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Modeling Disease Vector Occurrence when Detection Is Imperfect: Infestation of Amazonian Palm Trees by Triatomine Bugs at Three Spatial Scales

Author

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  • Fernando Abad-Franch
  • Gonçalo Ferraz
  • Ciro Campos
  • Francisco S Palomeque
  • Mario J Grijalva
  • H Marcelo Aguilar
  • Michael A Miles

Abstract

Background: Failure to detect a disease agent or vector where it actually occurs constitutes a serious drawback in epidemiology. In the pervasive situation where no sampling technique is perfect, the explicit analytical treatment of detection failure becomes a key step in the estimation of epidemiological parameters. We illustrate this approach with a study of Attalea palm tree infestation by Rhodnius spp. (Triatominae), the most important vectors of Chagas disease (CD) in northern South America. Methodology/Principal Findings: The probability of detecting triatomines in infested palms is estimated by repeatedly sampling each palm. This knowledge is used to derive an unbiased estimate of the biologically relevant probability of palm infestation. We combine maximum-likelihood analysis and information-theoretic model selection to test the relationships between environmental covariates and infestation of 298 Amazonian palm trees over three spatial scales: region within Amazonia, landscape, and individual palm. Palm infestation estimates are high (40–60%) across regions, and well above the observed infestation rate (24%). Detection probability is higher (∼0.55 on average) in the richest-soil region than elsewhere (∼0.08). Infestation estimates are similar in forest and rural areas, but lower in urban landscapes. Finally, individual palm covariates (accumulated organic matter and stem height) explain most of infestation rate variation. Conclusions/Significance: Individual palm attributes appear as key drivers of infestation, suggesting that CD surveillance must incorporate local-scale knowledge and that peridomestic palm tree management might help lower transmission risk. Vector populations are probably denser in rich-soil sub-regions, where CD prevalence tends to be higher; this suggests a target for research on broad-scale risk mapping. Landscape-scale effects indicate that palm triatomine populations can endure deforestation in rural areas, but become rarer in heavily disturbed urban settings. Our methodological approach has wide application in infectious disease research; by improving eco-epidemiological parameter estimation, it can also significantly strengthen vector surveillance-control strategies. Author Summary: Blood-sucking bugs of the genus Rhodnius are major vectors of Chagas disease. Control and surveillance of Chagas disease transmission critically depend on ascertaining whether households and nearby ecotopes (such as palm trees) are infested by these vectors. However, no bug detection technique works perfectly. Because more sensitive methods are more costly, vector searches face a trade-off between technical prowess and sample size. We compromise by using relatively inexpensive sampling techniques that can be applied multiple times to a large number of palms. With these replicated results, we estimate the probability of failing to detect bugs in a palm that is actually infested. We incorporate this information into our analyses to derive an unbiased estimate of palm infestation, and find it to be about 50% – twice the observed proportion of infested palms. We are then able to model the effects of regional, landscape, and local environmental variables on palm infestation. Individual palm attributes contribute overwhelmingly more than landscape or regional covariates to explaining infestation, suggesting that palm tree management can help mitigate risk locally. Our results illustrate how explicitly accounting for vector, pathogen, or host detection failures can substantially improve epidemiological parameter estimation when perfect detection techniques are unavailable.

Suggested Citation

  • Fernando Abad-Franch & Gonçalo Ferraz & Ciro Campos & Francisco S Palomeque & Mario J Grijalva & H Marcelo Aguilar & Michael A Miles, 2010. "Modeling Disease Vector Occurrence when Detection Is Imperfect: Infestation of Amazonian Palm Trees by Triatomine Bugs at Three Spatial Scales," PLOS Neglected Tropical Diseases, Public Library of Science, vol. 4(3), pages 1-11, March.
  • Handle: RePEc:plo:pntd00:0000620
    DOI: 10.1371/journal.pntd.0000620
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    1. Hans ter Steege & Nigel C. A. Pitman & Oliver L. Phillips & Jerome Chave & Daniel Sabatier & Alvaro Duque & Jean-François Molino & Marie-Françoise Prévost & Rodolphe Spichiger & Hernán Castellanos & P, 2006. "Continental-scale patterns of canopy tree composition and function across Amazonia," Nature, Nature, vol. 443(7110), pages 444-447, September.
    2. Alan D. Lopez & Colin D. Mathers & Majid Ezzati & Dean T. Jamison & Christopher J. L. Murray, 2006. "Global Burden of Disease and Risk Factors," World Bank Publications - Books, The World Bank Group, number 7039.
    3. Heinrich zu Dohna & María C Cecere & Ricardo E Gürtler & Uriel Kitron & Joel E Cohen, 2009. "Spatial Re-Establishment Dynamics of Local Populations of Vectors of Chagas Disease," PLOS Neglected Tropical Diseases, Public Library of Science, vol. 3(7), pages 1-11, July.
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