Course details
The M.Sc. in Medical Imaging is offered by the Department of Clinical Medicine and is designed for qualified radiographers. Students on the M.Sc. pursue a particular strand – Computed Tomography, Magnetic Resonance Imaging, Nuclear Medicine or Radiation Safety and Interventional Radiography. In addition, a number of core common modules will be taken.
The M.Sc. in Medical Imaging is delivered over with lectures every Friday. Students are also required to spend a minimum of per week undertaking a clinical placement in a Computed Tomography, Magnetic Resonance Imaging, Nuclear Medicine or Radiography Department, for the duration of the course. This placement is a central part of the course and all applicants must have access to a placement. The taught component of the course runs from late September to May. At this stage, students who have successfully completed the taught component may opt to exit the programme with a Postgraduate Diploma in Medical Imaging. From May to September, students eligible to proceed to M.Sc. level will undertake an independent research project presented in the form of a dissertation. Successful completion of the research component of the programme leads to the award of M.Sc. in Medical Imaging.
Course Aims
The main aim of the course is to train and qualify Radiographers in the practice of either Nuclear Medicine, Radiation Safety and Interventional Radiography, Magnetic Resonance Imaging or Computed Tomography. The practical clinical experience required in each strand of the M.Sc. will be gained in the student’s own department. The Nuclear Medicine strand is designed to give a solid academic base in the understanding of the safe use and management of isotopes, and a high level of practical experience in Nuclear Medicine imaging techniques. The Radiation Safety and Interventional Radiography strand aims to provide a solid academic background in the legislative framework governing radiation protection and a high level of practical experience in clinical Interventional Radiography. The Magnetic Resonance Imaging strand is designed to give a solid academic basis in the understanding of MR imaging, and a high level of practical experience in MRI techniques and in the safe use of MR imaging and associated equipment. The Computed Tomography strand is designed to give a solid academic basis in the understanding of Computed Tomography, and a high level of practical experience in Computed Tomography techniques and in the safe use of Computed Tomography imaging and associated equipment. The research methods and dissertation element of the course is designed to develop the student’s research skills.
Course Structure
The M.Sc. in Medical Imaging will incorporate both taught and practical components, with the taught component forming a substantial part. It is a course requirement that the student must spend a minimum of 15 hours per week on clinical placement in either a Nuclear Medicine Department, an Interventional Radiology Department, a Magnetic Resonance Imaging Department or a Computed Tomography Department, as appropriate for the strand on which the student has enrolled.
The list of common core taught modules currently available to students on the Nuclear Medicine, Radiation Safety and Interventional Radiography, Magnetic Resonance Imaging and Computed Tomography strands are:
- Medico-Legal Aspects and Ethics, Health Services Management, and Risk Management and Clinical Audit (10 ECTS)
- Clinical Practice (10 ECTS)
Mandatory additional modules in the Nuclear Medicine strand are:
- Physics and Instrumentation, and Computer Technology, Radiation Protection and Quality Control (15 ECTS)
- Clinical Applications of Nuclear Medicine and Hybrid Imaging (15 ECTS)
- Anatomy, Physiology and Pathology applied to Nuclear Medicine (5 ECTS)
- Radiopharmacy (5 ECTS)
Mandatory additional modules in the Magnetic Resonance Imaging strand are:
- Physics, Instrumentation and Computer Technology of MRI (10 ECTS)
- MR Imaging Techniques and Protocols, Anatomy, Physiology and Pathology I (10 ECTS)
- MR Imaging Techniques and Protocols, Anatomy, Physiology and Pathology II (15 ECTS)
- Safety and QA in MR (5 ECTS)
Mandatory additional modules in the Radiation Safety and Interventional Radiography strand are:
- Practical Aspects of Radiation Protection and Radiation Protection Legislation (10 ECTS)
- Physics, Instrumentation and Computer Technology (10 ECTS)
- Quality Management and Quality Control (5 ECTS)
- Interventional Imaging Techniques and Protocols, Anatomy, Physiology and Pathology (15 ECTS)
Mandatory additional modules in the Computed Tomography strand are:
- Physics, Instrumentation and Computer Technology of CT (10 ECTS)
- CT Imaging Techniques and Protocols, Anatomy and Pathology I (10 ECTS)
- CT Imaging Techniques and Protocols, Anatomy and Pathology II (15 ECTS)
- Radiation Protection and QA in CT (5 ECTS)
All students proceeding to the dissertation component will also take the following module:
- Research Methods and Dissertation (30 ECTS)
Course Location
About Trinity College Dublin
Trinity is recognised as one of the world's leading research-intensive universities and its research continues to address issues of global societal and economic importance. The University's research strategy is based on developing multidisciplinary areas in which the College has the critical mass of world-class researchers needed to deliver research of global consequence.
Among the priority research themes being addressed by Trinity researchers are ageing, nanoscience and materials, telecommunications, neuroscience, human identity, cancer, international integration, arts practice, and the inclusive society. These are topics that not only address issues of immediate and long-term concern to society but offer opportunities for future economic development. The University's commitment to a research-led education means that our students are exposed to leaders in their discipline, to the latest knowledge and ideas, and to an education that emphasises analytical skills and creative thinking, and gives students an opportunity to develop a broad range of skills by engaging in personal research.
This excellence in research underpins Trinity's Innovation and Entrepreneurship strategy. Research is central to the generation of the new disruptive ideas that will underpin future sustainable businesses. The knowledge created by Trinity is critical for the economic development of Ireland as it is for the education on offer to our students.
Trinity's research themes are supported by a set of research institutes that provide the infrastructure needed to support multi-disciplinary research as well as engagement with enterprise and social partners working in partnership with Trinity's twenty-four schools.
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