季节性疟疾化学预防和对磺胺多辛-乙胺嘧啶具有抗药性的恶性疟原虫五突变寄生虫的传播：建模研究。

Seasonal malaria chemoprevention and the spread of Plasmodium falciparum quintuple-mutant parasites resistant to sulfadoxine-pyrimethamine: a modelling study.

机构信息

Swiss Tropical and Public Health Institute, Allschwil, Switzerland; University of Basel, Basel, Switzerland.

Liverpool School of Tropical Medicine, Liverpool, UK.

出版信息

Lancet Microbe. 2024 Sep;5(9):100892. doi: 10.1016/S2666-5247(24)00115-0. Epub 2024 Jul 9.

DOI:10.1016/S2666-5247(24)00115-0

PMID:38996497

Abstract

BACKGROUND

Seasonal malaria chemoprevention (SMC) with sulfadoxine-pyrimethamine plus amodiaquine prevents millions of clinical malaria cases in children younger than 5 years in Africa's Sahel region. However, Plasmodium falciparum parasites partially resistant to sulfadoxine-pyrimethamine (with quintuple mutations) potentially threaten the protective effectiveness of SMC. We evaluated the spread of quintuple-mutant parasites and the clinical consequences.

METHODS

We used an individual-based malaria transmission model with explicit parasite dynamics and drug pharmacological models to identify and quantify the influence of factors driving quintuple-mutant spread and predict the time needed for the mutant to spread from 1% to 50% of inoculations for several SMC deployment strategies. We estimated the impact of this spread on SMC effectiveness against clinical malaria.

FINDINGS

Higher transmission intensity, SMC coverage, and expanded age range of chemoprevention promoted mutant spread. When SMC was implemented in a high-transmission setting (40% parasite prevalence in children aged 2-10 years) with four monthly cycles to children aged 3 months to 5 years (with 95% initial coverage declining each cycle), the quintuple mutant required 53·1 years (95% CI 50·5-56·0) to spread from 1% to 50% of inoculations. This time increased in lower-transmission settings and reduced by half when SMC was extended to children aged 3 months to 10 years, or reduced by 10-13 years when an additional monthly cycle of SMC was deployed. For the same setting, the effective reduction in clinical cases in children receiving SMC was 79·0% (95% CI 77·8-80·8) and 60·4% (58·6-62·3) during the months of SMC implementation when the quintuple mutant was absent or fixed in the population, respectively.

INTERPRETATION

SMC with sulfadoxine-pyrimethamine plus amodiaquine leads to a relatively slow spread of sulfadoxine-pyrimethamine-resistant quintuple mutants and remains effective at preventing clinical malaria despite the mutant spread. SMC with sulfadoxine-pyrimethamine plus amodiaquine should be considered in seasonal settings where this mutant is already prevalent.

FUNDING

Swiss National Science Foundation and Marie Curie Individual Fellowship.

摘要

背景

季节性疟疾化学预防（SMC）用磺胺多辛-乙胺嘧啶加阿莫地喹可预防非洲萨赫勒地区 5 岁以下儿童数百万例临床疟疾病例。然而，对磺胺多辛-乙胺嘧啶（具有五重突变）部分耐药的恶性疟原虫寄生虫有可能威胁到 SMC 的保护效果。我们评估了五重突变寄生虫的传播及其临床后果。

方法

我们使用了一种基于个体的疟疾传播模型，该模型具有明确的寄生虫动力学和药物药理学模型，以确定和量化驱动五重突变传播的因素的影响，并预测突变从接种的 1%传播到 50%所需的时间，用于几种 SMC 部署策略。我们估计了这种传播对 SMC 预防临床疟疾效果的影响。

发现

更高的传播强度、SMC 覆盖率和扩大的化学预防年龄范围促进了突变的传播。当 SMC 在高传播环境中实施（2-10 岁儿童中的寄生虫流行率为 40%），每四个月对 3 个月至 5 岁的儿童进行一次 SMC（初始覆盖率每个周期下降 95%）时，五重突变从接种的 1%传播到 50%需要 53.1 年（95%CI 50.5-56.0）。在较低的传播环境中，这个时间会增加，当 SMC 扩展到 3 个月至 10 岁的儿童时，这个时间会减少一半，当 SMC 每月增加一个周期时，这个时间会减少 10-13 年。对于相同的环境，接受 SMC 的儿童的临床病例有效减少率分别为 79.0%（95%CI 77.8-80.8）和 60.4%（58.6-62.3），分别为 SMC 实施期间不存在或固定五重突变时。