Abstract
The reporting of outputs from health surveillance systems should be done in a near real-time and interactive manner in order to provide decision makers with powerful means to identify, assess, and manage health hazards as early and efficiently as possible. While this is currently rarely the case in veterinary public health surveillance, reporting tools do exist for the visual exploration and interactive interrogation of health data. In this work, we used tools freely available from the Google Maps and Charts library to develop a web application reporting health-related data derived from slaughterhouse surveillance and from a newly established web-based equine surveillance system in Switzerland. Both sets of tools allowed entry-level usage without or with minimal programing skills while being flexible enough to cater for more complex scenarios for users with greater programing skills. In particular, interfaces linking statistical softwares and Google tools provide additional analytical functionality (such as algorithms for the detection of unusually high case occurrences) for inclusion in the reporting process. We show that such powerful approaches could improve timely dissemination and communication of technical information to decision makers and other stakeholders and could foster the early-warning capacity of animal health surveillance systems.
Highlights
Detection of disease outbreaks or changes in the frequency of disease in populations plays a vital role in reducing the impact of both emerging and endemic zoonotic diseases [1, 2]
The interactive web-based charts and maps that can be built from those tools provide an accessible means to better display surveillance data to provide information that can readily be translated into public health, animal health, and food safety actions
Meat inspectors report to the FLEKO the number of normal and emergency slaughtered animals, the number of whole carcass condemnations (WCC), and the reason for WCC
Summary
Detection of disease outbreaks or changes in the frequency of disease in populations plays a vital role in reducing the impact of both emerging and endemic zoonotic diseases [1, 2]. The interactive web-based charts and maps that can be built from those tools provide an accessible means to better display surveillance data to provide information that can readily be translated into public health, animal health, and food safety actions.
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