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

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

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 i...

Full description

Bibliographic Details
Main Authors: Anna Alba, Robert E Morrison, Ann Cheeran, Albert Rovira, Julio Alvarez, Andres M Perez
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5515404?pdf=render
id doaj-db1527b61be545d29982f493b284a308
record_format Article
spelling doaj-db1527b61be545d29982f493b284a3082020-11-25T01:20:03ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01127e017686310.1371/journal.pone.0176863OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).Anna AlbaRobert E MorrisonAnn CheeranAlbert RoviraJulio AlvarezAndres M PerezPorcine 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.http://europepmc.org/articles/PMC5515404?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Anna Alba
Robert E Morrison
Ann Cheeran
Albert Rovira
Julio Alvarez
Andres M Perez
spellingShingle Anna Alba
Robert E Morrison
Ann Cheeran
Albert Rovira
Julio Alvarez
Andres M Perez
OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
PLoS ONE
author_facet Anna Alba
Robert E Morrison
Ann Cheeran
Albert Rovira
Julio Alvarez
Andres M Perez
author_sort Anna Alba
title OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
title_short OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
title_full OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
title_fullStr OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
title_full_unstemmed OptisampleTM: Open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using Porcine Respiratory Reproductive Syndrome (PRRS).
title_sort optisampletm: open web-based application to optimize sampling strategies for active surveillance activities at the herd level illustrated using porcine respiratory reproductive syndrome (prrs).
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description 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.
url http://europepmc.org/articles/PMC5515404?pdf=render
work_keys_str_mv AT annaalba optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
AT robertemorrison optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
AT anncheeran optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
AT albertrovira optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
AT julioalvarez optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
AT andresmperez optisampletmopenwebbasedapplicationtooptimizesamplingstrategiesforactivesurveillanceactivitiesattheherdlevelillustratedusingporcinerespiratoryreproductivesyndromeprrs
_version_ 1725135776971227136

Similar Items