Field evaluation of the ICT Malaria P.f./P.v. immunochromatographic test in India

Annals of Tropical Medicine & Parasitology Pub Date : 2002-04-01 DOI:10.1179/000349802125000817

N. Valecha, A. Eapen, C. Usha Devi, J. Ravindran, A. Aggarwal, S. Subbarao

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引用次数: 6

Abstract

In India the only antigen-capture assays available for routine malaria diagnosis are designed to detect P. falciparum (Singh et al. 1997; Valecha et al. 1998) although most cases of malaria (60%) are caused by P. vivax (Sharma 1999). The aim of the present Indian study was to evaluate a commercial dipstick-based assay that is designed to detect P. vivax as well as P. falciparum and probably P. malariae and P. ovale. The assay investigated is known as the ICT Malaria P.f./P.v.(TM) immunochromatographic test (ICT; AMRAD- ICT Bookvale Australia). This test is based on the detection of histidine-rich protein 2 (HRP2) from P. falciparum and a genus-specific pan-malarial antigen that appears to be present in all four of the Plasmodium species that can cause human malaria (Tjitra et al. 1999; Mason et al. 2001). The present investigation which was approved by the ethical committee of the Malaria Research Centre in Delhi formed part of a multicentre study of an epidemic tribal area of Madhya Pradesh in central Indian (Singh et al. 2000). The present data were generated during surveys in the urban areas of Delhi in northern India and Chennai in the south in September-October 1999. Delhi is an area with relatively low levels of malaria transmission sporadic transmission occurring from the end of April into May and again from the onset of the monsoon in July to October (Adak et al. 1998). The incidence of malaria in Chennai is much greater cases of malaria in the city representing 50%-70% of all those occurring in the state of Tamil Nadu (Dua et al. 1997). Chennai has fairly stable perennial transmission although there are peaks in July-August and October-November. In both Delhi and Chennai those who presented at malaria clinics with the typical signs and symptoms of malaria and those who were found to be febrile during active case-detection surveys in suburban area were enrolled. (excerpt)

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信息和通信技术疟疾项目的实地评价。免疫层析试验

在印度，用于常规疟疾诊断的唯一抗原捕获测定法旨在检测恶性疟原虫(Singh等，1997年;Valecha等人，1998年)，尽管大多数疟疾病例(60%)是由间日疟原虫引起的(Sharma, 1999年)。目前印度的这项研究的目的是评估一种基于试纸的商业检测方法，该方法被设计用于检测间日疟原虫、恶性疟原虫、可能还有疟疾疟原虫和卵形疟原虫。所研究的试验被称为ICT疟疾P.f./ p.v. (TM)免疫层析试验(ICT;AMRAD- ICT Bookvale澳大利亚)。该试验基于检测恶性疟原虫中富含组氨酸的蛋白2 (HRP2)和一种似乎存在于可引起人类疟疾的所有四种疟原虫中的属特异性泛疟疾抗原(Tjitra等人，1999;Mason et al. 2001)。目前的调查得到了德里疟疾研究中心伦理委员会的批准，是对印度中部中央邦一个流行部落地区进行的多中心研究的一部分(Singh等人，2000年)。目前的数据是1999年9 - 10月在印度北部德里城市地区和南部金奈进行的调查中产生的。德里是疟疾传播水平相对较低的地区，散发传播发生在4月底至5月，7月至10月季风开始时再次发生(Adak等人，1998年)。钦奈的疟疾发病率要高得多，该市的疟疾病例占泰米尔纳德邦所有病例的50%-70% (Dua等人，1997年)。金奈的常年传播相当稳定，但在7 - 8月和10 - 11月有高峰。在德里和金奈，登记了在疟疾诊所出现典型疟疾体征和症状的人以及在郊区积极病例发现调查中发现发热的人。(摘录)

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Annals of Tropical Medicine & Parasitology

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