Comparing respiratory aerosol emissions between children and adults during sustained phonation

IF 2.8 4区环境科学与生态学 Q2 ENGINEERING, CHEMICAL

Aerosol Science and Technology Pub Date : 2023-10-18 DOI:10.1080/02786826.2023.2261715

Mahender Singh Rawat, Mehtap Agirsoy, Dinushani Senarathna, Byron D. Erath, Tanvir Ahmed, Sumona Mondal, Andrea R. Ferro

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引用次数: 0

Abstract

AbstractRespiratory aerosols arise due to bronchial fluid film bursting within the pulmonary tract, the vibration of the vocal folds during phonation, and articulation of the tongue/lips/teeth. We expect respiratory aerosol emission rates to be lower in children than adults due to the smaller size of their laryngeal structure, reduced sub-glottal pressure created during speech, and reduced number of alveoli. However, few studies have evaluated respiratory aerosols for children. We recruited 50 participants from three age categories: children aged 6−11 years, children aged 12−18 years, and adults ( >18 years). We investigated particle emissions for three different 5 s sustained vocalizations of /a/ or /pa/ at 262 Hz, as well as for running speech and breathing. The particle generation rate ranged from 0 to 488 particles/s. Children aged 6−11 years produced fewer particles (mean 12 ± SD 9 particles/s) than children aged 12−18 years (23 ± 19 particles/s) and adults (70 ± 73 particles/s). Taking a deep breath before vocalizing /a/ resulted in higher aerosol emission rates than the baseline case. The particle number size distributions for all vocalizations and age groups consistently showed two modes at ≈0.6 μm and ≈2 μm. Children had a slightly smaller primary mode location and larger secondary mode location than adults. Superemitters (statistical outliers) were found in all groups. Experiments repeated over time revealed large intrapersonal variability indicating additional variables (e.g., environmental, physiological, behavioral) may significantly influence emission rates. The lower respiratory aerosol emission rates for children indicate a need to consider population demographics when predicting airborne disease transmission risks.KEYWORDS: airborne particlesrespiratory emissionCOVID-19aerosolsbioaerosolstransmissionsuperemitterDisclaimerAs a service to authors and researchers we are providing this version of an accepted manuscript (AM). Copyediting, typesetting, and review of the resulting proofs will be undertaken on this manuscript before final publication of the Version of Record (VoR). During production and pre-press, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal relate to these versions also. Additional informationFundingThis work was supported by the National Science Foundation [CBET:2029548] and the Clarkson University COVID-19 Special Solicitation.

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比较儿童和成人在持续发声时的呼吸道气溶胶排放

摘要呼吸道气溶胶的产生是由于支气管液膜在肺部破裂、发声时声带的振动、舌/唇/齿的咬合等。我们预计儿童的呼吸道气溶胶排放率比成人低，因为他们的喉部结构较小，说话时产生的声门下压力减少，肺泡数量减少。然而，很少有研究对儿童呼吸道气溶胶进行评估。我们从三个年龄段招募了50名参与者:6 - 11岁的儿童、12 - 18岁的儿童和18岁以上的成年人。我们研究了在262hz下/a/或/pa/三种不同的持续5秒的发声，以及奔跑语音和呼吸时的颗粒排放。颗粒生成速率为0 ~ 488粒/s。6 ~ 11岁儿童产生的颗粒(平均12±SD 9颗粒/s)少于12 ~ 18岁儿童(23±19颗粒/s)和成人(70±73颗粒/s)。在发出/a/的声音之前深呼吸会导致比基线情况下更高的气溶胶排放率。在≈0.6 μm和≈2 μm处，各发声组和年龄组的粒径分布一致呈现出两种模式。与成人相比，儿童的主要模式位置略小，次要模式位置略大。在所有组中都发现了超级排放者(统计异常值)。随着时间的推移，反复进行的实验揭示了巨大的个人变异，表明其他变量(如环境、生理、行为)可能显著影响排放率。儿童呼吸道气溶胶排放率较低表明，在预测空气传播疾病的风险时，需要考虑人口统计学因素。关键词:空气颗粒呼吸排放covid -19气溶胶生物气溶胶传输超级发射器免责声明作为对作者和研究人员的服务，我们提供此版本的接受稿件(AM)。在最终出版版本记录(VoR)之前，将对该手稿进行编辑、排版和审查。在制作和印前，可能会发现可能影响内容的错误，所有适用于期刊的法律免责声明也与这些版本有关。本研究得到了美国国家科学基金[CBET:2029548]和克拉克森大学COVID-19特别征集的支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aerosol Science and Technology 环境科学-工程：化工

CiteScore

8.40

自引率

7.70%

发文量

审稿时长

3 months

期刊介绍： Aerosol Science and Technology publishes theoretical, numerical and experimental investigations papers that advance knowledge of aerosols and facilitate its application. Articles on either basic or applied work are suitable. Examples of topics include instrumentation for the measurement of aerosol physical, optical, chemical and biological properties; aerosol dynamics and transport phenomena; numerical modeling; charging; nucleation; nanoparticles and nanotechnology; lung deposition and health effects; filtration; and aerosol generation. Consistent with the criteria given above, papers that deal with the atmosphere, climate change, indoor and workplace environments, homeland security, pharmaceutical aerosols, combustion sources, aerosol synthesis reactors, and contamination control in semiconductor manufacturing will be considered. AST normally does not consider papers that describe routine measurements or models for aerosol air quality assessment.