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life-saving potential, yet optimal patient selection, timing, and device strategies require deeper mechanistic and clinical insight. Our program combines experimental cardiovascular research with robust
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convergent disease pathways and therapeutic targets. By combining stem cell biology, tissue engineering, gene editing, and deep phenotyping, you help bridge the gap between genetic discovery and functional
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theoretically rich and highly relevant for contemporary organizations. You will work on a multi-method research programme combining behavioural experiments, simulation-based decision tasks, and physiological
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biological scales, combining mechanobiology, biochemistry, pathophysiology, and computational modelling. Together with your fellow doctoral candidates you will make a unique contribution to the multi-level
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University of Bern (Switzerland). Research program description ThromboRisk will develop an integrated platform to advance our understanding of thrombosis across biological scales, combining mechanobiology
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faculty for economics, business, and policy. We combine academic depth with societal engagement. Our education is small-scale and interactive. Our research focuses on themes such as sustainability
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Grinsven, Dr. Valerii Myndrul, and Kelly Erven. You will collaborate with experts from chemistry, biomedical engineering, and materials science, combining fundamental research with real-world application. In
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lives of patients suffering from chronic diseases. By combining expertise in biology, medicine, and engineering, the lab is proud to work on the whole spectrum of fundamental research to translational