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Field
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of mesalazine in nanocarriers has demonstrated success in targeting inflammatory regions and treating mild to moderate IBD. This project will investigate the use of polymeric nanocarriers for improving
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analyse large datasets such as the Clinical Practice Research Datalink (CPRD) and Hospital Episode Statistics to identify activity related to the treatment of community acquired pneumonia. This will require
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Several types of polymeric materials undergo rapid degradation under both storage and use, unless antioxidants and stabilisers are added to suppress undesirable reactions. This project is co-funded
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in health and wellbeing. This practice-based research project will align with the University’s civic mission and its research priority on Arts and Health and will be embedded in the development of a
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of work as a case study. The candidate will develop a practice-based methodology to analyse, critique and respond to the living history of the company, resulting in the creation of taxonomical scores
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2025 start, hosted at the University of Nottingham within the Department of Chemical and Environmental Engineering and School of Pharmacy. The project will focus on the synthesis of polymers that resist
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intervention, employing targeted exercises, gait training, and assistive technologies to restore normal walking patterns and enhance stability. AposHealth is an innovative therapeutic approach for patients with
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tumour microenvironment at unprecedented resolution. Moreover, we will also explore the role of exercise in modifying the microenvironment of normal breast tissue in an exercise trial. This is a remarkable
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2025 start, hosted at the University of Nottingham within the Department of Chemical and Environmental Engineering and School of Pharmacy. The project will focus on the synthesis of polymers that resist
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cost-effective way to dramatically increase the performance of launch vehicles. Electric orbit raising kick stages have not seen widespread use due to the low thrust of electric propulsion (EP), leading