This study was performed in order to test the efficacy of a new polymerase chain reaction (PCR) assay for the diagnosis of both human and canine leishmaniasis caused by Leishmania infantum. The new primers were developed on the basis of a complete DNA sequence of the L. infantum kinetoplast minicircle. Specificity and sensitivity were evaluated by testing bone marrow spots on filter paper and skin biopsy samples, and the PCR results were compared to data from in vitro cultures. Leishmania strains from different foci, as well as other trypanosomatids and opportunistic pathogenic micro-organisms, were also included in this study. The results show that the primers are highly specific, detecting only L. donovani s.l. DNA, and sensitive for the detection of parasite DNA in biological samples from three different geographical regions of Portugal (north, centre and south) and from Brazil.
Most of the experimental studies of Leishmania spp. infection require the determination of the parasite load in different tissues. Quantification of parasites by microscopy is not very sensitive and is time consuming, whereas culture microtitrations remain laborious and can be jeopardized by microbial contamination. The aim of this study was to quantify Leishmania infantum parasites by real-time polymerase chain reaction (PCR) using specific DNA TaqMan probes and to compare the efficacy of detection of this technique with a PCR-enzyme-linked immunosorbent assay (ELISA). For this purpose, spleen and liver samples from L. infantum-infected mice were collected during a 3-mo longitudinal study and analyzed by both methods. PCR-ELISA failed to quantify Leishmania spp. DNA in samples with very low or very high numbers of parasites. Real-time PCR was more sensitive than PCR-ELISA, detecting down to a single parasite, and enabled the parasite quantification over a wide, 5-log range. In summary, this study developed a method for absolute quantification of L. infantum parasites in infected organs using real-time TaqMan PCR.
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