OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).

Anna Alba,Robert E Morrison,Ann Cheeran,Albert Rovira,Andres M Perez,Julio Alvarez,Ramona Natacha Pena I Subirà

doi:10.1371/journal.pone.0176863

Anna Alba, Robert E Morrison + Show 5 more

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https://doi.org/10.1371/journal.pone.0176863

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Journal: PloS one	Publication Date: Jul 18, 2017
Citations: 2	License type: CC BY 4.0

Affiliation: University of Minnesota

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSv) infection causes a devastating economic impact to the swine industry. Active surveillance is routinely conducted in many swine herds to demonstrate freedom from PRRSv infection. The design of efficient active surveillance sampling schemes is challenging because optimum surveillance strategies may differ depending on infection status, herd structure, management, or resources for conducting sampling. Here, we present an open web-based application, named ‘OptisampleTM’, designed to optimize herd sampling strategies to substantiate freedom of infection considering also costs of testing. In addition to herd size, expected prevalence, test sensitivity, and desired level of confidence, the model takes into account the presumed risk of pathogen introduction between samples, the structure of the herd, and the process to select the samples over time. We illustrate the functionality and capacity of ‘OptisampleTM’ through its application to active surveillance of PRRSv in hypothetical swine herds under disparate epidemiological situations. Diverse sampling schemes were simulated and compared for each herd to identify effective strategies at low costs. The model results show that to demonstrate freedom from disease, it is important to consider both the epidemiological situation of the herd and the sample selected. The approach illustrated here for PRRSv may be easily extended to other animal disease surveillance systems using the web-based application available at http://stemma.ahc.umn.edu/optisample.

Highlights

Since its first recognition in 1987, porcine reproductive and respiratory syndrome virus (PRRSv) infection has been described in many countries worldwide
AUCD results for herds A, B and C indicated a marked decrease of confidence if the pathogen was assumed to be heterogeneously distributed between sub-units in the herd
When no RT-qPCR positive results are obtained in four consecutive samplings, it is estimated with a 95% confidence that the PRRSv prevalence in the herd is below 10% and the herd is considered free from PRRSv infection

Summary

Introduction

Since its first recognition in 1987, porcine reproductive and respiratory syndrome virus (PRRSv) infection has been described in many countries worldwide. Open web-based application to optimize sampling strategies for active surveillance at the herd level economic impact on the swine industry of infected countries, including North America, by causing an increase in mortality, decrease in growth performance in growing pigs, abortions, stillbirths and premature farrowing in breeding herds. PRRSv infection is associated with respiratory disease, pyrexia, and anorexia at all ages [1]. Some studies have described diverse strategies for the PRRSv control and elimination at herd and regional levels. PRRSv elimination programs are based on strict internal biosecurity in conjuction with herd closure until the virus is thought to have been eliminated [2,3,4]

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