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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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on the vision of developing multi-level thrombosis risk prediction models, from cellular dynamics to organ-level hemodynamics. The network integratesin silico, in vitro, and in vivo approaches to understand
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nanoparticles, cell survival and radioresistance. The MS-RADAM research programme combines state-of-the-artc omputational multiscale modelling (using DFT/TDDFT methods, collision theory, molecular dynamics
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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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. The project aims to (1) differentiate the mechanical response of the head and brain between focal and diffuse loads, (2) determine the molecular and cellular changes in animal models of rTBI and how rTBI
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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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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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on untapped potential of THz and optical wavelengths alongside existing radio technologies. This PhD position focuses on Dynamic Network Architectures and Control for Tropospheric and Cell-Free Networks. You
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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