Combining network analysis with epidemiological data to inform risk-based surveillance: Application to hepatitis E virus (HEV) in pigs

Salines, Morgane; Andraud, Mathieu; Rose, Nicolas

doi:10.1016/j.prevetmed.2017.11.015

Cited by 13 publications

(13 citation statements)

References 47 publications

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“…8). The utility of node degree for prioritization is consistent with literature on pathogen spread in animal trade networks, where centrality measures (such as degree) have been significantly associated with on-farm disease levels and disease progress (Kiss et al 2006;Lee et al 2017;Salines et al 2018).…”

Section: Discussionsupporting

confidence: 79%

Modeling Epidemics in Seed Systems to Guide Management Strategies: The Case of Sweetpotato in Northern Uganda

Andersen

Buddenhagen

Rachkara

et al. 2017

Preprint

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Section: Discussionsupporting

confidence: 79%

Modeling Epidemics in Seed Systems to Guide Management Strategies: The Case of Sweetpotato in Northern Uganda

Andersen

Buddenhagen

Rachkara

et al. 2017

Preprint

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“…A number of studies have examined swine movement networks as a main transmission route for disease spread 16,[35][36][37][38][39] , network analysis and epidemiological data have recently been used to assess risk of local areas being exposed to pathogens as a consequence of animal introduction 40 . The approach presented here provides a realistic understanding of PEDV dynamics by capturing long distance spread via animal movements and linking it with epidemiological factors related to local area spread between neighboring farms.…”

Section: Discussionmentioning

confidence: 99%

Identifying outbreaks of Porcine Epidemic Diarrhea virus through animal movements and spatial neighborhoods

Machado

Vilalta

Recamonde‐Mendoza

et al. 2019

Sci Rep

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The spread of pathogens in swine populations is in part determined by movements of animals between farms. However, understanding additional characteristics that predict disease outbreaks and uncovering landscape factors related to between-farm spread are crucial steps toward risk mitigation. This study integrates animal movements with environmental risk factors to identify the occurrence of porcine epidemic diarrhea virus (PEDV) outbreaks. Using weekly farm-level incidence data from 332 sow farms, we applied machine-learning algorithms to quantify associations between risk factors and PEDV outbreaks with the ultimate goal of training predictive models and to identify the most important factors associated with PEDV occurrence. Our best algorithm was able to correctly predict whether an outbreak occurred during one-week periods with >80% accuracy. The most important predictors included pig movements into neighboring farms. Other important neighborhood attributes included hog density, environmental and weather factors such as vegetation, wind speed, temperature, and precipitation, and topographical features such as slope. Our neighborhood-based approach allowed us to simultaneously capture disease risks associated with long-distance animal movement as well as local spatial dynamics. The model presented here forms the foundation for near real-time disease mapping and will advance disease surveillance and control for endemic swine pathogens in the United States.

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“…Other studies also pointed a number of farm‐specific factors that influence HEV infection features, for example farm size, genetic background, lack of hygiene measures, origin of drinking water, frequency of pig exchanges, etc. (Di Bartolo et al, ; Hinjoy et al, ; Jinshan et al, ; Li et al, ; Salines et al, ; Walachowski et al, ). This is the reason why the farm variable was included as a repeated and frailty effect in the GEE and survival models respectively.…”

Section: Discussionmentioning

confidence: 99%

“…farm size, mingling practices, origin of drinking water, presence of a hygiene lock) (Hinjoy et al, ; Jinshan, Manglai, Takahashi, Nagashima, & Okamoto, ; Li et al, ; Walachowski et al, ). Between‐farm pig movements and the contact network topology have also been found to influence the epidemiological HEV situation of farms (Salines, Andraud, & Rose, ). However, individual risk factors related to piglets’ specific characteristics (e.g.…”

Section: Introductionmentioning

confidence: 99%

Natural viral co‐infections in pig herds affect hepatitis E virus (HEV) infection dynamics and increase the risk of contaminated livers at slaughter

Salines

Dumarest

Andraud

et al. 2019

Transbound Emerg Dis

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Hepatitis E virus (HEV) is a zoonotic pathogen, in particular genotype 3 HEV is mainly transmitted to humans through the consumption of contaminated pork products. This study aimed at describing HEV infection patterns in pig farms and at assessing the impact of immunomodulating co-infections namely Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) and Porcine Circovirus Type 2 (PCV2), as well as other individual factors such as piglets' immunity and litters' characteristics on HEV dynamics. A longitudinal follow-up was conducted in three farrow-to-finish farms known to be HEV infected. Overall, 360 piglets were individually monitored from birth to slaughter with regular blood and faecal sampling as well as blood and liver samples collected at slaughterhouse. Virological and serological analyses were performed to detect HEV, PCV2 and PRRSV genome and antibodies. The links between 12 explanatory variables and four outcomes describing HEV dynamics were assessed using cox-proportional hazard models and logistic regression. HEV infection dynamics was found highly variable between farms and in a lower magnitude between batches. HEV positive livers were more likely related to short time-intervals between HEV infection and slaughter time (<40 days, OR = 4.1 [3.7-4.5]). In addition to an influence of piglets' sex and sows' parity, the sequence of co-infections was strongly associated with different HEV dynamics: a PRRSV or PCV2/PRRSV pre-or co-infection was associated with a higher age at HEV shedding (Hazard Ratio = 0.3 [0.2-0.5]), as well as a higher age at HEV seroconversion (HR = 0.5 [0.3-0.9] and HR = 0.4 [0.2-0.7] respectively). A PCV2/PRRSV pre-or co-infection was associated with a longer duration of shedding (HR = 0.5 [0.3-0.8]). Consequently, a PRRSV or PCV2/PRRSV pre-or co-infection was strongly associated with a higher risk of having positive livers at slaughter (OR = 4.1 [1.9-8.9] and OR = 6.5 [3.2-13.2] respectively). In conclusion, co-infections with immunomodulating viruses were found to affect HEV dynamics in the farrow-to-finish pig farms that were followed in this study. K E Y W O R D S hepatitis E virus, infection dynamics, PCV2, PRRSV, public health, risk factors | 1931 SALINES Et AL.

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Combining network analysis with epidemiological data to inform risk-based surveillance: Application to hepatitis E virus (HEV) in pigs

Cited by 13 publications

References 47 publications

Modeling Epidemics in Seed Systems to Guide Management Strategies: The Case of Sweetpotato in Northern Uganda

Modeling Epidemics in Seed Systems to Guide Management Strategies: The Case of Sweetpotato in Northern Uganda

Identifying outbreaks of Porcine Epidemic Diarrhea virus through animal movements and spatial neighborhoods

Natural viral co‐infections in pig herds affect hepatitis E virus (HEV) infection dynamics and increase the risk of contaminated livers at slaughter

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