方法，基于 II 期临床试验结果来预测 RTS,S/AS01 的效果，并假设疫苗的保护作用只会缓慢减弱。我们模拟了十年间基线传播水平（没有疫苗的情况下）固定在 2-20 个人/年（ibpa）或变化的情况。研究了四种疫苗接种策略：常规婴儿免疫（EPI）、EPI 加婴儿补种、EPI 加学校接种、EPI 加大规模接种。在不同的传播水平下，疫苗的效果与固定的传播水平下相似。假设疫苗接种的效果持续存在，在 2ibpa 时，大规模接种疫苗可以避免每 1000 剂疫苗接种大约 5-7 例死亡，但在传播水平较高的情况下，效果会减弱。在 2ibpa 传播水平下，EPI、补种和学校接种策略可以避免每 1000 剂疫苗接种 2-3 例死亡。在传播水平下降或上升的情况下，EPI、补种和学校接种策略可以避免每 1000 剂疫苗接种大约 3-4 例死亡。

讨论

在传播水平变化的情况下，似乎只需要考虑在一系列初始传播水平下进行的疫苗效果的模拟。在 2ibpa 时，大规模接种可以避免最多的死亡和减少传播，但这需要进一步研究。如果通过 EPI 接种疫苗，RTS,S/AS01 可以在所有研究的环境中避免每 1000 名疫苗接种者约 6-11 例死亡，与非洲婴儿中肺炎球菌结合疫苗的估计值相似。这些结果支持通过 EPI 实施 RTS,S/AS01，例如与病媒控制干预措施一起实施，前提是 III 期临床试验为我们对疫苗效力的假设提供支持。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9349/3295753/bc918da5b2d4/pone.0032587.g001.jpg

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在疟疾传播变化的情况下，RTS,S/AS01 疫苗接种计划的模拟影响。

Simulated impact of RTS,S/AS01 vaccination programs in the context of changing malaria transmission.

机构信息

出版信息

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DISCUSSION

简介

讨论

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