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Field
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engineering using genetic modification can solve some of these problems, but introduces regulatory complexities and biological challenges of it’s own. Epigenetic editing, the controlled reprogramming
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: A MSc degree (or equivalent) in Biomedical Engineering, Mechanical Engineering, Applied Mathematics, or related engineering/scientific fields. A strong affinity for complex theoretical concepts in
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in modeling and simulation, focusing on complex systems in biology, health, and sociology. You will be working in a team that values creativity, technical rigor, and interdisciplinary collaboration
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extended research periods abroad. The expected start date is September 2026 (negotiable). We particularly value candidates who are intellectually curious, able to navigate complex research settings, and
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experience in brain research. You have a strong affinity with scripting and applying complex pipelines, preferably with experience in neuroimaging. You enjoy working in an interdisciplinary environment
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motivated graduate looking to apply your skills and curiosity to create a greener transportation industry. With your pioneering mindset and communicative nature, you thrive in complex multi-disciplinary teams
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of research); has experience with large-scale, complex data sets and advanced statistical methods; enjoys doing research and reporting the results in scientific articles; want to share scientific knowledge with
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in Mechanical Circulatory Support Our goal: To improve outcomes for patients with cardiogenic shock and complex cardiothoracic disease by integrating cutting-edge experimental research with high-impact
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and spatially complex nature of MRI signals. Each MRI examination involves multiple pulse sequences, with signal acquisition being sensitive to coil placement, sensor geometry, B0/B1 inhomogeneities
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of modeling and control strategies for operation in complex biological environments. Particular attention will be given to scalable fabrication and integration of photonic sensing or actuation. The project is