Tropical Health LLP, Baltimore, USA.
Center for Applied Malaria Research and Evaluation, Tulane University, New Orleans, USA.
Malar J. 2023 Jun 30;22(1):200. doi: 10.1186/s12936-023-04609-z.
Insecticide-treated nets (ITNs) have served as the cornerstone of malaria vector control in sub-Saharan Africa for the past two decades. Over 2.5 billion ITNs have been delivered since 2004 primarily through periodic mass distribution campaigns scheduled at approximately three-year intervals, aligning with the expected lifespan of nets. Recent work indicates that ITN retention times are less than two years in most countries, raising key questions for quantification approaches and delivery frequency for ITN distribution. This paper models several quantification approaches for five typical ITN distribution strategies, estimates the proportion of the population with access to an ITN, and presents recommended quantification approaches to meet global targets for ITN access and use.
A stock and flow model with annual timesteps was used to model ITN distribution and resulting ITN access for 2020-2035 under five scenarios in 40 countries: (1) three-year mass campaigns, (2) full-scale annual continuous distribution, (3) three-year mass campaigns plus continuous distribution in the years between campaigns, (4) three-year mass campaigns at different quantification approaches, (5) two-year mass campaigns at different quantification approaches. All scenarios included ITN distribution to pregnant women at antenatal clinics and infants at immunization visits.
The current status quo of conducting mass campaigns every three years using a population/1.8 quantifier is insufficient to achieve or maintain targets of 80% population access to ITNs in most malaria-endemic countries, given most estimated retention times are less than three years. Tailored three- or two-year mass campaigns were less efficient than annual continuous distribution strategies in nearly all settings. For countries with at least 2.5 year median ITN retention times, full scale continuous distribution provided better ITN access while needing 20-23% fewer ITNs compared to current mass campaigns.
Given variation in ITN retention times across countries, tailored quantification approaches for mass campaigns and continuous distribution strategies are warranted. Continuous distribution strategies are likely to offer more efficient ways to maintain ITN coverage, with fewer nets, where ITN retention times are at least two and a half years. National malaria programmes and their funding partners should work to increase the number of ITNs available to those vulnerable to malaria, while at the same time working to extend the useful life of these critical commodities.
在过去的二十年中,经杀虫剂处理的蚊帐(ITN)一直是撒哈拉以南非洲地区疟疾媒介控制的基石。自 2004 年以来,已经发放了超过 25 亿顶 ITN,主要通过每三年左右定期进行大规模分发活动来发放,这与网的预期寿命一致。最近的研究表明,在大多数国家,ITN 的保留时间都不到两年,这对 ITN 分发的量化方法和频率提出了关键问题。本文为五种典型的 ITN 分发策略中的几种量化方法建模,估计了有 ITN 可及性的人口比例,并提出了满足全球 ITN 可及性和使用率目标的推荐量化方法。
使用年度时间步长的存量和流量模型,在 40 个国家的五个方案下,对 2020 年至 2035 年的 ITN 分布和由此产生的 ITN 可及性进行建模:(1)三年一次的大规模运动;(2)全面的年度连续分布;(3)在运动之间的年份进行三年一次的大规模运动和连续分布;(4)三年一次的大规模运动,采用不同的量化方法;(5)两年一次的大规模运动,采用不同的量化方法。所有方案都包括在产前诊所向孕妇和免疫接种点向婴儿分发 ITN。
鉴于大多数估计的保留时间都不到三年,因此,按照目前每三年进行一次大规模运动并使用人口/1.8 量化器的现状,要实现或维持大多数疟疾流行国家 80%人口获得 ITN 的目标是不够的。在几乎所有情况下,针对特定人群的三年或两年一次的大规模运动都不如年度连续分布策略有效。对于中位 ITN 保留时间至少为 2.5 年的国家,全面的连续分布策略提供了更好的 ITN 可及性,同时与目前的大规模运动相比,所需的 ITN 数量减少了 20-23%。
鉴于各国 ITN 保留时间的差异,有必要为大规模运动和连续分布策略制定定制的量化方法。在 ITN 保留时间至少为 2.5 年的情况下,连续分布策略可能是维持 ITN 覆盖率的更有效方法,所需的网数量更少。国家疟疾规划及其供资伙伴应努力增加对那些易受疟疾影响的人的 ITN 供应,同时努力延长这些关键商品的使用寿命。
Zotero 插件
