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Award Summary 100% of home tuition fees paid and an annual stipend (living expenses) of £18,622. Overview Are you interested in developing a 3D Imaging Flow Cytometer for biomedical applications? White blood cell (WBC) analysis is crucial in medical diagnostics, disease monitoring, and...
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The project will investigate immortalization, characterization and commercialization of human derived, site specific mucus secreting goblet cells. Hypothesis That human mucus secreting goblet cells can be
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they are black boxes to human users. It is difficult to make sense of why a machine learning approach has provided a particular result as output. In this project, students will create explainable systems
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Sponsor Arts and Humanities Research Council Supervisors Professor Sam Turner (Newcastle University) Dr Louise Rayne (Newcastle University) Dr Jonathan Last (Historic England) Mr Matthew Oakey (Historic
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will be configured to build on the student’s strengths, being open to students with a range of potential backgrounds such as public health, engineering, social sciences and humanities. Such a topic
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international fees. Overview We will use human pluripotent stem cells (hPSCs) and CRISPR genetic engineering to explore the role of an osteoarthritis susceptibility gene in cartilage differentiation, homeostasis
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treatments largely act by reducing inflammation, but do not restore the underlying pathology. The development of novel therapeutics that restore immune tolerance has therefore become a major focus. Such
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limited. This PhD studentship will focus on the siderophore transport pathways of the clinically important human pathogen Pseudomonas aeruginosa. The project will use a multidisciplinary approach, including
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to maintain a local therapeutic concentration at the disease site to act on the target, and avoids any interaction with the healthy tissues – which can otherwise lead to off-target side effects. In this project
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lack the capability to accurately model: a) linear features such as bridges, gates and weirs which act as obstructions to flow; b) floating debris; and c) dam breach formation. These features can heavily