Abstract

BackgroundWith the recent certification by World Health Organization that the People’s Republic of China is malaria-free, it is timely to consider how elimination of malaria was completed in People’s Republic of China over the last 7 decades. Of the four widespread species of human malaria, Plasmodium vivax was the last to be eliminated by the national program of China. Understanding the incubation periods and relapses patterns of P. vivax through historical data from China is relevant for planning disease elimination in other malaria-endemic countries, with residual P. vivax malaria.MethodsWe collated data from both published and unpublished malaria parasite inoculation experiments conducted between 1979 and 1988 with parasites from different regions of the People’s Republic of China. The studies had at least two years of follow-up. We categorized P. vivax incubation patterns via cluster analysis and investigated relapse studies by adapting a published within-host relapse model for P. vivax temperate phenotypes. Each model was fitted using the expectation-maximization (EM) algorithm initialized by hierarchical model-based agglomerative clustering.ResultsP. vivax parasites from the seven studies of five southern and central provinces in the People’s Republic of China covering geographies ranging from the south temperate to north tropical zones. The parasites belonged to two distinct phenotypes: short- (10–19 days) or long-incubation (228–371 days). The larger the sporozoite inoculation, the more likely short incubation periods were observed, and with more subsequent relapses (Spearman’s rank correlation between the number of inoculated sporozoites and the number of relapses of 0.51, p-value = 0.0043). The median of the posterior distribution for the duration of the first relapse interval after primary infection was 168.5 days (2.5% quantile: 89.7; 97.5% quantile: 227.69 days). The predicted survival proportions from the within-host model fit well to the original relapse data. The within-host model also captures the hypnozoite activation rates and relapse frequencies, which consequently influences the transmission possibility of P. vivax.ConclusionsThrough a within-host model, we demonstrate the importance of clearance of hypnozoites. A strategy of two rounds of radical hypnozoite clearance via mass drug administration (MDA) deployed during transmission (summer and autumn) and non-transmission (late spring) seasons had a pronounced effect on outbreaks during the malaria epidemics in China. This understanding can inform malaria control strategies in other endemic countries with similar settings.

Highlights

  • With the recent certification by World Health Organization that the People’s Republic of China is malaria-free, it is timely to consider how elimination of malaria was completed in People’s Republic of China over the last 7 decades

  • Through a within-host model, we demonstrate the importance of clearance of hypnozoites

  • A strategy of two rounds of radical hypnozoite clearance via mass drug administration (MDA) deployed during transmission and non-transmission seasons had a pronounced effect on outbreaks during the malaria epidemics in China

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Summary

Introduction

With the recent certification by World Health Organization that the People’s Republic of China is malaria-free, it is timely to consider how elimination of malaria was completed in People’s Republic of China over the last 7 decades. The global burden of Plasmodium vivax malaria dropped from 24.5 million cases in 2000 to 14.3 million cases in 2017 (a 42% reduction [1]), the control of P. vivax malaria remains neglected worldwide [2] The reasons for this neglect include its lower prevalence and mortality compared with that of P. falciparum and the uneven distribution of P. vivax malaria in the world. The distinctive feature of P. vivax is relapse which can occur long after an initial attack [3], which is caused by dormant liver-stage parasites (hypnozoites). This creates more resilience in P. vivax transmission than that of P. falciparum in situations adverse to the transmission of the parasites. In the last mile, elimination of malaria in one country or region is frequently limited by residual P. vivax

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