Wang, J., Zhou, M., and Liu, F., 2020, Reasons for Healthcare Workers Becoming Infected with Novel Coronavirus Disease 2019 (COVID-19) in China, Journal of Hospital Infection, Vol. 105, No. 1, pp. 100-101.

Zhou, P., Huang, Z., Xiao, Y., Huang, X., and Fan, X., 2020, Protecting Chinese Healthcare Workers While Combating the 2019 Novel Coronavirus, Infection Control & Hospital Epidemiology, Vol. 41, No. 6, pp. 745-746.

Heinzerling, A., Stuckey, M. J., Scheuer, T., Xu, K., Perkins, K. M., Resseger, H., Magill, S., Verani, J. R., Jain, S., Acosta, M., and Epson, E., 2020, Transmission of COVID-19 to Health Care Personnel During Exposures to a Hospitalized Patient - Solano County, California, Morbidity and Mortality Weekly Report, Vol. 69, No. 15, pp. 472-476.

Cho, J., Woo, K., and Woo, K., 2017, Experimental Study of an AIIR Ventilation System for Effective Removal of Airborne Contamination in Hospitals, Journal of the Architectural Institute of Korea, Vol. 33, No. 3, pp. 85-90.

Ha, K. M., 2016, A lesson learned from the MERS outbreak in South Korea in 2015, Journal of Hospital Infection, Vol. 92, pp. 232-234.

Bandyopadhyay, S., Baticulon, R. E., Kadhum, M., Alser, M., Ojuka, D. K., Badereddin, Y., Kamath, A., Parepalli, S. A., Brown, G., Iharchane, S., Gandino, S., Markovic-Obiago, Z., Scott, S., Manirambona, E., Machhada, A., Aggarwal, A., Benazaize, L., Ibrahim, M., Kim, D., Tol, I., Taylor, E. H., Knighton, A., Bbaale, D., Jasim, D., Alghoul, H., Reddy, H., Abuelgasim, H., Saini, K., Sigler, A., Abuelgasim, L., Moran-Romero, M., Kumarendran, M., Jamie, N. A., Ali, O., Sudarshan, R., Dean, R., Kissyova, R., Kelzang, S., Roche, S., Ahsan, T., Mohamed, Y., Dube, A. M., Gwini, G. P., Gwokyala, R., Brown, R., Papon, M. R. K. K., Li, Z., Ruzats, S. S., Charuvila, S., Peter, N., Khalidy, K., Moyo, N., Alser, O., Solano, A., Robles-Perez, E., Tariq, A., Gaddah, M., Kolovos, S., Muchemwa, F. C., Saleh, A., Gosman, A., Pinedo-Villanueva, R., Jani, A., and Khundkar, R., 2020, Infection and Mortality of Healthcare Workers Worldwide from COVID-19: A Systematic Review, BMJ Global Health, Vol. 5, e003097.

Asad, H., Johnston, C., Blyth, I., Holborow, A., Bone, A., Porter, L., Tidswell, P., and Healy, B., 2020, Health Care Workers and Patients as Trojan Horses: A COVID19 ward outbreak, Infection Prevention in Practice. Vol 2, No. 3, p. 100073.

CDC, 2020, Clinical questions about COVID-19: Questions and answers, Centers for Disease Control and Prevention, p. 30329 (Updated December 4, 2020).

Judson, S. D. and Munster, V. J., 2019, Nosocomial Transmission of Emerging Viruses via Aerosol-Generating Medical Procedures, Viruses, Vol. 11, No. 10, p. 940.

Tran, K., Cimon, K., Severn, M., Pessoa-Silva, C. L., and Conly, J., 2012, Aerosol Generating Procedures and Risk of Transmission of Acute Respiratory Infections to Healthcare Workers: A Systematic Review, PLOS ONE, Vol. 7, No. 4, e35797.

Cho, J., Jang, S., and Song, J., 2023, Onsite Measurement and Dilution-based Infection Risk Assessment for a New Mobile Negative Pressure Isolation Room (MNPIR) as a Solution to Minimize Cross-infection, Sustainable Cities and Society, Vol. 95, p. 104583.

Jackson, T., Deibert, D., Wyatt, G., Durand-Moreau, Q., Adisesh, A., Khunti, K., Khunti, S., Smith, S., Chan, X. H. S., Ross, L., Roberts, N., Toomey, E., Greenhalgh, T., Arora, I., Black, S. M., Drake, J., Syam, N., Temple, R., and Straube, S., 2020, Classification of Aerosol-generating Procedures: A Rapid Systematic Review, BMJ Open Respiratory Research, Vol. 7, e000730.

WHO, 2021, Infection Prevention and Control during Health Care When Coronavirus Disease (COVID-19) is Suspected or Confirmed, World Health Organization.

NHS, 2023, National Infection Prevention and Control Manual for England, National Health Service.

Chui, J., Hui, D. S. C., and Chan, M. T. V., 2022, How Should Aerosol Generating Procedures be Defined? The BMJ, Vol. 378, e065903.

Li, J., Alolaiwat, A., Fink, J. B., and Dhand, R., 2022, Aerosol-Generating Procedures and Virus Transmission, Respiratory Care, Vol. 67, No. 8, pp. 1022-1042.

Loh, N. H. W., Tan, Y., Taculod, J., Gorospe, B., Teope, A. S., Somani, J., and Tan, A. Y. H., 2020, The Impact of High-flow Nasal Cannula (HFNC) on Coughing Distance: Implications on its use during the Novel Coronavirus Disease Outbreak, Canadian Journal of Anesthesia, Vol. 67, No. 7, pp. 893-894.

NHS, 2023, A Rapid Review of Aerosol Generating Procedures (AGPs), National Health Service.

Hui, D. S., Chow, B. K., Lo, T., Tsang, O. T. Y., Ko, F. W., Ng, S. S., Gin, T., and Chan, M. T. V., 2019, Exhaled Air Dispersion during High-flow Nasal Cannula Therapy Versus CPAP Via Different Masks, European Respiratory Journal, Vol. 53, No. 4. p. 1802339.

Hamilton, F. W., Gregson, F. K. A., Arnold, D. T., Sheikh, S., Ward, K., Brown, J., Moran, E., White, C., Morley, A. J., Bzdek, B. R,, Reid, J. P., Maskell, N. A., and Dodd, J. W., 2022, Aerosol Emission from the Respiratory Tract: An Analysis of Aerosol Generation from Oxygen Delivery Systems, Thorax, Vol. 77, No. 3, pp. 276-282.

Han, M., Ooka, R., Kikumoto, H., Oh, W., Bu, Y., and Hu, S., 2021, Measurements of Exhaled Airflow Velocity Through Human Coughs Using Particle Image Velocimetry (PIV), in: ASHRAE Topical Conference Proceedings, IAQ 2020: Indoor Environmental Quality Performance Approaches, pp. 1-8.

Han, M., Ooka, R., Kikumoto, H., Oh, W., Bu, Y., and Hu, S., 2021, Experimental Measurements of Airflow Features and Velocity Distribution Exhaled from Sneeze and Speech using Particle Image Velocimetry, Building and Environment, Vol. 205, p. 108293.

Sidebotham, D., 2007, Cardiothoracic Critical Care, Elsevier Health Science.

Zhu, S., Kato, S. and Yang, J.-H., 2006, Study on Transport Characteristics of Saliva Droplets Produced by Coughing in a Calm Indoor Environment, Building and Environment, Vol. 41, No. 12, pp. 1691-1702.

Gupta, J. K., Lin, C. H., and Chen, Q., 2009, Flow Dynamics and Characterization of a Cough, Indoor Air, Vol. 19, No. 6, pp. 517-525.

Gupta, J. K., Lin, C. H., and Chen, Q., 2010, Characterizing Exhaled Airflow from Breathing and Talking, Indoor Air, Vol. 20, No.1, pp. 31-39.

Yang, F., Pahlavan, A. A., Mendez, S., Abkarian, M., and Stone, H.A., 2020, Towards Improved Social Distancing Guidelines: Space and Time Dependence of Virus Transmission from Speech-driven Aerosol Transport between Two Individuals, Physical Review Fluids, Vol. 5, No. 10, p. 122501.

Mariam, Magar, A., Joshi, M., Rajagopal, P. S., Khan, A., Rao, M. M., and Sapra, B. K., 2022, CFD Simulation of the Airborne Transmission of COVID-19 Vectors Emitted during Respiratory Mechanisms: Revisiting the Concept of Safe Distance, ACS Omega, Vol. 6, No. 26, pp. 16876-16889.

Oh, W., Ooka, R., Kikumoto, H., and Han, M., 2021, Numerical Modeling of Cough Airflow: Establishment of Spatial-temporal Experimental Dataset and CFD Simulation Method, Building and Environment, Vol. 207, p. 108531.

Pozrikidis, C., 2017, Fluid Dynamics, Springer.

NIOSH, 2023, Hierarchy of Controls, The National Institute for Occupational Safety and Health, Available online at: https://www.cdc.gov/niosh/topics/hierarchy/default.html.

Stockwell, R. E., Ballard, E. L., O’Rourke, P., Knibbs, L. D., Morawska, L., and Bell, S. C., 2019, Indoor Hospital Air and the Impact of Ventilation on Bioaerosols: A Systematic Review, Journal of Hospital Infection, Vol. 103, No. 2, pp. 175-184.

Nielsen, P. V., 2009, Control of Airborne Infectious Diseases in Ventilated Spaces, Journal of The Royal Society Interface, Vol. 6, pp. 747-755.

Gamage, B., Moore, D., Copes, R., Yassi, A. and Bryce, E., 2005, Protecting Health Care Workers from SARS and other Respiratory Pathogens: A Review of the Infection Control Literature, American Journal of Infection Control, Vol. 33, No. 2, pp. 114-121.

ASHRAE Handbook: 2023 HVAC Applications, Chapter 29 Industrial Local Exhaust Systems, American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc.

Bhagat, R. K. and Linden, P. F., 2020, Displacement Ventilation: A Viable Ventilation Strategy for Makeshift Hospitals and Public Buildings to Ontain COVID-19 and other Airborne Diseases, Royal Society Open Science, Vol. 7, No. 9, p. 200680.

Yuen, P. L., Yam, R., Yung, R., and Choy, K. L., 2012, Fast-track Ventilation Strategy to Cater for Pandemic Patient Isolation Surges, Journal of Hospital Infection, Vol. 81, No. 4, pp. 246-250.

ASHRAE, 2023, Technical Resources: HEPA Filters, American Society of Heating Refrigerating and Air-conditioning Engineers, https://www.ashrae.org/technical-resources/healthcare.

Mead, K. R., Feng, A., Hammond, D. R., and Shulman, S. A., 2012, Expedient Methods for Surge Airborne Isolation within Healthcare Settings during Response to a Natural or Manmade Epidemic: In-depth Report, EPHB Report, No. 301-05f, https://stacks.cdc.gov/view/cdc/37781.

Patel, J., McGain, F., Bhatelia, T., Wang, S., Sun, B., Monty, J., and Pareek, V., 2022, Vented Individual Patient (VIP) Hoods for the Control of Infectious Airborne Diseases in Healthcare Facilities, Engineering, No. 15, pp. 126-132.

Michael, K. H. L., Oliver, K. Y. C., and Liu C. H., 2005, Local Exhaust Ventilation for Infection Control in Hospitals, HKIE Transactions, Vol. 12, No. 1, pp. 27-32.

Peace Medical Inc., 2020, Respiratory Isolation Source Control System: Negative Pressure Bed Enclosure for Infectious Patients, https://www.peacemedical.com/2000A-202014.pdf.

Park, Y., Andrews, A. J., Phu, H. T., Abraham, A., Hogan, C. J., and Belani, K., 2020, A Portable System for Healthcare Worker Safety and Patient Isolation during COVID-19 and Other Respiratory Infections, Anesthesia Patient Safety Foundation Newsletter, June 7.

Phu, H. T., Park, Y., Andrews, A. J., Marabella, I., Abraham, A., Mimmack, R., Olson, B. A., Chaika, J., Floersch, E., Remskar, M., Hume, J. R., Fischer, G. A., Belani, K., and Hogan, C. J. Jr., 2020, Design and Evaluation of a Portable Negative Pressure Hood with HEPA Filtration to Protect Health Care Workers Treating Patients with Transmissible Respiratory Infections, American Journal of Infection Control, Vol. 48, No. 10, pp. 1237-1243.

ASHRAE Standard 110-2016: Methods of Testing Performance of Laboratory Fume Hoods (ANSI Approved), American Society of Heating Refrigerating and Air-conditioning Engineers.

ANSI Z9.5-2022: Laboratory Ventilation, American National Standards Institute.

SEFA 1-2010: Laboratory Fume Hoods, Scientific Equipment & Furniture Association.

EN 14175-3:2019: Fume cupboards (Type test methods), European Standards.

Goodfellow, H., 2001, Industrial Ventilation Design Guidebook, Elsevier Academic Press.