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for Technology-Inspired Regenerative Medicine (http://merln.maastrichtuniversity.nl/) as part of the DRIVE-RM project. The computational group led by Aurélie Carlier focuses on multiscale computational modelling
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, you will explore how individuals and communities maintain well-being while engaging in collective action. Your job The project investigates social movements at different scales (local, identity-based
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for understanding CHD occurrence, distinguishing three key components: (1) risk factors that drive the long-term development of atherosclerosis, (2) trigger factors that precipitate acute coronary
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-vulnerability model provides a more comprehensive framework for understanding IS occurrence, distinguishing three key components: (1) risk factors that drive the long-term development of atherosclerosis, (2
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aims to move beyond one-size-fits-all approaches by personalizing rTMS at every level: target selection, stimulation parameters and alignment with the patient’s current brain state. The project
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muscles, bones, joints, and associated tissues, are the leading cause of disability worldwide. Musculoskeletal models hold great potential for prevention and development of new treatments, but current
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, for the continuous monitoring of biomolecules at low concentrations. The sensing platform is called Biosensing by Particle Motion (BPM) and uses particles on a sensing surface that change their motion due to single
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, patient motion, and more. Today, these parameters are either manually configured, heuristically optimized, or compensated post hoc using multi-level calibration scans or corrections, which introduces
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to design healthier, more active cities? Join the Institute for Risk Assessment Sciences (IRAS) as a PhD candidate “Designing for movement: modelling physical activity in urban environments using Agent-Based
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the resilience pathway. Conducting proof-of-concept experiments to demonstrate that enhancing GVB-associated resilience can mitigate tau-induced neurodegeneration. Where to apply Website https