Development of a Bioaerosol Sampling Method for Airborne Pathogen Detection with Focus on SARS-CoV-2

IF 4.3 2区 环境科学与生态学 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Indoor air Pub Date : 2024-03-16 DOI:10.1155/2024/6638511
Sarah L. Paralovo, Koen Vanden Driessche, Reinoud Cartuyvels, Borislav Lazarov, Erika Vlieghe, Laura Vanstraelen, Rita Smets, Maarten Spruyt, Sabine Kreps, Nady Hufkens, Marianne Stranger
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Abstract

As worldwide evidence shows that the predominant transmission route of SARS-CoV-2 and other respiratory pathogens is airborne, the need for suitable methods for the sampling of bioparticles directly from the air is more urgent than ever. The present paper describes the development of a method for the collection of biological aerosols, using a preexisting cyclonic impinger, the Coriolis μ, combined with a lysis buffer and subsequent qPCR analysis of the generated samples in lab. Four phases of method development are described: exploratory, validation, blank tests, and application. The application phase consisted of a field experiment in which the method was simultaneously applied at two daycare facilities. The method achieved a good level of accuracy and reliability in detecting different types of infectious agents in the air, with a global uncertainty of 19.6%. Furthermore, our method allows the simultaneous detection of 26 different respiratory pathogens in air samples, it is relatively simple, and the equipment is easy to use. Additionally, the time to collect a representative sample is short compared to other methods. The method does not cause significant disturbance to those present in the sampled rooms, and it is safe for operators and flexible, meaning it can be used in virtually any environment regardless of use, size, or occupancy. Further research is being developed to allow quantitative analysis of the collected samples and to test the methods’ ability to assess the viability of the microorganisms collected in the sample.

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开发用于空气传播病原体检测的生物气溶胶采样方法,重点关注 SARS-CoV-2
世界范围内的证据表明,SARS-CoV-2 和其他呼吸道病原体的主要传播途径是空气传播,因此现在比以往任何时候都更迫切需要直接从空气中采集生物颗粒样本的合适方法。本文介绍了一种生物气溶胶收集方法的开发过程,该方法使用了已有的旋风式撞击器 Coriolis μ,并结合了裂解缓冲液,随后在实验室对生成的样本进行 qPCR 分析。方法开发分为四个阶段:探索、验证、空白测试和应用。应用阶段包括现场实验,在两个日托机构同时应用该方法。该方法在检测空气中不同类型的传染性病原体方面达到了良好的准确性和可靠性,总体不确定性为 19.6%。此外,我们的方法可同时检测空气样本中的 26 种不同呼吸道病原体,操作相对简单,设备易于使用。此外,与其他方法相比,采集代表性样本的时间很短。该方法不会对被采样房间内的人员造成严重干扰,对操作人员也很安全,而且操作灵活,这意味着它几乎可用于任何环境,无论其用途、规模或占用率如何。目前正在开展进一步的研究,以便对收集到的样本进行定量分析,并测试该方法评估样本中收集到的微生物存活能力的能力。
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来源期刊
Indoor air
Indoor air 环境科学-工程:环境
CiteScore
10.80
自引率
10.30%
发文量
175
审稿时长
3 months
期刊介绍: The quality of the environment within buildings is a topic of major importance for public health. Indoor Air provides a location for reporting original research results in the broad area defined by the indoor environment of non-industrial buildings. An international journal with multidisciplinary content, Indoor Air publishes papers reflecting the broad categories of interest in this field: health effects; thermal comfort; monitoring and modelling; source characterization; ventilation and other environmental control techniques. The research results present the basic information to allow designers, building owners, and operators to provide a healthy and comfortable environment for building occupants, as well as giving medical practitioners information on how to deal with illnesses related to the indoor environment.
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