Rapid quantification of bioaerosols containing L. pneumophila by Coriolis庐 渭 air sampler and chemiluminescence antibody microarrays
- 作者:Veronika Langer ; Georg Hartmann ; Reinhard Niessner ; Michael Seidel ; michael.seidel@ch.tum.de
- 关键词:Bioaerosol ; L. pneumophila ; Microarray immunoassay ; Cyclone sampler.
- 刊名:Journal of Aerosol Science
- 出版年:2012
- 期刊代码:45_00218502
- 类别:ce
- 出版时间:June, 2012
- 卷:48
- 期:Complete
- 页码:46-55
- 文件大小:452 K
摘要
Bioaerosols containing Legionella may cause Legionnaires' disease and Pontiac fever in humans. Legionella occur in natural and artificial water systems and are ubiquitous therein. Infection of humans is only caused by inhaling bioaerosols containing these bacteria. Those bioaerosols are, for example, generated by hot water systems, air-conditioning systems, while showering or by cooling towers and can be a threat for the health of people in surrounding areas. Rapid detection methods are essential to combine sampling of bioaerosols with multiplexed analysis for specification and quantification of Legionella species in air. The rapid quantification of bacteria with flow-through chemiluminescence microarrays was established in our laboratories and is applied for bioaerosol analysis in this work. Viable cells of E. coli and heat-inactivated L. pneumophila (serogroup 1) have been utilized as model organisms. The aerosol was generated by a nebulizer which is commonly used in the therapy of respiratory diseases. It was found that this nebulizer is suitable for the generation of bioaerosols with defined bacteria concentrations. The cyclone separator Coriolis庐 渭 was applied for the collection of airborne microorganisms; a device specially designed for bioaerosol sampling with a high sampling rate. As reference, an impinger (type AGI-30) was used. Quantification was accomplished by flow cytometry and a flow-through microarray chip reader applying antibody microarrays for chemiluminescence sandwich immunoassays. The efficiency of bioaerosol sampling with Coriolis庐 渭 was examined by nebulizing living E. coli in a chamber and quantifying them with flow cytometry after sampling. A recovery of 34卤10%was found with a high reproducibility between 5脳105 and 2脳107 cells/mL. The impinger AGI-30 was compared to the cyclone separator Coriolis庐 渭 by quantification of collected L. pneumophila with microarray sandwich immunoassay analysis. Similar recoveries were determined for both samplers. However, the detection limit with Coriolis庐 渭 was lower by a factor of 100 due to the higher sampling rate. Different Legionella species might be rapidly quantified down to 4脳103 cells/m3, which fulfills the requirements for bioaerosol measurements in the environment and in the interior.