Enterovirus. Tuberculosis. Measles. SARS. Diverse strains of the flu and hepatitis. The rate of infectious disease outbreaks and the number of unique illnesses causing them is increasing around the globe, according to a new Brown University analysis of more than 12,000 outbreaks affecting 44 million people worldwide over the last 33 years.
Menacing as that may sound, these preliminary findings also reveal an encouraging trend: on a per capita basis, the impact of the outbreaks is declining. In other words, even though the globe faces more outbreaks from more pathogens, they tend to affect a shrinking proportion of the world population.
“We live in a world where human populations are increasingly interconnected with one another and with animals — both wildlife and livestock — that host novel pathogens,” said co-lead author Dr. Katherine Smith, assistant professor of biology at Brown University. “These connections create opportunities for pathogens to switch hosts, cross borders, and evolve new strains that are stronger than what we have seen in the past.”
Sure enough, animals are the major source of what ails us. The analysis revealed that 65 percent of diseases in the dataset were “zoonoses,” meaning they come from animals. Ebola, for instance, is believed to have come from bats. In all, such diseases have caused 56 percent of outbreaks since 1980.
Newly derived data
To perform the analysis, the team worked to derive quantifiable data from the prose reports of outbreaks stored in the Global Infectious Disease and Epidemiology Online Network (GIDEON). They developed a “bioinformatics pipeline” to automate the creation of a database comprising 12,102 outbreaks of 215 infectious diseases involving 44 million cases in 219 countries between 1980 and 2013.
Brown’s Institute for the Study of Environment and Society funded the work. They are now making the database publicly available.
The preliminary findings, published in the Journal of the Royal Society Interface, revealed a steep rise in the number of outbreaks globally.
This global map plots cumulative outbreaks of human infectious disease since 1980. Darker shaded nations had more outbreaks.
“GIDEON defines an outbreak as an increase in the number of cases of disease beyond what would normally be expected in a defined community, geographical area, or season,” explained co-author Dr. Sohini Ramachandran, assistant professor of biostatistics at Brown.
Between 1980 and 1985 there were well under 1,000 such instances, but from 2005-2010, the number surged to nearly 3,000. In those same timeframes, the number of unique diseases causing the outbreaks climbed from less than 140 to about 160.
Of course, Dr. Smith and her colleagues reasoned, the increase could be due to factors such as better reporting of outbreaks and information sharing. To account for that, they paired the outbreak data with data on each country’s GDP, press freedom, population size, population density, and even Internet use (after 1990). Even after controlling for those factors, the numbers of outbreaks and unique causes rose significantly over 33 years. They also included latitude because previous studies had shown there are more infectious diseases in lower latitudes.
The infection ‘Top 10′
From the analysis, the researchers were not only able to track trends in the total number of outbreaks in each country and around the world, but they could also analyze the host source of the outbreaks. With this data, they compiled top 10 lists for each decade of diseases causing the most outbreaks.
For zoonoses in the decade from 2000-2010, salmonella topped the list followed by e. coli, influenza A, hepatitis A, anthrax, dengue fever, shigellosis (a bacterial infection of the intestines), tuberculosis, chikingunya, and trichinosis.
Notably, chikingunya, a painful mosquito-borne virus that has afflicted much of the Caribbean and Central America and has now been confirmed for the first time in the U.S., was a newcomer in the decade. So was influenza A, the pathogen responsible for the Spanish flu and the 2009 swine flu epidemic. One strain of influenza A, H5N1, is considered to be the world’s major influenza pandemic threat.
The map above shows the global distribution of emerging and reemerging infectious diseases.
Meanwhile, diseases that were top 10 scourges of earlier decades dropped off the list: campylobacterosis (a severe intestinal illness caused by a bacterial infection), cryptosporidiosis (a parasitic infection), and hepatitis E (a virus transmitted mainly through contaminated drinking water). Improvements in sanitation, particularly in the developing world, are cited as one of the most important factors behind the drop in these infections.
Among human-specific infections, gastroenteritis led the 2000s list, trailed by cholera, measles, enterovirus, bacterial meningitis, legionellosis, typhoid and enteric fever, rotavirus, mumps, and pertussis (whooping cough). Notable “newcomers” were mumps and pertussis, but adenoviruses and rubella had fallen out of their former prominence.
Dr. Smith said it is certainly good news that although the world seems to face an increasing number of infectious flare-ups from a widening range of tiny foes, we are improving our public health and medical defenses as well. Most significant is the increase in global immunization rates, which has drastically reduced the incidence of many diseases.
“Our data suggest that, despite an increase in overall outbreaks, global improvements in prevention, early detection, control, and treatment are becoming more effective at reducing the number of people infected,” the authors wrote.
Although there has been an overall decline in the population impact of outbreaks, it is important to remember that the global infectious disease burden still disproportionately affects vulnerable populations in developing countries. Most at risk are women, children, the elderly, and people with disabilities, as well as those living in areas affected by civil unrest and war.
Having established these initial findings, the team says more research remains to be done on the future of emerging pathogens. Dr. Smith, who teaches in the Department of Ecology and Evolutionary Biology, is particularly interested in how global infectious disease patterns will shift with climate and land use change.
“A warmer world, a world with altered landscapes, and a more urban world will undoubtedly have a new disease-scape to consider,” she said.