| Literature DB >> 27704330 |
Jorge A Falcón-Lezama1,2, Ruth A Martínez-Vega3, Pablo A Kuri-Morales4, José Ramos-Castañeda1,5, Ben Adams6.
Abstract
Dengue is a growing public health problem in tropical and subtropical cities. It is transmitted by mosquitoes, and the main strategy for epidemic prevention and control is insecticide fumigation. Effective management is, however, proving elusive. People's day-to-day movement about the city is believed to be an important factor in the epidemiological dynamics. We use a simple model to examine the fundamental roles of broad demographic and spatial structures in epidemic initiation, growth and control. We show that the key factors are local dilution, characterised by the vector-host ratio, and spatial connectivity, characterised by the extent of habitually variable movement patterns. Epidemic risk in the population is driven by the demographic groups that frequent the areas with the highest vector-host ratio, even if they only spend some of their time there. Synchronisation of epidemic trajectories in different demographic groups is governed by the vector-host ratios to which they are exposed and the strength of connectivity. Strategies for epidemic prevention and management may be made more effective if they take into account the fluctuating landscape of transmission intensity associated with spatial heterogeneity in the vector-host ratio and people's day-to-day movement patterns.Entities:
Keywords: Control; Demography; Epidemic model; Host–vector; Metapopulation
Mesh:
Year: 2016 PMID: 27704330 PMCID: PMC5069346 DOI: 10.1007/s11538-016-0209-6
Source DB: PubMed Journal: Bull Math Biol ISSN: 0092-8240 Impact factor: 1.758