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In a treatment re-infection study of 206 Papua New Guinean school children, we examined risk of reinfection and symptomatic malaria caused by different Plasmodium species. Although children acquired a similar number of polymerase chain reaction-detectable Plasmodium falciparum and P. vivax infections in six months of active follow-up (P. falciparum = 5.00, P. vivax = 5.28), they were 21 times more likely to develop symptomatic P. falciparum malaria (1.17/year) than P. vivax malaria (0.06/year). Children greater than nine years of age had a reduced risk of acquiring P. vivax infections of low-to-moderate (>150/microL) density (adjusted hazard rate [AHR] = 0.65 and 0.42), whereas similar reductions in risk with age of P. falciparum infection was only seen for parasitemias > 5,000/microL (AHR = 0.49) and symptomatic episodes (AHR = 0.51). Infection and symptomatic episodes with P. malariae and P. ovale were rare. By nine years of age, children have thus acquired almost complete clinical immunity to P. vivax characterized by a very tight control of parasite density, whereas the acquisition of immunity to symptomatic P. falciparum malaria remained incomplete. These observations suggest that different mechanisms of immunity may be important for protection from these malaria species.

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Association between Naturally Acquired Antibodies to Erythrocyte‐Binding Antigens ofPlasmodium falciparumand Protection from Malaria and High‐Density Parasitemia

Richards

et al. 2010

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Reduced Risk of Plasmodium vivax Malaria in Papua New Guinean Children with Southeast Asian Ovalocytosis in Two Cohorts and a Case-Control Study

et al. 2012

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Minimal Association of Common Red Blood Cell Polymorphisms with Plasmodium falciparum Infection and Uncomplicated Malaria in Papua New Guinean School Children

Lin

Tavul

Michon

et al. 2010

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* Gene locus, allele names, genotype designations, and phenotypes as described in Table 1 . † LDR-FMA = post-PCR ligase detection reaction-fluorescent microsphere assay for diagnosis of 4 Plasmodium parasites of humans. ‡ LM = light microscopy, or conventional blood smear, light microscopy diagnosis of four Plasmodium parasites of humans. § Clinical Episode = febrile episode with concurrent P. falciparum parasitaemia > 5,000/μL. ¶ MTR = median time to re-infection (days), IR = incidence rate (/child/yr) for entire cohort. || HR = hazard ratio based on Cox-regression model of time to first infection. ** CI 95 = 95% confidence interval.† † IRR = incidence rate ratio based on Poisson regression-details of the model provided in Michon and others, Reference 16 . ‡ ‡ Statistical significance at P < 0.05.

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Dynamics of Asymptomatic Plasmodium vivax Infections and Duffy Binding Protein Polymorphisms in Relation to Parasitemia Levels in Papua New Guinean Children

Cole-Tobian

Michon

Dabod

et al. 2007

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The interaction between Plasmodium vivax Duffy binding protein II (PvDBPII) and human erythrocyte Duffy antigen is necessary for blood stage infections. However, PvDBPII is highly polymorphic. We recently observed that certain recombinant DBPII variants bind better to erythrocytes in vitro. To examine the hypothesis that haplotypes with enhanced binding have increased parasitemia levels, we followed 206 Papua New Guinean children biweekly for six months with a total of 713 P. vivax samples genotyped. Twenty-seven PvDBPII haplotypes were identified, and 3 haplotypes accounted for 57% of the infections. The relative frequencies of dominant haplotypes remained stable throughout the study. There was no significant association with PvDBPII alleles or haplotypes with P. vivax parasitemia. The dominant haplotype (26% of samples), however, corresponded to a high-binding haplotype. Thus, common haplotypes are not likely to have arisen from increased fitness as measured by greater parasitemia levels. The restricted number of common haplotypes increases the feasibility of a PvDBPII-based vaccine.

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Elijah Dabod

The Risk of Malarial Infections and Disease in Papua New Guinean Children

Association between Naturally Acquired Antibodies to Erythrocyte‐Binding Antigens ofPlasmodium falciparumand Protection from Malaria and High‐Density Parasitemia

Reduced Risk of Plasmodium vivax Malaria in Papua New Guinean Children with Southeast Asian Ovalocytosis in Two Cohorts and a Case-Control Study

Minimal Association of Common Red Blood Cell Polymorphisms with Plasmodium falciparum Infection and Uncomplicated Malaria in Papua New Guinean School Children

Dynamics of Asymptomatic Plasmodium vivax Infections and Duffy Binding Protein Polymorphisms in Relation to Parasitemia Levels in Papua New Guinean Children

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