New research shows that reinfection by SARS-CoV-2 is likely for unvaccinated people.
Throughout the COVID-19 pandemic, there has been much uncertainty about how long immunity lasts after an unvaccinated person is infected with SARS-CoV-2.
Now, researchers have an answer: Strong protection following natural infection is short-lived.
“We tend to think about immunity as being immune or not immune. Our study cautions that we instead should be more focused on the risk of reinfection through time.”
“Reinfection can reasonably happen in three months or less,” says Jeffrey Townsend, professor of biostatistics at the Yale University’s School of Public Health and the study’s lead author.
“Therefore, those who have been naturally infected should get vaccinated. Previous infection alone can offer very little long-term protection against subsequent infections.”
The study in the journal The Lancet Microbe is the first to determine the likelihood of COVID reinfection following natural infection and without vaccination.
Townsend and his team analyzed known reinfection and immunological data from the close viral relatives of SARS-CoV-2 that cause “common colds,” along with immunological data from SARS-CoV-1 and Middle East Respiratory Syndrome. Leveraging evolutionary principles, the team was able to model the risk of COVID-19 reinfection over time.
Reinfections can, and have, happened even shortly after recovery, the researchers say. And they will become increasingly common as immunity wanes and new SARS-CoV-2 variants arise.
“We tend to think about immunity as being immune or not immune. Our study cautions that we instead should be more focused on the risk of reinfection through time,” says Alex Dornburg, assistant professor of bioinformatics and genomics at the University of North Carolina at Charlotte, who co-led the study.
“As new variants arise, previous immune responses become less effective at combating the virus. Those who were naturally infected early in the pandemic are increasingly likely to become reinfected in the near future.”
The team’s data-driven model reveals striking similarities to the reinfection risks over time between SARS-CoV-2 and endemic coronaviruses.
“Just like common colds, from one year to the next you may get reinfected with the same virus,” Townsend says. “The difference is that, during its emergence in this pandemic, COVID-19 has proven to be much more deadly.”
A hallmark of the modern world is going to be the evolution of new threats to human health, Townsend adds. Evolutionary biology—which provided the theoretical foundations for these analyses—is traditionally considered a historical discipline.
“However, our findings underscore its important role in informing decision-making, and provide a crucial steppingstone toward robust knowledge of our prospects of resistance to SARS-CoV-2 reinfection,” he says.
Additional coauthors are from Temple University. Funding for the research came from the US National Science Foundation.
Source: Yale University