从大量自来水中浓缩细菌的简易方法。

Simple method for concentration of bacteria from large volumes of tap water.

作者信息

Goyal S M, Gerba C P

出版信息

Appl Environ Microbiol. 1980 Nov;40(5):912-6. doi: 10.1128/aem.40.5.912-916.1980.

DOI:10.1128/aem.40.5.912-916.1980

PMID:7004354

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC291689/

Abstract

Membrane adsorption-elution techniques have made it possible to concentrate and detect small numbers of viruses in large volumes of water and wastewater, but no such methods are available for quantitative recovery of bacteria. A number of waterborne disease outbreaks of "unknown etiology" in the United States are suspected to have been caused by pathogens present in numbers too small to be detected by currently available methodology. The present study reports on the use of positively charged depth filters for the concentration and detection of bacteria in large volumes of tap water. In this method, dechlorinated tap water was passed, under positive pressure, through positively charged filter media (Zetaplus, 05S). More than 90% of seeded bacteria adsorbed to these filters at ambient pH levels. Adsorbed bacteria were eluted by passing a small volume of Trypticase soy broth in the direction opposite of the influent flow. By this method, Escherichia coli and Salmonella serovar B organisms in 20 liters of tap water were concentrated in a final volume of 50 ml, with an average recovery efficiency of greater than or equal to 30%.

摘要

膜吸附洗脱技术已使在大量水和废水中浓缩和检测少量病毒成为可能，但尚无用于定量回收细菌的此类方法。美国许多病因不明的水源性疾病暴发被怀疑是由数量太少而无法用现有方法检测到的病原体引起的。本研究报告了使用带正电荷的深层过滤器在大量自来水中浓缩和检测细菌的情况。在该方法中，脱氯自来水在正压下通过带正电荷的过滤介质（Zetaplus，05S）。在环境pH值水平下，超过90%的接种细菌吸附到这些过滤器上。通过沿与进水相反的方向通入少量胰蛋白酶大豆肉汤来洗脱吸附的细菌。通过这种方法，20升自来水中的大肠杆菌和鼠伤寒沙门氏菌在最终体积为50毫升的溶液中被浓缩，平均回收效率大于或等于30%。

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