Unraveling the impact of operational parameters and environmental conditions on the quality of viable bacterial aerosols.

IF 2.2 Q2 MULTIDISCIPLINARY SCIENCES PNAS nexus Pub Date : 2024-10-30 eCollection Date: 2024-11-01 DOI:10.1093/pnasnexus/pgae473
Mathura Thirugnanasampanthar, Lei Tian, Rod G Rhem, Danielle D Libera, Mellissa Gomez, Kyle Jackson, Alison E Fox-Robichaud, Myrna B Dolovich, Zeinab Hosseinidoust
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Abstract

Viable pathogen-laden droplets of consistent quality are essential for reliably assessing the protection offered by facemasks against airborne infections. We identified a significant gap in guidance within standardized tests for evaluating the filtration efficiencies of facemask materials using viable bacteria-laden aerosol droplets. An aerosol platform, built according to the American Society for Testing and Materials standard F2101-19, was used to validate and standardize facemask filtration test procedures. We utilized this platform to investigate the impact of varying five operating parameters, namely suspension media composition, relative humidity, pathogen concentration, and atomizer airflow and feed flow rates, on the aerosol quality of viable bacteria-laden aerosols. We achieved consistent generation of 1,700 to 3,000 viable bacteria-laden droplets sized between 2.7 and 3.3 µm under the following optimized test conditions: 1.5% w/v peptone water concentration, ≥80% relative humidity at 24 ± 2 °C, 1 × 105 CFU/mL bacterial concentration, 1.5 L/min atomizer airflow rate, and 170 μL/min feed flow rate. We also explored the consequence of deviating from these optimized test parameters on viable bacteria-laden aerosol quality. These results highlight the importance of controlling these parameters when studying airborne transmission and control.

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揭示运行参数和环境条件对可存活细菌气溶胶质量的影响。
要可靠地评估面罩对空气传播感染的防护能力,质量稳定的带菌气溶胶滴是必不可少的。我们发现在使用含菌气溶胶液滴评估面罩材料过滤效率的标准化测试指导方面存在很大差距。我们根据美国材料与试验协会标准 F2101-19 建立了一个气溶胶平台,用于验证和规范面罩过滤测试程序。我们利用该平台研究了改变悬浮介质成分、相对湿度、病原体浓度、雾化器气流和进料流速等五个操作参数对含菌气溶胶质量的影响。在以下优化测试条件下,我们能稳定生成 1,700 到 3,000 个大小在 2.7 到 3.3 µm 之间的带菌气溶胶:1.5% w/v 蛋白胨水浓度、≥80% 相对湿度(24 ± 2 °C)、1 × 105 CFU/mL 细菌浓度、1.5 升/分钟雾化器气流速度和 170 μL/min 进料流量。我们还探讨了偏离这些优化测试参数对含菌气溶胶质量的影响。这些结果凸显了在研究空气传播和控制时控制这些参数的重要性。
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