Papua New Guinea Institute of Medical Research, Goroka, Eastern Highland Province 441, Papua New Guinea.
Proc Natl Acad Sci U S A. 2012 Jun 19;109(25):10030-5. doi: 10.1073/pnas.1200841109. Epub 2012 Jun 4.
Genotyping Plasmodium falciparum parasites in longitudinal studies provides a robust approach to estimating force of infection (FOI) in the presence of superinfections. The molecular parameter (mol)FOI, defined as the number of new P. falciparum clones acquired over time, describes basic malaria epidemiology and is suitable for measuring outcomes of interventions. This study was designed to test whether (mol)FOI influenced the risk of clinical malaria episodes and how far (mol)FOI reflected environmental determinants of transmission, such as seasonality and small-scale geographical variation or effects of insecticide-treated nets (ITNs). Two hundred sixty-four children 1-3 y of age from Papua New Guinea were followed over 16 mo. Individual parasite clones were tracked longitudinally by genotyping. On average, children acquired 5.9 (SD 9.6) new P. falciparum infections per child per y. (mol)FOI showed a pronounced seasonality, was strongly reduced in children using ITNs (incidence rate ratio, 0.49; 95% confidence interval, [0.38, 0.61]), increased with age, and significantly varied within villages (P = 0.001). The acquisition of new parasite clones was the major factor determining the risk of clinical illness (incidence rate ratio, 2.12; 95% confidence interval, [1.93, 2.31]). Adjusting for individual differences in (mol)FOI completely explained spatial variation, age trends, and the effect of ITN use. This study highlights the suitability of (mol)FOI as a measure of individual exposure and its central role in malaria epidemiology. It has substantial advantages over entomological measures in studies of transmission patterns, and could be used in analyses of host variation in susceptibility, in field efficacy trials of novel interventions or vaccines, and for evaluating intervention effects.
对恶性疟原虫寄生虫进行基因分型的纵向研究为估计感染率(FOI)提供了一种稳健的方法,尤其是在存在混合感染的情况下。分子参数(mol)FOI 定义为随着时间的推移获得的新恶性疟原虫克隆数,它描述了基本的疟疾流行病学,适合用于衡量干预措施的结果。本研究旨在测试(mol)FOI 是否影响临床疟疾发作的风险,以及(mol)FOI 在多大程度上反映了疟疾传播的环境决定因素,如季节性和小范围地理变化或杀虫剂处理蚊帐(ITN)的影响。264 名来自巴布亚新几内亚的 1-3 岁儿童接受了 16 个月的随访。通过基因分型对个体寄生虫克隆进行纵向跟踪。平均而言,每个儿童每年每儿童感染 5.9(95%置信区间,9.6)个新的恶性疟原虫感染。(mol)FOI 具有明显的季节性,使用 ITN 的儿童(发病率比,0.49;95%置信区间,[0.38,0.61])显著降低,随着年龄的增长而增加,并且在村庄内差异显著(P=0.001)。新寄生虫克隆的获得是决定临床疾病风险的主要因素(发病率比,2.12;95%置信区间,[1.93,2.31])。调整(mol)FOI 个体差异完全解释了空间变异、年龄趋势和 ITN 使用的影响。本研究强调了(mol)FOI 作为个体暴露量的衡量标准及其在疟疾流行病学中的核心作用。它在传播模式研究中具有明显优于昆虫学测量的优势,并可用于分析宿主易感性的变化、新型干预措施或疫苗的现场疗效试验以及评估干预措施的效果。