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. This project will use state-of-the-art live-cell super resolution microscopy and automated image analysis to both visualise the 3D architecture of keratin networks in epithelial monolayers. You will explore how
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Computational imaging: seeing beyond the capabilities of conventional optics
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at higher risk offered PSA blood tests which are not definitive. Our research aims to develop an image-based approach to screening, combining PSA testing with MRI to better identify aggressive cancers
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all year round Details Project details: Artificial Intelligence (AI) has been shown to be important in obtaining ‘big data’ from whole slide images (WSI) and offers unique opportunities for automated
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this using in vivo two-photon calcium imaging, confocal microscopy, stochastic genetic labelling of single neurons, and detailed analysis of neuronal morphology. You will design, develop and perform
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. Characterise the effect of Ect2 depletion on PDAC cell proliferation, division and migration 2. Understand how mechanosensitive signalling regulates Ect2 localisation and activity 3. Image the localisation
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engineering solutions for healthcare applications, involving the processing, integration, and analysis of diverse data sources. Picture healthcare as a jigsaw puzzle where every piece tells part of your story
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for downhole milling tools. Conduct Finite Element Analysis (FEA) of cutting mechanics under downhole conditions. Support design and validation of prototype tools using the company’s bespoke instrumented test
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of Sheffield. The successful candidates will take forward methodological research in the physics and engineering of magnetic resonance imaging for hyperpolarised 129Xe, and will be based in the POLARIS group
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you want to challenge yourself in the multidisciplinary field of biomechanics, image processing and skeletal diseases? This is the PhD project for you! You will work in an exceptional multidisciplinary