Outdoor spaces are safer than indoor ones for catching coronavirus, and more people pose a greater risk than smaller groups, public health officials frequently remind us amid the pandemic. But a new online tool can help you nail down just how likely to you are to catch coronavirus if someone in your home, office or school is infected.
Massachusetts Institutes of Technology researchers have turned their complex mathematical equation to work out the risk of catching the
Anyone can use it to find out how long it’s safe to stay in a room of virtually any size or type, with anywhere from one to 100 people if one of them has the virus.
For example, the
It allows users to mock up the risk of mingling over the festive season in their dining room, lounge or kitchen, too.
The tool reveals that the size or type of the room doesn’t matter all that much – but what types of masks the people occupying it are wearing, and the ventilation system it’s equipped with can dramatically drive risks up or down.
You can try the interactive tool out for yourself
The MIT tool’s settings for homes, school’s and restaurants suggest that a couple of people in any are likely safe for days in a home with more space, or hours in a restaurant – but once the rooms are more densely occupied, the risk goes up
An interactive tool allows people to calculate the risk of catching Covid19 if someone in the room tests positive. Ventilation and masks were found to be key. If a meal can not be eaten outside, like in the winter months surrounding Christmas, opening a window can help reduce the risk, as cna wearing high-quality surgical masks and not cotton coverings (stock)
In a standard room with 8ft tall ceilings and each wall measuring around 15ft long, 10 fit young people all diligently wearing surgical face masks could safely sit there talking normally for two hours if the windows were shut due to the cold temperatures outside.
But, for a family of ten, of which some are elderly, in a standard dining room for Christmas dinner where nobody is wearing a mask because they are eating and the windows are closed because it is cold outside – and there’s a few heated discussions with raised voices – the tool reveals the safe limit is slashed to just three minutes.
Its developers say the online site allows people to calculate risk with more nuance than the simple, and often vague, guidance to form ‘bubbles’ or socially distance.
Calculations which inform the site were published by authors John Bush and Martin Bazant on the pe-print server
In a standard room with 8ft tall ceilings and each wall measuring around 15ft long, ten fit young people all diligently wearing surgical face masks could safely sit there talking normally for two hours if the windows were shut due to the cold temperatures outside, according to the tool, based on calculations from MIT researchers (stock)
MIT scientists used fluid dynamics – or how infectious droplets might float around a room – to calculate the risks of these exposures over a given period of time. However, the tool is currently only equipped to calculate based on one infected person in a room, not several.
How coronavirus infects the BRAIN
It is the first known proof the coronavirus can infect the brain’s neurons via the mucosal pathway.
Throughout the course of the pandemic, it has become clear the coronavirus, called SARS-CoV-2, does not just cause respiratory distress but neurological issues as well.
For example, one in three report symptoms such as loss of smell or taste, headaches, fatigue, dizziness, and nausea.
Genetic material of the coronavirus was present in largest quantities in the mucus of the nasal cavity, but SARS-CoV-2’s spike proteins — which protrude from the virus and latch onto human receptors to infect the cells — were also found in the brain.
Dr Frank Heppner, co-author of the study from Charité–Universitätsmedizin Berlin, says: ‘Once inside the olfactory mucosa, the virus appears to use neuroanatomical connections, such as the olfactory nerve, in order to reach the brain.’
This makes it useful for small gatherings, but in larger places where there may be dozens of people, for example at a supermarket, the application becomes unusable.
However, people can visualise the impact of what their household Covid protocols can do. For example, in a living room of 400 square feet, if five young people all wear a N95 respirator they can dance and sing safely for 35 minutes.
But dropping the mask to below their chin just 50 per cent of the time sees this figure drop to four minutes.
While parameters of the room and mitigating aspects are important, the researchers say, the most critical impactor is human behaviour. Specifically, the wearing of high-quality face masks.
In their study, the researchers applied their work to two case studies which have both garnered huge scrutiny over their role in spreading the disease: classrooms and care homes.
For a typical US classroom with 19 students and one teacher, the researchers found that without masks ‘the expected time for the first transmission after an infected individual enters the classroom is 2.3 hours for natural ventilation and 18 hours with mechanical ventilation’.
‘With enhanced ventilation and judicious mask use, this time limit could be extended to several weeks, and so exceed the recovery time for Covid-19,’ they add.
Extended periods of physical activity, several people talking at the same time, or singing would lower the time limit by an order of magnitude, the researchers caution.
However, the good news for classrooms is not replicated for care home,s they ay, cautioning their analysis ‘sounds the alarm’ for long-term care facilities.
They say that three elderly people each with 80 square feet of space in a room with open windows are only safe for three minutes if the rule of 2m (6ft) social distancing is followed.
The maximum safe limit for occupying this space if one person is infected is just 17 minutes, according to the model.
‘This example provides insight into the devastating toll of the Covid-19 pandemic on the elderly,’ the researchers say.
‘Furthermore, it underscores the need to minimize the sharing of indoor space, maintain adequate, once-through ventilation, and encourage the use of face masks.’