Ultrasensitive molecular tests for Plasmodium detection: applicability in control and elimination programs and reference laboratories.

Objective: To evaluate molecular tools to detect low-level parasitemia and the five species of Plasmodium that infect humans for use in control and elimination programs, and in reference laboratories. Methods: We evaluated 145 blood samples from patients who tested positive by nested polymerase chain reaction (nPCR), from asymptomatic individuals and from the WHO Global Malaria Programme/United Kingdom National External Quality Assessment Service. Samples were assayed using the genus-specific RealStar® Malaria PCR Kit 1.0 (alt-Gen; altona Diagnostics) and the RealStar® Malaria Screen & Type PCR Kit (alt-S&T; altona Diagnostics). The results from the molecular tests were compared with those from quantitative PCR (qPCR), nPCR and thick blood smear. Results: The levels of parasitemia ranged from 1 to 518 000 parasites/µL, depending on the species. Compared with nPCR, alt-S&T had a sensitivity of 100%, except for identifying P. falciparum, for which the sensitivity was 93.94%. All samples positive by alt-Gen were also positive by nPCR. When comparing alt-Gen to qPCR, the sensitivity was 100% for P. vivax, P. malariae and P. falciparum. For all Plasmodium species, the correlation between cycle threshold values of alt-S&T and alt-Gen compared with qPCR was significant (P < 0.0001, Spearman's test), with r = 0.8621 for alt-S&T and r = 0.9371 for alt-Gen. When all Plasmodium species were considered, there was a negative correlation between the level of parasitemia and real-time PCR cycle threshold values (P < 0.0001). In this study, only 2 of 28 samples from asymptomatic individuals were positive by thick blood smear; however, all 28 of these samples were positive by alt-S&T. Conclusions: The alt-Gen and alt-S&T assays are suitable for detecting submicroscopic infections for distinct epidemiological purposes, such as for use in surveys and reference laboratories, and screening in blood banks, which will contribute to global efforts to eliminate malaria.

Ultrasensitive molecular tests for Plasmodium detection: applicability in control and elimination programs and reference laboratories

[ABSTRACT]. Objective. To evaluate molecular tools to detect low-level parasitemia and the five species of Plasmodium that infect humans for use in control and elimination programs, and in reference laboratories. Methods. We evaluated 145 blood samples from patients who tested positive by nested polymerase chain reaction (nPCR), from asymptomatic individuals and from the WHO Global Malaria Programme/United Kingdom National External Quality Assessment Service. Samples were assayed using the genus-specific RealStar® Malaria PCR Kit 1.0 (alt-Gen; altona Diagnostics) and the RealStar® Malaria Screen & Type PCR Kit (alt-S&T; altona Diagnostics). The results from the molecular tests were compared with those from quantitative PCR (qPCR), nPCR and thick blood smear. Results. The levels of parasitemia ranged from 1 to 518 000 parasites/μL, depending on the species. Compared with nPCR, alt-S&T had a sensitivity of 100%, except for identifying P. falciparum, for which the sensitivity was 93.94%. All samples positive by alt-Gen were also positive by nPCR. When comparing alt-Gen to qPCR, the sensitivity was 100% for P. vivax, P. malariae and P. falciparum. For all Plasmodium species, the correlation between cycle threshold values of alt-S&T and alt-Gen compared with qPCR was significant (P < 0.0001, Spearman’s test), with r = 0.8621 for alt-S&T and r = 0.9371 for alt-Gen. When all Plasmodium species were considered, there was a negative correlation between the level of parasitemia and real-time PCR cycle threshold values (P < 0.0001). In this study, only 2 of 28 samples from asymptomatic individuals were positive by thick blood smear; however, all 28 of these samples were positive by alt-S&T. Conclusions. The alt-Gen and alt-S&T assays are suitable for detecting submicroscopic infections for distinct epidemiological purposes, such as for use in surveys and reference laboratories, and screening in blood banks, which will contribute to global efforts to eliminate malaria.

[RESUMEN]. Objetivo. Evaluar herramientas moleculares para detectar bajos niveles de parasitemia y las cinco especies de Plasmodium que infectan a los seres humanos, a fin de emplearlas en los programas de control y eliminación y en los laboratorios de referencia. Métodos. Se evaluaron 145 muestras de sangre de pacientes positivos por reacción en cadena de la polimerasa anidada (nPCR), de individuos asintomáticos y de muestras del Programa Mundial de Malaria de la Organización Mundial de la Salud/Servicio Nacional de Evaluación Externa de Calidad del Reino Unido. Las muestras se analizaron con el kit de PCR RealStar® Malaria 1.0 (alt-Gen; altona Diagnostics), específico para cada género, y con el kit de PCR RealStar® Malaria Screen & Type (alt-S&T; altona Diagnostics). Se compararon los resultados de las pruebas moleculares con los de la PCR cuantitativa (qPCR), la nPCR y el frotis de gota gruesa. Resultados. Los niveles de parasitemia oscilaron entre 1 y 518 000 parásitos/μl, según la especie. En comparación con la nPCR, la prueba alt-S&T tuvo una sensibilidad del 100%, excepto para la identificación de P. falciparum, para el cual la sensibilidad fue del 93,94%. Todas las muestras positivas por alt-Gen lo fueron también por nPCR. Al comparar alt-Gen con la qPCR, la sensibilidad fue del 100% para P. vivax, P. malariae y P. falciparum. Para todas las especies de Plasmodium, la correlación entre los valores del umbral de ciclo de alt-S&T y alt-Gen en comparación con la qPCR fue significativa (P < 0,0001, prueba de Spearman), con r = 0,8621 para alt-S&T y r = 0,9371 para alt-Gen. Cuando se consideraron todas las especies de Plasmodium hubo una correlación negativa entre el nivel de parasitemia y los valores de umbral de ciclo de PCR en tiempo real (P < 0,0001). En este estudio, solo 2 de las 28 muestras de individuos asintomáticos fueron positivas por frotis de gota gruesa; sin embargo, las 28 muestras fueron positivas por alt-S&T. Conclusiones. Los ensayos alt-Gen y alt-S&T son adecuados para detectar infecciones submicroscópicas con distintos fines epidemiológicos, como su uso en investigaciones y laboratorios de referencia y el cribado en bancos de sangre, lo que contribuirá a los esfuerzos mundiales para eliminar la malaria.

[RESUMO]. Objectivo. Avaliar ferramentas moleculares para detectar parasitemia de baixo nível e as cinco espécies de Plasmodium que infectam humanos, para utilização em programas de controlo e eliminação e em laboratórios de referência. Métodos. Avaliámos 145 amostras de sangue de doentes que testaram positivo por reacção em cadeia da polimerase aninhada (nPCR), de indivíduos assintomáticos, e do Programa Global de Paludismo da Organização Mundial de Saúde/Serviço Nacional de Avaliação da Qualidade Externa do Reino Unido. As amostras foram ensaiadas utilizando o RealStar® Malaria PCR Kit 1.0 (alt-Gen; altona Diagnostics) e o RealStar® Malaria Screen & Type PCR Kit (alt-S&T; altona Diagnostics). Os resultados dos testes moleculares foram comparados com os resultados da PCR quantitativa (qPCR), nPCR e exame da gota espessa. Resultados. Os níveis de parasitemia variaram de 1 a 518 000 parasitas/μL, dependendo da espécie. Em comparação com a nPCR, alt-S&T tinha uma sensibilidade de 100%, excepto na identificação de P. falciparum, para a qual a sensibilidade era de 93,94%. Todas as amostras positivas por alt-Gen foram também positivas por nPCR. Ao comparar alt-Gen com qPCR, a sensibilidade foi de 100% para P. vivax, P. malariae e P. falciparum. Para todas as espécies Plasmodium, a correlação entre os valores limiares de ciclo de alt-S&T e alt-Gen comparados com qPCR foi significativa (P < 0,0001, teste de Spearman), com r = 0,8621 para alt- S&T e r = 0,9371 para alt-Gen. Quando todas as espécies de Plasmodium foram consideradas, houve uma correlação negativa entre o nível de parasitemia e os valores limiares do ciclo de PCR em tempo real (P < 0,0001). Neste estudo, apenas 2 de 28 amostras de indivíduos assintomáticos foram positivas por exame da gota espessa; no entanto, todas estas 28 amostras foram positivas por alt-S&T. Conclusões. Os ensaios alt-Gen e alt-S&T são adequados para a detecção de infecções submicroscópicas para fins epidemiológicos distintos, tais como para utilização em inquéritos e laboratórios de referência e o rastreio em bancos de sangue, o que contribuirá para os esforços globais de eliminação da malária.

Ultrasensitive molecular tests for Plasmodium detection: applicability in control and elimination programs and reference laboratories / Pruebas moleculares ultrasensibles para la detección de Plasmodium: aplicabilidad en los programas de control y eliminación y en los laboratorios de referencia / Testes moleculares ultra-sensíveis para detecção de Plasmodium: aplicabilidade em programas de controlo e eliminação e laboratórios de referencia

ABSTRACT Objective. To evaluate molecular tools to detect low-level parasitemia and the five species of Plasmodium that infect humans for use in control and elimination programs, and in reference laboratories. Methods. We evaluated 145 blood samples from patients who tested positive by nested polymerase chain reaction (nPCR), from asymptomatic individuals and from the WHO Global Malaria Programme/United Kingdom National External Quality Assessment Service. Samples were assayed using the genus-specific RealStar® Malaria PCR Kit 1.0 (alt-Gen; altona Diagnostics) and the RealStar® Malaria Screen & Type PCR Kit (alt-S&T; altona Diagnostics). The results from the molecular tests were compared with those from quantitative PCR (qPCR), nPCR and thick blood smear. Results. The levels of parasitemia ranged from 1 to 518 000 parasites/µL, depending on the species. Compared with nPCR, alt-S&T had a sensitivity of 100%, except for identifying P. falciparum, for which the sensitivity was 93.94%. All samples positive by alt-Gen were also positive by nPCR. When comparing alt-Gen to qPCR, the sensitivity was 100% for P. vivax, P. malariae and P. falciparum. For all Plasmodium species, the correlation between cycle threshold values of alt-S&T and alt-Gen compared with qPCR was significant (P < 0.0001, Spearman's test), with r = 0.8621 for alt-S&T and r = 0.9371 for alt-Gen. When all Plasmodium species were considered, there was a negative correlation between the level of parasitemia and real-time PCR cycle threshold values (P < 0.0001). In this study, only 2 of 28 samples from asymptomatic individuals were positive by thick blood smear; however, all 28 of these samples were positive by alt-S&T. Conclusions. The alt-Gen and alt-S&T assays are suitable for detecting submicroscopic infections for distinct epidemiological purposes, such as for use in surveys and reference laboratories, and screening in blood banks, which will contribute to global efforts to eliminate malaria.

RESUMEN Objetivo. Evaluar herramientas moleculares para detectar bajos niveles de parasitemia y las cinco especies de Plasmodium que infectan a los seres humanos, a fin de emplearlas en los programas de control y eliminación y en los laboratorios de referencia. Métodos. Se evaluaron 145 muestras de sangre de pacientes positivos por reacción en cadena de la polimerasa anidada (nPCR), de individuos asintomáticos y de muestras del Programa Mundial de Malaria de la Organización Mundial de la Salud/Servicio Nacional de Evaluación Externa de Calidad del Reino Unido. Las muestras se analizaron con el kit de PCR RealStar® Malaria 1.0 (alt-Gen; altona Diagnostics), específico para cada género, y con el kit de PCR RealStar® Malaria Screen & Type (alt-S&T; altona Diagnostics). Se compararon los resultados de las pruebas moleculares con los de la PCR cuantitativa (qPCR), la nPCR y el frotis de gota gruesa. Resultados. Los niveles de parasitemia oscilaron entre 1 y 518 000 parásitos/µl, según la especie. En comparación con la nPCR, la prueba alt-S&T tuvo una sensibilidad del 100%, excepto para la identificación de P. falciparum, para el cual la sensibilidad fue del 93,94%. Todas las muestras positivas por alt-Gen lo fueron también por nPCR. Al comparar alt-Gen con la qPCR, la sensibilidad fue del 100% para P. vivax, P. malariae y P. falciparum. Para todas las especies de Plasmodium, la correlación entre los valores del umbral de ciclo de alt-S&T y alt-Gen en comparación con la qPCR fue significativa (P < 0,0001, prueba de Spearman), con r = 0,8621 para alt-S&T y r = 0,9371 para alt-Gen. Cuando se consideraron todas las especies de Plasmodium hubo una correlación negativa entre el nivel de parasitemia y los valores de umbral de ciclo de PCR en tiempo real (P < 0,0001). En este estudio, solo 2 de las 28 muestras de individuos asintomáticos fueron positivas por frotis de gota gruesa; sin embargo, las 28 muestras fueron positivas por alt-S&T. Conclusiones. Los ensayos alt-Gen y alt-S&T son adecuados para detectar infecciones submicroscópicas con distintos fines epidemiológicos, como su uso en investigaciones y laboratorios de referencia y el cribado en bancos de sangre, lo que contribuirá a los esfuerzos mundiales para eliminar la malaria.

RESUMO Objectivo. Avaliar ferramentas moleculares para detectar parasitemia de baixo nível e as cinco espécies de Plasmodium que infectam humanos, para utilização em programas de controlo e eliminação e em laboratórios de referência. Métodos. Avaliámos 145 amostras de sangue de doentes que testaram positivo por reacção em cadeia da polimerase aninhada (nPCR), de indivíduos assintomáticos, e do Programa Global de Paludismo da Organização Mundial de Saúde/Serviço Nacional de Avaliação da Qualidade Externa do Reino Unido. As amostras foram ensaiadas utilizando o RealStar® Malaria PCR Kit 1.0 (alt-Gen; altona Diagnostics) e o RealStar® Malaria Screen & Type PCR Kit (alt-S&T; altona Diagnostics). Os resultados dos testes moleculares foram comparados com os resultados da PCR quantitativa (qPCR), nPCR e exame da gota espessa. Resultados. Os níveis de parasitemia variaram de 1 a 518 000 parasitas/µL, dependendo da espécie. Em comparação com a nPCR, alt-S&T tinha uma sensibilidade de 100%, excepto na identificação de P. falciparum, para a qual a sensibilidade era de 93,94%. Todas as amostras positivas por alt-Gen foram também positivas por nPCR. Ao comparar alt-Gen com qPCR, a sensibilidade foi de 100% para P. vivax, P. malariae e P. falciparum. Para todas as espécies Plasmodium, a correlação entre os valores limiares de ciclo de alt-S&T e alt-Gen comparados com qPCR foi significativa (P < 0,0001, teste de Spearman), com r = 0,8621 para alt-S&T e r = 0,9371 para alt-Gen. Quando todas as espécies de Plasmodium foram consideradas, houve uma correlação negativa entre o nível de parasitemia e os valores limiares do ciclo de PCR em tempo real (P < 0,0001). Neste estudo, apenas 2 de 28 amostras de indivíduos assintomáticos foram positivas por exame da gota espessa; no entanto, todas estas 28 amostras foram positivas por alt-S&T. Conclusões. Os ensaios alt-Gen e alt-S&T são adequados para a detecção de infecções submicroscópicas para fins epidemiológicos distintos, tais como para utilização em inquéritos e laboratórios de referência e o rastreio em bancos de sangue, o que contribuirá para os esforços globais de eliminação da malária.

Still Searching for a Suitable Molecular Test to Detect Hidden Plasmodium Infection: A Proposal for Blood Donor Screening in Brazil.

BACKGROUND: Efforts have been made to establish sensitive diagnostic tools for malaria screening in blood banks in order to detect malaria asymptomatic carriers. Microscopy, the malaria reference test in Brazil, is time consuming and its sensitivity depends on microscopist experience. Although molecular tools are available, some aspects need to be considered for large-scale screening: accuracy and robustness for detecting low parasitemia, affordability for application to large number of samples and flexibility to perform on individual or pooled samples. METHODOLOGY: In this retrospective study, we evaluated four molecular assays for detection of malaria parasites in a set of 56 samples previously evaluated by expert microscopy. In addition, we evaluated the effect of pooling samples on the sensitivity and specificity of the molecular assays. A well-characterized cultured sample with 1 parasite/µL was included in all the tests evaluated. DNA was extracted with QIAamp DNA Blood Mini Kit and eluted in 50 µL to concentrate the DNA. Pools were assembled with 10 samples each. Molecular protocols targeting 18S rRNA, included one qPCR genus specific (Lima-genus), one duplex qPCR genus/Pf (PET-genus, PET-Pf) and one duplex qPCR specie-specific (Rougemont: Roug-Pf/Pv and Roug-Pm/Po). Additionally a nested PCR protocol specie-specific was used (Snou-Pf, Snou-Pv, Snou-Pm and Snou-Po). RESULTS: The limit of detection was 3.5 p/µL and 0.35p/µl for the PET-genus and Lima-genus assays, respectively. Considering the positive (n = 13) and negative (n = 39) unpooled individual samples according to microscopy, the sensitivity of the two genus qPCR assays was 76.9% (Lima-genus) and 72.7% (PET-genus). The Lima-genus and PET-genus showed both sensitivity of 86.7% in the pooled samples. The genus protocols yielded similar results (Kappa value of 1.000) in both individual and pooled samples. CONCLUSIONS: Efforts should be made to improve performance of molecular tests to enable the detection of low-density parasitemia if these tests are to be utilized for blood transfusion screening.

Malaria in Pregnancy Interacts with and Alters the Angiogenic Profiles of the Placenta.

Malaria in pregnancy remains a substantial public health problem in malaria-endemic areas with detrimental outcomes for both the mother and the foetus. The placental changes that lead to some of these detrimental outcomes have been studied, but the mechanisms that lead to these changes are still not fully elucidated. There is some indication that imbalances in cytokine cascades, complement activation and angiogenic dysregulation might be involved in the placental changes observed. Nevertheless, the majority of studies on malaria in pregnancy (MiP) have come from areas where malaria transmission is high and usually restricted to Plasmodium falciparum, the most pathogenic of the malaria parasite species. We conducted a cross-sectional study in Cruzeiro do Sul, Acre state, Brazil, an area of low transmission and where both P. vivax and P. falciparum circulate. We collected peripheral and placental blood and placental biopsies, at delivery from 137 primigravid women and measured levels of the angiogenic factors angiopoietin (Ang)-1, Ang-2, their receptor Tie-2, and several cytokines and chemokines. We measured 4 placental parameters (placental weight, syncytial knots, placental barrier thickness and mononuclear cells) and associated these with the levels of angiogenic factors and cytokines. In this study, MiP was not associated with severe outcomes. An increased ratio of peripheral Tie-2:Ang-1 was associated with the occurrence of MiP. Both Ang-1 and Ang-2 had similar magnitudes but inverse associations with placental barrier thickness. Malaria in pregnancy is an effect modifier of the association between Ang-1 and placental barrier thickness.

Analysis of polymorphisms in Plasmodium falciparum genes related to drug resistance: a survey over four decades under different treatment policies in Brazil.

BACKGROUND: Anti-malarial resistance in Plasmodium falciparum remains an obstacle for malaria control. Resistance-associated genes were analysed in Brazilian samples over four decades to evaluate the impact of different treatment regimens on the parasite genetic profile. METHODS: Samples were collected on filter paper from patients infected in the Amazon region from 1984 to 2011. DNA was extracted with Chelex® 100 and monoinfection confirmed by PCR. SNPs in the pfcrt, pfmdr1, pfdhfr and pfdhps genes were assessed by PCR-RFLP. The pfmdr1 copy number was estimated using real time quantitative PCR with SYBR® Green. Parasite response was assessed ex vivo with seven concentrations of each anti-malarial. Patients were treated according to Brazilian guidelines: quinine plus tetracycline or mefloquine in period 1 and ACT in period 2. RESULTS: All 96 samples presented the pfcrt 76T mutant throughout the assessed periods. In addition, all isolates showed ex vivo chloroquine resistance. The pfmdr1 86Y was detected in 1.5% of samples in period 1, and in 25% in period 2. All samples presented the pfmdr1 1246Y. The analysis of pfmdr1 copy number showed amplification in 37.3% in period 1 and in 42% in period 2. Mutations in pfdhfr were shown as follows: 51I in all samples in period 1 and in 81.2% in period 2; 59R in 6.4% in period 2. The pfdhfr 108N and the pfdhps 437G were seen in all samples along time; the pfdhps 540E in 93.7% in period 1 and in 75% in period 2. CONCLUSIONS: The 76T mutation associated to chloroquine resistance is still present in the parasite population, although this anti-malarial was withdrawn from the chemotherapy of P. falciparum in Brazil in the mid-1980s. All isolates assayed ex vivo for chloroquine showed resistant phenotype and 76T. No association was observed between pfmdr1 mutations and resistance to quinine, mefloquine and artemisinin derivatives. Additionally, the pfdhfr 108N mutation was detected in all samples throughout the evaluated periods, demonstrating fixation of the mutant allele in the parasite population. Changes in Brazilian national guidelines for the malaria chemotherapy in the last 27 years yielded a discreet genetic impact in the parasite population.

Anti-malarial, anti-trypanosomal, and anti-leishmanial activities of jacaranone isolated from Pentacalia desiderabilis (Vell.) Cuatrec. (Asteraceae).

Leishmaniasis, Chagas disease, and malaria affect the poorest population around the world, with an elevated mortality and morbidity. In addition, the therapeutic alternatives are usually toxic or ineffective drugs especially those against the trypanosomatids. In the course of selection of new anti-protozoal compounds from Brazilian flora, the CH(2)C(l2) phase from MeOH extract obtained from the leaves of Pentacalia desiderabilis (Vell.) Cuatrec. (Asteraceae) showed in vitro anti-leishmanial, anti-malarial, and anti-trypanosomal activities. The chromatographic fractionation of the CH(2)Cl(2) phase led to the isolation of the bioactive compound, which was characterized as jacaranone [methyl (1-hydroxy-4-oxo-2,5-cyclohexandienyl)acetate], by spectroscopic methods. This compound showed activity against promastigotes of Leishmania (L.) chagasi, Leishmania (V.) braziliensis, and Leishmania (L.). amazonensis showing an IC(50) of 17.22, 12.93, and 11.86 µg/mL, respectively. Jacaranone was also tested in vitro against the Trypanosoma cruzi trypomastigotes and Plasmodium falciparum chloroquine-resistant parasites (K1 strain) showing an IC(50) of 13 and 7.82 µg/mL, respectively, and was 3.5-fold more effective than benznidazole in anti-Trypanosoma cruzi assay. However, despite of the potential against promatigotes forms, this compound was not effective against amastigotes of L. (L.) chagasi and T. cruzi. The cytotoxicity study using Kidney Rhesus monkey cells, demonstrated that jacaranone showed selectivity against P. falciparum (21.75 µg/mL) and a selectivity index of 3. The obtained results suggested that jacaranone, as other similar secondary metabolites or synthetic analogs, might be useful tolls for drug design for in vivo studies against protozoan diseases.

Malaria diagnosis from pooled blood samples: comparative analysis of real-time PCR, nested PCR and immunoassay as a platform for the molecular and serological diagnosis of malaria on a large-scale.

Malaria diagnoses has traditionally been made using thick blood smears, but more sensitive and faster techniques are required to process large numbers of samples in clinical and epidemiological studies and in blood donor screening. Here, we evaluated molecular and serological tools to build a screening platform for pooled samples aimed at reducing both the time and the cost of these diagnoses. Positive and negative samples were analysed in individual and pooled experiments using real-time polymerase chain reaction (PCR), nested PCR and an immunochromatographic test. For the individual tests, 46/49 samples were positive by real-time PCR, 46/49 were positive by nested PCR and 32/46 were positive by immunochromatographic test. For the assays performed using pooled samples, 13/15 samples were positive by real-time PCR and nested PCR and 11/15 were positive by immunochromatographic test. These molecular methods demonstrated sensitivity and specificity for both the individual and pooled samples. Due to the advantages of the real-time PCR, such as the fast processing and the closed system, this method should be indicated as the first choice for use in large-scale diagnosis and the nested PCR should be used for species differentiation. However, additional field isolates should be tested to confirm the results achieved using cultured parasites and the serological test should only be adopted as a complementary method for malaria diagnosis.

Malaria diagnosis from pooled blood samples: comparative analysis of real-time PCR, nested PCR and immunoassay as a platform for the molecular and serological diagnosis of malaria on a large-scale

Malaria diagnoses has traditionally been made using thick blood smears, but more sensitive and faster techniques are required to process large numbers of samples in clinical and epidemiological studies and in blood donor screening. Here, we evaluated molecular and serological tools to build a screening platform for pooled samples aimed at reducing both the time and the cost of these diagnoses. Positive and negative samples were analysed in individual and pooled experiments using real-time polymerase chain reaction (PCR), nested PCR and an immunochromatographic test. For the individual tests, 46/49 samples were positive by real-time PCR, 46/49 were positive by nested PCR and 32/46 were positive by immunochromatographic test. For the assays performed using pooled samples, 13/15 samples were positive by real-time PCR and nested PCR and 11/15 were positive by immunochromatographic test. These molecular methods demonstrated sensitivity and specificity for both the individual and pooled samples. Due to the advantages of the real-time PCR, such as the fast processing and the closed system, this method should be indicated as the first choice for use in large-scale diagnosis and the nested PCR should be used for species differentiation. However, additional field isolates should be tested to confirm the results achieved using cultured parasites and the serological test should only be adopted as a complementary method for malaria diagnosis.