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with Biomaterials is looking for a Ph.D. student for a research project involving the digitization of the production of dental devices. Are you intrigued by the transformative potential of 3D printing in dentistry
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. Your challenge within this project is to develop a volumetric 3D bioprinting strategy to replicate the mechanical and chemical environment of the embryonic aorta, simulate different hemodynamic flow
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; demonstrate experience with 2D/3D mammalian cell culturing and with molecular cloning; have experience with image analysis (preferably cell segmentation and cell tracking). Additional Information Benefits We
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this pressing issue by developing novel carriers and innovative infection models (both 2D and 3D) to eradicate these intracellular pathogens and unveil underlying mechanisms driving resistance. This project
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will follow up on these findings using a combination of molecular cell biology approaches, advanced live cell imaging and 3D iPS-based models for the microcirculation. This project is a joint effort with
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state-of-art 3D organotypic model, the PhD candidate will have the unique opportunity to unravel the complexity of this dynamic process in a controlled manner. Your duties Your responsibilities are 1
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biology approaches, advanced live cell imaging and 3D iPS-based models for the microcirculation. This project is a joint effort with the Institute for Informatics at the University of Amsterdam, where a
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-of-the-art physiological and imaging setups, animal models, stem cell-derived (3D) models, and human tissues to study structure/function relationships in different organs, focused on the pathophysiology and
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are informative for Project 3. Results are also essential for Project 1 to validate numerical modelling frameworks. Finally, the findings on the unsteady flow phenomena, separation and 3D rotor-tip effects are fed
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ultrasound (https://doi.org/10.1109/TUFFC.2022.3148121 ). Optimal imaging inside and behind bone requires to take into account the 3D challenging wave physics imposed by bone tissue: wave refraction, wave