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and image processing methods. Experience with preclinical rodent MRI, methods used for quantitative MRI, and/or pulse sequence programming are a plus. Ideally, applicants will have a proven research
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Centre in the Denmark Hill Campus. The applicant should have (or be in the final stages of completing) a PhD in Biomedical Engineering, Medical Physics, Medical Imaging, or a related area. They should have
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led by Prof Jill O’Reilly and Prof Helen Barron, with responsibility for carrying out research on the role of rest in cognitive map formation, and the neural mechanisms underlying that process. The post
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) PhD in subject specialism or equivalent Skills Essential: C1 Design and construction of custom optical setups for microscopy C2 Computer programming in the Python language C3 Research creativity and
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should have (or be in the final stages of completing) a PhD in Biomedical Engineering, Medical Physics, Medical Imaging, or a related area. They should have good analytical and programming skills and
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inclusive atmosphere. You will have a PhD in a relevant field (e.g. immunology, neuroscience) or are due to complete within 6 months. You will have experience of one or several of the following
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mathematical modelling, image processing methods and/or machine learning. Experience of methods used for quantitative MRI and/or previous hand-on experience implementing MRI pulse sequences are a plus. Ideally
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participation, working with PPI, to choose a creative ‘menu’ of participation modes, e.g., a digital pinboard for images and memes and recruit parents, children, and clinicians to participate in qualitative
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applications for regulatory approvals. You will also support child participation, working with PPI, to choose a creative ‘menu’ of participation modes, e.g., a digital pinboard for images and memes and recruit
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cilia function. This exiting project will combine our recently developed centrosome purification method with advanced proteomics and high-resolution imaging to deepen our understanding of these processes