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with gait impairments. The tool will combine fundamental biomechanics with smart computer algorithms and a computational modeling prototype. As a PhD student, you will design, manage, execute and report
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with gait impairments. The tool will combine fundamental biomechanics with smart computer algorithms and a computational modeling prototype. As a PhD student, you will design, manage, execute and report
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lab), crafting miniature artificial replicas of the embryonic aorta. We will use our bioprinted tissue to explore how blood flow and haemodynamics, environmental biomechanical and biochemical signals
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related to patterning precision, (2) how cellular dynamics and biomechanical feedbacks are limiting patterning precision, (3) how global mechanical constraints acting on a growing tissue are affecting
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computational modeling to gain insights into the biomechanical behavior of human tissues in both health and disease. Our models, operating at multiple scales – from individual cells to entire tissues and organs
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. The position will be based within the Integrated Musculo-Skeletal Biomechanics Group in the Insigneo Institute for in silico Medicine, a collaboration between the University of Sheffield, Sheffield Teaching
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of modelling, biomechanics & deep learning. The project is in collaboration with multiple NHS Trusts including the Sheffield Teaching Hospitals and Sheffield Children’s Hospital. The successful candidate will
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the loading condition to patients in occupational domain or patients with chronic pain. Common joints that are biomechanically supported by the devices include the ankle, knee, hip, spine, shoulder, elbow, and
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Subject areas: Experimental Mechanics, Heart Valves, Digital Image Correlation (DIC), Particle Image Velocimetry (PIV), Biomechanics, Fluid-Structure Interaction Project description: Heart valve (HV
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risk but is now being used for in younger patients with low surgical risk, raising concerns about its long-term durability compared to SAVR. Objectives: Understanding the fluid dynamics and biomechanical