Your house number could be the key to the safe relaxation of COVID-19-related restrictions if government follow a new exit strategy proposal published today in the British Medical Journal.
Co-authored by Professor Adrian Barnett, a statistician with QUT’s School of Public Health and Social Work, the paper suggests governments around the globe use an ‘odds-and-evens’ approach to allowing people to head back to work and enjoy other activities after weeks of lockdown.
“Governments in Australia and elsewhere are seeking to balance competing priorities. Social distancing has certainly been proven to reduce the rate of transmission of COVID-19 but has had a negative impact on the economy and created other health issues,” said Professor Barnett.
“A major problem with relaxing restrictions too quickly is the limited evidence on how this will affect transmission of the virus and no-one wants to see another wave of infection and deaths which would lead to a return to lockdown.
“We propose an interim solution in which allowing people to return to a less-restricted life should be based on odd or even house numbers. For example, people in odd numbered houses have relaxed restrictions on odd days in the month (1st, 3rd, etc) and people in even number houses on even days (2nd, 4th, etc).
“This halves the population mixing, which reduces the risk of a new wave occurring, and it creates useful data for judging whether restrictions can be further relaxed or should be tightened.”
Professor Barnett said there were precedents in place dealing with traffic pollution and congestion, with daily restrictions based on odd-or-even vehicle number plates adopted in major cities worldwide including Beijing, Rome, Paris and Mexico City.
“As for COVID-19, we are seeing similar national policies such as in Columbia where restrictions have been implemented by gender, with men allowed out some days and women on others, and in Bolivia, Honduras and Panama they are using national ID numbers to apply restrictions,” he said.
“An advantage to the odds-and-evens approach is that it creates multiple randomised experiments that could be used to study how the virus spreads, because on every day we have similar groups of people who are exposed and not, creating an ideal natural experiment.
“It should also make it easier to spot a new wave of infection earlier, because there would be an alternating pattern in house numbers in people reporting symptoms.”
Professor Barnett added an important factor for governments to consider with such a policy was the length of time to relax social isolation for each group.
“We have looked at it being implemented using alternate days, but governments might choose a different duration, such as by week which will have different health and economic implications. It could also start on a modest base and evolve over time,” he said.
“There will also be challenges in enforcing a policy based on house number and there will always be people who choose not to obey the rules. Despite the potential problems, this approach partially re-starts the economy for a lower risk and provides valuable experimental data, so it has multiple benefits compared with relaxing restrictions en masse.”
Professor Barnett co-wrote “An evidence-based exit strategy for relaxing social distancing measures to prevent the spread of SARS-CoV-2” with Professor Philip Clarke from the Centre of Health Policy at the University of Melbourne, Laurence Roope from the Health Economics Research Centre, University of Oxford, and Professor Amanda Adler, director of the University of Oxford’s Diabetes Trials Unit.
Queensland University of Technology