Christian Thoens scite author profile

Christian Thoens

5Publications

58Citation Statements Received

59Citation Statements Given

How they've been cited

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Affiliations

Federal Institute for Risk Assessment

Publications

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A Likelihood-Based Approach to Identifying Contaminated Food Products Using Sales Data: Performance and Challenges

et al. 2014

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Foodborne disease outbreaks of recent years demonstrate that due to increasingly interconnected supply chains these type of crisis situations have the potential to affect thousands of people, leading to significant healthcare costs, loss of revenue for food companies, and—in the worst cases—death. When a disease outbreak is detected, identifying the contaminated food quickly is vital to minimize suffering and limit economic losses. Here we present a likelihood-based approach that has the potential to accelerate the time needed to identify possibly contaminated food products, which is based on exploitation of food products sales data and the distribution of foodborne illness case reports. Using a real world food sales data set and artificially generated outbreak scenarios, we show that this method performs very well for contamination scenarios originating from a single “guilty” food product. As it is neither always possible nor necessary to identify the single offending product, the method has been extended such that it can be used as a binary classifier. With this extension it is possible to generate a set of potentially “guilty” products that contains the real outbreak source with very high accuracy. Furthermore we explore the patterns of food distributions that lead to “hard-to-identify” foods, the possibility of identifying these food groups a priori, and the extent to which the likelihood-based method can be used to quantify uncertainty. We find that high spatial correlation of sales data between products may be a useful indicator for “hard-to-identify” products.

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The effect of antibody-dependent enhancement, cross immunity, and vector population on the dynamics of dengue fever

Hu¹,

Thoens²,

Bianco³

et al. 2013

Journal of Theoretical Biology

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A strategy to establish Food Safety Model Repositories

Plaza‐Rodríguez

Thoens

Falenski

et al. 2015

International Journal of Food Microbiology

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Transferring the knowledge of predictive microbiology into real world food manufacturing applications is still a major challenge for the whole food safety modelling community. To facilitate this process, a strategy for creating open, community driven and web-based predictive microbial model repositories is proposed. These collaborative model resources could significantly improve the transfer of knowledge from research into commercial and governmental applications and also increase efficiency, transparency and usability of predictive models. To demonstrate the feasibility, predictive models of Salmonella in beef previously published in the scientific literature were re-implemented using an open source software tool called PMM-Lab. The models were made publicly available in a Food Safety Model Repository within the OpenML for Predictive Modelling in Food community project. Three different approaches were used to create new models in the model repositories: (1) all information relevant for model re-implementation is available in a scientific publication, (2) model parameters can be imported from tabular parameter collections and (3) models have to be generated from experimental data or primary model parameters. All three approaches were demonstrated in the paper. The sample Food Safety Model Repository is available via: http://sourceforge.net/projects/microbialmodelingexchange/files/models and the PMM-Lab software can be downloaded from http://sourceforge.net/projects/pmmlab/. This work also illustrates that a standardized information exchange format for predictive microbial models, as the key component of this strategy, could be established by adoption of resources from the Systems Biology domain.

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FoodChain-lab: Tracing Software Supporting Foodborne Disease Outbreak Investigations

Weiser

Thoens

Falenski

et al. 2016

Procedia Food Science

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Exploitation of Commercial B2B Data for Risk Assessment Tasks in Foodborne Crisis Events

Filter

Thoens

Käsbohrer

et al. 2012

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