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简化血吸虫监测:利用分子尾蚴计量法检测和量化水中的尾蚴

Simplifying Schistosome Surveillance: Using Molecular Cercariometry to Detect and Quantify Cercariae in Water.

作者信息

McPhail Brooke A, Froelich Kelsey, Reimink Ronald L, Hanington Patrick C

机构信息

School of Public Health, University of Alberta, 357 South Academic Building, 116 St. and 85th Ave., Edmonton, AB T6G 2R3, Canada.

Freshwater Solutions LLC, 137 W 15th St., Holland, MI 49423, USA.

出版信息

Pathogens. 2022 May 10;11(5):565. doi: 10.3390/pathogens11050565.

DOI:10.3390/pathogens11050565
PMID:35631086
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9146278/
Abstract

Avian schistosomes are considered a public health nuisance due to their ability to cause swimmer's itch when accidentally encountering humans rather than their intended avian hosts. Researchers have been monitoring their presence and abundance through snail collections and cercariometry. Cercariometry methods have evolved over the last several decades to detect individual schistosome species from a single water sample, simplifying the monitoring of these parasites. This methodological evolution coincides with the development of the field of environmental DNA (eDNA) where genetic material is extracted from environmental samples, rather than individual organisms. While there are some limitations with using molecular cercariometry, notably the cost and its inability to differentiate between life cycle stages, it substantially reduces the labor required to study trematode populations. It also can be used in complement with snail collections to understand the composition of avian schistosomes in an environment.

摘要

鸟类血吸虫被认为是一种危害公共健康的害虫,因为当它们意外感染人类而非其预期的鸟类宿主时,会引发游泳者皮疹。研究人员一直通过收集蜗牛和进行尾蚴测量来监测它们的存在和数量。在过去几十年中,尾蚴测量方法不断发展,以便从单一水样中检测出单个血吸虫物种,从而简化了对这些寄生虫的监测。这种方法的演变与环境DNA(eDNA)领域的发展相吻合,在该领域中,遗传物质是从环境样本而非单个生物体中提取的。虽然使用分子尾蚴测量法存在一些局限性,特别是成本较高且无法区分生命周期阶段,但它大大减少了研究吸虫种群所需的工作量。它还可以与蜗牛收集相结合,以了解环境中鸟类血吸虫的组成。

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