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will feature use of surfaces with varying morphologies and wettabilities to understand the effect of change. The work will also have the possibility of undertaking complimentary CFD studies to aid in
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for the scaffold protein SANS which has been related to the microtubule-based intracellular transport in the cytoplasm of the cell and ciliogenesis in primary ciliary cell models and retinal photoreceptor cells
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models to simulate mobility scenarios, assess policy interventions, and guide sustainable transport strategies. Redesigning Urban mobility in 15 minutes context – Designing a systems approach and AI
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their joints using our statistical shape and appearance model. We aim to better understand how alterations in joint mechanics affect the morphology and composition of human joints – some will thrive and others
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of Digital Twins being used to assess NBS. This project builds on the Newcastle University team’s decades of expertise in modelling the circulation of open oceans, shelf seas and estuaries. The Digital Twin
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-CT for recurring thyroid carcinoma cases using FFPE blocks Further development of ML tools and models for the automated detection of clinically relevant morphological features for the diagnostics
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and morphology. More information about us, please visit: the Department of Zoology SciLifeLab is a national research infrastructure based in Stockholm and Uppsala. In Stockholm, SciLifeLab is located
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and in pathological models, we aim to establish direct links between molecular determinants and muscle physiopathology Detailed Description of the Project : Not all muscles in the body are equivalent
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. The intermediate working temperatures also allow PCFCs to integrate efficient catalysts with well-designed morphologies. To date, hydrogen remains the prevalent fuel for PCFCs, however, challenges persist owing
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cells in our body and their sophisticated morphology and function render them highly susceptible to degeneration. The preliminary data generated in-house as well as the available public data suggest