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studies using cell culture models (3D culture, expression of mechanosensitive channels) Hands-on training in ultrasound stimulation, custom transducer designs and cell culture setups, live-cell imaging and
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modelling and figure preparation Support general research tasks as needed Your background: Enrolled in or completed scientific studies, preferably in the field of biology or similar Skilled in reading
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to lead research projects in lipid cell biology and metabolism with the help of the Drosophila model. The mission of the Nephrogenetics division is to advance the understanding of the underlying
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care in digital healthcare. Your tasks: 1. Research: Conducting a systematic review of digital competencies in the healthcare professions Developing a competency model for digital spiritual care with
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stem/progenitor cell plasticity (HSPCs), and leukemic transformation. The project will use innovative 2D and 3D HSPC/MSC co-culture models, functional clonogenic and differentiation assays, bulk and
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spread patterns Develop predictive models for outbreak detection and risk assessment Generate risk maps and early warning indicators for zoonotic infectious diseases Create dashboards and lightweight
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, and biomedicine to develop reproducible, micrometer-scale, controllable, and cost-efficient 3D stem cell-derived disease models for applications in neuroscience, cardiology, and gastroenterology
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groups are strongly encouraged to apply. Your Tasks: Development and application of algorithms for modelling, evaluation and visualization of ultrafast processes Investigation of ultrafast dynamics in
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sensor data, with applications in disease modeling and the development of material science-based innovations. These efforts aim to optimize system performance and uncover novel biological insights in close
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-dimensional cell cultures are important to enable realistic cell environments for disease modeling and to analyze cell interactions. This position will address the question of how one can develop minimally