Comparison of Air Impaction and Electrostatic Dust Collector Sampling Methods to Assess Airborne Fungal Contamination in Public Buildings.

Annals of Occupational Hygiene Pub Date : 2016-03-01 Epub Date: 2015-10-21 DOI:10.1093/annhyg/mev075
Anne-Cécile Normand, Stéphane Ranque, Carole Cassagne, Jean Gaudart, Kankoé Sallah, Denis-André Charpin, Renaud Piarroux
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引用次数: 15

Abstract

Many ailments can be linked to exposure to indoor airborne fungus. However, obtaining a precise measurement of airborne fungal levels is complicated partly due to indoor air fluctuations and non-standardized techniques. Electrostatic dust collector (EDC) sampling devices have been used to measure a wide range of airborne analytes, including endotoxins, allergens, β-glucans, and microbial DNA in various indoor environments. In contrast, viable mold contamination has only been assessed in highly contaminated environments such as farms and archive buildings. This study aimed to assess the use of EDCs, compared with repeated air-impactor measurements, to assess airborne viable fungal flora in moderately contaminated indoor environments. Indoor airborne fungal flora was cultured from EDCs and daily air-impaction samples collected in an office building and a daycare center. The quantitative fungal measurements obtained using a single EDC significantly correlated with the cumulative measurement of nine daily air impactions. Both methods enabled the assessment of fungal exposure, although a few differences were observed between the detected fungal species and the relative quantity of each species. EDCs were also used over a 32-month period to monitor indoor airborne fungal flora in a hospital office building, which enabled us to assess the impact of outdoor events (e.g. ground excavations) on the fungal flora levels on the indoor environment. In conclusion, EDC-based measurements provided a relatively accurate profile of the viable airborne flora present during a sampling period. In particular, EDCs provided a more representative assessment of fungal levels compared with single air-impactor sampling. The EDC technique is also simpler than performing repetitive air-impaction measures over the course of several consecutive days. EDC is a versatile tool for collecting airborne samples and was efficient for measuring mold levels in indoor environments.

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空气冲击法与静电除尘器取样法评估公共建筑空气真菌污染的比较。
许多疾病都与接触室内空气中的真菌有关。然而,获得空气中真菌水平的精确测量是复杂的,部分原因是室内空气波动和非标准化技术。静电除尘器(EDC)取样装置已用于测量各种室内环境中的空气分析物,包括内毒素,过敏原,β-葡聚糖和微生物DNA。相比之下,活霉菌污染只在高度污染的环境中进行了评估,如农场和档案馆。本研究旨在评估EDCs的使用,与重复空气冲击器测量相比较,以评估中度污染室内环境中空气传播的活真菌菌群。从办公大楼和日托中心收集的EDCs和日常空气撞击样本中培养室内空气中真菌菌群。使用单个EDC获得的定量真菌测量值与9次每日空气影响的累积测量值显着相关。两种方法都能够评估真菌暴露,尽管在检测到的真菌种类和每种物种的相对数量之间观察到一些差异。EDCs还被用于监测医院办公楼内32个月的室内空气真菌菌群,这使我们能够评估室外活动(如地面挖掘)对室内环境真菌菌群水平的影响。总之,基于edc的测量提供了在采样期间存在的可行空气中菌群的相对准确的概况。特别是,与单一空气撞击器取样相比,EDCs提供了更具代表性的真菌水平评估。EDC技术也比连续几天重复进行空气冲击测量更简单。EDC是一种多用途的工具,用于收集空气样品,并有效地测量室内环境中的霉菌水平。
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