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Supervisor: Dr Helen McKenna ([email protected] ) Applications are invited for a fully funded 3-year PhD studentship to study the effects of altered gas and pressure on the human brain
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opportunities to underrepresented groups to access higher education. With a focus on students interested in Arts, Humanities and Business-related subjects, this exciting role will be responsible for a customer
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use cutting-edge facilities to study TH metabolism and develop expertise in a range of laboratory techniques. These involve isolation of blood macrophages and in vitro cell culture for a human ChP model
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to develop models towards human neural spheroids and/or organoids, and use these “mini-brain” platforms to generate infiltrative tumours using patient-derived GSCs. The model will then be validated as a more
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use both invivo animal models and human adult tissue samples and will utilize a broad range of experimental methodologies including immunohistochemistry, fluorescence and electron microscopy and Western
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microorganisms that will be screened for antimicrobial activity against important human pathogens. Promising compounds will be identified and applied to down-stream processing and development towards pre-clinical
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recognizes the importance of green and blue spaces, the precise mechanism to improve quality of life remains unclear. This PhD studentship addresses the critical gap in understanding the nuanced relationship
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of microplastic and nanoplastic exposure and enhance inflammation. The effect of microplastic and nanoplastic exposure on the gut under pathophysiological conditions in humans has not been investigated