Abstract
.Haiti is targeting malaria elimination by 2025. The Grand’Anse department in southwestern Haiti experiences one-third to half of all nationally reported Plasmodium falciparum cases. Although there are historical reports of Plasmodium vivax and Plasmodium malariae, today, non-falciparum infections would remain undetected because of extensive use of falciparum-specific histidine-rich protein 2 (HRP2) rapid diagnostic tests (RDT) at health facilities. A recent case–control study was conducted in Grand’Anse to identify risk factors for P. falciparum infection using HRP2-based RDTs (n = 1,107). Post hoc multiplex Plasmodium antigenemia and antibody (IgG) detection by multiplex bead assay revealed one blood sample positive for pan-Plasmodium aldolase, negative for P. falciparum HRP2, and positive for IgG antibodies to P. malariae. Based on this finding, we selected 52 samples with possible P. malariae infection using IgG and antigenemia data and confirmed infection status by species-specific PCR. We confirmed one P. malariae infection in a 6-month-old infant without travel history. Congenital P. malariae could not be excluded. However, our finding—in combination with historical reports of P. malariae—warrants further investigation into the presence and possible extent of non-falciparum malaria in Haiti. Furthermore, we showed the use of multiplex Plasmodium antigen and IgG detection in selecting samples of interest for subsequent PCR analysis, thereby reducing costs as opposed to testing all available samples by PCR. This is of specific use in low-transmission or eliminating settings where infections are rare.
Highlights
IntroductionThe severity of non-falciparum malaria has been recognized.[1]
Historically considered benign, the severity of non-falciparum malaria has been recognized.[1]
We report the retrospective detection of a P. malariae infection in an infant who participated in a case–control study in Grand’Anse, Haiti, in 2018.24 In-country, post hoc Plasmodium antigenemia and IgG data collection triggered our search for P. malariae in this population
Summary
The severity of non-falciparum malaria has been recognized.[1]. P. malariae can cause prolonged low-level parasitemia which can remain undetected for years.[11] These silent infections can threaten malaria elimination efforts in areas where Plasmodium falciparum is the dominant species.[12] Surveillance for non-falciparum malaria should not be overlooked in a country attempting to reach malaria elimination. Multiplex bead assays (MBAs) can be used to rapidly collect antibody and antigen data at scale, thereby selecting samples of interest for confirmation by PCR.[13,14] Because of the limited incremental costs of adding nonfalciparum and/or pan-Plasmodium targets to a P. falciparum antigen and antibody detection panel on an MBA, this is a highly cost-effective approach to identify the presence of possible non-falciparum infections
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