Modeling and experimental study of dispersion and deposition of respiratory emissions with implications for disease transmission

Coldrick, Simon; Kelsey, Adrian; Ivings, M.J.; Foat, Timothy; Parker, Simon; Noakes, Catherine; Bennett, Allan; Rickard, Helen; Moore, Ginny

doi:10.1111/ina.13000

Cited by 15 publications

(15 citation statements)

References 58 publications

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“…Some potential changes in expiratory metabolism occurred due to differences in wearing duration, quality of masks, and filtering effectiveness of masks. Some possible explanations including the fact that our exhalation components frequently contain germs [10,8,9,11,19]. Because of the masks' barrier, some germs begin to gather around the masks and then continue to move through the body with breath in and out.…”

Section: Resultsmentioning

confidence: 99%

Metabolic changes of VOCs in human caused by wearing masks: a preliminary study based on electronic nose

Yang

Xiang

Meng

et al. 2022

International Conference on Biomedical and Intelligent Systems (IC-BIS 2022)

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Wearing masks has been generally recommended to reduce the spreading of COVID-19. However, little is known about its effects on metabolic VOC changes in human body. To explore how the duration of wearing masks influences VOC metabolism in the human body, the essay used a self-developed electronic nose to analyse exhaled breath samples from 10 healthy individuals in this study. Firstly, polytetrafluoroethylene sampling bags are used to collect breath samples after volunteers wearing masks for 1h, 2h, 3h, 4h, and 5h. Secondly, data pre-processing, including baseline calibration and normalization are carried out. Thirdly, the study used LDA for dimensionality reduction on the original data to extract 4 features. Fourthly, differences in the length of time of wearing masks are analysed. Then, 4 algorithms were applied for cluster analysis based on extracted features. Moreover, 3 supervised classification algorithms were used to recognize the duration of wearing masks. Finally, multi-dimensional linear regression is used to study the possibility of predicting the duration of wearing masks based on breath signals acquired through electronic noses. As a result, the first feature extracted by LDA significantly differs from each other in the duration of wearing masks (p<0.05). Cluster analysis results show that the optimal internal parameters Adjusted Rand Index, Adjusted Mutual Information, Homogeneity and V-measure reach 80.2%, 81.5%, 83.5% and 83.7% respectively. Using 5-fold cross-validation on the K nearest neighbour classification model, the best accuracy of recognizing durations of wearing a mask reaches 88%. R-square of multi-dimensional linear regression reaches 92.5%, which shows excellent fitting performance. It can be concluded that the VOC metabolism of the human may change with the duration of wearing masks. Further, “breath prints” obtained by electronic nose may have the potential to predict the effective time and even the quality of masks.

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Section: Resultsmentioning

confidence: 99%

Metabolic changes of VOCs in human caused by wearing masks: a preliminary study based on electronic nose

Yang

Xiang

Meng

et al. 2022

International Conference on Biomedical and Intelligent Systems (IC-BIS 2022)

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“…Professor Cath Noakes (University of Leeds) summarised our understanding of respiratory transmission over 40 years, including through droplets, aerosols, fomites and contact. She argued against simple categorisations of respiratory viral transmission as droplet or aerosol, emphasised how medium-sized particles are the most unpredictable, and she explained exciting new methodological approaches used in research in this field [ 15 ].…”

Section: Sessions 5 and 6: Looking Forward And Panel Discussionmentioning

confidence: 99%

Reflections on the past and perspectives on the future at the Healthcare Infection Society – 40th Anniversary special celebratory meeting

Mahida

Fears

Humphreys

2022

Journal of Hospital Infection

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“…This was applied as a surface heat flux of 25 W m −2 . This value is similar to that measured by Zhu et al 28 for a resting subject and was used in Coldrick et al 12 The heat flux was assumed to be the same for all the temperature and RH conditions. All walls, the floor and the ceiling were given adiabatic boundary conditions.…”

Section: Methodsmentioning

confidence: 96%

“…F I G U R E 3 Initial jet expansion angles for the cough, viewed from the front and side. 27 as described in Coldrick et al 12 The number of droplets emitted during each time step was determined by the fraction of the total volume exhaled during that time interval. Over the duration of the exhalation, the sampled distribution approached the specified BLO distribution.…”

Section: The Exhalationmentioning

confidence: 99%

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Modeling the effect of temperature and relative humidity on exposure to SARS‐CoV ‐2 in a mechanically ventilated room

et al. 2022

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Computational fluid dynamics models have been developed to predict airborne exposure to the SARS‐CoV‐2 virus from a coughing person in a mechanically ventilated room. The models were run with three typical indoor air temperatures and relative humidities (RH). Quantile regression was used to indicate whether these have a statistically significant effect on the airborne exposure. Results suggest that evaporation is an important effect. Evaporation leads to respiratory particles, particularly those with initial diameters between 20 and 100 μm, remaining airborne for longer, traveling extended distances and carrying more viruses than expected from their final diameter. In a mechanically ventilated room, with all of the associated complex air movement and turbulence, increasing the RH may result in reduced airborne exposure. However, this effect may be so small that other factors, such as a small change in proximity to the infected person, could rapidly counter the effect. The effect of temperature on the exposure was more complex, with both positive and negative correlations. Therefore, within the range of conditions studied here, there is no clear guidance on how the temperature should be controlled to reduce exposure. The results highlight the importance of ventilation, face coverings and maintaining social distancing for reducing exposure.

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Modeling and experimental study of dispersion and deposition of respiratory emissions with implications for disease transmission

Cited by 15 publications

References 58 publications

Metabolic changes of VOCs in human caused by wearing masks: a preliminary study based on electronic nose

Metabolic changes of VOCs in human caused by wearing masks: a preliminary study based on electronic nose

Reflections on the past and perspectives on the future at the Healthcare Infection Society – 40th Anniversary special celebratory meeting

Modeling the effect of temperature and relative humidity on exposure to SARS‐CoV ‐2 in a mechanically ventilated room

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