Community-based wildlife mortality surveillance program could help prevent Ebola outbreaks
Human Ebola epidemics, like the current outbreak in the Democratic Republic of Congo, are known to start from a contact with wildlife infected with Ebola virus. In the early 2000s a series of such outbreaks in Central Africa began from different infected animal sources. In response, WCS (Wildlife Conservation Society) and NIH (National Institutes of Health) scientists partnered with the Republic of Congo Ministry of Health to develop a low-cost educational outreach program and surveillance system for wildlife mortality that has continued now for over a decade. While the region is a high-risk zone, Republic of Congo has not had a human case or detection of Ebola virus since 2005. The study authors provide the first description of the early warning system for Ebola in the journal Philosophical Transactions of the Royal Society B.
Comprised of a mix of public health and conservation experts, the authors recognized the utility of monitoring great ape health early on. During Ebola outbreaks from 2001-2005, surveys of closely monitored gorilla populations in Central Africa found mortality from Ebola reached over 90 percent. In fact the western lowland gorilla is classified as critically endangered and the chimpanzee as endangered in part because of Ebola. If an Ebola outbreak among wildlife, or an epizootic, could be detected early on, measures could be put in place to prevent the virus from spilling over and causing a human outbreak.
According to Eeva Kuisma, Health Program Coordinator, WCS Congo Program:
A long-term wildlife mortality surveillance system coupled with community education was built over the ensuing years. To date the program has reached over 6,600 people living in rural northern Republic of Congo, and in total the surveillance effort covers an area of approximately 50,000 km2. The surveillance network is comprised of hunter-gathers, park rangers, and WCS-affiliated project personnel who report great ape and mammal carcasses they encounter to a trained response team. To establish and maintain the hunter-gatherer surveillance network the response team visits villages, with permission of the village chief, and delivers a verbal presentation on the basics of Ebola virus transmission to all interested community members. The emphasis is, 'do not touch, move or bury the carcass and contact the surveillance network immediately'.
Said Dr. Alain Ondzie, Program Veterinarian, WCS Congo Program:
When a report is called in, the team first checks in with the village chief. Then using biosafety methods and lessons learned from past outbreaks, the carcass is sampled and the sample sent for molecular testing at the National Public Health Laboratory in Brazzaville. Test results are available within 3-4 days and communicated back to the village. All 58 carcasses tested to date have been negative for Ebola virus.
Said Dr. Jean-Vivien Mombouli, the General Manager of the National Public Health Laboratory:
This pro-active approach engages communities where consumption of animals found dead has been traced to prior Ebola outbreaks. It provides education about Ebola to local communities and they participate in surveillance by reporting carcasses. It is also an extremely cost-efficient surveillance method, particularly given the expense of dealing with a response to a human outbreak. At the time of writing, in the eastern Democratic Republic of Congo the second largest outbreak of Ebola viral disease ever recorded is nearing 2,800 cases, with 1,900 fatalities. Despite increasing control efforts and deployment of an effective vaccine the epidemic is predicted to continue for months with mounting cost in human lives and aid money.
While not every Ebola outbreak will be proceeded by wildlife deaths, this early warning system for wildlife mortality is building trust and awareness and it may help give future responders an upper hand.
Source:
Journal reference:
Kuisma, E. et al. (2019) Long-term wildlife mortality surveillance in northern Congo: a model for the detection of Ebola virus disease epizootics. Philosophical Transactions of the Royal Society B. doi.org/10.1098/rstb.2018.0339.
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