Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Clinical Science (Medical Physics) at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
Medical physicists fill a special niche in the health industry. The role includes opportunities for laboratory work, basic and applied research, management and teaching, which offers a uniquely diverse career path. In addition there is satisfaction in contributing directly to patient treatment and care.
This three-year programme in Clinical Science (Medical Physics), hosted by the College of Medicine, builds on an existing collaboration with the NHS in providing the primary route for attaining the professional title of Clinical Scientist in the field of Medical Physics.
The Clinical Science (Medical Physics) programme is accredited by the NHS and provides the academic component of the Scientist Training Programme for medical physics trainees, within the Modernising Scientific Careers framework defined by the UK Department of Health, and offers students the chance to specialise in either radiotherapy physics or radiation safety. This Master’s degree in Clinical Science (Medical Physics) is only suitable for trainees sponsored by an NHS or an equivalent health care provider.
The MSc in Clinical Science (Medical Physics) is modular in structure, supporting integration of the trainee within the workplace. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits of taught-course elements and a project that is worth 60 credits and culminates in a written dissertation.
The Clinical Science (Medical Physics) MSc is accredited by the Department of Health.
Modules on the Clinical Science (Medical Physics) MSc typically include:
• Introduction to Clinical Science
• Medical Imaging
• Nuclear Medicine and Diagnostic Imaging
• Radiation Protection
• Radiotherapy Physics
• Research Methods
• Advanced Radiotherapy
• Specialist Radiotherapy
• Advanced Radiation Safety
• Specialist Radiation Safety
The MSc in Clinical Science (Medical Physics) provides the main route for the professional qualification of Clinical Scientist in Medical Physics.
Additionally, the need for specific expertise in the use of medical radiation is enshrined in law. The Ionising Radiation (Medical Exposure) Regulations (IRMER) 2000 defines the role of Medical Physics Expert, required within any clinical context where radiation is being administered, either a diagnostic or therapeutic.
The close working relationship between Swansea University and the NHS in Wales, through the All-Wales Training Consortium for Medical Physics and Clinical Engineering, provides the ideal circumstances for collaborative teaching and research. The Consortium is recognised by the Welsh Government. A significant proportion of the teaching is delivered by NHS Clinical Scientists and other medical staff.
The close proximity of Swansea University to Singleton Hospital, belonging to one of the largest health providers in Wales, Abertawe Bro Morgannwg University (ABMU) health board, as well as the Velindre NHS Trust, a strongly academic cancer treatment centre, provide access to modern equipment, and the highest quality teaching and research.
The Institute of Life Science (ILS) Clinical Imaging Suite has recently been completed and overlaps the University and Singleton Hospital campuses. It features adjoined 3T MRI and high-resolution CT imaging. ILS has clinical research of social importance as a focus, through links with NHS and industrial partners.
Swansea University offers a vibrant environment in medically-oriented research. The Colleges of Medicine has strong research links with the NHS, spearheaded by several recent multimillion pound developments, including the Institute of Life Science (ILS) and the Centre for NanoHealth (CNH).
The University provides high-quality support for MSc student research projects. Students in turn make valuable progress in their project area, which has led to publications in the international literature or has instigated further research, including the continuation of research at the doctoral level.
The College of Medicine provides an important focus in clinical research and we have the experience of interacting with medical academics and industry in placing students in a wide variety of research projects.
Medical academics have instigated projects examining and developing bioeffect planning tools for intensity modulated radiotherapy and proton therapy and devices for improving safety in radiotherapy. Industry partners have utilised students in the evaluation of the safety of ventricular-assist devices, intense-pulsed-light epilators and in the development of novel MRI spectroscopic methods. The student join teams that are solving research problems at the cutting-edge of medical science.
This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.
A. Advancement in Knowledge and Skill
Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:
B. Professional Development
C. Evidence-based Practice
D. Personal Development
Our laboratories are well-equipped to support students in their studies, research and dissertations. Our specialised equipment includes a flow cytometer, cell culture facilities; basic and advanced instruments for molecular biology research (including thermal cyclers, DNA sequencers, real-time PCR systems and an automatic mutation detection system), microplate systems for ELISA work, HPLC, FPLC, tissue processors, automatic cell analysers, a preparative ultracentrifuge and an automated biochemical analyser.
This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.
To be eligible for the MSc in Medical Laboratory Science (MScMLS), students are required to complete 30 credits:
Apart from the award of MScMLS, students can choose to graduate with the following specialism:
To be eligible for the specialism, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to the specialism, 4 Specialty Subjects (12 credits) and 1 Elective Subject (3 credits).
Compulsory Subjects
Core Subjects
Elective Subjects
* Specialty Subject
Our MSc in Clinical Biochemistry will give you a thorough grounding in a discipline that deals with the clinical analysis of body fluids and other biological material to aid the diagnosis, therapy and monitoring of diseases.
Clinical biochemists are typically clinical scientists who work in hospital laboratories providing advice and interpretation of analytical results to other healthcare professionals such as clinicians, general practitioners and nurses.
They are also involved in the development of new analytical methods and improvement of clinical services, including quality assurance and audit.
Through this MSc, you will gain a core knowledge and understanding of the normal physiology and pathophysiology of the major organs and endocrine systems, as well as more specialist areas such as paediatric biochemistry and drug monitoring.
You will also develop a core knowledge and understanding of clinical disorders and how biochemical parameters and laboratory methods are used for the investigation, diagnosis and management of patients.
We aim to give you:
Innovative teaching
We utilise mobile technology in our teaching by providing you with an iPad for you to use throughout your studies. You will benefit from interactive teaching environments that simulate the clinical laboratory where you will apply your theoretical knowledge to solve real-life clinical case scenarios.
Laboratory research experience
You have the option to spend 10 weeks in the laboratory conducting research to present in your dissertation.
Professional teaching and learning
Most of the course is taught by NHS professionals working in the field of clinical biochemistry. You will also learn alongside students from a variety of health science backgrounds within pathology, helping you to integrate within a health service laboratory team in the future.
We use a range of teaching and learning methodologies throughout the course, including lectures, tutorials, workshops and interactive clinical case tutorials using mobile technology and iPads. Some of these will be delivered online.
Find out more by visiting the postgraduate teaching and learning page.
We will assess your progress using a range of formative and summative assessments, such as MCQs, ECQs, written and verbal presentations.
The assessments will be constructed to assess your knowledge and understanding while at the same time refining and expanding your intellectual and transferable skills.
The units that form part of the MSc are listed in the Course unit list further down the page.
There are also two PGCert pathways available, each comprising the following units:
PGCert Clinical Biochemistry (Foundation)
PGCert Clinical Biochemistry (Advanced)
You will be able to access a range of facilities throughout the University.
You will undertake your theoretical learning on the main University campus.
Your research project may be carried out in a laboratory within the University or at teaching hospitals in Greater Manchester.
Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service .
Individual units from this MSc can be taken as standalone courses for continuing professional development .
Our course attracts a wide range of students from a bioscience and medical background from home and abroad.
Many students study this course as a springboard for further academic research or as a stepping stone before applying for the NHS Scientist Training Programme (STP).
The course may also help individuals with their own career progression if they are already working within a clinical laboratory. The course also attracts intercalating medical students and professionals who may wish to specialise in clinical biochemistry/chemical pathology.
This course is approved by the Association for Clinical Biochemistry.
The Bond University Graduate Certificate in Sports Science is designed to develop specialist knowledge and skills in required sport science sub-disciplines including communication, leadership, and negotiation, clinical sports science, performance analysis and health research design and planning.
The program is designed to build upon undergraduate studies in sports science to develop specialist knowledge and skills relating to strength and conditioning and high performance science of elite athletes.
Upon successful completion of the Graduate Certificate in Sports Science, students are eligible to enrol in the Graduate Diploma in Sports Science and subsequent Master of Sports Science. Subjects completed in the Graduate Certificate are credited to the Diploma.
The Bond University Graduate Certificate in Sports Science is designed to develop specialist knowledge and skills in required sport science sub-disciplines including communication, leadership, and negotiation, clinical sports science, performance analysis and health research design and planning.
The program is designed to build upon undergraduate studies in sports science to develop specialist knowledge and skills relating to strength and conditioning and high performance science of elite athletes.
The program is suitable for graduates in exercise and sports science aspiring for a career in high performance sport, or for established professionals seeking to move into specialist sports science service roles.
The program is suitable for graduates with ambitions to enter postgraduate sports science as a pathway into postgraduate specialisation in strength & conditioning and high performance science or for internationally educated strength and conditioning coaches or high performance managers requiring professional updates before applying for Australian qualification recognition.
Placing a strong emphasis on comprehensive practical experience, the program provides exposure to authentic high performance sports science. The Graduate Certificate is delivered at the world-class Bond Institute of Health and Sport where you will gain exceptional, high-quality practical experience in our high performance gym and sports science research laboratories. You will have access to specialised technology used in research to deliver a wide range of athlete testing and performance analysis. These facilities provide sports science testing and training services to a variety of elite and sub-elite athletes, providing an exceptional learning experience.
You must complete all of the following subjects:
*Subject names and structure may change
The Graduate Certificate in Sports Science uses a teaching methodology that involves a combination of lectures, tutorials, seminars, examinations, projects, presentations, assignments, and laboratory work. Examination formats may include objective structure practical examinations, theory papers, assignments and oral presentations.
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. The Clinical Genetics MSc has a specific focus on delivery of the clinical service to patients including risk analysis and application of modern genetic and genomic technologies in medical genetics research and in diagnostics and population screening.
Genetic Disease and Clinical Practice
This course is designed in collaboration with the West of Scotland Regional Genetics Service to give students a working knowledge of the principles and practice of Clinical Genetics and Genomics which will allow them to evaluate, choose and interpret appropriate genetic investigations for individuals and families with genetic disease. The link from genotype to phenotype, will be explored, with consideration of how this knowledge might contribute to new therapeutic approaches.
Distress or Disorder: Reactions to a medical diagnosis
This course outlines the process of psychosocial adjustment to a diagnosis or test result allowing participants to establish if and when a distress reaction develops into an adjustment disorder. The implications of diagnosis are explored and evidence considered allowing informed decisions about appropriate referrals to other agencies.
Patient Empowerment: Supporting decisions relating to new diagnoses
This course reflects on evidence and experience to explore the psychological and social impact of a diagnosis, or illness, and provides strategies to support resilience and coping in patients. Factors related to lived experience, personal beliefs and values, culture, adjustment processes, decision-making, misconceptions, secrecy and guilt are considered to equip participants in the promotion of patient-centred care.
Effective listening and communication skills
With a focus on experiential learning and student led study, this course outlines the role of counselling skills to facilitate adjustment and to allow an individual to come to terms with change in a safe way to minimise impact. The focus will be on the theory supporting counselling, developing key listening and communication skills and on establishing reflective practice.
Case Investigations in Medical Genetics and Genomics
Students will work in groups to investigate complex clinical case scenarios: decide appropriate testing, analyse results from genetic tests, reach diagnoses where appropriate and, with reference to the literature, generate a concise and critical group report.
Clinical Genomics
This course will provide an overview of the clinical applications of genomic approaches to human disorders, particularly in relation to clinical genetics, discussion the methods and capabilities of the new technologies. Tuition and hands-on experience in data analysis will be provided, including the interpretation of next generation sequencing reports.
Disease Screening in Populations
This course will cover the rationale for, and requirements of, population screening programmes to detect individuals at high risk of particular conditions, who can then be offered diagnostic investigations. Students will work in groups to investigate and report on, a screening programme of their choice from any country.
Dissertation
The course will provide students with the opportunity to carry out an independent investigative project in the field of Medical Genetics and Genomics.
Teaching and Learning Methods
A variety of methods are used, including problem-based learning, case-based learning, lectures and tutorials. These are supplemented by a wide range of course-specific electronic resources for additional learning and self-assessment. As a result, you will develop a wide range of skills relevant to careers in clinical genetics. These skills include team-working and data interpretation. You will use the primary scientific literature as an information resource, although textbooks such as our own Essential Medical Genetics will also be useful. You will have the options of: attending genetic counselling clinics and gaining hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenicity of DNA sequence variants.
This programme would be beneficial for anyone with a previous MBChB or similar degree, and would facilitate a career as a Clinical Geneticist.
There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Specifically, cardiovascular diseases, pulmonary diseases, diabetes, stroke, cancer and musculoskeletal limitations remain important health concerns that have all been shown to benefit from regular, safe exercise.
Therefore, this innovative course is designed to offer you an interdisciplinary approach to exercise in clinical settings as well as vocational qualifications and experiences that will enable you to apply theory to practice. The integration of theory and practice within this course will enable you to critically analyse, adapt and modify existing approaches to develop safe and effective physical activity programmes to optimise the health-related fitness of clients.
On this course you can:
Obtain lab-based and field skills, as well as the ability to communicate with clients in a professional and approachable style.
Gain Register of Exercise Professionals endorsed vocational qualifications in clinical exercise, including exercise referral, cardiac disease, chronic respiratory diseases, stroke, cancer and falls prevention which are essential requirements should you wish to pursue a career as a clinical specialist exercise instructor.
Work with clinicians providing exercise in the management of a range of long term conditions
The programme provides an opportunity to work toward ACSM Clinical Exercise Physiologist certification and units aligned to National Occupation Standards for Health and Fitness.
Here are some routes our graduates have pursued:
Health and wellbeing physiologist
Bariatric exercise physiologist
NHS trainee clinical scientist
Health advisor
Clinical Exercise Physiologist
Exercise Referral Coordinator
Exercise Therapist
PhD Research
The modular programme is offered in two formats: Full-time (12 months) and Part-time (24 months). The course includes 120 credits of taught units and a 60 credit Project. It is also possible to study parts of this course for CPD purposes, such as a single unit (30 credits) or top up a related Postgraduate Diploma to a full MSc.
The units contain vocational elements relevant for providing personalised exercise training for a range of medical conditions, including classroom, exercise laboratory and placement learning. The MSc Clinical Exercise Project unit prepares you for your independent project, where you will plan and implement a service evaluation, research project or enterprise & innovation project in the area of clinical exercise.
Teaching takes place on Thursdays, Fridays and some Saturdays, so attendance on selected weekends is necessary for the vocational training included in some of the units. Placements take place in areas such as Southampton, Winchester, Portsmouth and Chichester and are scheduled according to placement provider requirements during the week. Each unit is generally taught over a three week block, however cardiac rehabilitation requires a longer study period.
The core unit you will study is:
MSc Clinical Exercise Project (60 credits)
Optional units to choose include 120 credits from:
Exercise for Cardiac Rehabilitation (30 credits)
Exercise for Chronic Respiratory Diseases (30 credits)
Exercise and Cancer Care (30 credits)
Exercise and Fitness after Stroke (30 credits)
Exercise for Falls Prevention (30 credits)
Paediatric Exercise Science and Medicine (30 credits)
The delivery format for the course is largely based around seminar, practical, workshop and placement learning to integrate theory into practical sessions. Teaching sessions will include vocational training, seminar and exercise laboratory work, led by leading practitioners in the area of clinical exercise. You will be provided with a personal tutor to assist with academic and pastoral issues.
The course has a problem-based learning approach and you will be assessed in a variety of ways with a focus on self-reflection and initiative and problem-based assignments. Here’s how we assess you:
Vocational training (MCQ and case study)
Practical assessment
Applied essays
Case studies
Project report
Poster presentation
We have strong links with National Health Service partners in the Wessex region and professional training providers in exercise, such as the American College of Sports Medicine and the Register of Exercise Professionals. Graduates of this course possess qualifications to provide exercise in cardiac rehabilitation, pulmonary rehabilitation, exercise after cancer, exercise after stroke or exercise for falls prevention provided by leading vocational clinical exercise training providers. Having such a skills-set is important for being employable as an exercise physiologist in diverse multi-disciplinary teams, whilst also presenting the opportunity to work as an exercise entrepreneur as your own exercise service manager.
Roles our graduates have taken on include
Exercise referral coordinator
NHS trainee clinical scientist
Health advisor
Cardiopulmonary exercise physiologist
Health and wellbeing physiologist
Bariatric exercise physiologist
NHS physical activities advisor
Private exercise physiologist
This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.
The award in Medical Imaging and Radiation Science (MIRS) is specially designed for professionals in medical imaging and radiotherapy and has the following aims.
A. Advancement in Knowledge and Skill
B. Professional Development
C. Evidence-based Practice
D. Personal Development
The Medical Imaging and Radiation Science award offers channels for specialisation and the broadening of knowledge for professionals in medical imaging and radiotherapy. It will appeal to students who are eager to become specialists or managers in their areas of practice. Clinical experience and practice in medical imaging and radiotherapy are integrated into the curriculum to encourage more reflective observation and active experimentation.
To be eligible for the MSc in Medical Imaging and Radiation Science (MScMIRS), students are required to complete 30 credits:
Apart from the award of MScMIRS, students can choose to graduate with one of the following specialisms:
To be eligible for the specialism concerned, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to that specialism, a specialism-related Specialty Subject (3 credits), a Clinical Practicum (3 credits) and 3 Elective Subjects (9 credits).
Compulsory Subjects
Core Subjects
* Specialty Subject
Elective Subjects
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Study Clinical Microbiology and Infectious Diseases with The University of Edinburgh
