6533b7d8fe1ef96bd126a327
RESEARCH PRODUCT
Transmission Heterogeneity and Control Strategies for Infectious Disease Emergence
Leslie A. RealGiulio A. De LeoLuca Bolzonisubject
Infectious Diseases/Epidemiology and Control of Infectious DiseasesVeterinary medicineDisease reservoirSwinePopulation DynamicsPopulationlcsh:MedicineAnimals WildCullingDiseaseWildlife diseaseBiologyCommunicable DiseasesClassical Swine FeverZoonosesInfectious Diseases/Viral InfectionsAnimalsHumansChildlcsh:ScienceeducationDisease Reservoirseducation.field_of_studyMultidisciplinaryEcologyDisease Eradicationlcsh:RModels TheoreticalInfectious Disease EpidemiologyInfectious DiseasesEcology/Population EcologyEcology/Theoretical EcologyInfectious disease (medical specialty)Population Surveillancelcsh:QDisease SusceptibilityResearch ArticleDemographydescription
Background The control of emergence and spread of infectious diseases depends critically on the details of the genetic makeup of pathogens and hosts, their immunological, behavioral and ecological traits, and the pattern of temporal and spatial contacts among the age/stage-classes of susceptible and infectious host individuals. Methods and Findings We show that failing to acknowledge the existence of heterogeneities in the transmission rate among age/stage-classes can make traditional eradication and control strategies ineffective, and in some cases, policies aimed at controlling pathogen emergence can even increase disease incidence in the host. When control strategies target for reduction in numbers those subsets of the population that effectively limit the production of new susceptible individuals, then control can produce a flush of new susceptibles entering the population. The availability of a new cohort of susceptibles may actually increase disease incidence. We illustrate these general points using Classical Swine Fever as a reference disease. Conclusion Negative effects of culling are robust to alternative formulations of epidemiological processes and underline the importance of better assessing transmission structure in the design of wildlife disease control strategies.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-08-01 | PLoS ONE |