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a tool for mechanistic studies and preclinical therapeutic testing. PhD Project 2. Engineering Multicellular 3D In Vitro Models to Elucidate Bone Regeneration Mechanisms Large bone defects and non
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, voids, delamination, corrosion, and internal structural discontinuities. The PhD candidate will investigate Vision Language Models (VLMs), Multi-modal AI solutions, and 3D scene reasoning approaches
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to develop 2D and 3D NMJ models for DM1, consisting of different combinations of patient-induced pluripotent stem cell (hiPSC)-derived neuronal and muscle cells, allowing the dissection of pathological
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to unravel the complexity of multimineral salt crystallization using cutting-edge experimental methods combined with advanced 3D imaging. Your research will provide fundamental insights into how multiple ions
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covalent networks, supramolecular materials, light-responsive systems, and 3D-printable bioinks to create controlled culture environments for organoids and other advanced 3D in vitro models. These in vitro
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kinetics under physiologically relevant conditions Conduct in vitro biological validation using primary human cells such as osteoblasts and mesenchymal stromal cells Develop advanced 3D culture models
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and cells and clinical data of thousands of patients to creating in-vitro 3D models and using artificial intelligence for imaging.s pelvic floor complaints (prolapse and full ruptures) and to optimise
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. Her interdisciplinary research focuses on early modern English literature and history, including women's history. By using, for instance, 3D scanners to read unopened seventeenth-century letters, she
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simulation framework for paired visible-light and X-ray images of fruit and developing methods for fast 3D shape modelling of fruits, correcting X-ray images for object thickness, and estimating physiological