The research led by Emory University biologists Rustom Antia and Roland Regoes, with colleagues from the University of Washington in Seattle and P. & M. Curie University in Paris, appears in the Dec. 11 issue of Nature in their paper "The Role of Evolution in the Emergence of Infectious Disease."
"Tracking the evolution of pathogens is not a new concept, but mutations are usually not taken into account in the models used to assess the emergence of infectious disease. What we have developed is a proposed framework to deal with these mutations that should be kept in mind when developing models for emerging infectious diseases such as monkey pox," says Regoes, lead post-doctoral researcher in Antia's laboratory at Emory.
New pathogens are typically believed to emerge from animal populations when ecological changes increase the pathogens' opportunities to enter the human population and generate subsequent human-to-human transmission.
Current mathematical models used for predicting the spread of emerging infectious diseases in humans operate from the standpoint that diseases stay contained if the basic reproductive number of disease transmissions remains less then one. This means that the average number of secondary infections from persons infected with a disease stays below one. While the disease may still spread to other individuals, the pathogen lines of infection eventually become extinct, preventing the disease from epidemically spreading across the population.
In their Nature paper, the researchers show that factors, such as ecological changes, that increase the basic reproductive number of the potential pathogen (but remaining below one and not at a level sufficient to cause an epidemic) can still greatly increase the length of the random chains of disease transmission. These long transmission chains provide opportunity for the pathogen to adapt to human hosts, and subsequently for the disease to emerge and spread.
"The mathematical model we developed shows that transmission rates of a new pathogen can remain well below an epidemic level, but a disease can still potentially break out dramatically as new strains evolve and become better adapted for human transmission," Regoes says.
Regoes is available for interviews and may be contacted directly at 404-727-1765 or via e-mail at email@example.com. Carl Bergstrom, University of Washington assistant professor of biology, may be contacted at 206-685-3487 or via e-mail firstname.lastname@example.org. Or contact Beverly Cox Clark at 404-712-8780 or email@example.com.
Emory University is known for its demanding academics, outstanding undergraduate college of arts and sciences, highly ranked professional schools and state-of-the-art research facilities.
For more than a decade Emory has been named one of the country's top 25 national universities by U.S. News & World Report. In addition to its nine schools, the university encompasses The Carter Center, Yerkes National Primate Research Center and Emory Healthcare, a comprehensive metropolitan health care system.