Network analysis of pig movement data as an epidemiological tool: an Austrian case study

Puspitarani, Gavrila Amadea; Fuchs, Reinhard; Fuchs, Klemens; Ladinig, Andrea; Desvars-Larrive, Amélie

doi:10.21203/rs.3.rs-2506122/v1

Cited by 3 publications

(6 citation statements)

References 81 publications

(138 reference statements)

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“…The dynamic network analysis revealed that the GSCC ranged from 0.2% to 2.59%, while the GWCC varied from 91.04% to 99.62%. These results highlight the extreme levels of verticalization of North American commercial swine production, as sows typically send weaned pigs to the same nurseries or wean-to-finisher premises and then to a wider range of finishers (Kinsley et al, 2019; Machado et al, 2019; Passafaro et al, 2020), similar patterns have also been described in Austria (Puspitarani et al, 2023) and Brazil (Cardenas et al, 2022, 2021). Time-independent, connected component sizes provide an overall estimation of the lower and upper bounds of epidemic sizes (Kao et al, 2006; Omondi et al, 2021); for the U.S., the upper bound estimates above 90% of premises are at risk of infection.…”

Section: Discussionsupporting

confidence: 65%

“…An in-depth understanding of national movement patterns is a key element for epidemic control in highly integrated swine production systems. In the same vein, examining interstate and intrastate pig shipment data is crucial to informing national disease response plans, and developing novel tactics against endemic and emerging diseases (Cardenas et al, 2022; Hammami et al, 2022b; Puspitarani et al, 2023; Sykes et al, 2023). The median distance of pig shipment was 74 km, similar to what has been shown in other regional studies with shipment distances between 10 and 50 km (Kinsley et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…Commingling has been previously linked to a heightened risk of disease transmission (Aragon et al, 2019). Movement flows that rely on many premises as sources to fill nursery or finisher premises result in contact networks with low animal movement loyalty, leading to a reduction in the number of regular connections between the same premises, thus increasing the chances for disease dissemination (Puspitarani et al, 2023; Hammami et al, 2022b; Schulz et al, 2017. )…”

Section: Introductionmentioning

confidence: 99%

“…The shipment of animals between premises has been widely recognized as the primary route involved in the transmission of infectious pathogens of swine such as African swine fever (ASF), porcine respiratory and reproductive syndrome virus (PRRSV), and foot-and-mouth disease (FMD) (Galvis et al, 2022a;Passafaro et al, 2020;Vinueza et al, 2022;Hammami et al, 2022a;Cardenas et al, , 2021Galvis et al, 2021;VanderWaal et al, 2020;Lee et al, 2017;White et al, 2017;Neumann et al, 2005;Pappaioanou and Gramer, 2010;Fèvre et al, 2006;. Disease intervention strategies involve reducing the number of between-premises animal movements; therefore, elucidating local and nationwide movement network patterns and identifying shipment hubs and road pathways used for pig shipment are expected to provide essential information about disease spread potential and efficient outbreak control (Puspitarani et al, 2023;Passafaro et al, 2020;Hammami et al, 2022a;Gorsich et al, 2019;Strano et al, 2018;Sykes et al, 2023. ) The U.S. swine industry is vertically integrated and comprised of approximately 64,871 premises, housing 72 million pigs in premises specializing in one or more production phases (e.g., farrow-to-wean, growing pig) (Passafaro et al, 2020;NASS et al, 2022;USDA and NASS, 2019;Reimer, 2006).…”

Section: Introductionmentioning

confidence: 99%

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Analyzing the intrastate and interstate swine movement network in the United States

Cardenas,

Valencio,

Sanchez

et al. 2024

Preprint

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Disease prevention and control tactics rely on identifying and restricting animal movement to attenuate the between premises spread of disease in livestock systems. Therefore, it is essential to uncover between premises movement dynamics, including shipment distances and network based control strategies. Here, we analyzed three years of between premises pig movements, which include 197,022 unique animal shipments, 3,973 premises, and 391,625,374 pigs shipped across 20 U.S. states. We constructed unweighted, directed, temporal networks at 180 day intervals to calculate premises to premises movement distances, the size of connected components, network loyalty, and degree distributions, and, based on the out going contact chains, identified network based control actions. Our results show that the median distance between premises pig movements was 74.37 km, with median intrastate and interstate movements of 52.71 km and 328.76 km, respectively. On average, 2,842 premises were connected via 6,705 edges, resulting in a weak giant connected component that included 91% of the premises. The premises level network exhibited loyalty, with a median of 0.65 (IQR: 0.45, 0.77). Results highlight the effectiveness of node targeting and disease spread; we demonstrated that targeting 25% of farms with the highest degree or betweenness limited spread to 1.23% and 1.7% of premises, respectively.

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Section: Discussionsupporting

confidence: 65%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Analyzing the intrastate and interstate swine movement network in the United States

Cardenas,

Valencio,

Sanchez

et al. 2024

Preprint

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“…Further, when stochastic network transmission models are used, information can be retrieved for early warning systems and to determine the spatial extent of the epidemic (5). Epidemic patterns depend on the interplay between the structure of the networks and the characteristics of the epidemic (6,7). The models’ assumptions, structure, complexity, and reliability depend on the data’s quality and degree of detail used to reconstruct the network and the information concerning the disease under study (4).…”

Section: Introductionmentioning

confidence: 99%

Assessing the impact of structural modifications in the construction of surveillance network for transboundary animal diseases: the role of backbone and sentinel nodes

Mesdour,

Ijoma,

Bolajoko

et al. 2024

Preprint

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Peste des Petits Ruminants (PPR) is a highly contagious disease that mainly affects sheep and goats and is transmitted through livestock movements. Because of its socio-economic impact, the Food and Agriculture Organisation (FAO) and the World Organization for Animal Health (WOAH) have set the goal to eradicate it by 2030, one of the key steps being the improvement of surveillance networks. The present study aimed to provide tools to identify areas that could serve as sentinel nodes, i.e. areas that may be rapidly infected at the onset of epidemics. Using data from a market survey conducted in the Northern Region of Nigeria, we analyzed which nodes, under which conditions, could serve as sentinel nodes. We considered several modified networks to get around the problem of data only being available for part of the overall network structure and to account for potential errors made during the field study. For each configuration, we simulated the spread of PPR using a stochastic Susceptible-Infectious (SI) model based on animal movements to assess the epidemics' extent and the presence of recurrent patterns to identify potential sentinel nodes. We extracted the backbone of the reference network and checked for the presence of sentinel nodes within it. We then explored the possibility of using the backbone nodes as sentinel nodes. We investigated how the origin (seed) of the epidemics could affect the propagation pattern by comparing and grouping seeds based on their respective transmission paths. Results showed that the isolated backbone contains 45% sentinel nodes that remain stable or undergo only minor changes in 9 out of 11 configurations. On top of that, the characteristics of sentinel nodes identified in the backbone are not influenced by the severity of the disease. The H index, in-degree, and eigenvector are the most essential variables. This study provides an overview of the major axes of animal movements in Nigeria and the most vulnerable locations that should be prioritized for monitoring livestock diseases like PPR.

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Analyzing the intrastate and interstate swine movement network in the United States

Cardenas,

Valencio,

Sanchez

et al. 2024

Preventive Veterinary Medicine

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Network analysis of pig movement data as an epidemiological tool: an Austrian case study

Cited by 3 publications

References 81 publications

Analyzing the intrastate and interstate swine movement network in the United States

Analyzing the intrastate and interstate swine movement network in the United States

Assessing the impact of structural modifications in the construction of surveillance network for transboundary animal diseases: the role of backbone and sentinel nodes

Analyzing the intrastate and interstate swine movement network in the United States

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