Using Remote Sensing to Map the Risk of Human Monkeypox Virus in the Congo Basin

Trevon Fuller; Henri A. Thomassen; Prime Mulembakani; Sara C. Johnston; James O. Lloyd‐Smith; Neville K. Kisalu; Timothee K. Lutete; Seth Blumberg; Joseph N. Fair; Nathan Wolfe; Robert Shongo; Pierre Formenty; Helmut E. Meyer; Linda L. Wright; Jean-Jacques Muyembe; Wolfgang Buermann; Sassan Saatchi; Emile Okitolonda; Lisa E. Hensley; Thomas B. Smith; Anne W. Rimoin

doi:10.1007/s10393-010-0355-5

Using Remote Sensing to Map the Risk of Human Monkeypox Virus in the Congo Basin

Trevon Fuller(University of California, Los Angeles), Henri A. Thomassen(University of California, Los Angeles), Prime Mulembakani(Ministry of Public Health), Sara C. Johnston(United States Army Medical Research Institute of Infectious Diseases), James O. Lloyd‐Smith(National Institutes of Health), Neville K. Kisalu(University of California, Los Angeles), Timothee K. Lutete(Ministry of Public Health), Seth Blumberg(National Institutes of Health), Joseph N. Fair(Global Viral), Nathan Wolfe(Global Viral), Robert Shongo(Ministry of Public Health), Pierre Formenty(World Health Organization), Helmut E. Meyer(Czech Academy of Sciences, Institute of Microbiology), Linda L. Wright(Eunice Kennedy Shriver National Institute of Child Health and Human Development), Jean-Jacques Muyembe(National Institute of Biomedical Research), Wolfgang Buermann(University of California System), Sassan Saatchi(California Institute of Technology), Emile Okitolonda(Ministry of Public Health), Lisa E. Hensley(United States Army Medical Research Institute of Infectious Diseases), Thomas B. Smith(University of California System), Anne W. Rimoin(University of California System)

EcoHealth

November 10, 2010

10.1007/s10393-010-0355-5

Cited by 81Open Access

Full Text

Abstract

Although the incidence of human monkeypox has greatly increased in Central Africa over the last decade, resources for surveillance remain extremely limited. We conducted a geospatial analysis using existing data to better inform future surveillance efforts. Using active surveillance data collected between 2005 and 2007, we identified locations in Sankuru district, Democratic Republic of Congo (DRC) where there have been one or more cases of human monkeypox. To assess what taxa constitute the main reservoirs of monkeypox, we tested whether human cases were associated with (i) rope squirrels (Funisciurus sp.), which were implicated in monkeypox outbreaks elsewhere in the DRC in the 1980s, or (ii) terrestrial rodents in the genera Cricetomys and Graphiurus, which are believed to be monkeypox reservoirs in West Africa. Results suggest that the best predictors of human monkeypox cases are proximity to dense forests and associated habitat preferred by rope squirrels. The risk of contracting monkeypox is significantly greater near sites predicted to be habitable for squirrels (OR = 1.32; 95% CI 1.08-1.63). We recommend that semi-deciduous rainforests with oil-palm, the rope squirrel's main food source, be prioritized for monitoring.

Related Papers

No related papers found

Powered by citation graph analysis