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WHO Overturns Dogma on Airborne Disease Spread. The CDC Might Not Act on It.

WHO Overturns Dogma on Airborne Disease Spread. The CDC Might Not Act on It.

Maria Van Kerkhove, the World Health Organization's technical lead on covid-19, during a press conference at the WHO headquarters in Geneva, Switzerland, on Dec. 14, 2022. (Fabrice Coffrini/AFP via Getty Images)

The World Health Organization has issued a report that transforms how the world understands respiratory infections like covid-19, influenza, and measles.

Motivated by grave missteps in the pandemic, the WHO convened about 50 experts in virology, epidemiology, aerosol science, and bioengineering, among other specialties, who spent two years poring through the evidence on how airborne viruses and bacteria spread.

However, the WHO report stops short of prescribing actions that governments, hospitals, and the public should take in response. It remains to be seen how the Centers for Disease Control and Prevention will act on this information in its own guidance for infection control in health care settings.

The WHO concluded that airborne transmission occurs as sick people exhale pathogens that remain suspended in the air, contained in tiny particles of saliva and mucus that are inhaled by others.

While it may seem obvious, and some researchers have pushed for this acknowledgment for more than a decade, an alternative dogma persisted — which kept health authorities from saying that covid was airborne for many months into the pandemic.

Specifically, they relied on a traditional notion that respiratory viruses spread mainly through droplets spewed out of an infected person’s nose or mouth. These droplets infect others by landing directly in their mouth, nose, or eyes — or they get carried into these orifices on droplet-contaminated fingers. Although these routes of transmission still happen, particularly among young children, experts have concluded that many respiratory infections spread as people simply breathe in virus-laden air.

“This is a complete U-turn,” said Julian Tang, a clinical virologist at the University of Leicester in the United Kingdom, who advised the WHO on the report. He also helped the agency create an online tool to assess the risk of airborne transmission indoors.

Peg Seminario, an occupational health and safety specialist in Bethesda, Maryland, welcomed the shift after years of resistance from health authorities. “The dogma that droplets are a major mode of transmission is the ‘flat Earth’ position now,” she said. “Hurray! We are finally recognizing that the world is round.”

The change puts fresh emphasis on the need to improve ventilation indoors and stockpile quality face masks before the next airborne disease explodes. Far from a remote possibility, measles is on the rise this year and the H5N1 bird flu is spreading among cattle in several states. Scientists worry that as the H5N1 virus spends more time in mammals, it could evolve to more easily infect people and spread among them through the air.

Traditional beliefs on droplet transmission help explain why the WHO and the CDC focused so acutely on hand-washing and surface-cleaning at the beginning of the pandemic. Such advice overwhelmed recommendations for N95 masks that filter out most virus-laden particles suspended in the air. Employers denied many health care workers access to N95s, insisting that only those routinely working within feet of covid patients needed them. More than 3,600 health care workers died in the first year of the pandemic, many due to a lack of protection.

However, a committee advising the CDC appears poised to brush aside the updated science when it comes to its pending guidance on health care facilities.

Lisa Brosseau, an aerosol expert and a consultant at the Center for Infectious Disease Research and Policy in Minnesota, warns of a repeat of 2020 if that happens.

“The rubber hits the road when you make decisions on how to protect people,” Brosseau said. “Aerosol scientists may see this report as a big win because they think everything will now follow from the science. But that’s not how this works and there are still major barriers.”

Optical methods show how air flows between two men conversing. (Tang et al. / PLoS ONE)

Money is one. If a respiratory disease spreads through inhalation, it means that people can lower their risk of infection indoors through sometimes costly methods to clean the air, such as mechanical ventilation and using air purifiers, and wearing an N95 mask. The CDC has so far been reluctant to press for such measures, as it updates foundational guidelines on curbing airborne infections in hospitals, nursing homes, prisons, and other facilities that provide health care. This year, a committee advising the CDC released a draft guidance that differs significantly from the WHO report.

Whereas the WHO report doesn’t characterize airborne viruses and bacteria as traveling short distances or long, the CDC draft maintains those traditional categories. It prescribes looser-fitting surgical masks rather than N95s for pathogens that “spread predominantly over short distances.” Surgical masks block far fewer airborne virus particles than N95s, which cost roughly 10 times as much.

Researchers and health care workers have been outraged about the committee’s draft, filing letters and petitions to the CDC. They say it gets the science wrong and endangers health. “A separation between short- and long-range distance is totally artificial,” Tang said.

Airborne viruses travel much like cigarette smoke, he explained. The scent will be strongest beside a smoker, but those farther away will inhale more and more smoke if they remain in the room, especially when there’s no ventilation.

Likewise, people open windows when they burn toast so that smoke dissipates before filling the kitchen and setting off an alarm. “You think viruses stop after 3 feet and drop to the ground?” Tang said of the classical notion of distance. “That is absurd.”

A digital, comic-style illustration shows two scenarios at a small New York City coffee shop on a 70-degree Fahrenheit day. There are two panels, and both are labeled “Closed Windows.” Everyone in the coffee shop has been vaccinated against covid-19 with mRNA vaccines. Twelve people are inside. No one is masked. The windows are closed. A person infected with the SARS-CoV-2 omicron variant will remain at the shop for one hour. In the left-side panel, the person with covid places an order, talking with the barista for 6 minutes before they settle down on a bench. This leaves the barista with a 3% risk of infection. Another customer in line for coffee is inside the shop for 15 minutes. They have a less than 1% risk of infection. The panel to the right shows the person with covid sitting away from others, and not talking with anyone. A woman who quietly works on her computer during that hour has a 2% risk of infection. Behind her, two people sit at a communal table in silence. They also have a 2% risk of infection.
A digital, comic-style illustration shows two scenarios at a small New York City coffee shop with 12 people inside who are seated or standing. Everyone in the coffee shop has been vaccinated against covid-19 with mRNA vaccines. No one is masked. The windows are closed in the left panel. The person with covid is engaged in jubilant conversation with two other customers at a table for four hours. As a result, the two now have an 18% chance of infection. A woman working quietly at the shop, away from that table, for four hours on her computer has a 6% risk of infection. A coffee shop employee working in the back of the shop during this period also has a 6% risk of infection. In the panel on the right, the windows are wide open. The figures are positioned the same way as in the panel to the left, but with the statistical information adjusted to reflect the refreshing airflow. That hardly matters to the people talking in close proximity to the person with covid for four hours. Their risk of infection remains around 18%. However, the person on her computer and the employee at the back of the shop now have a less than 1% chance of being infected after four hours.
California Healthline used the World Health Organization’s new Airborne Risk Indoor Assessment online tool to estimate the risk of SARS-CoV-2 transmission during a hypothetical morning at a coffee shop. The tool is based on mathematical modeling that considers the size of the room, how many people have covid-19, whether people in the room are vaccinated or wear masks, whether ventilation is wisping away infectious particles, and other factors. Here, people’s risk of getting infected rises when they converse with the person who has covid. Those farther away are also at risk when they linger in the shop, but their risk drops when two windows open.(Oona Tempest/KFF Health News)

The CDC’s advisory committee is comprised primarily of infection control researchers at large hospital systems, while the WHO consulted a diverse group of scientists looking at many different types of studies. For example, one analysis examined the puff clouds expelled by singers, and musicians playing clarinets, French horns, saxophones, and trumpets. Another reviewed 16 investigations into covid outbreaks at restaurants, a gym, a food processing factory, and other venues, finding that insufficient ventilation probably made them worse than they would otherwise be.

In response to the outcry, the CDC returned the draft to its committee for review, asking it to reconsider its advice. Meetings from an expanded working group have since been held privately. But the National Nurses United union obtained notes of the conversations through a public records request to the agency. The records suggest a push for more lax protection. “It may be difficult as far as compliance is concerned to not have surgical masks as an option,” said one unidentified member, according to notes from the committee’s March 14 discussion. Another warned that “supply and compliance would be difficult.”

The nurses’ union, far from echoing such concerns, wrote on its website, “The Work Group has prioritized employer costs and profits (often under the umbrella of ‘feasibility’ and ‘flexibility’) over robust protections.” Jane Thomason, the union’s lead industrial hygienist, said the meeting records suggest the CDC group is working backward, molding its definitions of airborne transmission to fit the outcome it prefers.

Tang expects resistance to the WHO report. “Infection control people who have built their careers on this will object,” he said. “It takes a long time to change people’s way of thinking.”

The CDC declined to comment on how the WHO’s shift might influence its final policies on infection control in health facilities, which might not be completed this year. Creating policies to protect people from inhaling airborne viruses is complicated by the number of factors that influence how they spread indoors, such as ventilation, temperature, and the size of the space.

Adding to the complexity, policymakers must weigh the toll of various ailments, ranging from covid to colds to tuberculosis, against the burden of protection. And tolls often depend on context, such as whether an outbreak happens in a school or a cancer ward.

“What is the level of mortality that people will accept without precautions?” Tang said. “That’s another question.”

This article was produced by KFF Health News, a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF — the independent source for health policy research, polling, and journalism.