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department here and about the faculty here . About the research project The proposed project aims to explore and innovate the use of 3D scanning data in forensic odontology, in particular within the two
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Applications are invited for a 2-year position in the field of CFD and modeling of heat pumps at the Department of Mechanical and Production Engineering, Aarhus University, Denmark. Expected start
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tissues and explore potential links with genetics and macromorphological characteristics. To this end, we will employ collection and analysis of tomographic data using state of the art synchrotron 3D
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disease, with a strong focus on fibrosis and inflammation. Over the years, we have developed an advanced translational toolkit, including human precision-cut tissue slices, a unique organotypic model
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experimental systems, ranging from molecular screening tools, state-of-the-art methods for molecular/cellular characterization, animal models, and primary human cell/organoid models. We offer a unique
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the biogeochemical mechanisms that underpin the resilience of restored wetlands, integrating field observations, laboratory experiments, and modelling approaches. You will explore how nutrient dynamics, hydrological
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computational models to map co-expression networks and predict systemic disease transitions. Characterise intestinal microbiome changes and their correlation with inflammatory diseases. Computational modelling
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cells. Studies of gene and protein delivery in mouse models of hematologic dysfunction. Participation in meetings and scientific focus groups. You will report to the Head of Department of Biomedicine
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models. Participation in collaborations with colleagues in the clinic including direct involvement in studies aiming a clinical translation. Entering an interdisciplinary groups of researchers with
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Do you have experience with modelling structures subjected to dynamic loading? Are you interested in data-driven methods for modelling applied loading? Are you eager to share your knowledge within