Abstract

BackgroundFive species of Plasmodium are known to infect humans. For proper treatment of malaria, accurate identification of the parasite species is crucial. The current gold standard for malaria diagnosis is microscopic examination of Giemsa-stained blood smears. Since the parasite species are identified by microscopists who manually search for the parasite-infected red blood cells (RBCs), misdiagnosis due to human error tends to occur in case of low parasitaemia or mixed infection. Then, molecular methods, such as polymerase chain reaction or loop-mediated isothermal amplification (LAMP), are required for conclusive identification of the parasite species. However, since molecular methods are highly sensitive, false-positive results tend to occur due to contamination (carry over) or the target gene products may be detected even after clearance of the parasites from the patient’s blood. Therefore, accurate detection of parasites themselves by microscopic examination is essential for the definitive diagnosis. Thus, the method of in situ LAMP for the parasites was developed.ResultsRed blood cell suspensions, including cultured Plasmodium falciparum, strain 3D7, infected-RBCs, were dispersed on cyclic olefin copolymer (COC) plate surfaces rendered hydrophilic by reactive ion-etching treatment using a SAMCO RIE system (hydrophilic-treated), followed by standing for 10 min to allow the RBCs to settle down on the plate surface. By rinsing the plate with RPMI 1640 medium, monolayers of RBCs formed on almost the entire plate surface. The plate was then dried with a hair drier. The RBCs were fixed with formalin, followed by permeabilization with Triton X-100. Then, amplification of the P. falciparum 18S rRNA gene by the LAMP reaction with digoxigenin (DIG)-labelled dUTP and a specific primer set was performed. Infected RBCs as fluorescence-positive cells with anti-DIG antibodies conjugated with fluorescein using fluorescent microscopy could be detected.ConclusionsThe present work shows that the potential of in situ LAMP for the identification of Plasmodium species at the single cell level on hydrophilic-treated COC palates, allowing highly sensitive and accurate malaria diagnosis. The findings will improve the efficacy of the gold standard method for malaria diagnosis.

Highlights

  • Five species of Plasmodium are known to infect humans

  • The present work shows that the potential of in situ loop-mediated isothermal amplification (LAMP) for the identification of Plasmodium species at the single cell level on hydrophilic-treated cyclic olefin copolymer (COC) palates, allowing highly sensitive and accurate malaria diagnosis

  • The findings will improve the efficacy of the gold standard method for malaria diagnosis

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Summary

Introduction

Five species of Plasmodium are known to infect humans. For proper treatment of malaria, accurate identification of the parasite species is crucial. Since the parasite species are identified by microscopists who manually search for the parasite-infected red blood cells (RBCs), misdiagnosis due to human error tends to occur in case of low parasitaemia or mixed infection. Molecular methods, such as polymerase chain reaction or loop-mediated isothermal amplification (LAMP), are required for conclusive identification of the parasite species. Giemsa microscopy with thick blood films is useful to detect the parasites in patients with low parasitaemia, this technique has some limitations Diagnosis by this method tends to underestimate the infection rate [2] and is not recommended for identification of the parasite species [3]. Parasitemia generally indicates the severity of the malaria infection and accurate identification of the species enables an appropriate choice of anti-malarial medicine and better treatment of the disease

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