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group. The project aims to characterize ependymoma tumor cells and its tumor microenvironment (TME) on a single cell level. The goal of the project is to use this knowledge of the immune landscape
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stem cells or stem cell-based biomaterials? And eager to explore cutting-edge technologies like genome editing and in vivo imaging? Or are you perhaps fascinated by eye research and do you have an
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like to know more about the different phases within the PhD trajectory? You can read more about this on this page . As part of this project, you will use innovative neuronal cell models and advanced
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and interpret research data using various immunological and cell biological techniques, such as flow cytometry and tumor slice cultures; present research findings at (inter)national conferences and
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contribute directly to this effort by developing patient-specific induced pluripotent stem cell (iPSC)-derived vascular tissues to assess disease severity, drug efficacy and the potential of gene-correction
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modelling approaches (https://www.carlier-insilico-lab.com/who-are-we) . Dr LaPointe’s group (www.lapointelab.com ) is dedicated to developing groundbreaking regenerative cell therapies that can transform the
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, focusing on purpose-driven topology design (optimizing cell and module arrangement for performance) and vertical integration (seamless integration into vehicle architecture). You will create automated
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allow the inclusion of tumor cells, and the cells should be embedded in a relevant extracellular matrix (ECM); third, the chips must be acoustically transparent to allow transmission of ultrasound, i.e
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cells or stem cell-based biomaterials? And eager to explore cutting-edge technologies like genome editing and in vivo imaging? Or are you perhaps fascinated by eye research and do you have an affinity
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to run on this new generation 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