02788nas a2200205 4500000000100000008004100001260001200042100001700054700002200071700001800093700001300111700002200124700001500146245011500161856009900276300001300375490000700388520217300395022001402568 2023 d c02/20231 aBravo-Vega C1 aRenjifo-Ibañez C1 aSantos-Vega M1 aNuñez L1 aAngarita-Sierra T1 aCordovez J00aA generalized framework for estimating snakebite underreporting using statistical models: A study in Colombia. uhttps://journals.plos.org/plosntds/article/file?id=10.1371/journal.pntd.0011117&type=printable ae00111170 v173 a
BACKGROUND: Snakebite envenoming is a neglected tropical disease affecting deprived populations, and its burden is underestimated in some regions where patients prefer using traditional medicine, case reporting systems are deficient, or health systems are inaccessible to at-risk populations. Thus, the development of strategies to optimize disease management is a major challenge. We propose a framework that can be used to estimate total snakebite incidence at a fine political scale.
METHODOLOGY/PRINCIPAL FINDINGS: First, we generated fine-scale snakebite risk maps based on the distribution of venomous snakes in Colombia. We then used a generalized mixed-effect model that estimates total snakebite incidence based on risk maps, poverty, and travel time to the nearest medical center. Finally, we calibrated our model with snakebite data in Colombia from 2010 to 2019 using the Markov-chain-Monte-Carlo algorithm. Our results suggest that 10.19% of total snakebite cases (532.26 yearly envenomings) are not reported and these snakebite victims and do not seek medical attention, and that populations in the Orinoco and Amazonian regions are the most at-risk and show the highest percentage of underreporting. We also found that variables such as precipitation of the driest month and mean temperature of the warmest quarter influences the suitability of environments for venomous snakes rather than absolute temperature or rainfall.
CONCLUSIONS/SIGNIFICANCE: Our framework permits snakebite underreporting to be estimated using data on snakebite incidence and surveillance, presence locations for the most medically significant venomous snake species, and openly available information on population size, poverty, climate, land cover, roads, and the locations of medical centers. Thus, our algorithm could be used in other countries to estimate total snakebite incidence and improve disease management strategies; however, this framework does not serve as a replacement for a surveillance system, which should be made a priority in countries facing similar public health challenges.
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