Many international travelers to the 2016 Summer Olympics in Rio De Janeiro, Brazil, openly considered skipping the games to avoid the threat of Zika. Despite the fears, not a single case of Zika or its major neurological complication, microcephaly, was reported by foreign visitors. The near-paranoia—and the diversion of scarce resources to protect a low-risk population—could have been avoided by heeding the lessons of previous epidemics, argues a new study from public health researchers at UC Berkeley.
The researchers analyzed the burden of diseases that are similar to Zika and found that seasonal patterns in their spread foreshadowed Zika’s decline leading up to the games. As Zika tapered, and news coverage of the epidemic became less frequent, the truly vulnerable people became invisible, according to the study. Both during the games and today, mothers living in Rio’s sprawling urban slums give birth weekly to microcephalic babies—children born with abnormally small heads and a range of other complications.
“Zika is just another example of how populations that reside in these urban slum communities are ignored, neglected and invisible,” said study author Lee Riley, a professor in the UC Berkeley School of Public Health, who has spent nearly 25 years studying urban slums in Brazil. “What happened with Zika is just like what happened with the spread of Ebola; nobody said a word about it in urban slums.”
The study was published Thursday in the journal PLOS Neglected Tropical Diseases. The research was a collaboration with their colleagues Claudete Araújo Cardoso, Fabio Aguiar-Alves, and Felipe Neves at the Universidade Federal Fluminense in Brazil.
Except for sporadic reports, Zika is a disease of the urban poor. Slum-defining characteristics such as poor water and sanitation infrastructure, crowding and poor structural quality of housing offer ample opportunities for mosquitoes to breed and spread the Zika virus. The species of mosquito that most commonly transmits Zika will, on average, travel a mere 100 meters in its lifetime. In the densely populated slums of Brazil, a single 100-square-meter space could contain more than 100 housing structures, up to three stories high, with a resident population upwards of 1,000. These residents can be infected multiple times by mosquitoes circulating in such neighborhoods.
Yet during the Rio games, the world’s attention focused on issues related to tourists. Wealthy residents or tourists in high-rise apartment buildings with screened windows, air conditioning and regular spraying of insecticides, even if located adjacent to these slums, are less likely to be exposed to such mosquitoes.
To illustrate how Zika fears were misplaced, and to offer one example for how the public health community can use data to better understand future epidemics, the study compared other mosquito-borne diseases carried by the same mosquito that carries Zika, such as dengue virus. The study showed that peak incidence of these diseases in Brazil occurred during the hottest and wettest months. Because August is a winter month in the Southern Hemisphere, incidence of the diseases plummeted around this time. Even the Brazilian Ministry of Health’s most recent Epidemiologic Bulletin reported no new cases in Rio de Janeiro between early August and September. Taken together, these data suggest that Zika infections would have tapered off well before the Olympics, which is just what happened.
“Our study suggests that if we had looked at whether or not Zika would be a problem using previous epidemiological evidence, we would not have wasted energy or effort worrying about tourists getting Zika,” said Robert Snyder, the study’s lead author and program manager for the Center for Global Public Health.
Snyder, Riley, and study co-author Claire Boone each spent time in Brazil, studying infectious diseases that predominate in urban slums. Boone, a master’s student, was awarded a Center for Global Public Health fellowship to spend the summer of 2016 prior to the games conducting research in Brazil.
Predictive models suggest the ongoing Zika epidemic may run out of steam after two or three more seasons, but these models do not consider how urban slums and their highly mobile populations affect the disease’s dynamics, according to the study.
“One of the biggest questions with Zika is, what is the future going to be like?” Snyder said. “We have no idea what the characteristics of this disease moving forward will be.”
The energy, media attention and research resources revolving around the Zika virus epidemic must be harnessed and used to bring the largely ignored urban slum populations of megacities around the world into the global spotlight, the study argues.
“If the public-health community had looked at the examples of previous epidemics, maybe we could have invested more effort in helping the people in urban slums who are actually being affected by Zika,” Snyder said.
By Brett Israel