Malaria Diagnosis Employs Hydrophilic-Treated Plastic Plates

In addition, because Giemsa microscopy is exacting and time-consuming, automated counting of infection rates is highly desirable.

Scientists at the National Institute of Advanced Industrial Science and Technology (AIST, Tokyo, Japan) cultured a strain of P. falciparum for automated counting of infected parasites; the parasite-infected RBCs were stained with a cell-permeant green fluorescent nucleic acid stain. Bright field and fluorescence images of stained parasite-infected RBCs were acquired using a DM1L inverted fluorescence microscope.

The investigators developed a method that allows for microscopic examination of Giemsa-stained cells spread in a monolayer on almost the whole surface of hydrophilic-treated cyclic olefin copolymer (COC) plates. Because wide-range Giemsa microscopy can be performed on a hydrophilic-treated plate, the method may enable more reliable diagnosis of malaria in patients with low parasitemia burden. Furthermore, the number of RBCs and parasites stained with a fluorescent nuclear staining dye could be counted automatically with a software tool, without Giemsa staining. As a result, medical personnel studying malaria may calculate the infection rate easily, rapidly, and accurately even in low parasitemia.

The authors concluded that because the running cost of these methods is very low and they do not involve complicated techniques, and the use of hydrophilic COC plates may contribute to improved and more accurate diagnosis of malaria. The study was published on August 8, 2017, in the Malaria Journal.

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National Institute of Advanced Industrial Science and Technology