Physical distancing helps limit the spread of COVID-19 – this means we keep a distance of at least 1m from each other and avoid spending time in crowded places or in groups.
Staying 6 feet apart indoors does almost nothing to stop the spread of COVID-19, MIT study finds
- The widely-used 6 ft rule does little to prevent COVID-9 exposure indoors, MIT researchers found.
- The risk of exposure from an infected person is similar at 6 ft and 60 ft, one researcher said.
- The study said that mask-wearing, ventilation, and what a space is used for are bigger variables.
The widely-used rule of staying 6ft away from others does little to affect the risk of exposure to COVID-19 in indoor spaces, according to a new study out of MIT.
According to MIT researchers, the rule is based on an outdated understanding of how the coronavirus moves in closed spaces.
They said other variables — like the number of people in a space, whether they wear masks, what they are doing, and the level of ventilation — are much more important.
The 6ft rule is used in various forms around the world: the CDC advises 6 ft separation indoors and outdoors, while in the UK the figure is two meters. In much of Europe, the figure is one meter, which is also recommended as a minimum distance by the World Health Organization.
But while such distancing rules are easy to remember, and purport to suit any situation, the new study says they may not be that useful.
It says that a better way of controlling indoor exposure is to do individual calculations based on variables for that space.
In some cases, the exposure level might be the same at 6 ft than at 60 ft, one of the study authors has said.
Mark Bazant and John Bush, both MIT professors in applies mathematics, developed a formula to estimate how long it would take for a person to hit dangerous levels of exposure from one infected person entering a room.
The calculation is more sophisticated version of the traffic light system previously proposed by MIT. It takes into account the number of people in the room, the space of the size, what they are doing, whether masks are being worn, and what kind of ventilation is in place.
Using this calculation, it could be that the level of exposure is high in some spaces even if people are more than 6 ft away. It could also be lower than expected.
“The distancing isn’t helping you that much and it’s also giving you a false sense of security because you’re as safe at 6 ft as you are at 60 ft if you’re indoors. Everyone in that space is at roughly the same risk, actually,” Bazant told CNBC.
Scientific understanding of how the coronavirus moves in the air has challenged earlier assumptions about how best to adapt to minimize its spread.
At the beginning of the pandemic, it was widely believe that the virus travelled via droplets ejected during exhalation, sneezing, or speaking.
But newer evidence strongly suggests that the virus instead floats around on lighter aerosol droplets that can stay suspended in the air and travel much further than first thought.
In their calculation, the MIT researchers took into account the effect of having people in the room, and their behavior, on how long the virus would stay suspended in the air.
In a calm environment, these particles would slowly drift to the ground, the researchers said in their study.
But in an environment where the air is moving around the room and people are talking, eating, singing, and sneezing, the drops can be suspended in the airflow and mixed throughout the room longer.
The effect can be counteracted by ventilation or filtration to get the virus particles out of circulation in the room.
A website made available by the researchers shows how this model works in different scenarios
For example, if an infected person walks into a classroom hosting 25 people, none wearing masks and all speaking, everyone would be at risk from the coronavirus within 36 minutes, the website says. It doesn’t matter if they follow the 6 ft rule.