How historical precedents impeded recognition of airborne COVID-19 transmission

How historical precedents impeded recognition of airborne COVID-19 transmission
Droplets and aerosols released during talking; these may carry viruses if the person is infected. The large droplets fall rapidly to the ground in close proximity. The small aerosols are much more concentrated in close proximity, and they can remain floating in the air and spread throughout the room, leading to (reduced) exposure at a distance. Credit: Indoor Air (2022). DOI: 10.1111/ina.13070

Millions of people have died of coronavirus infection since 2020 because influential institutions took too long to recognize that it is primarily airborne, and a new University of Colorado Boulder-led historical analysis sheds light on the delay. The authors trace this deadly resistance one hundred years back in history, to the rejection of sickly air called "miasma," the rise of germ theory and our own stubborn tendency to retain beliefs in spite of accumulating evidence to the contrary.

While the SARS-CoV-2 virus was invisibly infecting people in 2020 through the air in hospitals, churches, workplaces and restaurants, people across the world were focused on disinfecting surfaces and washing their hands. Many governments and businesses installed plexiglass barriers that actually increased coronavirus spread, said Jose-Luis Jimenez, lead author of a new comprehensive historical assessment of major medical mistakes involving disease transmission, now published in the journal Indoor Air.

"History set us up for a poor response to the pandemic," said Jimenez, fellow at the Cooperative Institute for Research in Environmental Sciences (CIRES) and distinguished professor of chemistry at CU Boulder. "We might have had millions of fewer deaths, hundreds of millions fewer cases, if we'd taken appropriate, effective action from the start."

The overview, written with colleagues from 10 countries, illuminates the often deadly impact of "belief perseverance," in which it can take years or decades to challenge a set of beliefs—especially when the consequence of changing a set of beliefs is costly. It's less expensive to ask people to wash hands or disinfect surfaces than it is to update a ventilation system, for example, or to re-engineer school classrooms, city buses and corporate boardrooms.

The authors, who include physicians, virologists, public health specialists, aerosol scientists, engineers, historians, a sociologist and an architect, spin through numerous examples of fatal mistakes in the history of research on . In 1847, for example, a scientist working in Austria showed that handwashing by reduced deadly puerperal fever in a clinic. His work was dismissed because at the time, established medical and scientific beliefs blamed "a miasma in the air." Handwashing made no sense to the establishment, and the suggestion that physicians, themselves, might be spreading disease, offended many.

Half a century later, another prominent researcher, Charles Chapin, ridiculed the idea of spooky miasmas or infected air. Chapin's own work on infection had suggested to him that "contact infection" was the predominant way most infections spread. But he also knew how difficult it was to persuade people to wash their hands and disinfect surfaces if they thought some diseases might spread through the air, and how difficult it would be to figure out how to clean the air itself. So he argued his "contact infection" theory without evidence and managed to effectively label airborne disease transmission as superstition.

Jimenez and his co-authors trace disease transmission history from Chapin to 2020, when the World Health Organization (WHO), Centers for Disease Control and Prevention (CDC) and other institutions expressed deep skepticism or outright denial that SARS-CoV-2 might spread through the air, despite increasing evidence it was doing just that.

How historical precedents impeded recognition of airborne COVID-19 transmission
Qualitative representation of the dominant medical/public health thinking in the West about how many important diseases transmit through the air, with some critical steps and practitioners marked as text. Credit: Indoor Air (2022). DOI: 10.1111/ina.13070

Jimenez said he thinks that most people at WHO and CDC were honest in their skepticism in early 2020, just struggling to get their minds around the fact that the conventional way of thinking about respiratory infection transmission—spreading through heavy droplets falling on surfaces—might be inadequate to explain the pandemic.

"They were stuck on the theory, distorting the interpretation of the observations to match their pre-existing beliefs," said Jimenez.

Others have suggested that economics have also been at play, much as with climate change.

It's convenient to ask individuals to take small, individual actions like handwashing and driving less, Jimenez noted. It's more expensive for institutions to make structural changes, such as increasing ventilation everywhere, or replacing fossil fuel infrastructure with renewable energy.

So in preparation for facing the next pandemic intelligently, Jimenez and his colleagues are first working to find allies, especially in the hardworking medical and public health professions where many people have been too busy saving lives to enter the discussion about , but have direct experience.

"And confrontation is also needed when major institutions refuse to accept the science and to communicate it clearly," Jimenez added. "Maybe we have to badger the establishment a little, like Florence Nightingale did."

Nightingale "lobbied" the British government for decades to support her reforms at hospitals, increasing hygiene, ventilation and distance between beds at a time when it was still seen as unnecessary.

More information: Jose L. Jimenez et al, What were the historical reasons for the resistance to recognizing airborne transmission during the COVID ‐19 pandemic?, Indoor Air (2022). DOI: 10.1111/ina.13070

Journal information: Indoor Air
Citation: How historical precedents impeded recognition of airborne COVID-19 transmission (2022, September 2) retrieved 23 June 2024 from
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