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vivo pancreatic acinar-to-ducal metaplasia models and deploy liquid-chromatography mass-spectrometry to analyse the metabolome and proteome of acinar cells undergoing metaplasia. The researcher will
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, working in close collaboration with a Ph.D. candidate whom you will be co-supervising and another postdoc with expertise in experimental set-up design and construction as well as fluid dynamics, as
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, their modelling through mathematics and numerical simulations, and their control and optimization. Our belief is that a proper understanding of systems requires a modelling step, which allows to identify causal
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spiking neural network modeling, we aim to uncover translational biomarkers and fundamental mechanisms underlying altered inhibitory circuits and network dynamics. The project offers significant
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academia and practice regarding the cost-effectiveness analysis of safety instrumented systems. You will conduct cost-effectiveness analyses by designing cost models to highlight trade-offs in
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trials (e.g., diet, FMT), and ex vivo gut models enabling advanced multi-omics analyses of these samples. In addition the lab also maintains a large culture collection, partially linked to genomic data
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intervention trials (e.g., diet, FMT), and ex vivo gut models enabling advanced multi-omics analyses of these samples. In addition the lab also maintains a large culture collection, partially linked to genomic
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and technicians and develop an independent research profile Access to state-of-the-art infrastructure A stimulating, diverse international world-class research environment Animal models, expertise in
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spiking neural network modeling, we aim to uncover translational biomarkers and fundamental mechanisms underlying altered inhibitory circuits and network dynamics. The project offers significant
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instrumented systems. You will conduct cost-effectiveness analyses by designing cost models to highlight trade-offs in the implementation of safety instrumented systems. You will evaluate how system design