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researchers from fields of clinical sciences, biomechanics, psychology, biomedical engineering and mathematics. The post-holder will be required to play a central role in liaising with these disciplines
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& clinical Applied Biomechanics Sports Coaching (individual, community, special population and non-traditional sports) Community Activators Lifestyle / Health Coach Disciplines which complement/support these
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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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funded by the British Heart Foundation for 3 years and will involve characterization of the role played by the NFY transcription factor as a biomechanical sensor and regulator of cardiac fibroblast
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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 Hospitals NHS
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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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Professor Paul Taylor, the study chief investigator. You will have experience in collecting research data from humans ideally in the area of biomechanics or motor control. You will be able to show evidence of
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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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relevant Master’s degree will be an advantage e.g. Exercise Physiology, Musculoskeletal Science, Biomechanics etc., as is demonstrable experience/interest in neuromuscular research. Fees and funding
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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