使用模型和地图来告知目标产品概况和首选产品特征:沃尔巴克氏菌替换的例子

Katie Tiley, J. Entwistle, Bruce Thomas, L. Yakob, O. Brady
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引用次数: 0

摘要

登革热、寨卡病毒和黄热病等由埃及伊蚊传播的疾病在全球的流行率正在上升,但有希望的新型蚊虫控制技术的发展可能会扭转这一趋势。世界卫生组织发布的目标产品概况(TPPs)和首选产品特性(PPCs)文件可以指导新产品和产品组合从概念验证过渡到实际使用的研究和开发途径。方法使用登革热病例和经济负担的高分辨率全球地图,得出规划成本目标,以支持替代沃尔巴克氏体的跨太平洋伙伴关系。采用区隔昆虫学模型探讨了释放大小、间隔和时间对替换速度和可接受性的影响。为了支持PPC对混合抑制-替换方法的支持,我们测试了沃尔巴克氏体替换是否可以更快,更容易接受或以更低的成本实现,如果之前有一个蚊子抑制计划。我们展示了模型如何揭示权衡,确定定量阈值并优先考虑进一步发展的领域和干预策略。我们估计,若要在足够多的地区部署沃尔巴克氏体替代剂,从而为将全球登革热负担减少25%做出重大贡献(符合世卫组织2030年的目标),成本最终必须降低到每人受保护或更少7.63至0.24美元之间。抑制,特别是诱导蚊子不育的干预措施,可使实现固定所需的沃尔巴克氏体蚊子数量减少多达80%。混合方法也可以更快地实现固定,并可能提高可接受性,但如果需要在抑制技术上进行大量新投资,则可能无法证明其成本是合理的。在这里,我们证明了在开发TPPs和PPCs时,专用模型可以为跨学科专家小组提供价值。这些模型可以被产品开发人员用来确定新的沃尔巴克氏菌替代产品的优先级和形成开发决策。
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Using models and maps to inform Target Product Profiles and Preferred Product Characteristics: the example of Wolbachia replacement
Background The global prevalence of diseases transmitted by Aedes aegypti mosquitoes, such as dengue, Zika and Yellow Fever, is increasing, but development of promising new mosquito control technologies could reverse this trend. Target Product Profiles (TPPs) and Preferred Product Characteristics (PPCs) documents issued by the World Health Organization can guide the research and development pathways of new products and product combinations transitioning from proof of concept to operational use. Methods We used high resolution global maps of the case and economic burden of dengue to derive programmatic cost targets to support a TPP for Wolbachia replacement. A compartmental entomological model was used to explore how release size, spacing and timing affect replacement speed and acceptability. To support a PPC for a hybrid suppress-then-replace approach we tested whether Wolbachia replacement could be achieved faster, more acceptably or at a lower cost if preceded by a mosquito suppression programme. Results We show how models can reveal trade-offs, identify quantitative thresholds and prioritise areas and intervention strategies for further development. We estimate that for Wolbachia replacement to be deployable in enough areas to make major contributions to reducing global dengue burden by 25% (in line with 2030 WHO targets), cost must ultimately be reduced to between $7.63 and $0.24 (USD) per person protected or less. Suppression, particularly interventions that induce mosquito sterility, can reduce the number of Wolbachia mosquitoes necessary to achieve fixation by up to 80%. A hybrid approach can also achieve fixation faster and potentially improve acceptability, but may not justify their cost if they require major new investments in suppression technologies. Conclusions Here we demonstrate the value dedicated modelling can provide for interdisciplinary groups of experts when developing TPPs and PPCs. These models could be used by product developers to prioritise and shape development decisions for new Wolbachia replacement products.
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来源期刊
Gates Open Research
Gates Open Research Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
3.60
自引率
0.00%
发文量
90
期刊最新文献
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