高效收集曼氏血吸虫环境 DNA 和改进热带湿地血吸虫病监测的方法评估

IF 2.1 3区 医学 Q2 PARASITOLOGY
Ryosuke Osawa , Toshiaki S. Jo , Risa Nakamura , Kyoko Futami , Tomoaki Itayama , Evans Asena Chadeka , Benard Ngetich , Sachiyo Nagi , Mihoko Kikuchi , Sammy M. Njenga , Collins Ouma , George O. Sonye , Shinjiro Hamano , Toshifumi Minamoto
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引用次数: 0

摘要

由血吸虫属吸虫引起的血吸虫病是最被严重忽视的热带疾病之一。尽管对血吸虫传播风险地区进行快速监测对控制血吸虫病至关重要,但这种寄生虫的栖息地和感染状况却很难评估。环境 DNA(eDNA)分析涉及检测水样中的生物体外 DNA,有助于对水生环境进行成本效益高且灵敏的生物监测,是确定血吸虫栖息地和感染风险区域的一种很有前途的工具。然而,在热带湿地,高度浑浊的水会导致过滤器堵塞,从而减少过滤量,增加假阴性的风险。因此,在本研究中,我们的目标是在米比塔的维多利亚湖进行实验室实验和实地调查,从颗粒大小和过滤量的角度确定曼氏沙雷氏菌 eDNA 采集所需的合适过滤孔径。在实验室实验中,使用不同孔径的过滤器依次过滤水族箱中的水。结果发现,无论曼氏沙门氏菌的生命周期处于哪个阶段(卵、蛛形纲和恙虫纲),3 µm 过滤器都足以捕获曼氏沙门氏菌 eDNA 颗粒。在实地调查中,GF/D(标称孔径为 2.7 微米)过滤器的过滤量是采用较小孔径过滤器和预过滤方法在相同时间限制下获得的过滤量的 2.5 倍。此外,还对现场检测结果应用了现场占位模型,以估计曼氏沙门氏菌 eDNA 的出现和检测概率,并评估有效检测 eDNA 所需的水样和 PCR 重复次数。总之,这项研究揭示了一种在浑浊水中检测曼森氏杆菌 eDNA 的有效方法,有助于快速、灵敏地监测曼森氏杆菌的分布情况,并经济有效地确定血吸虫病传播风险区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Methodological assessment for efficient collection of Schistosoma mansoni environmental DNA and improved schistosomiasis surveillance in tropical wetlands

Methodological assessment for efficient collection of Schistosoma mansoni environmental DNA and improved schistosomiasis surveillance in tropical wetlands

Schistosomiasis, caused by trematodes of genus Schistosoma, is among the most seriously neglected tropical diseases. Although rapid surveillance of risk areas for Schistosoma transmission is vital to control schistosomiasis, the habitat and infection status of this parasite are difficult to assess. Environmental DNA (eDNA) analysis, involving the detection of extra-organismal DNA in water samples, facilitates cost-efficient and sensitive biomonitoring of aquatic environments and is a promising tool to identify Schistosoma habitat and infection risk areas. However, in tropical wetlands, highly turbid water causes filter clogging, thereby decreasing the filtration volume and increasing the risk of false negatives. Therefore, in this study, we aimed to conduct laboratory experiments and field surveys in Lake Victoria, Mbita, to determine the appropriate filter pore size for S. mansoni eDNA collection in terms of particle size and filtration volume. In the laboratory experiment, aquarium water was sequentially filtered using different pore size filters. Targeting >3 µm size fraction was found to be sufficient to capture S. mansoni eDNA particles, regardless of their life cycle stage (egg, miracidia, and cercaria). In the field surveys, GF/D (2.7 µm nominal pore size) filter yielded 2.5-times the filtration volume obtained with a smaller pore size filter and pre-filtration methods under the same time constraints. Moreover, a site-occupancy model was applied to the field detection results to estimate S. mansoni eDNA occurrence and detection probabilities and assess the number of water samples and PCR replicates necessary for efficient eDNA detection. Overall, this study reveals an effective method for S. mansoni eDNA detection in turbid water, facilitating the rapid and sensitive monitoring of its distribution and cost-effective identification of schistosomiasis transmission risk areas.

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来源期刊
Acta tropica
Acta tropica 医学-寄生虫学
CiteScore
5.40
自引率
11.10%
发文量
383
审稿时长
37 days
期刊介绍: Acta Tropica, is an international journal on infectious diseases that covers public health sciences and biomedical research with particular emphasis on topics relevant to human and animal health in the tropics and the subtropics.
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