Academic Radiology MD

Study mode: Full Time |

Research develops and validates neuroimaging markers of CNS diseases (stroke and carotid artery disease; multiple sclerosis; Parkinson?s disease; Alzheimer disease; mental diseases); the course is particularly interested in developing markers for early preclinical diagnosis and to quantify treatment effects; it focuses on advanced magnetic resonance imaging and spectroscopy techniques and perform multidisciplinary clinical, translational and methodological research projects (quantitative MRI and morphometry; diffusion tensor imaging; proton spectroscopy; functional and pharmacodynamic assessment; combined EEG-fMRI brain connectivity studies); there is an active interdisciplinary research training programme interfacing clinical and nonclinical fellows and postgraduate students; main collaborations are with clinicians and academics in clinical neurosciences; vascular surgery; stroke medicine; anaesthesia; and researchers from the Sir Peter Mansfield Centre, the School of Biomedical Sciences, School of Computer Science and Department of Mathematics.

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Academic Radiology MPhil

Study mode: Full Time |

Research develops and validates neuroimaging markers of CNS diseases (stroke and carotid artery disease; multiple sclerosis; Parkinson?s disease; Alzheimer disease; mental diseases); the course is particularly interested in developing markers for early preclinical diagnosis and to quantify treatment effects; it focuses on advanced magnetic resonance imaging and spectroscopy techniques and perform multidisciplinary clinical, translational and methodological research projects (quantitative MRI and morphometry; diffusion tensor imaging; proton spectroscopy; functional and pharmacodynamic assessment; combined EEG-fMRI brain connectivity studies); there is an active interdisciplinary research training programme interfacing clinical and nonclinical fellows and postgraduate students; main collaborations are with clinicians and academics in clinical neurosciences; vascular surgery; stroke medicine; anaesthesia; and researchers from the Sir Peter Mansfield Centre, the School of Biomedical Sciences, School of Computer Science and Department of Mathematics.

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Academic Radiology PhD

Study mode: Full Time |

Research develops and validates neuroimaging markers of CNS diseases (stroke and carotid artery disease; multiple sclerosis; Parkinson?s disease; Alzheimer disease; mental diseases); the course is particularly interested in developing markers for early preclinical diagnosis and to quantify treatment effects; it focuses on advanced magnetic resonance imaging and spectroscopy techniques and perform multidisciplinary clinical, translational and methodological research projects (quantitative MRI and morphometry; diffusion tensor imaging; proton spectroscopy; functional and pharmacodynamic assessment; combined EEG-fMRI brain connectivity studies); there is an active interdisciplinary research training programme interfacing clinical and nonclinical fellows and postgraduate students; main collaborations are with clinicians and academics in clinical neurosciences; vascular surgery; stroke medicine; anaesthesia; and researchers from the Sir Peter Mansfield Centre, the School of Biomedical Sciences, School of Computer Science and Department of Mathematics.

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Advanced Clinical Practice PgCert

Study mode: Full Time |

Increasingly nurses and other registered practitioners are taking on roles that have traditionally been the domain of doctors; the course aims to provide these practitioners with the appropriate knowledge and skills to manage complex cases within their own speciality; it provides an educational structure that links to relevant competency frameworks and supports the NHS Career Framework.

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Advanced Clinical Practice PgDip

Study mode: Full Time |

Increasingly nurses and other registered practitioners are taking on roles that have traditionally been the domain of doctors; the course aims to provide these practitioners with the appropriate knowledge and skills to manage complex cases within their own speciality; it provides an educational structure that links to relevant competency frameworks and supports the NHS Career Framework.

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Advanced Computing Science MSc

Study mode: Full Time |

The course is designed to prepare students for highly skilled programming careers in industry and/or research; it aims to bring students to the forefront of research in these areas, equipping them to take leading roles in software development where the demands of reliability and efficiency are particularly important.

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Advanced Genomic and Proteomic Sciences MRes

Study mode: Full Time |

The programme aims to enhance awareness and understanding of modern molecular biology concepts and techniques including genomics, transcriptomics, proteomics, bioinformatics, metabolomics and systems biology; it also aims to translate theoretical knowledge gained from the programme into practical experience via intensive laboratory research projects that are particularly applicable to industry.

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Advanced Manufacturing Technology MPhil

Study mode: Full Time |

The course has a wide ranging interests in manufacturing technology covering both hardware and software issues; there is major research activity in metal removal processes, deposition technologies and assembly; a significant amount of the research is linked to 2 major centres, the rolls-royce manufacturing technology UTC and the UK government funded Innovative Manufacturing Research Centre; research is conducted with, and for, a number of industrial sectors including automotive, aerospace and medical devices; topics of particular interest include: Micro scale manufacture; robotic assembly of large structures; fixturing and technologies for remanufacture.

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Advanced Manufacturing Technology PhD

Study mode: Full Time |

The course has a wide ranging interests in manufacturing technology covering both hardware and software issues; there is major research activity in metal removal processes, deposition technologies and assembly; a significant amount of the research is linked to 2 major centres, the rolls-royce manufacturing technology UTC and the UK government funded Innovative Manufacturing Research Centre; research is conducted with, and for, a number of industrial sectors including automotive, aerospace and medical devices; topics of particular interest include: Micro scale manufacture; robotic assembly of large structures; fixturing and technologies for remanufacture.

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Advanced Materials MPhil

Study mode: Full Time |

The group is engaged in cutting-edge research at the forefront of materials processing; they control the synthesis and processing conditions of advanced materials to design in functionality, shape and smartness at the macroscopic, microscopic and nano-scales to ensure that the properties and performance of the material are perfectly adapted to the end purpose; the courses strategic research themes include: Nano materials (carbon nanotubes); hydrogen storage materials (to power fuel cells); surface engineered coatings which are tough, anti corrosion (thermal barrier coatings for turbine blades); novel photonic glasses for communications; light alloys and foams (metal matrix composites for the transport); laser processing and materials characterisation.

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Advanced Materials MSc

Study mode: Full Time |

The course is designed for science and engineering graduates who wish to develop expertise in modern high performance materials; the course develops an understanding of the properties for a wide range of engineering materials from polymer composites to light-metal alloys, the effect of processing and surface engineering on the properties of a material, and analytical techniques used for materials characterisation; it provides the knowledge and skills required for a career in materials research and product development of high performance materials.

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Advanced Materials Manufacture MSc

Study mode: Full Time |

The course is for science and engineering graduates interested in product design and, in particular, understanding the effect manufacturing processes have upon material performance; the optimisation of a manufacturing process requires a comprehensive understanding of the interrelationship between material properties and the manufacturing process; the course aims to develop a broad and deep understanding of this complex interrelationship so that students have the expertise to tailor product manufacture in order to optimise product design, and manufacturing productivity/profitability; it provides training and skills for a number of career opportunities in the materials manufacturing industry and related sectors.

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Advanced Materials PhD

Study mode: Full Time |

The group is engaged in cutting-edge research at the forefront of materials processing; they control the synthesis and processing conditions of advanced materials to design in functionality, shape and smartness at the macroscopic, microscopic and nano-scales to ensure that the properties and performance of the material are perfectly adapted to the end purpose; the courses strategic research themes include: Nano materials (carbon nanotubes); hydrogen storage materials (to power fuel cells); surface engineered coatings which are tough, anti corrosion (thermal barrier coatings for turbine blades); novel photonic glasses for communications; light alloys and foams (metal matrix composites for the transport); laser processing and materials characterisation.

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Advanced Nursing Diploma

Study mode: Full Time |

The course develops nurses who can practice at advanced level and offers a programme of study derived from full professional practice; the course is designed to attract a rich mix of home and international students from a variety of nursing backgrounds; the programme has been designed in partnership with health service colleagues to ensure the course is grounded in the realities of contemporary nursing practice; undertaking the course benefits nurses from any area of health care who wish to improve and advance practice in their field.

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Advanced Nursing MSc

Study mode: Full Time |

The course develops nurses who can practice at advanced level and offers a programme of study derived from full professional practice; the course is designed to attract a rich mix of home and international students from a variety of nursing backgrounds; the programme has been designed in partnership with health service colleagues to ensure the course is grounded in the realities of contemporary nursing practice; undertaking the course benefits nurses from any area of health care who wish to improve and advance practice in their field.

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Advanced Nursing PgDip

Study mode: Full Time |

The course is designed to meet the needs of individual students and their workplaces; the programme is in partnership with health service colleagues to ensure that it is grounded in the realities of contemporary nursing practice; the course develops nurses who can practice at advanced level and offers a programme of study derived from full professional practice; students are expected to have already attained a certain level of specialism in their chosen field; they take responsibility for advancing their own practice, and for documenting their progress in a practice portfolio.

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Agricultural and Environmental Sciences MPhil

Study mode: Full Time |

Research areas include: Animal production (nutrition reproduction interactions in dairy cows and sheep; ovarian function including cryopreservation); crop science (sustainability, efficient production and enhancing yield); rural resources management and economics (climate change adaptation and mitigation of greenhouse gases, sustainability and profitability; integer and risk programming models; cultivation and cropping strategies); environmental modelling (fate of pollutants in the environment; modelling abiotic stresses and crop growth); ecosystem carbon and nutrient cycling (impacts of environmental change on ecosystem processes in natural and semi-natural ecosystems, soil organic carbon chemistry and CO2 emissions, trace gas fluxes in Arctic ecosystems, carbon storage in tropical wetlands); soil science and geochemistry (isotopic dilution techniques to characterise the reactivity and solubility of soil metals and metalloids); opportunities in atmospheric environment (use of dispersion models to predict the concentrations of atmospheric pollutants; bacterial control of methane emissions from landfill).

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Agricultural and Environmental Sciences MRes

Study mode: Full Time |

Research areas include: Animal production (nutrition reproduction interactions in dairy cows and sheep; ovarian function including cryopreservation); crop science (sustainability, efficient production and enhancing yield); rural resources management and economics (climate change adaptation and mitigation of greenhouse gases, sustainability and profitability; integer and risk programming models; cultivation and cropping strategies); environmental modelling (fate of pollutants in the environment; modelling abiotic stresses and crop growth); ecosystem carbon and nutrient cycling (impacts of environmental change on ecosystem processes in natural and semi-natural ecosystems, soil organic carbon chemistry and CO2 emissions, trace gas fluxes in Arctic ecosystems, carbon storage in tropical wetlands); soil science and geochemistry (isotopic dilution techniques to characterise the reactivity and solubility of soil metals and metalloids); opportunities in atmospheric environment (use of dispersion models to predict the concentrations of atmospheric pollutants; bacterial control of methane emissions from landfill).

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Agricultural and Environmental Sciences PhD

Study mode: Full Time |

Research areas include: Animal production (nutrition reproduction interactions in dairy cows and sheep; ovarian function including cryopreservation); crop science (sustainability, efficient production and enhancing yield); rural resources management and economics (climate change adaptation and mitigation of greenhouse gases, sustainability and profitability; integer and risk programming models; cultivation and cropping strategies); environmental modelling (fate of pollutants in the environment; modelling abiotic stresses and crop growth); ecosystem carbon and nutrient cycling (impacts of environmental change on ecosystem processes in natural and semi-natural ecosystems, soil organic carbon chemistry and CO2 emissions, trace gas fluxes in Arctic ecosystems, carbon storage in tropical wetlands); soil science and geochemistry (isotopic dilution techniques to characterise the reactivity and solubility of soil metals and metalloids); opportunities in atmospheric environment (use of dispersion models to predict the concentrations of atmospheric pollutants; bacterial control of methane emissions from landfill).

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Agricultural and Environmental Sciences PhD with Integrated Study

Study mode: Full Time |

Research areas include: Animal production (nutrition reproduction interactions in dairy cows and sheep; ovarian function including cryopreservation); crop science (sustainability, efficient production and enhancing yield); rural resources management and economics (climate change adaptation and mitigation of greenhouse gases, sustainability and profitability; integer and risk programming models; cultivation and cropping strategies); environmental modelling (fate of pollutants in the environment; modelling abiotic stresses and crop growth); ecosystem carbon and nutrient cycling (impacts of environmental change on ecosystem processes in natural and semi-natural ecosystems, soil organic carbon chemistry and CO2 emissions, trace gas fluxes in Arctic ecosystems, carbon storage in tropical wetlands); soil science and geochemistry (isotopic dilution techniques to characterise the reactivity and solubility of soil metals and metalloids); opportunities in atmospheric environment (use of dispersion models to predict the concentrations of atmospheric pollutants; bacterial control of methane emissions from landfill).

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