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Curie PhD network centred on mechanobiology, i.e. the study of how physical forces and mechanical cues shape cell physiology. Evidence indicates that key mechanisms of neurodegeneration and cancer
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of the battery, and associated electrochemical parameters using impedance spectroscopy. The evaluation of the cell and ceramic membrane impedances will also be part of your investigations, studying bi-directional
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models will allow you to study mechanisms of tissue patterning, morphogenesis, and boundary formation in stem cell-derived models such as kidney organoids, intestinal organoids, and embryo-like structures
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molecular engineering, advanced cell culture models, and preclinical validation generating the type of comprehensive dataset that supports regulatory and clinical translation. What you bring It’s not
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neurological diseases pose major challenges to modern healthcare. Despite their apparent differences, these conditions share striking cellular-level similarities, including altered cell–cell communication
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, chemical, flavor, food & agricultural, and high-tech industries, and revolves around 4 main themes, Cell & Systems biology, Neurosciences, Microbiology and Green Life Sciences. Within the Brain Plasticity
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staff, and has access to state-of-the-art research facilities to perform human intervention studies, cell culture experiments, and molecular analysis. In this project, you will work closely together
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of equipment – which of course includes AI. Meanwhile we are pushing the limits of applied mathematics, for example mapping out disease processes using single cell data, and using mathematics to simulate
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. Your responsibilities will include developing performance models for zero-emission aircraft (hydrogen combustion, hydrogen fuel cell, battery-electric, hybrid-electric) and assessing ATM network impacts
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, you will generate and study human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes and engineered cardiac tissues (ECTs). You will develop patient-specific cardiac models to identify