Development of a cell microarray chip system for early and accurate malaria diagnosis: — Finding one parasite in 2 million erythrocytes for elimination of malaria —@@@— 200万分の1の感染を見出しマラリアに立ち向かう —

Q4 Social Sciences

Synthesiology Pub Date : 2017-01-01 DOI:10.5571/SYNTHENG.10.1_34

Muneaki Hashimoto, S. Yatsushiro, Shohei Yamamura, M. Kataoka

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Abstract

−34− Synthesiology English edition Vol.10 No.1 pp.34–41 (Jul. 2017) detection limit of RDT is equivalent to the analysis of Giemsa microscopy, and incidences of false-positives and falsenegatives are common. Therefore, it is used as a preliminary screening method prior to the definitive diagnosis by the Giemsa microscopy. It is not possible to calculate the infection rate with RDT (i.e. diagnosis of infection only), and this is one of the disadvantages. Recently, new diagnostic methods utilizing the flow cytometer and polymerase chain reaction (PCR) have been developed, but the sensitivity is insufficient for early diagnosis, and several hours are required before the results are obtained, respectively. To prevent infection by early detection of malaria, development of a new diagnostic method with high sensitivity, accuracy, quickness, and easy operation is demanded. The characteristics of each diagnostic method are shown in Table 1.

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开发用于早期和准确诊断疟疾的细胞微阵列芯片系统:-在200万个红细胞中发现一种寄生虫，以消除疟疾- @@@ - 200千兆位

−34−synthesis edition英文版Vol.10 No.1 pp.34-41(2017年7月)RDT检出限相当于Giemsa镜检分析，假阳性和假阴性发生率较高。因此，它被用作吉姆萨显微镜确诊之前的初步筛选方法。使用RDT无法计算感染率(即仅诊断感染)，这是其缺点之一。近年来，流式细胞仪和聚合酶链反应(PCR)等新的诊断方法相继出现，但对早期诊断的敏感性不足，需要数小时才能得到结果。为了早期发现疟疾，预防感染，需要开发一种灵敏度高、准确性高、速度快、操作方便的新型诊断方法。每种诊断方法的特点如表1所示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Synthesiology Social Sciences-Social Sciences (all)

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