Evaluating Surveillance Strategies for the Early Detection of Low Pathogenicity Avian Influenza Infections

Comin, Arianna; Stegeman, Arjan; Marangon, Stefano; Klinkenberg, Don

doi:10.1371/journal.pone.0035956

Cited by 18 publications

(18 citation statements)

References 21 publications

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“…Simulation models (n = 10) [30,41,97,107,[119][120][121][122][123][124] aimed to mimic disease transmission in a population in time, and sometimes in space, terms in specific circumstances. The outputs from the simulations could be used for estimating the risk of disease spread (n = 5).…”

Section: Simulation Modellingmentioning

confidence: 99%

Systematic review of surveillance systems and methods for early detection of exotic, new and re-emerging diseases in animal populations

et al. 2014

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In this globalized world, the spread of new, exotic and re-emerging diseases has become one of the most important threats to animal production and public health. This systematic review analyses conventional and novel early detection methods applied to surveillance. In all, 125 scientific documents were considered for this study. Exotic (n = 49) and re-emerging (n = 27) diseases constituted the most frequently represented health threats. In addition, the majority of studies were related to zoonoses (n = 66). The approaches found in the review could be divided in surveillance modalities, both active (n = 23) and passive (n = 5); and tools and methodologies that support surveillance activities (n = 57). Combinations of surveillance modalities and tools (n = 40) were also found. Risk-based approaches were very common (n = 60), especially in the papers describing tools and methodologies (n = 50). The main applications, benefits and limitations of each approach were extracted from the papers. This information will be very useful for informing the development of tools to facilitate the design of cost-effective surveillance strategies. Thus, the current literature review provides key information about the advantages, disadvantages, limitations and potential application of methodologies for the early detection of new, exotic and re-emerging diseases.

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Section: Simulation Modellingmentioning

confidence: 99%

Systematic review of surveillance systems and methods for early detection of exotic, new and re-emerging diseases in animal populations

et al. 2014

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“…The abundance of virus shed into lake water and wetlands can provide a way for ducks to spread the virus through migration onto other domestic or wild birds [11]In addition, introduction of LPAI viruses into a poultry population may not necessarily involve direct contact but rather the mechanical transfer of the virus through infective faeces from the waterfowl [13]. LPAI of subtypes H5 and H7 in wild birds can still be problematic as it can mutate when transmitted to poultry to the highly pathogenic type [14]. As was shown in February 2003 when an outbreak of pathogenic avian influenza (subtype H7N7) in the Netherlands is thought to have originated from free-living ducks that had evolved into a highly pathogenic variant after introduction into poultry farms [15].…”

Section: Introductionmentioning

confidence: 99%

“…Due to the inherent bias in samples of convenience, establishing valid estimates of disease absence or prevalence remains difficult [18]. HPAI detection has been traditionally based on passive surveillance since the infection induces clear clinical signs and high mortality in most poultry species [14]. In wild birds, dead bird collection limits the insights that can be made on the distribution, spread and the diversity of AIV strains, since death is rarely caused in wild birds [19].…”

Section: Introductionmentioning

confidence: 99%

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Avian Influenza Risk Surveillance in North America with Online Media

Robertson

Yee

2016

PLoS ONE

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The use of Internet-based sources of information for health surveillance applications has increased in recent years, as a greater share of social and media activity happens through online channels. The potential surveillance value in online sources of information about emergent health events include early warning, situational awareness, risk perception and evaluation of health messaging among others. The challenge in harnessing these sources of data is the vast number of potential sources to monitor and developing the tools to translate dynamic unstructured content into actionable information. In this paper we investigated the use of one social media outlet, Twitter, for surveillance of avian influenza risk in North America. We collected AI-related messages over a five-month period and compared these to official surveillance records of AI outbreaks. A fully automated data extraction and analysis pipeline was developed to acquire, structure, and analyze social media messages in an online context. Two methods of outbreak detection; a static threshold and a cumulative-sum dynamic threshold; based on a time series model of normal activity were evaluated for their ability to discern important time periods of AI-related messaging and media activity. Our findings show that peaks in activity were related to real-world events, with outbreaks in Nigeria, France and the USA receiving the most attention while those in China were less evident in the social media data. Topic models found themes related to specific AI events for the dynamic threshold method, while many for the static method were ambiguous. Further analyses of these data might focus on quantifying the bias in coverage and relation between outbreak characteristics and detectability in social media data. Finally, while the analyses here focused on broad themes and trends, there is likely additional value in developing methods for identifying low-frequency messages, operationalizing this methodology into a comprehensive system for visualizing patterns extracted from the Internet, and integrating these data with other sources of information such as wildlife, environment, and agricultural data.

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“…The new threat of a highly pathogenic transmissible strain of avian influenza has provoked the need for monitoring influenza strains circulating in wild migratory birds [31]. Furthermore, it is commonly thought that early detection of avian influenza is essential for economic security in the poultry industry and maintenance of public health [32]. Previously, avian influenza has been monitored in wild birds, including those in Italy and those crossing the Europe/North America land bridge [11,[33][34][35][36][37].…”

Section: Introductionmentioning

confidence: 99%

Influenza monitoring in Sardinia, Italy identifies H3 subtype in Mediterranean wild migratory birds

Kelvin

Meloni

Sansonetti

et al. 2012

J Infect Dev Ctries

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Introduction: Wild migratory birds are global distributors of pathogens. Sardinia, Italy, is the second largest Island in the Mediterranean and is a land bridge between Europe and Africa. Methodology: We designed a surveillance protocol to investigate wild migratory birds for presence, frequency, and type of avian influenza viruses. We collected over 4,000 avian samples and compared three sampling methods, fecal, cloacal, and tracheal, to determine the most productive for virus identification. To determine frequency of infection, RNA was extracted and RT-PCRs for avian influenza virus genes were run. Positive samples were cultivated for live virus, sub typed and sequenced. Results: Forty-four samples were positive for influenza nucleoprotein gene. We identified two previously unidentified H3 subtype strains and found cloacae to have the highest rate of virus identification and fecal sampling to provide quality RNA and repeatable results for determination of virus presence. Conclusion: Our investigation provides information on the frequency of Mediterranean avian influenza viruses, and validates the initiation of an avian influenza surveillance protocol. Taken together with global avian influenza findings, these results give insight into infectious disease distributions which is important for viral pandemic monitoring and design of preventative measures.

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Evaluating Surveillance Strategies for the Early Detection of Low Pathogenicity Avian Influenza Infections

Cited by 18 publications

References 21 publications

Systematic review of surveillance systems and methods for early detection of exotic, new and re-emerging diseases in animal populations

Systematic review of surveillance systems and methods for early detection of exotic, new and re-emerging diseases in animal populations

Avian Influenza Risk Surveillance in North America with Online Media

Influenza monitoring in Sardinia, Italy identifies H3 subtype in Mediterranean wild migratory birds

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