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Workplace hazard controls for COVID-19

Hazard controls for COVID-19 in workplaces are the application of occupational safety and health methodologies for hazard controls to the prevention of COVID-19. Multiple layers of controls are recommended, including measures such as remote work and flextime, personal protective equipment (PPE) and face coverings, social distancing, and enhanced cleaning programs. Recently, engineering controls have been emphasized, particularly stressing the importance of HVAC systems meeting a minimum of 5 air changes per hour with ventilation or MERV-13 filters, as well as the installation of UVGI systems in public areas.

Hazard controls

An N95 mask.

The U.S. Occupational Safety and Health Administration (OSHA) recommends implementing multiple layers of controls, including measures such as remote work and flextime, engineering controls (especially increased ventilation), administrative controls such as vaccination policies, personal protective equipment (PPE), face coverings, social distancing, and enhanced cleaning programs with a focus on high-touch surfaces.[1]

Preliminary evidence suggests that fully vaccinated people can become infectious and can spread the virus to others. The U.S. Centers for Disease Control and Prevention (CDC) recommends that fully vaccinated people can reduce their risk of becoming infected and potentially spreading it to others by:[1]

Along with vaccination, key controls to help protect unvaccinated and other at-risk workers include removing from the workplace all infected people, all people experiencing COVID symptoms, and any people who are not fully vaccinated who have had close contact with someone with COVID-19 and have not tested negative for COVID-19 immediately if symptoms develop and again at least 5 days after the contact (in which case they may return 7 days after contact). Fully vaccinated people who have had close contact should get tested for COVID-19 3–5 days after exposure and be required to wear face coverings for 14 days after their contact unless they test negative for COVID-19.[1]

Additional fundamental controls that protect unvaccinated and other at-risk workers include maintaining ventilation systems, implementing physical distancing, and properly using face coverings, and proper cleaning. Fully vaccinated people in areas of substantial or high transmission should be required to wear face coverings inside as well. Employees may request reasonable accommodations, absent an undue hardship, if they are unable to comply with safety requirements due to a disability.[1]

There is low quality evidence that supports making improvements or modifications to personal protective equipment in order to help decrease contamination. Examples of modifications include adding tabs to masks or gloves to ease removal and designing protective gowns so that gloves are removed at the same time. In addition, there is weak evidence that the following PPE approaches or techniques may lead to reduced contamination and improved compliance with PPE protocols: Wearing double gloves, following specific doffing (removal) procedures such as those from the CDC, and providing people with spoken instructions while removing PPE.[2]

Workers' rights

In the United States, under the General Duty Clause of the Occupational Safety and Health Act of 1970, employers are responsible for providing a safe and healthy workplace free from recognized hazards likely to cause death or serious physical harm, which includes COVID-19.[1] In addition, OSHA's Emergency Temporary Standard applies required measures to most settings where any employee provides healthcare services or healthcare support services.[3] Section 11(c) of the OSH prohibits employers from retaliating against workers for raising concerns about safety and health conditions, and OSHA encourages workers who suffer such retaliation to submit a complaint to OSHA's Whistleblower Protection Program within the legal time limits.[4][5]

On July 15, 2020, Virginia adopted binding safety regulations on COVID-19, the first such regulations in the United States. The regulations includes mandates about control measures and prohibits retaliation against workers for expressing concern about infection risk, and provides for fines of up to US$130,000 for companies found in violation.[6][7] As of July 2020, Oregon adopted a timeline that targets the establishment of COVID-19 regulations for September 1.[8]

Historical guidance before availability of COVID-19 vaccines

COVID-19 outbreaks have been responsible for several effects within the workplace. Workers may be absent from work due to becoming sick, needing to care for others, or from fear of possible exposure. Patterns of commerce may change, both in terms of what goods are demanded, and the means of acquiring these goods (such as shopping at off-peak hours or through delivery or drive-through services). Lastly, shipments of items from geographic areas severely affected by COVID-19 may be interrupted.[9]: 6 

An infectious disease preparedness and response plan can be used to guide protective actions. Such plans address the levels of risk associated with various worksites and job tasks, including sources of exposure, risk factors arising from home and community settings, and risk factors of individual workers such as old age or chronic medical conditions. They also outline controls necessary to address those risks, and contingency plans for situations that may arise as a result of outbreaks. Infectious disease preparedness and response plans may be subject to national or subnational recommendations.[9]: 7–8  Objectives for response to an outbreak include reducing transmission among staff, protecting people who are at higher risk for adverse health complications, maintaining business operations, and minimizing adverse effects on other entities in their supply chains. The disease severity in the community where the business is located affects the responses taken.[10]

All workplaces

In many workplaces, groups share many hours of the day indoors. These conditions can facilitate the transmission of disease,[11] but also control it through workplace practices and policies.[12] Identifying industries or particular jobs that have the highest potential exposure to a specific risk can help in the development of interventions to control or prevent the spread of diseases such as COVID-19.[13][14][15]

According to the U.S. Occupational Safety and Health Administration (OSHA), lower exposure risk jobs have minimal occupational contact with the public and other coworkers.[9]: 18–20  Basic infection prevention measures recommended for all workplaces include frequent and thorough hand washing, encouraging workers to use sick leave if they are sick, respiratory etiquette including covering coughs and sneezes, providing tissues and trash receptacles, preparing for remote work or shift work if needed, discouraging workers from using others' tools and equipment, and maintaining routine cleaning and disinfecting of the work environment. Prompt identification and isolation of potentially infectious individuals is a critical step in protecting workers, customers, visitors, and others at a worksite.[9]: 8–9  The U.S. Centers for Disease Control and Prevention (CDC) recommends that employees who have symptoms of acute respiratory illness are to stay home until they are free of fever, signs of a fever, and any other symptoms, and that sick leave policies are flexible, permit employees to stay home to care for a sick family member, and that employees are aware of these policies.[10]

There are also psychosocial hazards arising from anxiety or stress from worries about contracting COVID-19, the illness or death of a relative or friend, changes in work patterns, and financial or interpersonal difficulties arising from the pandemic. Social distancing measures may prevent typical coping mechanisms such as personal space or sharing problems with others. Controls for these hazards include managers checking on workers to ask how they are, facilitating worker interactions, and formal services for employee assistance, coaching, or occupational health.[16]

Medium-risk workplaces

According to OSHA, medium exposure risk jobs include those that require frequent or close contact within six feet (1.8 m) of people who are not known or suspected COVID-19 patients, but may be infected with SARS-CoV-2 due to ongoing community transmission around the business location, or because the individual has recent international travel to a location with widespread COVID-19 transmission. These include workers who have contact with the general public such as in schools, high-population-density work environments, and some high-volume retail settings.[9]: 18–20 

Engineering controls for this and higher risk groups include installing high-efficiency air filters, increasing ventilation rates, installing physical barriers such as clear plastic sneeze guards, and installing a drive-through window for customer service.[9]: 12–13 

Administrative controls for this and higher risk groups include encouraging sick workers to stay at home, replacing face-to-face meetings with virtual communications, establishing staggered shifts, discontinuing nonessential travel to locations with ongoing COVID-19 outbreaks, developing emergency communications plans including a forum for answering workers’ concerns, providing workers with up-to-date education and training on COVID-19 risk factors and protective behaviors, training workers who need to use protecting clothing and equipment how to use it, providing resources and a work environment that promotes personal hygiene, requiring regular hand washing, limiting customers' and the public's access to the worksite, and posting signage about hand washing and other COVID-19 protective measures.[9]: 13–14, 21–22 

Depending on the work task, workers with at least medium exposure risk may need to wear personal protective equipment including some combination of gloves, a gown, a face shield or face mask, or goggles. Workers in this risk group rarely require use of respirators.[9]: 22 

For retail workers in food and grocery businesses, CDC and OSHA recommend encouraging touchless payment options and minimizing handling of cash and credit cards, placing cash on the counter rather than passing it directly by hand, and routinely disinfecting frequently touched surfaces such as workstations, cash registers, payment terminals, door handles, tables, and countertops. Employers may place sneeze guards with a pass-through opening at the bottom of the barrier in checkout and customer service locations, use every other check-out lane, move the electronic payment terminal farther from the cashier, place visual cues such as floor decals to indicate where customers should stand during check out, provide remote shopping alternatives, and limit the maximum customer capacity at the door.[17]

An infographic on ways to control COVID-19 hazards in meat processing facilities[4]

Meat and poultry processing facilities have work environments that may contribute substantially to their potential exposures, as they often work close to one another on assembly lines during prolonged work shifts. For engineering controls, CDC and OSHA recommend configuring communal work environments so that workers are spaced at least six feet apart including along processing lines, using physical barriers such as strip curtains or plexiglass to separate workers from each other, and ensuring adequate ventilation that minimizes air from fans blowing from one worker directly at another worker. For administrative controls, they recommend staggering workers' arrival, break, and departure times, cohorting workers so they are always assigned to the same shifts with the same coworkers, encouraging single-file movement through the facility, avoiding carpooling to and from work, and considering a program of screening workers before entry into the workplace and setting criteria for return to work of recovered workers and for exclusion of sick workers. For personal protective equipment, they recommend face shields and considering allowing voluntary use of filtering facepiece respirators such as N95 masks. They also recommend wearing cloth face masks that should be replaced if they become wet, soiled, or otherwise visibly contaminated during the work shift, although cloth face masks are not considered to be personal protective equipment.[4]

If a person becomes sick on an airplane, proper controls to protect workers and other passengers include separating the sick person from others by a distance of 6 feet, designating one crew member to serve the sick person, and offering a face mask to the sick person or asking the sick person to cover their mouth and nose with tissues when coughing or sneezing. Cabin crew should wear disposable medical gloves when tending to a sick traveler or touching body fluids or potentially contaminated surfaces, and possibly additional personal protective equipment if the sick traveler has fever, persistent cough, or difficulty breathing. Gloves and other disposable items should be disposed of in a biohazard bag, and contaminated surfaces should be cleaned and disinfected afterwards.[18]

For commercial shipping, including cruise ships and other passenger vessels, hazard controls include postponing travel when sick, and self-isolating and informing the onboard medical center immediately if one develops a fever or other symptoms while on board. Ideally, medical follow-up should occur in the isolated person's cabin.[19]

For schools and childcare facilities, CDC recommends short-term closure to clean or disinfect if an infected person has been in a school building regardless of community spread. When there is minimal to moderate community transmission, social distancing strategies can be implemented such as canceling field trips, assemblies, and other large gatherings such as physical education or choir classes or meals in a cafeteria, increasing the space between desks, staggering arrival and dismissal times, limiting nonessential visitors, and using a separate health office location for children with flu-like symptoms. When there is substantial transmission in the local community, in addition to social distancing strategies, extended school dismissals may be considered.[20]

For law enforcement personnel performing daily routine activities, the immediate health risk is considered low by CDC. Law enforcement officials who must make contact with individuals confirmed or suspected to have COVID-19 are recommended to follow the same guidelines as emergency medical technicians, including proper personal protective equipment. If close contact occurs during apprehension, workers should clean and disinfect their duty belt and gear prior to reuse using a household cleaning spray or wipe, and follow standard operating procedures for the containment and disposal of used PPE and for containing and laundering clothes.[21]

High-risk healthcare and mortuary workplaces

A table listing the attributes of surgical masks and N95 respirators in eight categories
An infographic on the difference between surgical masks and N95 respirators

OSHA considers certain healthcare and mortuary workers to be at high or very high categories of exposure risk. High exposure risk jobs include healthcare delivery, support, laboratory, and medical transport workers who are exposed to known or suspected COVID-19 patients. These become very high exposure risk if workers perform aerosol-generating procedures on, or collect or handle specimens from, known or suspected COVID-19 patients. Aerosol-generating procedures include intubation, cough induction procedures, bronchoscopies, some dental procedures and exams, or invasive specimen collection. High exposure risk mortuary jobs include workers involved in preparing the bodies of people who had known or suspected cases of COVID-19 at the time of their death; these become very high exposure risk if they perform an autopsy.[9]: 18–20 

Additional engineering controls for these risk groups include isolation rooms for patients with known or suspected COVID-19, including when aerosol-generating procedures are performed. Specialized negative pressure ventilation may be appropriate in some healthcare and mortuary settings. Specimens should be handled with Biosafety level 3 precautions.[9]: 13, 23–24  The World Health Organization (WHO) recommends that incoming patients be separated into distinct waiting areas depending on whether they are a suspected COVID-19 case.[22]

In addition to other PPE, OSHA recommends respirators for those who work within 6 feet of patients known to be, or suspected of being, infected with SARS-CoV-2, and those performing aerosol-generating procedures. In the United States, NIOSH-approved N95 filtering facepiece respirators or better must be used in the context of a comprehensive, written respiratory protection program that includes fit-testing, training, and medical exams. Other types of respirators can provide greater protection and improve worker comfort.[9]: 14–16, 25 

The WHO does not recommend coveralls, as COVID-19 is a respiratory disease rather than being transmitted through bodily fluids.[22][23] WHO recommends only a surgical mask for point-of-entry screening personnel. For those who are collecting respiratory specimens from, caring for, or transporting COVID-19 patients without any aerosol-generating procedures, WHO recommends a surgical mask, goggles, or face shield, gown, and gloves. If an aerosol-generating procedure is performed, the surgical mask is replaced with an N95 or FFP2 respirator.[22]

Guidance after the availability of COVID-19 vaccines

Noncompliance with guidelines

A number of hospitals may be running counter to guidelines published after the 2002-2004 SARS outbreak

Compliance with workplace hazard controls, particularly in hospitals, has been poor following 2021, resulting in poor outcomes for patients.

By 2023, The New York Times noted that the CDC had dropped mandates for masks in hospitals during COVID, limiting the COVID policies to an advisory role. Use of masks for source control is still recommended in times of high viral activity, but the CDC did not provide numbers for benchmarks. The new policies are thought to increase mortality among vulnerable patients, especially those with cancer.[24]

The New York Times article cites a paper published in 2023, that suggests the high mortality of cancer patients following the Omicron wave may have been due to relaxing of policies preventing COVID-19 transmission[25] (like source control policies). The 2023 paper also cites a research letter published in 2022, that suggests that the surge of COVID-19 cases in hospitals may have been due to the high contagiousness of Omicron,[26] an article which suggested a high secondary attack rate relative to Delta,[27] and papers finding increased mortality of cancer patients due to higher rates of breakthrough infections.[28][29]

This runs counter to long standing guidelines, published in the wake of the 2002–2004 SARS outbreak.

In 2007, the CDC HICPAC published a set of guidelines, called the 2007 Guideline for Isolation Precautions: Preventing Transmission of Infectious Agents in Healthcare Settings, suggesting that use of "barrier precautions", defined as "masks, gowns, [and] gloves", would not be required, so long as it was limited to "routine entry", patients were not confirmed to be infected, and no aerosol-generating procedures were being done. "Standard precautions" requiring the use of masks, face shields, and/or eye protection, would be needed if there was potential for the spraying of bodily fluids, like during intubation.[30]

The guidelines are the same regardless of the type of pathogen, but the guidelines also note that, based on the experience of SARS-CoV in Toronto, that "N95 or higher respirators may offer additional protection to those exposed to aerosol-generating procedures and high risk activities".[30]

However, separate from "barrier precautions" and "standard precautions" are "airborne precautions", a specific protocol for "infectious agents transmitted by the airborne route", like with SARS-CoV and tuberculosis, requiring 12 air changes per hour for new facilities, and use of fitted N95 respirators. These measures should be used whenever someone is suspected of harboring an "infectious agent".[30]

General workplace guidelines

HVAC air changes per hour should be measured to at least 5 for the general public, and 12 in hospitals to comply with CDC guidelines

The CDC suggests that, in non-healthcare settings, building ventilation should be brought up to 5 air changes per hour, along with the use of MERV-13 filters, the use of air purifiers (air cleaners), and upper-room Ultraviolet germicidal irradiation (UVGI) to reduce the odds of infection and people coming down with COVID-19.[31][32] The UVGI systems are said to be similar to the UVGI systems used against tuberculosis in the past in healthcare facilities.[33][32] As for ventilation, a survey conducted under 1989 ASHRAE standards showed that, of the buildings constructed in prior years and surveyed, all but one did not meet the recommended 5 ACH.[34]

Corsi–Rosenthal Boxes have been suggested as a viable temporary air cleaner. When tested by NIOSH, the boxes were found to reduce aerosols up to 73%, but most did not operate below noise standards.[35]

Proposed Controls

These fixtures have been suggested as forms of "engineering controls" in the Hierarchy of hazard controls:

See also

References

Public Domain This article incorporates public domain material from websites or documents of the Occupational Safety and Health Administration.Public Domain This article incorporates public domain material from websites or documents of the Centers for Disease Control and Prevention.

  1. ^ a b c d e "Protecting Workers: Guidance on Mitigating and Preventing the Spread of COVID-19 in the Workplace". Occupational Safety and Health Administration.
  2. ^ Verbeek, Jos H.; Rajamaki, Blair; Ijaz, Sharea; Sauni, Riitta; Toomey, Elaine; Blackwood, Bronagh; Tikka, Christina; Ruotsalainen, Jani H.; Kilinc Balci, F. Selcen (May 15, 2020). "Personal protective equipment for preventing highly infectious diseases due to exposure to contaminated body fluids in healthcare staff". The Cochrane Database of Systematic Reviews. 2020 (5): CD011621. doi:10.1002/14651858.CD011621.pub5. hdl:1983/b7069408-3bf6-457a-9c6f-ecc38c00ee48. ISSN 1469-493X. PMC 8785899. PMID 32412096. S2CID 218649177.
  3. ^ "Summary: COVID-19 Healthcare ETS" (PDF). U.S. Occupational Safety and Health Administration. Retrieved 2021-10-09.
  4. ^ a b c "Meat and Poultry Processing Workers and Employers". U.S. Centers for Disease Control and Prevention. 2020-04-26. Retrieved 2020-05-08.
  5. ^ "The Whistleblower Protection Program". U.S. Occupational Safety and Health Administration. Retrieved 2020-05-08.
  6. ^ Rosenberg, Eli (2020-07-15). "Virginia adopts nation's first coronavirus workplace safety rules after labor groups decry federal inaction". The Washington Post. Retrieved 2020-07-17.
  7. ^ "Virginia Adopts First-in-the-Nation Workplace Safety Standards for COVID-19 Pandemic". Virginia Department of Labor and Industry. 2020-07-15. Retrieved 2020-07-17.
  8. ^ "COVID-19 pandemic: Oregon OSHA lays out timeline for emergency workplace standards, permanent rule". Safety and Health. 2020-07-01. Retrieved 2020-07-17.
  9. ^ a b c d e f g h i j k "Guidance on Preparing Workplaces for COVID-19" (PDF). U.S. Occupational Safety and Health Administration. March 2020.
  10. ^ a b "Coronavirus Disease 2019 (COVID-19) - Interim Guidance for Businesses and Employers". U.S. Centers for Disease Control and Prevention. 2020-02-26. Retrieved 2020-03-21.
  11. ^ Danovaro-Holliday MC, LeBaron CW, Allensworth C, Raymond R, Borden TG, Murray AB, et al. (December 2000). "A large rubella outbreak with spread from the workplace to the community". JAMA. 284 (21): 2733–9. doi:10.1001/jama.284.21.2733. PMID 11105178.
  12. ^ Edwards CH, Tomba GS, de Blasio BF (June 2016). "Influenza in workplaces: transmission, workers' adherence to sick leave advice and European sick leave recommendations". European Journal of Public Health. 26 (3): 478–85. doi:10.1093/eurpub/ckw031. PMC 4884332. PMID 27060594.
  13. ^ Baker MG, Peckham TK, Seixas NS (2020-04-28). Nelson CC (ed.). "Estimating the burden of United States workers exposed to infection or disease: A key factor in containing risk of COVID-19 infection". PLOS ONE. 15 (4): e0232452. Bibcode:2020PLoSO..1532452B. doi:10.1371/journal.pone.0232452. PMC 7188235. PMID 32343747.
  14. ^ Wise J (May 2020). "Covid-19: Low skilled men have highest death rate of working age adults". BMJ. 369: m1906. doi:10.1136/bmj.m1906. PMID 32398229. S2CID 218619587.
  15. ^ Lan FY, Wei CF, Hsu YT, Christiani DC, Kales SN (2020-05-19). Shaman J (ed.). "Work-related COVID-19 transmission in six Asian countries/areas: A follow-up study". PLOS ONE. 15 (5): e0233588. Bibcode:2020PLoSO..1533588L. doi:10.1371/journal.pone.0233588. PMC 7237000. PMID 32428031.
  16. ^ "COVID-19: Back to the workplace - Adapting workplaces and protecting workers". OSHwiki.
  17. ^ "What Grocery and Food Retail Workers Need to Know about COVID-19". U.S. Centers for Disease Control and Prevention. 2020-04-13. Retrieved 2020-05-08.
  18. ^ "Updated Interim Guidance for Airlines and Airline Crew: Coronavirus Disease 2019 (COVID-19)". U.S. Centers for Disease Control and Prevention. 2020-03-04. Retrieved 2020-03-21.
  19. ^ "Interim Guidance for Ships on Managing Suspected Coronavirus Disease 2019". U.S. Centers for Disease Control and Prevention. 2020-02-18. Retrieved 2020-03-21.
  20. ^ "Coronavirus Disease 2019 (COVID-19) - Interim Guidance for Administrators of US Childcare Programs and K-12 Schools". U.S. Centers for Disease Control and Prevention. 2020-03-12. Retrieved 2020-03-21.
  21. ^ "What Law Enforcement Personnel Need to Know about Coronavirus Disease 2019 (COVID-19)". U.S. Centers for Disease Control and Prevention. 2020-03-14. Retrieved 2020-03-21.
  22. ^ a b c "The COVID-19 Risk Communication Package For Healthcare Facilities" (PDF). World Health Organization. 2020-03-10. Retrieved 2020-03-26.
  23. ^ "Rational use of personal protective equipment for coronavirus disease 2019 (COVID-19)" (PDF). World Health Organization. 2020-02-27. Retrieved 2020-03-21.
  24. ^ Mandavilli A (2023-09-23). "In Hospitals, Viruses Are Everywhere. Masks Are Not". New York Times. Retrieved 2024-06-27.
  25. ^ Potter AL, Vaddaraju V, Venkateswaran S, Mansur A, Bajaj SS, Kiang MV, Jena AB, Yang CJ (October 2023). "Deaths Due to COVID-19 in Patients With Cancer During Different Waves of the Pandemic in the US". JAMA Oncology. 9 (10): 1417–1422. doi:10.1001/jamaoncol.2023.3066. PMID 37651113.
  26. ^ Klompas M, Pandolfi MC, Nisar AB, Baker MA, Rhee C (July 2022). "Association of Omicron vs Wild-type SARS-CoV-2 Variants With Hospital-Onset SARS-CoV-2 Infections in a US Regional Hospital System". Jama. 328 (3): 296–298. doi:10.1001/jama.2022.9609. PMC 9201738. PMID 35704347.
  27. ^ Lyngse FP, Mortensen LH, Denwood MJ, Christiansen LE, Møller CH, Skov RL, Spiess K, Fomsgaard A, Lassaunière R, Rasmussen M, Stegger M, Nielsen C, Sieber RN, Cohen AS, Møller FT, Overvad M, Mølbak K, Krause TG, Kirkeby CT (September 2022). "Household transmission of the SARS-CoV-2 Omicron variant in Denmark". Nature Communications. 13 (1): 5573. Bibcode:2022NatCo..13.5573L. doi:10.1038/s41467-022-33328-3. PMID 36151099.
  28. ^ Gong IY, Vijenthira A, Powis M, Calzavara A, Patrikar A, Sutradhar R, Hicks LK, Wilton D, Singh S, Krzyzanowska MK, Cheung MC (March 2023). "Association of COVID-19 Vaccination With Breakthrough Infections and Complications in Patients With Cancer". JAMA Oncology. 9 (3): 386–394. doi:10.1001/jamaoncol.2022.6815. PMC 10020872. PMID 36580318.
  29. ^ Potter AL, Vaddaraju V, Venkateswaran S, Mansur A, Bajaj SS, Kiang MV, Jena AB, Yang CJ (October 2023). "Deaths Due to COVID-19 in Patients With Cancer During Different Waves of the Pandemic in the US". JAMA Oncology. 9 (10): 1417–1422. doi:10.1001/jamaoncol.2023.3066. PMID 37651113.
  30. ^ a b c "2007 Guideline for Isolation Precautions: Preventing Transmission of Infectious Agents in Healthcare Settings" (PDF).
  31. ^ "Improving Ventilation In Buildings Error processing SSI file". www.cdc.gov. Retrieved 2024-07-24.
  32. ^ a b "Upper-Room Ultraviolet Germicidal Irradiation (UVGI)". www.cdc.gov. 2023-10-27. Retrieved 2024-07-24.
  33. ^ NIOSH Recommended Guidelines for Personal Respiratory Protection of Workers in Health-care Facilities Potentially Exposed to Tuberculosis. 1992.
  34. ^ Persily, Andrew. "VENTILATION RATES IN OFFICE BUILDINGS" (PDF). Retrieved 2024-07-24.
  35. ^ "The Effectiveness of DIY Air Filtration Units | Blogs | CDC". 2023-02-03. Retrieved 2024-07-24.
  36. ^ Bhardwaj, Sanjeev K.; Singh, Harpreet; Deep, Akash; Khatri, Madhu; Bhaumik, Jayeeta; Kim, Ki-Hyun; Bhardwaj, Neha (2021-10-20). "UVC-based photoinactivation as an efficient tool to control the transmission of coronaviruses". Science of the Total Environment. 792: 148548. Bibcode:2021ScTEn.79248548B. doi:10.1016/j.scitotenv.2021.148548. ISSN 0048-9697. PMC 8238411. PMID 34465056.
  37. ^ Li, Wenxin; Hasama, Takamasa; Chong, Adrian; Hang, Joo Guan; Lasternas, Bertrand; Lam, Khee Poh; Tham, Kwok Wai (2023-02-15). "Transient transmission of droplets and aerosols in a ventilation system with ceiling fans". Building and Environment. 230: 109988. Bibcode:2023BuEnv.23009988L. doi:10.1016/j.buildenv.2023.109988. ISSN 0360-1323.

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