Optimizing Salmonella Detection in Beijing's Surface Water: Unveiling Rare Serotypes with a Modified Moore Swab (MMS) Method.

Journal of AOAC International Pub Date : 2025-05-01 DOI:10.1093/jaoacint/qsae089

Xueshuo Wang, Yue Dou, Jingyun Li, Yao Bai, Shenghui Cui

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Abstract

Background: Salmonella, a notorious foodborne pathogen with a wide range of hosts, poses a significant public health concern globally. Contaminated surface water acts as a potential source of Salmonella transmission.

Objective: To optimize a Salmonella detection method from large-volume water and analyze surface water samples in Beijing and characterize Salmonella isolates from these samples by whole genome sequencing.

Methods: A microbial enrichment device based on the modified Moore swab (MMS) design was optimized and validated. Thirty-five water samples were collected and analyzed for Salmonella from 11 park lakes, two rivers, and two farms. Multiple characteristics of isolates were analyzed using antibiotic antimicrobial testing and whole genome sequencing.

Results: The optimized MMS unit showed high efficiency (over 80% recovery) and a low detection limit (100 cells) for enriching and isolating Salmonella from large-volume water (10 L). Compared to the conventional method, the MMS device significantly improved Salmonella detection efficiency (62.86 versus 8.57%) in Beijing's surface water. Most of the Salmonella isolates from surface water belonged to rare serotypes from water wildlife susceptible to all the tested antimicrbials.

Conclusion: The study demonstrates the optimized MMS's effectiveness for on-site enrichment of pathogens from large-volume water, validates the accuracy and sensitivity of a Salmonella detection method for surface water, and reveals previously unknown information about Salmonella contamination in Beijing's public water system.

Highlights: Salmonella concentrations in water are typically very low: implementation of this method would successfully realize large-volume water sampling and on-site pathogen enrichment, and significantly improve Salmonella detection efficiency in surface water.

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优化北京地表水沙门氏菌检测：改进摩尔拭子法揭示罕见血清型

背景：沙门氏菌是一种臭名昭著的食源性病原体，具有广泛的宿主，在全球范围内引起了重大的公共卫生问题。受污染的地表水是沙门氏菌传播的潜在来源。目的：优化大容量水体沙门菌检测方法，对北京市地表水样品进行分析，并对分离的沙门菌进行全基因组测序。方法：对基于改良摩尔拭子（MMS）设计的微生物富集装置进行优化和验证。从11个公园湖泊、2条河流和2个农场收集35个水样并检测沙门氏菌。采用抗菌试验和全基因组测序对分离株的多种特征进行分析。结果：优化后的MMS装置对大容量水（10升）中沙门氏菌的富集和分离效率高（回收率80%以上），检出限低（10°cells）。与传统方法相比，MMS设备显著提高了北京地表水沙门氏菌的检测效率（62.86% vs 8.57%）。从地表水分离出的沙门氏菌多数属于罕见的水生生物血清型，对所检测的抗菌素普遍敏感。结论：本研究验证了优化后的MMS对大容量水体病原菌的现场富集效果，验证了地表水沙门菌检测方法的准确性和敏感性，可用于揭示北京市公共供水系统沙门菌污染的未知信息。重点：水体中沙门氏菌的浓度通常很低，该方法的实施将成功实现大批量的水体采样和现场病原菌富集，显著提高地表水中沙门氏菌的检测效率。

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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Journal of AOAC International

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