Hong Kong: At Hong Kong’s deserted airport, cleaning crews constantly spray baggage trolleys, elevator buttons and check-in counters with antimicrobial solutions. In New York City, workers continually disinfect surfaces on buses and subways. In London, many pubs spent lots of money on intensive surface cleaning to reopen after lockdown - before closing again in November.
All over the world, workers are soaping, wiping and fumigating surfaces with an urgent sense of purpose: to fight the coronavirus. But scientists increasingly say that there is little to no evidence that contaminated surfaces can spread the virus. In crowded indoor spaces like airports, they say, the virus that is exhaled by infected people and that lingers in the air is a much greater threat.
Hand washing with soap and water for 20 seconds - or sanitizer in the absence of soap - is still encouraged to stop the virus’s spread. But scrubbing surfaces does little to mitigate the virus threat indoors, experts say, and health officials are being urged to focus instead on improving ventilation and filtration of indoor air.
“In my opinion, a lot of time, energy and money is being wasted on surface disinfection and, more importantly, diverting attention and resources away from preventing airborne transmission,” said Dr. Kevin P. Fennelly, a respiratory infection specialist with the US National Institutes of Health.
Some experts suggest that Hong Kong, a crowded city of 7.5 million residents and a long history of infectious disease outbreaks, is a case study for the kind of operatic surface cleaning that gives ordinary people a false sense of security about the coronavirus.
The Hong Kong Airport Authority has used a phone-booth-like “full-body disinfection channel” to spritz airport staff members in quarantine areas. The booth - which the airport says is the first in the world and is being used in trials only on its staff - is part of an all-out effort to make the facility a “safe environment for all users.”
Such displays can be comforting to the public because they seem to show that local officials are taking the fight to COVID-19. But Shelly Miller, an expert on aerosols at the University of Colorado Boulder, said that the booth made no practical sense from an infection-control standpoint.
A range of respiratory ailments, including the common cold and influenza, are caused by germs that can spread from contaminated surfaces. So when the coronavirus outbreak emerged last winter in the Chinese mainland, it seemed logical to assume that these so-called fomites were a primary means for the pathogen to spread.
Studies soon found that the virus seemed to survive on some surfaces, including plastic and steel, for up to three days. (Studies later showed that much of this is likely to be dead fragments of the virus that are not infectious.) The World Health Organisation also emphasised surface transmission as a risk, and said that airborne spread was a concern only when health care workers were engaged in certain medical procedures that produce aerosols.
But scientific evidence was growing that the virus could stay aloft for hours in tiny droplets in stagnant air, infecting people as they inhaled - particularly in crowded indoor spaces with poor ventilation.
In July, an essay in The Lancet medical journal argued that some scientists had exaggerated the risk of coronavirus infection from surfaces without considering evidence from studies of its closely related cousins, including SARS-CoV, the driver of the 2002-03 SARS epidemic.
“This is extremely strong evidence that at least for the original SARS virus, fomite transmission was very minor at most,” the essay’s author, the microbiologist Emanuel Goldman of Rutgers University, said in an email. “There is no reason to expect that the close relative SARS-CoV-2 would behave significantly different in this kind of experiment,” he added, referring to the new coronavirus.
A few days after Goldman’s Lancet essay appeared, more than 200 scientists called on WHO to acknowledge that the coronavirus could spread by air in any indoor setting. Bowing to enormous public pressure over the issue, the agency acknowledged that indoor aerosol transmission could lead to outbreaks in poorly ventilated indoor places like restaurants, nightclubs, offices and places of worship.
By October, the US Centres for Disease Control and Prevention, which had maintained since May that surfaces are “not the primary way the virus spreads,” was saying that transmission of infectious respiratory droplets was the “principal mode” through which it does.
But by then, paranoia about touching anything from handrails to grocery bags had taken off. And the instinct to scrub surfaces as a COVID-19 precaution - “hygiene theatre,” as The Atlantic magazine called it - was already deeply ingrained.
“My tennis partner and I have abandoned shaking hands at the end of a match - but, since I’ve touched the tennis balls that he has touched, what’s the point?” Geoff Dyer wrote in a March essay for The New Yorker magazine that captured the germaphobic zeitgeist.
Slow to address risk
Hong Kong’s COVID-19 burden - more than 5,400 confirmed cases and 108 deaths - is relatively low for any city. Yet some experts say it has been slow to address the risks of indoor aerosol transmission.
Early on, officials required Hong Kong restaurants to install dividers between tables - the same sort of flimsy, and essentially useless, protection used at the US vice-presidential debate in October.
But as the Hong Kong authorities have gradually eased restrictions on indoor gatherings, including allowing wedding parties of up to 50 people, there is a fear of potentially new outbreaks indoors.
Some experts say they are especially concerned that coronavirus droplets could spread through air vents in offices, which are crowded because the city has not yet developed a robust culture of remote work.
“People are removing masks for lunch or when they get back to their cubicle because they assume their cubicle is their private space,” said Yeung King-lun, a professor of chemical and biological engineering at the Hong Kong University of Science and Technology.
“But remember: The air you’re breathing in is basically communal.”