THURSDAY, March 26, 2020 (HealthDay News) -- In a lesson for what can be achieved with social distancing, researchers report that school and workplace closures in Wuhan, China, reduced the number of coronavirus cases there.
And officials are extending those measures until April now instead of March, which could hold off a second wave of cases until later this year, the researchers noted.
Experts say there are vital lessons in the Wuhan experience for the United States and other countries around the world.
"The unprecedented measures the city of Wuhan has put in place to reduce social contacts in school and the workplace have helped to control the outbreak," said study leader Kiesha Prem, from the London School of Hygiene & Tropical Medicine, in England.
"However, the city now needs to be really careful to avoid prematurely lifting physical-distancing measures, because that could lead to an earlier secondary peak in cases," Prem warned. Instead, "if they relax the restrictions gradually, this is likely to both delay and flatten the peak," he said.
The closures significantly delayed the peak of the epidemic in Wuhan -- the epicenter of the worldwide pandemic -- and gave the health system the time and opportunity to grow and respond to the crisis, according to the study authors.
The researchers used mathematical modeling to simulate the impact of either extending or relaxing current school and workplace closures in Wuhan.
The results showed that by lifting these control measures in March, a second wave of cases may occur in late August. But maintaining these restrictions until April would likely delay a second peak until October.
The study was published March 25 in The Lancet Public Health.
The researchers noted that due to uncertainties about how many people a person with the virus is likely to infect, and how long a person is infected, on average, it's difficult to assess the actual impact of earlier lifting of school and workplace closures in Wuhan.
"Our results won't look exactly the same in another country, because the population structure and the way people mix will be different," said study co-author Yang Liu, also from the London School of Hygiene & Tropical Medicine.