Author: Chen, Shi; White, Brad J.; Sanderson, Michael W.; Amrine, David E.; Ilany, Amiyaal; Lanzas, Cristina
Title: Highly dynamic animal contact network and implications on disease transmission Cord-id: 1pp7k1k6 Document date: 2014_3_26
ID: 1pp7k1k6
Snippet: Contact patterns among hosts are considered as one of the most critical factors contributing to unequal pathogen transmission. Consequently, networks have been widely applied in infectious disease modeling. However most studies assume static network structure due to lack of accurate observation and appropriate analytic tools. In this study we used high temporal and spatial resolution animal position data to construct a high-resolution contact network relevant to infectious disease transmission.
Document: Contact patterns among hosts are considered as one of the most critical factors contributing to unequal pathogen transmission. Consequently, networks have been widely applied in infectious disease modeling. However most studies assume static network structure due to lack of accurate observation and appropriate analytic tools. In this study we used high temporal and spatial resolution animal position data to construct a high-resolution contact network relevant to infectious disease transmission. The animal contact network aggregated at hourly level was highly variable and dynamic within and between days, for both network structure (network degree distribution) and individual rank of degree distribution in the network (degree order). We integrated network degree distribution and degree order heterogeneities with a commonly used contact-based, directly transmitted disease model to quantify the effect of these two sources of heterogeneity on the infectious disease dynamics. Four conditions were simulated based on the combination of these two heterogeneities. Simulation results indicated that disease dynamics and individual contribution to new infections varied substantially among these four conditions under both parameter settings. Changes in the contact network had a greater effect on disease dynamics for pathogens with smaller basic reproduction number (i.e. R(0) < 2).
Search related documents:
Co phrase search for related documents- active remain and low number: 1, 2
- actual correlation and long period: 1
- actual correlation and low contact: 1
- actual correlation and low contact interval: 1
- actual correlation and low contact rate: 1
- actual correlation and low contact rate interval: 1
- actual correlation and low high contact: 1
- actual correlation and low high contact interval: 1
- actual correlation and low high contact rate interval: 1
- actual correlation and low high contact rate interval similar: 1
- actual network and low contact: 1
- actual network and low contact interval: 1
- actual network and low contact rate: 1
- actual network and low contact rate interval: 1
- actual network and low high contact: 1
- actual network and low high contact interval: 1
- actual network and low high contact rate interval: 1
- actual network and low high contact rate interval similar: 1
- actual network structure and low high contact rate interval similar: 1
Co phrase search for related documents, hyperlinks ordered by date