Control Strategies of Contagion Processes in Time-Varying Networks

Karsai, Márton; Perra, Nicola

doi:10.1007/978-981-10-5287-3_8

Cited by 4 publications

(1 citation statement)

References 94 publications

(107 reference statements)

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“…Different global (eigenvector centrality, degree, coreness, betweenness) and local (random acquaintance [11]) network measures have been used to propose surveillance and vaccination strategies in static [8,12,13] and temporally varying [9,14] networks. Thus, a priori network characterization can be used to identify candidate sites for detecting outbreaks, either in static [1,2,5,[15][16][17], temporal [18,19], dynamic [20] or adaptive networks [21]. Moreover, these measures and their correlations are predictive of epidemic spread and can facilitate rapid targeting of interventions once an outbreak starts [22,23].…”

Section: Introductionmentioning

confidence: 99%

Cattle transport network predicts endemic and epidemic foot-and-mouth disease risk on farms in Turkey

et al. 2022

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The structure of contact networks affects the likelihood of disease spread at the population scale and the risk of infection at any given node. Though this has been well characterized for both theoretical and empirical networks for the spread of epidemics on completely susceptible networks, the long-term impact of network structure on risk of infection with an endemic pathogen, where nodes can be infected more than once, has been less well characterized. Here, we analyze detailed records of the transportation of cattle among farms in Turkey to characterize the global and local attributes of the directed—weighted shipments network between 2007-2012. We then study the correlations between network properties and the likelihood of infection with, or exposure to, foot-and-mouth disease (FMD) over the same time period using recorded outbreaks. The shipments network shows a complex combination of features (local and global) that have not been previously reported in other networks of shipments; i.e. small-worldness, scale-freeness, modular structure, among others. We find that nodes that were either infected or at high risk of infection with FMD (within one link from an infected farm) had disproportionately higher degree, were more central (eigenvector centrality and coreness), and were more likely to be net recipients of shipments compared to those that were always more than 2 links away from an infected farm. High in-degree (i.e. many shipments received) was the best univariate predictor of infection. Low in-coreness (i.e. peripheral nodes) was the best univariate predictor of nodes always more than 2 links away from an infected farm. These results are robust across the three different serotypes of FMD observed in Turkey and during periods of low-endemic prevalence and high-prevalence outbreaks.

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Section: Introductionmentioning

confidence: 99%

Cattle transport network predicts endemic and epidemic foot-and-mouth disease risk on farms in Turkey

et al. 2022

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Dynamical immunization based on random-walk in time-varying networks

Wang

Zeng

Han

2022

Chaos, Solitons & Fractals

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Allocating Limited Surveillance Effort for Outbreak Detection of Endemic Foot and Mouth Disease

Greiner,

Herrera-Diestra,

Tildesley

et al. 2024

Preprint

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Foot and Mouth Disease (FMD) affects cloven-hoofed animals globally and has become a major economic burden for many countries around the world. Countries that have had recent FMD outbreaks are prohibited from exporting most meat products; this has major economic consequences for farmers in those countries, particularly farmers that experience outbreaks or are near outbreaks. Reducing the number of FMD outbreaks in countries where the disease is endemic is an important challenge that could drastically improve the livelihoods of millions of people. As a result, significant effort is expended on surveillance; but there is a concern that uninformative surveillance strategies may waste resources that could be better used on control management. Rapid detection through sentinel surveillance may be a useful tool to reduce the scale and burden of outbreaks. In this study, we use an extensive outbreak and cattle shipment network dataset from the Republic of Türkiye to test three possible strategies for sentinel surveillance allocation that differ in their data requirements: ranging from low to high data needs, we allocate limited surveillance to [1] farms that frequently send and receive shipments of animals (Network Connectivity), [2] farms near other farms with past outbreaks (Spatial Proximity) and [3] farms that receive many animals from other farms with past outbreaks (Network Proximity). We determine that all of these surveillance methods find a similar number of outbreaks – 2-4.5 times more outbreaks than were detected by surveying farms at random. On average across surveillance efforts, the Network Proximity and Network Connectivity methods each find a similar number of outbreaks and the Spatial Proximity method always finds the fewest outbreaks. Since the Network Proximity method does not outperform the other methods, these results indicate that incorporating both cattle shipment data and outbreak data provides only marginal benefit over the less data-intensive surveillance allocation methods for this objective. We also find that these methods all find more outbreaks when outbreaks are rare. This is encouraging, as early detection is critical for outbreak management. Overall, since the Spatial Proximity and Network Connectivity methods find a similar proportion of outbreaks, and are less data-intensive than the Network Proximity method, countries with endemic FMD whose resources are constrained could prioritize allocating sentinels based on whichever of those two methods requires less additional data collection.

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Control Strategies of Contagion Processes in Time-Varying Networks

Cited by 4 publications

References 94 publications

Cattle transport network predicts endemic and epidemic foot-and-mouth disease risk on farms in Turkey

Cattle transport network predicts endemic and epidemic foot-and-mouth disease risk on farms in Turkey

Dynamical immunization based on random-walk in time-varying networks

Allocating Limited Surveillance Effort for Outbreak Detection of Endemic Foot and Mouth Disease

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