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participates in a range of international collaborative projects aimed at fostering multidisciplinary cooperation and contributing to evidence-based decision-making in public health and disease prevention. In
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metabolism, invasiveness, and adaptation to the microenvironment. Our research combines experimental mechanobiology, advanced light microscopy, and computational modeling to understand the physical and
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human stem-cell-based models (iPSC-derived neurons, astrocytes, cerebral organoids, neuron/astrocyte co-cultures and patient-derived glioblastoma samples and tumoroids), we investigate pathways and
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, scanning and transmission electron microscopy, nano/micro-CT, mathematical modelling and many others. All of our projects are based on large network of local and international collaborators. This offers
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We are offering an opportunity for a postdoctoral researcher with a background in applying mathematical models to the study of the brain to join a newly established group at the First Department of
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to model eye development and associated disorders, with a particular interest in photoreceptor biology. Key Research Areas: Differentiation of human pluripotent stem cells into retinal tissues Retinal
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advanced instrumentation (cellular and animal models, proteomics, gene editing, lentiviral transduction, live cell imaging, super-resolution microscopy, etc.). For more information on the research themes in
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identify novel EV-based biomarkers reflecting key processes of tumour progression. Beyond their diagnostic value, EVs hold immense therapeutic potential. Their natural ability to deliver molecular cargo in a