Modeling of aerosol transmission of airborne pathogens in ICU rooms of COVID-19 patients with acute respiratory failure

Crawford, Cyril; Vanoli, Emmanuel; Decorde, Baptiste; Lancelot, Maxime; Duprat, Camille; Josserand, Christophe; Jilesen, Jonathan; Bouadma, Lila; Timsit, Jean François

doi:10.1038/s41598-021-91265-5

Cited by 44 publications

(24 citation statements)

References 70 publications

(84 reference statements)

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“…After being expelled, these droplets follow ballistic trajectories and descend to the ground quickly [ 30 – 32 ]. For the investigation of the dispersion of expelled aerosol particles and droplets, qualitative, and quantitative flow visualization techniques as smoke visualization with bright light or laser light-sheet illumination, Particle Image Velocimetry [ 33 ] (PIV, with derivates as Particle Tracking Velocimetry) or Schlieren visualization [ 34 , 35 ] have been applied using mostly manikin models [ 35 , 36 ] or single human subjects [ 37 , 38 ].…”

Section: Introductionmentioning

confidence: 99%

Effects of surgical masks on aerosol dispersion in professional singing

Kniesburges

Schlegel

Peters

et al. 2021

J Expo Sci Environ Epidemiol

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Background In the CoVID-19 pandemic, singing came into focus as a high-risk activity for the infection with airborne viruses and was therefore forbidden by many governmental administrations. Objective The aim of this study is to investigate the effectiveness of surgical masks regarding the spatial and temporal dispersion of aerosol and droplets during professional singing. Methods Ten professional singers performed a passage of the Ludwig van Beethoven’s “Ode of Joy” in two experimental setups—each with and without surgical masks. First, they sang with previously inhaled vapor of e-cigarettes. The emitted cloud was recorded by three cameras to measure its dispersion dynamics. Secondly, the naturally expelled larger droplets were illuminated by a laser light sheet and recorded by a high-speed camera. Results The exhaled vapor aerosols were decelerated and deflected by the mask and stayed in the singer’s near-field around and above their heads. In contrast, without mask, the aerosols spread widely reaching distances up to 1.3 m. The larger droplets were reduced by up to 86% with a surgical mask worn. Significance The study shows that surgical masks display an effective tool to reduce the range of aerosol dispersion during singing. In combination with an appropriate aeration strategy for aerosol removal, choir singers could be positioned in a more compact assembly without contaminating neighboring singers all singers.

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Section: Introductionmentioning

confidence: 99%

Effects of surgical masks on aerosol dispersion in professional singing

Kniesburges

Schlegel

Peters

et al. 2021

J Expo Sci Environ Epidemiol

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“…Faced the increase in antibiotic-resistant pathogens, together with the emergence of new strains, Abraham et al (2021) [64] suggest the installation of copper surfaces in healthcare facilities, public transportation, public places, and food industries, considering that this material has continuing self-sanitising properties, working as a reducer or barrier to touch-transferred infections. HVAC systems [1-3, 13-15, 17-20, 22, 23, 25, 29, 30, 32, 33, 36, 37] HVAC systems play a key role in the risk of airborne infection [20] Importance of adequately positioning the patients (bed orientation) and the mobile air treatment units in the environment [20] Need to consider case by case when applying CFD simulation, since each room has its own parameters [1, 2, 13-22, 24, 26-29, 31, 33-37] Numerical (CFD) simulations and experiments can be used to visualise the airflow, the dispersion of aerosols generated by coughing, to visualise which areas are most susceptible to virus spread, to study and visualise the best arrangement and area of inlets and outlets of HVAC systems, and the best separation of spaces (partitions), among others [32] Possibility of using fluorescent tracer particles experiment to simulate airborne particle dispersion [2] Ventilation rate, inlet and outlet diffuser positions, and partitions between beds, among others, influence the airborne pathogen dispersion [23] Importance of modulate pressurization, direction of airflow, air exchange per hour, existence of air-handling systems with HEPA filters, UVC lighting, among others to reduce patient infection and exposure risk [17,25] According to ASHRAE (American Society of Heating, Refrigerating, and Air-Conditioning Engineers), indoor air quality is determined by the distribution of temperature, relative humidity, air velocity values, and pollution levels in the room environment. Ventilation type (central airconditioning system or non-central air conditioning system), increased visitor and doctors' activities, and cleaning sessions also interfere with indoor air quality [15] Necessity of increasing the rate of air change, decreasing recirculation of air, increasing the use of outdoor air and HEPA filters for disease and infection control [30] Indoor air temperature, relative humidity, indoor ventilation rate, air filtration system, differential pressure control, and mechanical strategies are related to patient medical outcomes [3] Necessity of increasing air supply and exhaust ventilation on toilets to avoid the fecal-oral transmission due to the droplets generated when flushing with the toilet lid open [27] The air exchange rate, the location of an infected patient, and the location of exhaust grilles in a ward influence the extent of the contamination.…”

Section: Surface Materialsmentioning

confidence: 99%

Current approaches for preventing environment-associated contamination in healthcare facilities: a systematic literature review by open access database

Soares

Ornstein

França

2022

Archit. Struct. Constr.

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This article presents a Systematic Literature Review (SLR) whose objective is to identify aspects related to the built environment of Emergency Rooms (ERs) and healthcare facilities that interfere with infection by respiratory diseases. The SLR presented is a relevant part of ongoing research dedicated to discussing the built environment’s role on contamination, considering the COVID-19 pandemic scenario and the ER of the University Hospital of the University of São Paulo (USP), sited in São Paulo city, Brazil, as a case study. The results of this SLR showed that the main aspects discussed in the selected articles are: Heating, Ventilation, and Air Conditioning (HVAC) systems; disinfection and hygiene; layout and spatial organisation; air curtain and air purification; natural ventilation; door opening; and surface material. As major findings, the importance of properly designed mechanical ventilation systems and of the parameters’ control for the maintenance of Indoor Air Quality (IAQ) are highlighted. In addition, the existence of isolation rooms; periodic assessments based on guides and protocols; self-sanitising materials surfaces; and environmental design strategies are presented, together with the development of technologies, often incorporated into hospital furniture. Thus, as contribution, the article highlights the importance of the association of several measures related to the performance of the built environment to minimise respiratory infections in healthcare environments. As a limit of this research, only open access articles and reviews from 2017 to 2021 were considered, so that the article reveals trends in this field of study, not covering the entirety of content.

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“…Again, the patients were represented in a very simplified way (as parallelepiped solids), thereby limiting the reliability of the computations. Crawford et al 32 were interested in the distribution of micrometric particles emitted during the coughing and breathing of patients placed in intensive care units and equipped with oxygenation devices. The study used Power Flow® CFD software which is based on the Lattice Boltzmann method to simulate the flow and on motion tracking of the droplets.…”

Section: Introductionmentioning

confidence: 99%

3D modelling and simulation of the dispersion of droplets and drops carrying the SARS-CoV-2 virus in a railway transport coach

Armand

Tâche

2022

Sci Rep

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Computational fluid dynamics (CFD) modelling and 3D simulations of the air flow and dispersion of droplets or drops in semi-confined ventilated spaces have found topical applications with the unfortunate development of the Covid-19 pandemic. As an illustration of this scenario, we have considered the specific situation of a railroad coach containing a seated passenger infected with the SARS-CoV-2 virus (and not wearing a face mask) who, by breathing and coughing, releases droplets and drops that contain the virus and that present aerodynamic diameters between 1 and 1000 µm. The air flow is generated by the ventilation in the rail coach. While essentially 3D, the flow is directed from the bottom to the top of the carriage and comprises large to small eddies visualised by means of streamlines. The space and time distribution of the droplets and drops is computed using both an Eulerian model and a Lagrangian model. The results of the two modelling approaches are fully consistent and clearly illustrate the different behaviours of the drops, which fall down close to the infected passenger, and the droplets, which are carried along with the air flow and invade a large portion of the rail coach. This outcome is physically sound and demonstrates the relevance of CFD for simulating the transport and dispersion of droplets and drops with any diameter in enclosed ventilated spaces. As coughing produces drops and breathing produces droplets, both modes of transmission of the SARS-CoV-2 virus in human secretions have been accounted for in our 3D numerical study. Beyond the specific, practical application of the rail coach, this study offers a much broader scope by demonstrating the feasibility and usefulness of 3D numerical simulations based on CFD. As a matter of fact, the same computational approach that has been implemented in our study can be applied to a huge variety of ventilated indoor environments such as restaurants, performance halls, classrooms and open-plan offices in order to evaluate if their occupation could be critical with respect to the transmission of the SARS-CoV-2 virus or to other airborne respiratory infectious agents, thereby enabling relevant recommendations to be made.

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Modeling of aerosol transmission of airborne pathogens in ICU rooms of COVID-19 patients with acute respiratory failure

Cited by 44 publications

References 70 publications

Effects of surgical masks on aerosol dispersion in professional singing

Effects of surgical masks on aerosol dispersion in professional singing

Current approaches for preventing environment-associated contamination in healthcare facilities: a systematic literature review by open access database

3D modelling and simulation of the dispersion of droplets and drops carrying the SARS-CoV-2 virus in a railway transport coach

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