Diagnostic Techniques for Soil-Transmitted Helminths - Recent Advances.

IF 3.1 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Research and Reports in Tropical Medicine Pub Date : 2021-08-04 eCollection Date: 2021-01-01 DOI:10.2147/RRTM.S278140
Sumeeta Khurana, Shreya Singh, Abhishek Mewara
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引用次数: 21

Abstract

Soil-transmitted helminth (STH) infections (hookworms, Trichuris, Ascaris) and Strongyloides spp. are associated with a substantial global burden and high morbidity. Sensitive and specific methods for diagnosis of these infections are essential for mapping the burden in communities, accurate assessment of infection levels, to guide interventions and monitoring the success of STH control programs. Despite considerable progress to control STH over several decades, we are still far from identifying a fully adequate diagnostic test. Conventional microscopy-based methods such as direct Kato-Katz smear or mounts after stool centrifugation/flotation-based concentration techniques have been the mainstay of diagnosis, especially in resource-poor countries where these infections abound. However, recently, these are being adapted to closed, easy to perform, digital formats, thereby improving the sensitivity as well as applicability in a remote, resource-limited setting. The use of image analysis systems to identify and quantify helminth eggs, with potential adaptation to smartphones, is also promising. Antibody detection tests have a limited role mostly in the case of Strongyloides hyperinfection. Coproantigen detection tests have been developed and used in veterinary practice for detection of STH, but these have not been evaluated for use in humans. More sensitive molecular diagnostics, including assays developed with new bioinformatic tools and techniques such as polymerase chain reaction (PCR), quantitative PCR (qPCR) and loop-mediated amplification assay, can help in the clear and precise assessment of STH burden during elimination phase and are of immense value for diagnosis in areas with low endemicity and in travelers to endemic regions. Moreover, the molecular techniques will help detect new species that may emerge. Sample preservation and efficient DNA extraction are critical and significantly affect the efficiency of molecular diagnostic tests. In addition to the diagnosis of clinical or asymptomatic infection in humans, detection of STH eggs in environmental samples is imperative to boost STH control efforts. Overall the diagnostic performance, cost-effectiveness, ease of performance, rapidity and in-field applicability of any test should be considered when choosing from the various diagnostic assays in areas with different endemicity, in addition to striving towards the development of novel technologies and optimization of existing methods.

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土壤传播蠕虫的诊断技术——最新进展。
土壤传播蠕虫(STH)感染(钩虫、毛线虫、蛔虫)和类圆线虫是一种全球性的沉重负担和高发病率。诊断这些感染的敏感和具体方法对于绘制社区负担、准确评估感染水平、指导干预措施和监测STH控制计划的成功至关重要。尽管在过去几十年里,我们在控制STH方面取得了相当大的进展,但我们仍然远远没有找到一种完全适当的诊断测试方法。传统的基于显微镜的方法,如直接Kato-Katz涂片或粪便离心/漂浮浓缩技术后的标本,已成为诊断的主要方法,特别是在这些感染普遍存在的资源贫乏国家。但是,最近,这些方法正在适应于封闭的、易于执行的数字格式,从而提高了灵敏度以及在偏远、资源有限的环境中的适用性。使用图像分析系统来识别和量化蠕虫卵,并将其应用于智能手机,也很有前景。抗体检测试验的作用有限,主要是在类圆杆菌过度感染的情况下。已经开发了粪原抗原检测试验,并在兽医实践中用于检测STH,但尚未对这些试验在人类中的使用进行评估。更灵敏的分子诊断方法,包括采用新的生物信息学工具和技术(如聚合酶链反应(PCR)、定量PCR (qPCR)和环介导扩增法)开发的检测方法,可以帮助在消除阶段清楚准确地评估STH负担,对低流行地区和前往流行地区的旅行者的诊断具有巨大价值。此外,分子技术将有助于发现可能出现的新物种。样品保存和高效的DNA提取是至关重要的,并显著影响分子诊断测试的效率。除了诊断人类的临床或无症状感染外,在环境样本中检测STH卵对于加强STH控制工作至关重要。总的来说,除了努力开发新技术和优化现有方法外,在不同地区从各种诊断分析方法中进行选择时,还应考虑任何测试的诊断性能、成本效益、易用性、快速和现场适用性。
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来源期刊
Research and Reports in Tropical Medicine
Research and Reports in Tropical Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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发文量
7
审稿时长
16 weeks
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