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Postgraduate Biomedical Physics 2016-2017

BP5003: BIOMEDICAL AND PROFESSIONAL TOPICS IN HEALTHCARE SCIENCE

15 credits

Level 5

First Term

This course introduces students to fundamental aspects of anatomy, physiology and biochemistry, in order to develop a basic understanding of cells, tissues and organs and how they may be altered by disease. The course also includes a range of topics around Professional Issues, Management of Medical Physics, Statistics and Safety.

BP5005: IMAGING IN MEDICINE

15 credits

Level 5

First Term

This course provides instruction in the basic physics and engineering principles of imaging techniques used in medicine. It also provides an overview of the range of applications of imaging techniques in the modern medical environment. The course covers Nuclear Medicine, Positron Emission Tomography, Radiodiagnosis (X-ray imaging), Magnetic Resonance Imaging and Ultrasound Imaging.

BP5008: RADIATION IN MEDICINE

15 credits

Level 5

First Term

This course introduces students to fundamental aspects of radiation physics, including the mechanisms of interaction of radiation with matter. The basic concepts and techniques of radiation therapy are covered, as are the fundamentals of radiation protection. Applications of non-ionising radiation in medicine are also covered.

BP5009: COMPUTING AND ELECTRONICS IN MEDICINE

15 credits

Level 5

First Term

This course provides an introduction to underlying principles and practical examples of computing in medical physics. Hands-on learning is provided to build confidence with computer software. The course also covers basic concepts of analogue and digital electronics and its application in a clinical setting.

BP5501: RADIOTHERAPY AND RADIATION PHYSICS

15 credits

Level 5

Second Term

This course covers all aspects of radiotherapy physics including radiobiology of radiotherapy treatment, charged particle therapy, dosimetry, treatment planning, brachytherapy, radiotherapy equipment, quality assurance, safety and radiation protection in radiotherapy. In addition to attending lectures and tutorials, students spend time in the state-of-the-art Radiotherapy department of Aberdeen Royal Infirmary, to attend demonstrations in CT treatment planning, gynaecological brachytherapy, megavoltage beam data acquisition and linear accelerator QA. Hands-on practical sessions are also held there. The course involves a high degree of student participation, including class discussion sessions following prescribed reading, tutorials and practicals.

BP5502: NUCLEAR MEDICINE & POSITRON EMISSION TOMOGRAPHY

15 credits

Level 5

Second Term

You will gain hands-on experience of a modern gamma camera during the practical. Departmental visits allow access to state-of-the-art imaging systems and radioisotope production facilities. Lectures are delivered by experienced clinical staff and leading academics. They reflect current best clinical practice and provide content around research methods and analysis techniques. This ensures the course remains current and reflects the full range of applications of the technique.  It provides an overview of career possibilities in medical imaging applications of radiation and provides a knowledge base to make informed choices around future careers or study.

BP5503: MAGNETIC RESONANCE IMAGING

15 credits

Level 5

Second Term

The wide range of related subjects covered, including basic Magnetic Resonance Imaging theory, practical applications and hands on experience, gives you a broad understanding of Magnetic Resonance Imaging.

You will be in the advantageous position of learning in an environment that was pivotal in the early development of Magnetic Resonance Imaging and continues to contribute to its development.

The lecturers will be academics who are leading researchers, to ensure the course content is rooted in today’s best practice and science.

BP5504: MEDICAL ELECTRONICS AND INSTRUMENTATION

15 credits

Level 5

Second Term

This course covers electronic instrumentation used for physiological measurements in the hospital environment.  Students will gain in-depth understanding of technological and physiological processes in medical devices, and of the need for medical equipment management, including quality assurance, maintenance and safety testing. Students will also gain experience of designing, constructing and testing electronic circuits for physiological measurement.

BP5505: MEDICAL IMAGE PROCESSING AND ANALYSIS

15 credits

Level 5

Second Term

•Includes both background theory and hands-on practical work, providing an excellent basis for a career working with images/imaging systems/image-related applications and techniques
•Covers both standard image processing methods (as a basis for general expertise) together with some of the major high level applications used in the Medical Imaging community (which will also provide bullet points on your experience portfolio)
•Provides coaching in practical skills using Matlab, ImageJ and similar tools, to develop your expertise in the rapid development of imaging applications
•Includes short project work, to develop your ability to tackle more significant (and therefore more realistic) standalone imaging-based problems

BP5506: DIAGNOSTIC RADIOLOGY AND RADIATION PROTECTION

15 credits

Level 5

Second Term

The Diagnostic Radiology and Radiation Protection Deeper Study will give you to opportunity to learn about a wide range of diagnostic modalities used in clinical practice, such as computed and digital radiography, fluoroscopy, CT and mammography.  You will also learn about Radiation Protection legislation in the UK and how this is applied.  The course will include hands-on practical work in ARI where you will have the opportunity to use x-ray equipment and a variety of detectors.  This course provides a solid knowledge base for going on to work in a medical physics department.

BP5901: MSC PROJECT FOR PROGRAMMES IN MEDICAL PHYSICS AND MEDICAL IMAGING

60 credits

Level 5

Second Term

This course comprises a research project, lasting approximately 13 weeks (including write-up time). The project is intended to encourage development of interest in a particular aspect of the overall field of study. The student will also develop an understanding of research methods and skills including information retrieval, planning a work schedule and organisation of a working routine. Other transferrable skills that will be developed include initiative and independent thought by the student as well as the communication skills required for production of a thesis and for delivery of an oral presentation on the project.

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