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Masters Degrees (Advanced Radiotherapy)

We have 24 Masters Degrees (Advanced Radiotherapy)

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The aim of this course is to enable students to build on their current skills set, through teaching and their own research, in order to work at an advanced level within the radiotherapy department and/or the radiotherapy treatment planning area. Read more
The aim of this course is to enable students to build on their current skills set, through teaching and their own research, in order to work at an advanced level within the radiotherapy department and/or the radiotherapy treatment planning area. The course will develop students' knowledge and skills in the advanced radiation therapy management of cancer patients and to enable students to critically evaluate and participate in research in this area.

The M.Sc. uses a range of authentic assessments which give students the opportunity to produce assessed work which is highly relevant to the clinical environment and which develops independent life-long learning skills.

This M.Sc. course has two separate strands:

1. Advanced Radiotherapy Practice

2. Radiation Therapy Treatment Planning

Strand 1: Advanced Radiotherapy Practice

This course aims to develop students' knowledge and skills in the advanced radiotherapy management of cancer patients and to enable students to critically evaluate and participate in research in this area. The course will provide knowledge of advanced clinical practice for radiation therapists, develop the role of the radiation therapist and provide skills required to further research into cancer management in the radiotherapy department.

On completion of this strand, students will be able to demonstrate:
The ability to use evidence-based medicine to underpin their radiation therapy practice
Proficiency in undertaking research in the field of radiation therapy
An understanding of management processes and their application in oncology
An understanding of the biological consequences of ionising radiation exposure and its potential in cancer treatment
Familiarity with radiological anatomy and the acquisition of optimal imaging for radiotherapy.
Understand the principles of contouring and become proficient in contouring for prostate radiotherapy.

Strand 2: Radiation Therapy Treatment Planning

This course develops students' skills in the area of radiotherapy treatment planning. All components of treatment planning are taught from 3D Conformal Radiotherapy to IMRT treatment planning and treatment planning for specialist techniques such as stereotactic radiotherapy and brachytherapy.

On completion of this strand, students will be able to:
Prepare 3D and IMRT treatment plans
Analyse and discuss treatment plans for specialist techniques
Undertaking research in the field of radiation therapy treatment planning
Identify radiological anatomy and discuss optimal imaging for radiotherapy, from diagnosis to on-treatment verification.
Understand the principles of contouring and become proficient in contouring for prostate radiotherapy.

For both strands, Year 1 consists of six taught modules (60 ECTS). Students who progress to Year 2 will undertake a research dissertation (30 ECTS). Students who pass the taught component and have completed 60 ECTS may exit with a postgraduate diploma if they do not wish to proceed to the dissertation in Year 2.

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If you are a practitioner working in an extended role or at an advanced practice level in your clinical field, this course is designed to help you develop your practice. Read more

If you are a practitioner working in an extended role or at an advanced practice level in your clinical field, this course is designed to help you develop your practice. You can tailor course content to reflect your evolving scope of practice, individual development needs and service requirements.

You critically evaluate theoretical perspectives and relevant research to help inform and underpin your clinical decision-making and develop your ability to work collaboratively across professional boundaries.

The course improves your independent and active learning ability, so you can

  • advance your knowledge, understanding and skills
  • review and enhance your own and others practice
  • develop your management of complex issues and problems
  • lead practice developments

It also supports and enables you to work towards developing a profile that satisfies professional body requirements for advanced practice (for UK practitioners) and statutory requirements for continuing professional development (CPD). This may also meet the requirements of advanced practice in other countries, which increases your employability and career potential. It is a requirement for all students to have a tripartite agreement with employer support to undertake the course. You must be in a role where there is an opportunity to practice advanced skills under the guidance and mentorship of someone appropriately qualified.

Study individual modules

You can study individual modules from this course that reflect your areas of specialism and gain academic credit towards a qualification. Visit our continuing professional development website for more information.

Professional recognition

The course is recognised by the College of Radiographers for the purposes of professional accreditation.

Course structure

Distance learning – 3 years. A mix of e-learning and work-based learning although you can study optional taught modules.

The postgraduate certificate (PgCert) is achieved by successfully completing 60 credits.

The postgraduate diploma (PgDip) is achieved by successfully completing 120 credits.

The masters (MSc) award is achieved by successfully completing 180 credits. 

Postgraduate certificate core modules

  • Expert practice (30 credits)

Plus a further 30 credits of optional module list

Postgraduate diploma core modules

  • Advancing practice (15 credits)
  • Researching for practice (15 credits)
  • Personalised study module or work-based learning for service development (15 credits)

Plus a further 15 credits from the optional module list

MSc

  • Dissertation (60 credits)

Assessment

  • demonstrate clinical competencies in your field of expertise
  • individually negotiated assignment
  • portfolio
  • select modules that support your areas of clinical specialism

Employability

Prepare for or develop and enhance advanced level practice or begin working towards consultant practice. Strengthening your ability to evidence and articulate your clinical skills and expertise may enable you to further your career in clinical practice in a variety of settings. This may include positions in teaching and research, both in the UK or internationally. You can also continue further study to professional doctorate or a PhD level.



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This course is for therapeutic radiographers and will enable you to develop your professional knowledge and enhance your clinical and research skills. Read more

This course is for therapeutic radiographers and will enable you to develop your professional knowledge and enhance your clinical and research skills. The modules on this course have been selected with the development and progression of the therapeutic radiography profession in mind.

Teaching, learning and assessment

The teaching and assessment strategies will enable you to develop your full potential by recognising and building on prior knowledge and experience and by facilitating development of subject-related and transferable skills. There are various forms of assessment including case study analysis, portfolio of evidence of practice, essays, written examination and a project containing evidence of research methods and analysis will be used to monitor your progress. Class sizes for attendance based modules are normally around 8-10 students. This ensures that students receive excellent support from tutors and benefit from sharing experiences with peers.

Teaching hours and attendance

Each module which you study on campus will require you to attend classes and carry out independent work. Your attendance at QMU will depend on which module you are studying.

Links with industry/professional bodies

On graduation you will be accredited by the Society and College of Radiographers.

Modules

The full MSc Radiotherapy award of 180 credits will require study of two modules of 90 credits - Research Methods (30 credits), a project (60 credits), and the remaining 90 credits to be taken from the following

modules:

30 credits (distance learning): Emerging Technologies in Radiotherapy/ Management of Prostate Cancer/ Management of Breast Cancer

30 credits: Radiotherapy Verification and Analysis/ Decision Taking in Radiotherapy Planning for Palliative Cancers/Decision Taking in Radiotherapy Planning for Breast Cancer/ The Principles of Gynaecological Brachytherapy/ The Clinical Practice of Vaginal Vault Brachytherapy/ Planning and Delivery of Gynaecological Brachytherapy/ Ultrasound Localisation Procedures for Intrauterine Brachytherapy Insertions/ 3-D Computerised Tomography (CT) Treatment Planning for Vaginal Vault Brachytherapy/ Imaging Modalities (Computed  Tomography, Magnetic Resonance Imaging, Positron Emission Tomography ) for Therapeutic Radiographers/ Image Interpretation and Pattern Recognition for Therapeutic Radiographers (choice of Abdomen/ Pelvis – Thorax/ CNS-Head/Neck)/Independent Study/ Current Developments

15 credits: The Principals of Gynaecological Brachytherapy/Leading in Healthcare/ Managing Change in Healthcare/ Independent Study

Careers

This course is part of continuing professional development and is designed to improve the delivery of the service. Gaining this qualification may enhance your career prospects within the profession of radiography.

Quick Facts

  • This course is accredited by the Society and College of Radiographers. 
  • The course offers advanced practice modules. 
  • The course offers a flexible approach to learning.

This course is due for revalidation in Spring 2018. It is likely that this will result in module changes. Please check the website for updates.



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This is a progressive and flexible programme of postgraduate study. There is an overarching theme of advanced practice in healthcare, yet the flexible, modular nature of this award permits healthcare professionals to structure their studies to meet with their own professional needs. Read more
This is a progressive and flexible programme of postgraduate study. There is an overarching theme of advanced practice in healthcare, yet the flexible, modular nature of this award permits healthcare professionals to structure their studies to meet with their own professional needs.

This will provide options for profession specific pathways through the programme if required. These may be clinical, managerial or more generic. Guidance will be provided by the Programme Co-Directors on module choice.‌

Students can register for an award and there are exit points at Postgraduate Certificate (PGC), Postgraduate Diploma (PGD) and Masters Level. The PGC or PGD may be taken as either free standing awards or as an intermediate exit award for any student who has successfully completed the modules required for these awards or who have failed to comply with the criteria which permits access to the next level of study. However, some students may wish to only register for an individual module for the purpose of continuing professional development. This is permissible and such students will not be registered on the programme.

However, students may accrue credit through taking some stand alone modules and then apply for APL transfer of these credits into the programme for a formal award. All students who undertake stand alone modules will be advised of appropriate combinations which can be mapped into the award.

The programme has one starting point per year: semester one (September), and is part-time. It is modular, with some modules being mandatory and others optional to suit the individual student needs. Teaching takes place in both semesters and the scheduling of the teaching will depend upon the modules taken. There are two assessment points per year (January and May), one at the end of each semester.

On this modular programme students can study stand alone credit rated modules (for which Credit Accumulation and Transfer (CATS) points will be awarded).

Or to achieve a:

- PGC a student must successfully complete 60 credits at M level, with not more than 15 credits at level 6 and no dissertation credits;
- PGD a student must successfully complete 120 credits at M level, with not more than 30 credits at level 6 and no dissertation credits;
- Masters degree a student must complete 180 credits at M level, with not more than 30 credits at level 6 and to include a 60 credit dissertation.

As previously stated, the programme is modular and the PGC stage incorporates some compulsory modules and some option modules dependent upon the pathway chosen by the student. The PGD is made up of optional modules although students hoping to progress to the dissertation stage must complete Introduction to Research Methodologies in Health and Social Care (HEAL402) prior to moving to the dissertations stage. The Masters degree is achieved by independent research and the submission of a dissertation.

Why Health Sciences?

Breadth of expertise

The School comprises the Directorates of Medical Imaging and Radiotherapy, Nursing, Occupational Therapy, Orthoptics and Physiotherapy and has a vibrant Postgraduate/CPD unit. The school is committed to delivering quality research to the highest ethical standards in order to improve knowledge and services for the health of the community. Our multi professional cohort of staff has a strong research profile and is committed to developing policy, practice and technology for the improvement of healthcare and service delivery.

Contributing to the advancement of health care practice

We offer taught modular postgraduate programmes, providing extensive opportunity for in-depth study and development of advanced clinical skills in a range of areas and contributing to the advancement of healthcare practice, management and professional education.

Continuing professional development provision

The School also offers a wide range of accredited and non-accredited CPD modules and hosts a vibrant daytime and evening short course programme to maximise opportunity for attendance. The most up-to-date information about these activities is to be found on the School website.

Career prospects

The taught postgraduate programmes provide opportunity for healthcare professionals to develop, specialise and extend the scope of their skills into new areas, to meet the constantly evolving service demands for advanced practitioners. The students who exit our taught postgrdaute programmes usually take up senior clinical/management positions within the NHS. We have students from multi-professional backgrounds as we encourage interprofessional learning and education as appropriate to foster understanding of the roles of colleagues.

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If you are a therapeutic radiographer, dosimetrist or other healthcare professional working in radiotherapy and oncology, this course can help you develop your knowledge of radiotherapy planning. Read more

If you are a therapeutic radiographer, dosimetrist or other healthcare professional working in radiotherapy and oncology, this course can help you develop your knowledge of radiotherapy planning. It’s a highly focused course that gives you a thorough understanding of the key practices surrounding simulating and evaluating radiation doses for radiotherapy.

You gain an in-depth understanding of current and future radiotherapy planning issues and, crucially, develop the ability to apply critical thinking skills to practice. You gain general critical thinking and literature skills as well as more specific planning theory and plan evaluation skills.

Your studies cover core modules involving fundamental planning theories, plan evaluation, advanced planning and image guided radiotherapy. We also introduce you to research skills, which you use to produce a final dissertation.

The course is delivered using our virtual learning environment, known as Blackboard. You don't need to attend the university and you can study via the web in your own time, which means you can fit the course around your clinical work. The web-based learning materials are designed to help improve your radiotherapy knowledge, as well as share experiences with other students through our e-based discussion forum. If you are not confident with computers, help and support is available.

For some modules there is a requirement to produce a plan for the course and you must have access to a clinical radiotherapy planning environment. This helps support the demands of your postgraduate work.

You may be eligible to apply for accreditation of work-based projects and prior certificated learning, which will count towards your final award.

Study individual modules

You can study individual modules from our courses and gain academic credit towards a qualification. Visit our continuing professional development website for detailed information about the modules we offer.

Professional recognition

This course is accredited by the College of Radiographers.

Course structure

The postgraduate certificate (PgCert) is achieved by successfully completing 60 credits.

The postgraduate diploma (PgDip) is achieved by successfully completing 120 credits.

The masters (MSc) award is achieved by successfully completing 180 credits. 

Postgraduate certificate core modules

  • Fundamentals of radiotherapy planning (30 credits)
  • Image guided radiotherapy (15 credits)

Plus a further 15 credits from the optional modules list 

Postgraduate diploma core modules

  • Advanced radiotherapy planning (30 credits)
  • Research methods for practice (15 credits)

Plus a further 15 credits from optional module list.

Masters

  • Dissertation (60 credits)

Assessment

We use various assessment methods, supporting the development of both your academic and professional skills.Short online activities are used to promote engagement with the distance learning materials, provide support for the final assignment and facilitate online discussion with fellow peers. Other methods of assessment include

  • essays
  • business cases or journal article
  • project and research work
  • poster and PowerPoint presentation
  • case studies
  • service improvement proposal and plans
  • critical evaluations
  • profiles of evidence
  • planning portfolio.

Employability

As a graduate of this course you gain a deeper understanding of current and future radiotherapy planning issues and gain the ability to apply critical thinking skills to practice. This can help you to advance to more senior radiotherapy roles.



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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). Read more

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.

Key Features of MSc in Clinical Science (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

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

Careers

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.

Links with industry

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.

Facilities

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.

Research

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.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Medical Radiation Physics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Medical Radiation Physics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The Medical Radiation Physics course builds on the highly successful research partnerships between the College of Medicine and Abertawe Bro Morgannwg University (ABMU) Health Board, including the Institute of Life Science and Centre for NanoHealth initiatives, and ongoing work in Monte Carlo-based radiotherapy modelling and dosimeter development, body composition, tissue characterisation and novel modes of the detection of disease with state-of-the-art CT and MRI facilities.

Key Features of the MSc in Medical Radiation Physics

On the Medical Radiation Physics MSc, you will gain the necessary knowledge and understanding of fundamental aspects of the use of radiation in medicine, in order that you are conversant in medical terms, human physiology and radiation mechanisms.

A direct link to clinical practice is provided through hands-on instruction with equipment used routinely in the hospital setting, which will prepare you for research in a rapidly changing field, including tuition in computer-based modelling, research methodology and the ethical dimensions associated with medical research.

The Medical Radiation Physics programme is accredited by the Institute of Physics and Engineering in Medicine (IPEM).

The Medical Radiation Physics programme is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Students must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode

The part-time scheme is a version of the full-time equivalent MSc in Medical Radiation Physics scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Timetables for the Medical Radiation Physics programme are typically available one week prior to each semester.

Modules

Modules on the Medical Radiation Physics course can vary each year but you could expect to study:

• Introduction to the Practice of Medical Physicists and Clinical Engineers

• Nanoscale Simulation

• Physics of the Body

• Nuclear Medicine and Diagnostic Radiology

• Research Methods

• Radiation Protection

• Radiation Physics

• Radiotherapy Physics

• Medical Imaging

• Advanced Radiotherapy

• MSc Research Project

Accreditation

The Medical Radiation Physics course has been accredited by the Institute of Physics and Engineering in Medicine (IPEM). IPEM is the professional body that works with physical science, engineering and clinical professionals in academia, healthcare services and industry in the UK and supports clinical scientists and technologists in their practice through the provision and assessment of education and training.

Links with industry

The close proximity of Swansea University to two of the largest NHS Trusts in the UK outside of London, as well Velindre NHS Trust (a strongly academic cancer treatment centre), offers the opportunity for collaborative research through student placements.

The academic staff of this discipline have always had a good relationship with industrial organisations, which are the destination of our medical engineering graduates. The industrial input ranges from site visits to seminars delivered by clinical contacts.

Careers

The Medical Radiation Physics course will prepare you for research and clinical practise in a rapidly changing field, including tuition in computer modelling, human engineering and the medico-legal issues they imply. It will enable you to develop the potential to become leaders, defining and influencing medical practise.

For a medical physicist career path, the role includes opportunities for laboratory work, basic and applied research, management and teaching, offering a uniquely diverse career. In addition there is satisfaction in contributing directly to patient treatment and care.



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Programme Aims. Read more

Programme Aims

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

  • ​To provide professionals in Medical Imaging and Radiotherapy, as well as others interested in health technology, with the opportunity to develop advanced levels of knowledge and skills;
  • To develop specialists in their respective professional disciplines and enhance their career paths;
  • To broaden students' exposure to a wider field of health science and technology to enable them to cope with the ever-changing demands of work;
  • To provide a laboratory environment for testing problems encountered at work;
  • To equip students with an advanced knowledge base in a chosen area of specialisation in medical imaging or radiotherapy to enable them to meet the changing needs of their disciplines and contribute to the development of medical imaging or radiation oncology practice in Hong Kong; and
  • To develop critical and analytical abilities and skills in the areas of specialisation that are relevant to the professional discipline to improve professional competence.

B. Professional Development

  • ​To develop students' ability in critical analysis and evaluation in their professional practices;
  • To cultivate within healthcare professionals the qualities and attributes that are expected of them;
  • To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
  • To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice

  • ​To equip students with the necessary skill in research to enable them to perform evidence-based practice in the delivery of healthcare service and industry.

D. Personal Development

  • ​To provide channels through which practising professionals can continuously develop themselves while at work; and
  • To allow graduates to develop themselves further after graduation.

Characteristics

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.

Programme Structure

To be eligible for the MSc in Medical Imaging and Radiation Science (MScMIRS), students are required to complete 30 credits:

  • 2 Compulsory Subjects (6 credits)
  • 3 Core Subjects (9 credits)
  • 5 Elective Subjects (15 credits)

Apart from the award of MScMIRS, students can choose to graduate with one of the following specialisms:

  • MSc in Medical Imaging and Radiation Science (Computed Tomography)
  • MSc in Medical Imaging and Radiation Science (Magnetic Resonance Imaging)
  • MSc in Medical Imaging and Radiation Science (Ultrasonography)

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

  • Research Methods & Biostatistics
  • ​Multiplanar Anatomy

Core Subjects

  • Advanced Radiotherapy Planning & Dosimetry
  • Advanced Radiation Protection
  • Advanced Technology & Clinical Application in Computed Tomography *
  • Advanced Technology & Clinical Application in Magnetic Resonance Imaging *
  • Advanced Technology & Clinical Application in Nuclear Medicine Imaging
  • Advanced Topics in Health Technology
  • Advanced Ultrasonography *
  • Clinical Practicum (CT/MRI/US)
  • Dissertation
  • Digital Imaging & PACS
  • Imaging Pathology

 * Specialty Subject

Elective Subjects

  • Bioinformatics in Health Sciences
  • Professional Development in Infection Control Practice


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The MSc Medical Imaging and Radiation Sciences course and its four specialised pathways is designed to enable you to enhance your current knowledge and understanding in the field of diagnostic and therapeutic radiography and give you opportunities to challenge and critically evaluate your professional practice. Read more

About the course

The MSc Medical Imaging and Radiation Sciences course and its four specialised pathways is designed to enable you to enhance your current knowledge and understanding in the field of diagnostic and therapeutic radiography and give you opportunities to challenge and critically evaluate your professional practice. The aim is to advance your skills as a professional and develop your career so that you can practice safely, effectively and legally.

The Radiotherapy and Oncology pathway specialises in the field of radiotherapeutic practice. Many of the options develop competencies for advanced practice such as in the palliative care and breast localisation modules.

See the website http://www.herts.ac.uk/courses/msc-medical-imaging-and-radiation-sciences-oncological-sciences

Course structure

The MSc Medical Imaging and Radiation Sciences: radiotherapy and oncology pathway is modular in structure. If you wish to collect credits towards and award or a qualification see below the award and credit requirements:
- Postgraduate certificate - 60 credits
- Postgraduate diploma - 120 credits
- Masters degree - 180 credits

To complete a Masters degree award for this course you need to collect the following credits:
- Research modules - 60 credits
- Oncological sciences modules - minimum 30 credits
- Optional interprofessional modules - maximum 90 credits

Teaching methods

Modules are facilitated by a variety of experienced lecturers from the University as well as external lecturers.

Delivery of modules incorporates blended learning which aims to combine e-learning activities with campus based learning. You need to have access to a suitable personal computer and a good reliable Internet connection (broadband recommended). Most modern PCs or Macs (less than 3 years old) should be suitable. If you have any queries or need any additional support with IT skills, the School employs an e-learning technologist who will be pleased to help and advise you. Please contact the module lead for details.

Assessment methods include objective structured clinical examinations (OSCEs), clinical portfolios, case study presentations, oral presentations and written presentations.

Work Placement

The University cannot offer to provide clinical placements for students.

Professional Accreditations

Accredited by the College of Radiographers

Find out how to apply here http://www.herts.ac.uk/courses/msc-medical-imaging-and-radiation-sciences-oncological-sciences#how-to-apply

Find information on Scholarships here http://www.herts.ac.uk/apply/fees-and-funding/scholarships/postgraduate

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The MSc Medical Imaging and Radiation Sciences course and its four specialised pathways is designed to enable you to enhance your current knowledge and understanding in the field of diagnostic and therapeutic radiography and give you opportunities to challenge and critically evaluate your professional practice. Read more
The MSc Medical Imaging and Radiation Sciences course and its four specialised pathways is designed to enable you to enhance your current knowledge and understanding in the field of diagnostic and therapeutic radiography and give you opportunities to challenge and critically evaluate your professional practice. The aim is to advance your skills as a professional and develop your career so that you can practice safely, effectively and legally.

The Radiotherapy and Oncology pathway specialises in the field of radiotherapeutic practice. Many of the options develop competencies for advanced practice such as in the palliative care and breast localisation modules.

Course structure

The MSc Medical Imaging and Radiation Sciences: radiotherapy and oncology pathway is modular in structure. If you wish to collect credits towards and award or a qualification see below the award and credit requirements:
-Postgraduate certificate - 60 credits
-Postgraduate diploma - 120 credits
-Masters degree - 180 credits

Why choose this course?

-It gives you the opportunity to share ideas with other health professions in order to develop intellectual abilities and assist in the advancement of health care
-It offers you flexible study options based on a modular structure
-It includes interprofessional learning
-The teaching is done by experienced staff and visiting external specialists
-Accredited by the College of Radiographers

Professional Accreditations

Accredited by the College of Radiographers.

Teaching methods

Modules are facilitated by a variety of experienced lecturers from the University as well as external lecturers.
Delivery of modules incorporates blended learning which aims to combine e-learning activities with campus based learning. You need to have access to a suitable personal computer and a good reliable Internet connection (broadband recommended). Most modern PCs or Macs (less than 3 years old) should be suitable. If you have any queries or need any additional support with IT skills, the School employs an e-learning technologist who will be pleased to help and advise you. Please contact the module lead for details.

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The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. Read more
The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. The course consists of an intense program of lectures and workshops, followed by a short project and dissertation. Extensive use is made of the electronic learning environment "Blackboard" as used by NUI Galway. The course has been accredited by the Institute of Physics and Engineering in Medicine (UK).

Syllabus Outline. (with ECTS weighting)
Human Gross Anatomy (5 ECTS)
The cell, basic tissues, nervous system, nerves and muscle, bone and cartilage, blood, cardiovascular system, respiratory system, gastrointestinal tract, nutrition, genital system, urinary system, eye and vision, ear, hearing and balance, upper limb – hand, lower limb – foot, back and vertebral column, embryology, teratology, anthropometrics; static and dynamic anthropometrics data, anthropometric dimensions, clearance and reach and range of movement, method of limits, mathematics modelling.

Human Body Function (5 ECTS)
Biological Molecules and their functions. Body composition. Cell physiology. Cell membranes and membrane transport. Cell electrical potentials. Nerve function – nerve conduction, nerve synapses. Skeletal muscle function – neuromuscular junction, muscle excitation, muscle contraction, energy considerations. Blood and blood cells – blood groups, blood clotting. Immune system. Autonomous nervous system. Cardiovascular system – electrical and mechanical activity of the heart. – the peripheral circulation. Respiratory system- how the lungs work. Renal system – how the kidneys work. Digestive system. Endocrine system – how hormones work. Central nervous system and brain function.

Occupational Hygiene (5 ECTS)
Historical development of Occupational Hygiene, Safety and Health at Work Act. Hazards to Health, Surveys, Noise and Vibrations, Ionizing radiations, Non-Ionizing Radiations, Thermal Environments, Chemical hazards, Airborne Monitoring, Control of Contaminants, Ventilation, Management of Occupational Hygiene.

Medical Informatics (5 ECTS)
Bio statistics, Distributions, Hypothesis testing. Chi-square, Mann-Whitney, T-tests, ANOVA, regression. Critical Appraisal of Literature, screening and audit. Patient and Medical records, Coding, Hospital Information Systems, Decision support systems. Ethical consideration in Research.
Practicals: SPSS. Appraisal exercises.

Clinical Instrumentation (6 ECTS)
Biofluid Mechanics: Theory: Pressures in the Body, Fluid Dynamics, Viscous Flow, Elastic Walls, Instrumentation Examples: Respiratory Function Testing, Pressure Measurements, Blood Flow measurements. Physics of the Senses: Theory: Cutaneous and Chemical sensors, Audition, Vision, Psychophysics; Instrumentation Examples: Evoked responses, Audiology, Ophthalmology instrumentation, Physiological Signals: Theory Electrodes, Bioelectric Amplifiers, Transducers, Electrophysiology Instrumentation.

Medical Imaging (10 ECTS)
Theory of Image Formation including Fourier Transforms and Reconstruction from Projections (radon transform). Modulation transfer Function, Detective Quantum Efficiency.
X-ray imaging: Interaction of x-rays with matter, X-ray generation, Projection images, Scatter, Digital Radiography, CT – Imaging. Fundamentals of Image Processing.
Ultrasound: Physics of Ultrasound, Image formation, Doppler scanning, hazards of Ultrasound.
Nuclear Medicine : Overview of isotopes, generation of Isotopes, Anger Cameras, SPECT Imaging, Positron Emitters and generation, PET Imaging, Clinical aspects of Planar, SPECT and PET Imaging with isotopes.
Magnetic Resonance Imaging : Magnetization, Resonance, Relaxation, Contrast in MR Imaging, Image formation, Image sequences, their appearances and clinical uses, Safety in MR.

Radiation Fundamentals (5 ECTS)
Review of Atomic and Nuclear Physics. Radiation from charged particles. X-ray production and quality. Attenuation of Photon Beams in Matter. Interaction of Photons with Matter. Interaction of Charged Particles with matter. Introduction to Monte Carlo techniques. Concept to Dosimetry. Cavity Theory. Radiation Detectors. Practical aspects of Ionization chambers

The Physics of Radiation Therapy (10 ECTS)
The interaction of single beams of X and gamma rays with a scattering medium. Treatment planning with single photon beams. Treatment planning for combinations of photon beams. Radiotherapy with particle beams: electrons, pions, neutrons, heavy charged particles. Special Techniques in Radiotherapy. Equipment for external Radiotherapy. Relative dosimetry techniques. Dosimetry using sealed sources. Brachytherapy. Dosimetry of radio-isotopes.

Workshops / Practicals
Hospital & Radiation Safety [11 ECTS]
Workshop in Risk and Safety.
Concepts of Risk and Safety. Legal Aspects. Fundamental concepts in Risk Assessment and Human Factor Engineering. Risk and Safety management of complex systems with examples from ICU and Radiotherapy. Accidents in Radiotherapy and how to avoid them. Principles of Electrical Safety, Electrical Safety Testing, Non-ionizing Radiation Safety, including UV and laser safety.
- NUIG Radiation Safety Course.
Course for Radiation Safety Officer.
- Advanced Radiation Safety
Concepts of Radiation Protection in Medical Practice, Regulations. Patient Dosimetry. Shielding design in Diagnostic Radiology, Nuclear Medicine and Radiotherapy.
- Medical Imaging Workshop
Operation of imaging systems. Calibration and Quality Assurance of General
radiography, fluoroscopy systems, ultrasound scanners, CT-scanners and MR scanners. Radiopharmacy and Gamma Cameras Quality Control.

Research Project [28 ECTS]
A limited research project will be undertaken in a medical physics area. Duration of this will be 4 months full time

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Key Facts. All courses are accredited by the College and Society of Radiographers and the Health and Care Professions Council (HCPC). Read more
Key Facts:
All courses are accredited by the College and Society of Radiographers and the Health and Care Professions Council (HCPC). The skills obtained are transferable to all NHS Trusts and recognised Overseas.


Entry Requirements:
You should possess a BSc (Hons) in Diagnostic / Therapeutic Radiography or equivalent qualification e.g. a Diploma of the College of Radiographers. Applicants who are applying outside of the UK require an International English Language Testing System (IELTS) score of 7 with no element below 6.5.

For reporting qualifications you should be currently practising, with at least two years’ post-qualification experience as a radiographer.

If you apply for the named Postgraduate Certificate (PgCert) reporting awards in Adult Chest and Abdomen, CT Head, Appendicular and Axial Skeletal reporting you must also have a clinical supervisor within your own department who is willing to support you through the course, together with written approval from the Trust or hospital employing you for clinical practice.


Course overview:
The Faculty of Health, Education and Life Sciences has a reputation for developing innovative courses to meet the demands of NHS Trusts who require staff training in order to meet the demands of an ever changing NHS.

The courses are aimed at those with a current qualification and registration as radiographer, or other health care professional, registered with the HCPC who wish to enhance their qualifications and skills and to prepare themselves for the extended roles that they are expected to embrace. Applications are welcome from nurses who wish to enhance their scope of practice.

The available courses are designed to enable you to evaluate the relationship between technology, managerial responsibility and policy. As increasing emphasis is being placed on hospital-based research to support evidence-based practice, the courses also aim to enhance your abilities to critically evaluate research findings to benefit service provision, and thus ensure that the patient remains at the centre of everything that we do.

We'll equip you with specialist knowledge and skills to meet the ever-changing needs of this fast developing sector. All modules are delivered by highly skilled lecturers with the support of dedicated visiting lecturers from the clinical setting. 90 per cent of course delivery is face to face.


Course structure:
The available accreditations can be studied part time to fit around your personal and professional commitments.

Each single module requires a notional 200 hours of study. Most single modules are delivered either during the afternoon or evening or, on the named pathways, on a two or three day block-release basis, with the clinical component taking place in your workplace under the direction of a clinical supervisor.

Most students are successful at their first attempt of assessment.

The named pathways for Appendicular and Axial Skeletal Reporting have attracted students from as far afield as Denmark and Holland.

Learning Experience / Modules Studied:
The suite of courses offers opportunities to study Radiography at Postgraduate Certificate (PgCert), Postgraduate Diploma (PgDip) or Master’s (MSc) level:

PgCert Radiography [Appendicular Reporting]
PgCert Radiography [Axial Reporting]
PgCert Radiography [Adult Chest and Abdomen reporting]
PgCert Radiography [CT Head Reporting]
PgCert Radiography [Computed Tomography]
PgCert MRI
PgDip MRI
PgDip Image Reporting
PgDip Radiography and MSc Radiography

Regardless of the specialist area, a PgCert involves three single 20 credit modules or one double (40 credit) and one single (20 credit) module.
The PgDip involves an additional three single or one single and one double module provided you have already gained the PgCert. Otherwise, the PgDip involves a total of six single modules or two double and two single modules. You must study the single module Leadership for Advanced Professional Practice for the PgCert and Research; Methods of Enquiry module for the PgDip award as this will help prepare you for your dissertation towards your MSc Radiography.

For a Master’s, you must have completed a total of 120 credits. You will then undertake a research project where you will be offered workshops and tutorials and will be required to submit a dissertation not exceeding 20,000 words.
Available 20 credit single modules, which can also be accessed on an individual basis, include:

Leadership for Advanced Professions; Practice (compulsory for all PgCert awards)
Cross Sectional Anatomy
Image Interpretation for Comment Systems
Fundamentals of MRI
MRI Principles and Practice
MRI Student Negotiated
MRI Specialist Techniques
Introduction to Image Interpretation of the Chest and Abdomen
Technological Developments in Radiotherapy
Applications of Imaging and Verification in Radiotherapy
Paediatric Imaging
Forensic Radiography
Ethical and Legal Issues For Advanced Practice
Research: Methods of Enquiry (compulsory for PgDip)

Available 40 Credit modules which can also be accessed on an individual basis are:

Foundations and Practice of Appendicular Skeletal Reporting
Foundations and Practice of Axial Skeletal Reporting
Foundations and Practice of Adult Chest and Abdomen Reporting
Foundations and Practice of CT Head Reporting
Advanced CT Applications and Imaging Science

Each named award has its own clinical and academic requirements. Expected durations may also vary slightly. Applicants are advised to contact the Faculty for more detailed course information.


Assessment:
Modules are assessed independently using a variety of methods, which may include assignments, annotated bibliography, student presentations and objective structured clinical examinations (OSCEs)

Visit the MSc Radiography page on the Birmingham City University website for more details!

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If you are a healthcare professional, this course gives you the knowledge and expertise to develop as a specialist prostate cancer practitioner. Read more

If you are a healthcare professional, this course gives you the knowledge and expertise to develop as a specialist prostate cancer practitioner. Through online learning you learn how to provide, promote and develop high standards of care.

The postgraduate certificate stage focuses on developing your clinical knowledge and skills. The prostate cancer module gives you an in-depth understanding of managing the stages of the disease including • the physical and psychosocial impact • treatment • the needs of those affected • how these needs can be addressed.

As advanced communication is essential to your clinical role, you also undertake a module on this subject. This helps you develop your knowledge of the concepts underpinning advanced communication strategies used in practice and encourages you to reflect on your skills development in this area too.

During the postgraduate diploma stage you develop your understanding of the wider specialist and advanced practice role in areas such as • leadership • peer support • education • service development and improvement.

You also expand your knowledge of high risk or high priority areas in practice, which you identify as relevant to your own local practice, such as • care of African Caribbean men • needs relating to sexual function • survivorship • end of life care.

This stage of the course also prepares you for undertaking research by improving your understanding of research methods and helping you develop a research question for investigation.

In the final masters stage you research a specific area of interest relevant to your professional role and priorities in practice. This enables you to specialise in your chosen topic, develop expertise and hopefully influence practice or policy.

Throughout your studies you are encouraged to reflect on your role as

  • an ambassador for your patients and their families
  • a peer supporter for other healthcare professionals involved in caring for people affected by the disease
  • an educator

You also evaluate your own practice and the practice of others to help you develop ideas for service improvement within your practice and workplace.

Course delivery

This is primarily a distance learning course using online learning. You must have internet access and be prepared to engage with technology. We supply you with a range of online learning and teaching resources, including access to library resources and information databases.

Each module provides clear guidance on how to approach your self-directed study. This learning is enhanced by online, tutor facilitated group discussions allowing you to share views and practice experiences with other students. These sessions are a popular and valuable learning resource, and are also used to support you in your final marked assessment.

Professional recognition

Prostate Cancer UK is a registered charity in England and Wales (1005541) and in Scotland (SC039332). Registered company number 2653887.

Course structure

The postgraduate certificate (PgCert) is achieved by successfully completing 60 credits.

The postgraduate diploma (PgDip) is achieved by successfully completing 120 credits.

The masters (MSc) award is achieved by successfully completing 180 credits.

Postgraduate certificate core modules

  • Prostate cancer (15 credits)
  • Advanced communication and information in supportive care (30 credits)

Postgraduate diploma core modules

  • Advancing practice in prostate cancer care (30 credits)
  • Research methods for practice (15 credits)

Masters

  • Dissertation (60 credits)

Optional modules

You choose a further 30 credits from the following modules:

  • Loss, grief and bereavement (15 credits)
  • Complexities in symptom management (15 credits)
  • Collaborative working in supportive care (15 credits)
  • Informed consent in healthcare practice (15 credits)
  • Evidencing your continuing professional development (15 credits)

Assessment

  • online activities and discussion
  • essays
  • project and research work
  • service improvement plans
  • reflections

Employability

If you are a specialist practitioner in prostate cancer care, this course enables you to continue your academic and professional development and validate your role. You can tailor your learning, allowing you to specialise in areas such as palliative and end of life care, survivorship and rehabilitation.

If working towards a specialist practitioner role, the course equips you with core knowledge and skills to help you perform at the necessary practice level.

The course provides academic and professional skills relevant to the role of an advanced/specialist practitioner, as defined by professional bodies such as the Royal College of Nursing and the College of Radiographers.

The course also provides opportunities to be involved in research and service development activities in a professional, clinical or academic setting. You are encouraged to share your learning and research through article publication or conference presentation, helping to raise your profile in this field.

As well as specialist clinical roles, you may also pursue academic teaching or research careers in the UK or internationally.



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Programme Aims. Read more

Programme Aims

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

  • ​To develop specialists in their respective professional disciplines to enhance their career paths;
  • To broaden students' exposure to health science and technology to enable them to cope with the ever-changing demands of work; and
  • To provide a laboratory environment for testing problems encountered at work.

 Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:

  • ​To broaden and deepen students' knowledge and expertise in Medical Laboratory Science;
  • To introduce students to advances in selected areas of diagnostic laboratory techniques;
  • To develop in students an integrative and collaborative team approach to the investigation of common diseases;
  • To foster an understanding of the management concepts that are relevant to clinical laboratories; and
  • To develop students' skills in communication, critical analysis and problem solving.

B. Professional Development

  • ​To develop students' ability in critical analysis and evaluation in their professional practices;
  • To cultivate within healthcare professionals the qualities and attributes that are expected of them;
  • To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
  • To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice

  • ​To equip students with the necessary research skills to enable them to perform evidence-based practice in the delivery of healthcare service.

D. Personal Development

  • ​To provide channels for practising professionals to continuously develop themselves while at work; and
  • To allow graduates to develop themselves further after graduation.

Characteristics

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.

Recognition

This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.

Programme structure

To be eligible for the MSc in Medical Laboratory Science (MScMLS), students are required to complete 30 credits:

  • 2 Compulsory Subjects (6 credits)
  • Dissertation (9 credits)
  • 3 Core Subjects (9 credits)
  • 2 Elective Subjects (6 credits)

Apart from the award of MScMLS, students can choose to graduate with the following specialism:

  • MSc in Medical Laboratory Science (Molecular Diagnostics)

 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

  • ​Integrated Medical Laboratory Science
  • Research Methods & Biostatistics

Core Subjects

  • Advanced Topics in Health Technology
  • Clinical Chemistry
  • Epidemiology
  • Haematology & Transfusion Science
  • Histopathology & Cytology
  • Immunology
  • Medical Microbiology
  • Clinical Applications of Molecular Diagnostics in Healthcare *
  • Molecular Technology in the Clinical Laboratory *
  • Workshops on Advanced Molecular Diagnostic Technology *

Elective Subjects

  • Bioinformatics in Health Sciences *
  • Professional Development in Infection Control Practice

* Specialty Subject



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Radiography exists in a changing professional environment and requires practitioners to continually update and review clinical practice. Read more
Radiography exists in a changing professional environment and requires practitioners to continually update and review clinical practice. This course provides a flexible framework to prepare you for advanced practice by studying topics relevant to your needs and those of your clinical departments.

This route, which is one of four radiography pathways, is aimed at therapeutic radiographers. The course is offered as either a part-time block release course or as a full-time course.

You may be granted credits for your previous academic and professional qualification through Accreditation of Prior Experiential Learning (APEL) scheme. You can take individual modules as 'free standing' as part of your continuing professional development (CPD). An independent work-based learning module enables you to study around your individual CPD and workplace needs.

What will you study?

You will study modules relating to clinical roles, management, supervisory and assessment roles, quality issues, research methods and ethics, as well as taking a module of independent study to meet a particular professional need or interest.

Assessment

Case studies; research protocols; dissertation; essays; portfolios; practical assessment; OSCE; reflective log book.

Course structure

The postgraduate admissions administrator will help you choose the most suitable combination of modules depending on your needs. Some of the modules are developed in partnership with healthcare providers.

Please note that this is an indicative list of modules and is not intended as a definitive list.

Available modules (Home/EU students)
-Research and Evidence Based Practice in Healthcare (for PgDip)
-Dissertation (for MSc)
-Advanced Practice - Negotiated Independent Work Based Learning
-Cross-sectional Imaging - Therapeutic
-External Beam Radiotherapy Planning
-Oncology Practice
-Management of Resources and Quality within Healthcare
-Practice Education and Mentorship+

Available modules (International students)
-Research and Evidence Based Practice in Healthcare (for PgDip)
-Dissertation (for MSc)
-Advanced Practice - Negotiated Independent Work Based Learning
-Cross-sectional Imaging - Therapeutic
-Oncology Practice
-Management of Resources and Quality within Healthcare
-Practice Education and Mentorship+

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