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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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Non-Medical Prescribing for Allied Health Professionals Course Overview. The Postgraduate Certificate in Non-Medical Prescribing aims to prepare Allied Health Professionals to practice within current non-medical prescribing legislation. Read more

Non-Medical Prescribing for Allied Health Professionals Course Overview

The Postgraduate Certificate in Non-Medical Prescribing aims to prepare Allied Health Professionals to practice within current non-medical prescribing legislation.

There will be two cohorts per year (subject to sufficient interest and professional body approval), starting in March and September each year. The Spring cohort will run every Wednesday from March to November (No lectures during August) and the Autumn cohort will be taught every Tuesday from September to the following March. 

Professional body approval from the Healthcare Professions Council has been granted for Independent prescribing for Chiropodists/podiatrists, physiotherapists and therapeutic radiographers and for Supplementary prescribing, diagnostic radiographers. 

The Non-Medical Prescribing course is not available to international students.

Who should apply for the Non-Medical Prescribing programme?

  • Physiotherapists
  • Radiographer’s 
  • Chiropodists/Podiatrists
  • Dieticians

All of whom are looking to develop prescribing practice within a clinical setting.

Non-Medical Prescribing Course Structure

The Non-Medical Prescribing course is designed to develop the knowledge, skills and competency required to undertake the role of an independent or supplementary non-medical prescriber. The course has been designed for allied health professionals to develop prescribing practice within a clinical setting. 

The Non-Medical Prescribing programme comprises of two core modules: SHGM05 -Clinical Assessment and Decision Making in Non-Medical Prescribing which is 40 credits at level 7 and SHGM06 - Pharmacology principles and practice which is 20 credits at level 7. Both of these modules must be successfully completed to gain this qualification in Non-Medical Prescribing for Allied Health Professionals.

The Non-Medical Prescribing programme is taught at the St. David’s Park site in Carmarthen. Teaching takes place one day a week over the academic year. You are also required to have 96 hours of clinical practice with a designated medical mentor from which you will need to evidence the learning that has occurred.

Staff Expertise

The Non-Medical Prescribing for Allied Health Professionals teaching team:

  • are very experienced in delivering prescribing programmes
  • have a wide range of relevant skills, experience and qualifications
  • are members of a range of prescribing forums and groups
  • have well established links with health board Non-Medical Prescribing Leads throughout the region 

Teaching and Employability

  • Established and reputable links with the NHS, Social Services, and many private sector companies
  • Up-to-the-minute teaching which is responsive to employer demand
  • Successful completion can increase career development and promotion opportunities for the student as an advanced practitioner within their field of speciality  
  • Studies show that non-medical prescribing to be safe, clinically and cost effective.

Funding

  • Applicants to the Non-Medical Prescribing course may be eligible for funding support 
  • The Non-Medical Prescribing programme has the possibility of being funded by the Welsh Government, so the student may not need to pay any fees. Please speak to the programme director for further information.

Postgraduate Community

The College of Human and Health Sciences has a vibrant postgraduate community with students drawn from a variety of backgrounds and nationalities. The College is known for its friendly, welcoming and supportive environment, which combined with its extensive facilities, state-of-the-art technology and superb beachside location, helps to ensure that students benefit from an exceptional student experience. 

Facilities 

In addition, students have access to a wide range of excellent facilities and equipment for realistic workplace experiences.



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Non-Medical Prescribing for Nurses and Midwives Course Overview. The Postgraduate Certificate in Non-Medical Prescribing aims to prepare nurses and midwives to practice within current non-medical prescribing legislation. Read more

Non-Medical Prescribing for Nurses and Midwives Course Overview

The Postgraduate Certificate in Non-Medical Prescribing aims to prepare nurses and midwives to practice within current non-medical prescribing legislation.

There will be two cohorts per year (subject to final professional body approval), starting in March and September each year. The Spring cohort will run every Wednesday from March to November (No lectures during August) and the Autumn cohort will be taught every Tuesday from September to the following March. 

Unfortunately the Non-Medical Prescribing for Nurses and Midwives course is not available to international students.

Who should apply for the Non-Medical Prescribing programme?

Nurses or midwives who wish to develop prescribing practice within a clinical setting.

Non-Medical Prescribing Course Structure

The Non-Medical Prescribing for Nurses and Midwives course is designed to develop the knowledge, skills and competency required to undertake the role of an independent or supplementary non-medical prescriber. The Non-Medical Prescribing course has been designed for multiple disciplines to learn together to develop prescribing practice within a clinical setting. 

The Non-Medical Prescribing for Nurses and Midwives programme comprises of two core modules: SHGM26 -Clinical Assessment and Decision Making in Non-Medical Prescribing which is 40 credits at level 7 and SHGM27 - Pharmacology principles and practice which is 20 credits at level 7. Both of these modules must be successfully completed to gain this qualification.

The Non-Medical Prescribing for Nurses and Midwives programme is taught at the St. David’s Park site in Carmarthen. Teaching takes place one day a week over the academic year. It is a professional requirement that you also have 96 hours of clinical practice with a designated medical mentor from which you will need to evidence the learning that has occurred.

Staff Expertise

The Non-Medical Prescribing for Nurses and Midwives teaching team:

  • are very experienced in delivering prescribing programmes
  • have a wide range of relevant skills, experience and qualifications
  • are members of a range of prescribing forums and groups
  • have well established links with health board Non-Medical Prescribing Leads throughout the region 

Teaching and Employability

  • Established and reputable links with the NHS, Social Services, and many private sector companies
  • Up-to-the-minute teaching which is responsive to employer demand
  • Successful completion can increase career development and promotion opportunities for the student as an advanced practitioner within their field of speciality  
  • Studies show that non-medical prescribing to be safe, clinically and cost effective.

Funding

  • Applicants to the Non-Medical Prescribing course may be eligible for funding support 
  • The Non-Medical Prescribing for Nurses and Midwives programme has the possibility of being funded by the Welsh Government, so the student may not need to pay any fees. Please speak to the programme director or education lead for your area of work for further information.

Postgraduate Community

The College of Human and Health Sciences has a vibrant postgraduate community with students drawn from a variety of backgrounds and nationalities. The College is known for its friendly, welcoming and supportive environment, which combined with its extensive facilities, state-of-the-art technology and superb beachside location, helps to ensure that students benefit from an exceptional student experience. 

Facilities 

In addition, students have access to a wide range of excellent facilities and equipment for realistic workplace experiences.



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Medical Imaging is an essential component of modern medicine, playing a key role in the diagnosis, treatment and monitoring of disease. Read more

Medical Imaging is an essential component of modern medicine, playing a key role in the diagnosis, treatment and monitoring of disease. The Medical Imaging MSc covers:

  • the basic physics involved in the different imaging techniques
  • image formation, pattern recognition and applications in the field of radiology
  • current issues in a modern UK NHS radiology department.

Whilst not a clinical skills course, the teaching of the technical aspects of imaging techniques is firmly grounded and in their clinical usage. Many of our lecturers are at the forefront of research in their field and bring insights from emerging imaging techniques.

This programme is designed for recent graduates preparing for a career in medical imaging, professionals already working in the field, and medical students wishing to intercalate.

More Information

You can study this subject at a MSc, Postgraduate Diploma or Postgraduate Certificate level.

You may transfer from your original programme to another one, provided that you do this before you have completed the programme and before an award has been made. Part-time study is also an option. 

You’ll become familiar with the range of clinical imaging techniques.

By the end of the programme you should be able to:

  • Demonstrate knowledge and understanding of the physical and mathematical aspects of image formation of several techniques;
  • Identify the anatomical and physiological properties of tissue associated with image formation and contrast for several techniques;
  • Analyse and compare the technical performance of various modalities;
  • Demonstrate an understanding of the clinical applications of each technique, the variables involved and how they can be compared;
  • Apply IT in literature searching, analysis and display of data, and report writing to enhance life-long learning in medical imaging;
  • Demonstrate enhancement of their professional skills in communication, problem-solving, learning effectively and quickly, and effective self-management;
  • Critically evaluate relevant published work, demonstrating an understanding of the underpinning principles of statistics, project design and data analysis.

Course structure

PGCert

Compulsory modules:

  • Medical Imaging Core Skills 15 credits

For more information on typical modules, read Medical Imaging PGCert in the course catalogue

PGDip

Compulsory modules :

  • Principles for Medical Imaging Interpretation 15 credits
  • Medical Imaging Core Skills 15 credits
  • Digital Radiography and X-ray Computed Tomography 15 credits
  • Magnetic Resonance Imaging 15 credits
  • Ultrasound Imaging 15 credits
  • Radionuclide Imaging 15 credits
  • Medical Image Analysis 15 credits
  • Research Methods 15 credits

For more information on typical modules, read Medical Imaging PGDip in the course catalogue

MSc

You’ll study modules worth 180 credits. If you study this programme part time you will study fewer modules in each year.

Compulsory modules:

  • Principles for Medical Imaging Interpretation 15 credits
  • Medical Imaging Core Skills 15 credits
  • Digital Radiography and X-ray Computed Tomography 15 credits
  • Magnetic Resonance Imaging 15 credits
  • Ultrasound Imaging 15 credits
  • Radionuclide Imaging 15 credits
  • Medical Image Analysis 15 credits
  • Research Methods 15 credits
  • Research Project 60 credits 

As an MSc student, you undertake a research project in the field of Medical Imaging. New research topics are available each year and include projects in MRI, Ultrasound, X-ray and their clinical application. You'll be asked to state your preferred research project. Before projects are allocated, you are encouraged to meet potential supervisors and discuss the research work.

Learning and teaching

All modules (except for your research project) are taught through traditional lectures, tutorials, practicals and computer based sessions. We also employ blended learning, combining online learning with other teaching methods.

You’ll be taught about the underpinning science of the various imaging modalities, and we cover a range of clinical applications demonstrating the use of medical imaging in modern medicine. Many of the lecturers are at the forefront of research in their particular field and will bring insights from current clinical imaging practice and developments of new and emerging imaging techniques.

Assessment

The taught modules are assessed by coursework and unseen written examinations. Exams are held during the University exam periods in January and May.

The research project is assessed in separate stages, where you submit a 1,000-word essay (20%), a 5,000-word journal-style research article (70%) and make an oral presentation (10%).

Career opportunities

Past graduates have gone on to enter careers in medical imaging or related disciplines, such as radiology and radiography. Often students are already working in the area, and use the skills and knowledge gained in the programme to enhance their careers. Students have gone on to take lecturer or research positions, and have also chosen to take post graduate research degrees (such as a PhD). As a intercalated degree for medical students the programme is useful for students considering radiology or many other medical specialties.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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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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The MPhil degree offered by the Department of Oncology is a 12 month full time programme and involves minimal formal teaching; students are integrated into the research culture of the Department and the Institute in which they are based. Read more
The MPhil degree offered by the Department of Oncology is a 12 month full time programme and involves minimal formal teaching; students are integrated into the research culture of the Department and the Institute in which they are based.

Each student conducts their MPhil project under the direction of their Principal Supervisor, with additional teaching and guidance provided by a Second Supervisor and often a Practical Supervisor. The role of each Supervisor is:

- Principal Supervisor: takes responsibility for experimental oversight of the student's research project and provides day-to-day supervision.
- Second Supervisor: acts as a mentor to the student and is someone who can who can offer impartial advice. The Second Supervisor is a Group Leader or equivalent who is independent from the student's research group and is appointed by the Principal Supervisor before the student arrives.
- Practical Supervisor: provides day-to-day experimental supervision when the Principal Supervisor is unavailable, i.e. during very busy periods. The Practical Supervisor is a senior member of the student's research team and is appointed by the Principal Supervisor before the student arrives. For those Principal Supervisors who are unable to monitor their students on a daily basis, we would expect that they meet semi-formally with their student at least once a month.

The subject of the research project is determined during the application process and is influenced by the research interests of the student’s Principal Supervisor, i.e. students should apply to study with a Group Leader whose area of research most appeals to them. The Department of Oncology’s research interests focus on the prevention, diagnosis and treatments of cancer. This involves using a wide variety of research methods and techniques, encompassing basic laboratory science, translational research and clinical trials. Our students therefore have the opportunity to choose from an extensive range of cancer related research projects. In addition, being based on the Cambridge Biomedical Research Campus, our students also have access world leading scientists and state-of-the-art equipment.

To broaden their knowledge of their chosen field, students are strongly encouraged to attend relevant seminars, lectures and training courses. The Cambridge Cancer Cluster, of which we are a member department, provides the 'Lectures in Cancer Biology' seminar series, which is specifically designed to equip graduate students with a solid background in all major aspects of cancer biology. Students may also attend undergraduate lectures in their chosen field of research, if their Principal Supervisor considers this to be appropriate. We also require our students to attend their research group’s ‘research in progress/laboratory meetings’, at which they are expected to regularly present their ongoing work.

At the end of the course, examination for the MPhil degree involves submission of a written dissertation (of 20,000 words or less), followed by an oral examination based on both the dissertation and a broader knowledge of the chosen area of research.

Course objectives

The structure of the MPhil course is designed to produce graduates with rigorous research and analytical skills, who are exceptionally well-equipped to go onto doctoral research, or employment in industry and the public service.

The MPhil course provides:

- a period of sustained in-depth study of a specific topic;
- an environment that encourages the student’s originality and creativity in their research;
- skills to enable the student to critically examine the background literature relevant to their specific research area;
- the opportunity to develop skills in making and testing hypotheses, in developing new theories, and in planning and conducting experiments;
- the opportunity to expand the student’s knowledge of their research area, including its theoretical foundations and the specific techniques used to study it;
- the opportunity to gain knowledge of the broader field of cancer research;
- an environment in which to develop skills in written work, oral presentation and publishing the results of their research in high-profile scientific journals, through constructive feedback of written work and oral presentations.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvocmpmsc

Format

The MPhil course is a full time research course. Most research training provided within the structure of the student’s research group and is overseen by their Principal Supervisor. However, informal opportunities to develop research skills also exist through mentoring by fellow students and members of staff. To enhance their research, students are expected to attend seminars and graduate courses relevant to their area of interest. Students are also encouraged to undertake transferable skills training provided by the Graduate School of Life Sciences. At the end of the course, examination for the MPhil degree involves submission of a written dissertation, followed by an oral examination based on both the dissertation and a broader knowledge of the chosen area of research.

Learning Outcomes

At the end of their MPhil course, students should:

- have a thorough knowledge of the literature and a comprehensive understanding of scientific methods and techniques applicable to their own research;
- be able to demonstrate originality in the application of knowledge, together with a practical understanding of how research and enquiry are used to create and interpret knowledge in their field;
- the ability to critically evaluate current research and research techniques and methodologies;
- demonstrate self-direction and originality in tackling and solving problems;
- be able to act autonomously in the planning and implementation of research; and
- have developed skills in oral presentation, scientific writing and publishing the results of their research.

Assessment

Examination for the MPhil degree involves submission of a written dissertation of not more than 20,000 words in length, excluding figures, tables, footnotes, appendices and bibliography, on a subject approved by the Degree Committee for the Faculties of Clinical Medicine and Veterinary Medicine. This is followed by an oral examination based on both the dissertation and a broader knowledge of the chosen area of research.

Continuing

The MPhil Medical Sciences degree is designed to accommodate the needs of those students who have only one year available to them or, who have only managed to obtain funding for one year, i.e. it is not intended to be a probationary year for a three-year PhD degree. However, it is possible to continue from the MPhil to the PhD in Oncology (Basic Science) course via the following 2 options:

(i) Complete the MPhil then continue to the three-year PhD course:

If the student has time and funding for a further THREE years, after completion of their MPhil they may apply to be admitted to the PhD course as a continuing student. The student would be formally examined for the MPhil and if successful, they would then continue onto the three year PhD course as a probationary PhD student, i.e. the MPhil is not counted as the first year of the PhD degree; or

(ii) Transfer from the MPhil to the PhD course:

If the student has time and funding for only TWO more years, they can apply for permission to change their registration from the MPhil to probationary PhD; note, transfer must be approved before completion of the MPhil. If granted permission to change registration, the student will undergo a formal probationary PhD assessment (submission of a written report and an oral examination) towards the end of their first year and if successful, will then be registered for the PhD, i.e. the first year would count as the first year of the PhD degree.

Please note that continuation from the MPhil to the PhD, or changing registration is not automatic; all cases are judged on their own merits based on a number of factors including: evidence of progress and research potential; a sound research proposal; the availability of a suitable supervisor and of resources required for the research; acceptance by the Head of Department and Degree Committee.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

The Department of Oncology does not have specific funds for MPhil courses. However, applicants are encouraged to apply to University funding competitions: http://www.graduate.study.cam.ac.uk/finance/funding and the Cambridge Cancer Centre: http://www.cambridgecancercentre.org.uk/education-and-training

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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Why Surrey?. Our Medical Physics MSc programme is well-established and internationally renowned. We are accredited by IPEM (Institute of Physics and Engineering in Medicine) and we have trained some 1,000 medical physicists, so you can look forward to high-quality teaching during your time at Surrey. Read more

Why Surrey?

Our Medical Physics MSc programme is well-established and internationally renowned. We are accredited by IPEM (Institute of Physics and Engineering in Medicine) and we have trained some 1,000 medical physicists, so you can look forward to high-quality teaching during your time at Surrey.

Programme overview

The syllabus for the MSc in Medical Physics is designed to provide the knowledge, skills and experience required for a modern graduate medical physicist, placing more emphasis than many other courses on topics beyond ionising radiation (X-rays and radiotherapy).

Examples of other topics include magnetic resonance imaging and the use of lasers in medicine.

You will learn the theoretical foundations underpinning modern imaging and treatment modalities, and will gain a set of experimental skills essential in a modern medical physicist’s job.

These skills are gained through experimental sessions in the physics department and practical experiences at collaborating hospitals using state-of-the-art clinical facilities.

Why not discover more about our programme in our video?

Programme structure

This programme is studied full-time over one academic year. It consists of eight taught modules and a dissertation project. Part-time studemts study the same content over 2 academic years.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that all modules are compulsory, there are no optional modules, and may be subject to change.

Facilities, equipment and academic support

Common room

A student common room is available for the use of all Physics students.

Computers

The University has an extensive range of PC and UNIX machines, full internet access and email. The University has invested in resources to allow students to develop their IT skills. It also has an online learning environment, SurreyLearn. Computers are located in dedicated computer rooms. Access to these rooms is available 24 hours per day.

Prizes

Hounsfield Prize

A prize of £200 is awarded annually for the best dissertation on the Medical Physics programme. Sir Hounsfield was jointly awarded the Nobel Prize for Medicine in 1979 for his work on Computed Tomography.

Mayneord Prize

A prize of £200 in memory of Professor Valentine Mayneord will be awarded to the student with the best overall performance on the Medical Physics course. Professor Mayneord was one of the pioneers of medical physics, who had a long association with the Department and encouraged the growth of teaching and research in the field.

Knoll Prize

A prize of £300 in memory of Professor Glenn Knoll is awarded annually to the student with outstanding performance in Radiation Physics and Radiation Measurement on any of the department's MSc programmes. Professor Knoll was a world-leading authority in radiation detection, with a long association with the department

IPEM Student Prize (MSc Medical Physics)

A prize of £250 is awarded annually to a student with outstanding performance in their dissertation.

Educational aims of the programme

The programme integrates the acquisition of core scientific knowledge with the development of key practical skills with a focus on professional career development within medical physics and related industries. The principle educational aims and outcomes of learning are to provide participants with advanced knowledge, practical skills and understanding applied to medical physics, radiation detection instrumentation, radiation and environmental practice in an industrial or medical context. This is achieved by the development of the participants’ understanding of the underlying science and technology and by the participants gaining an understanding of the legal basis, practical implementation and organisational basis of medical physics and radiation measurement.

Global opportunities

We give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities and through our international research collaboration. Hence, it may be possible to carry out the dissertation project abroad.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Non-Medical Prescribing for Pharmacists Course Overview. The Postgraduate Certificate in Non-Medical Prescribing aims to prepare pharmacists to practice within current non-medical prescribing legislation. Read more

Non-Medical Prescribing for Pharmacists Course Overview

The Postgraduate Certificate in Non-Medical Prescribing aims to prepare pharmacists to practice within current non-medical prescribing legislation.

There will be two cohorts per year (subject to sufficient interest and professional body approval), starting in March and September each year. The Spring cohort will run every Wednesday from March to November (No lectures during August) and the Autumn cohort will be taught every Tuesday from September to the following March. Please contact the Non-Medical Prescribing programme manager on to discuss which cohort may be more appropriate for you.

Unfortunately the Non-Medical Prescribing for Pharmacists course is not available to international students.

Who should apply for the Non-Medical Prescribing programme?

Pharmacists who wish to develop prescribing practice within a clinical setting.

Non-Medical Prescribing Course Structure

The Non-Medical Prescribing for Pharmacists course is designed to develop the knowledge, skills and competency required to undertake the role of an independent non-medical prescriber. The course has been designed for multiple disciplines to learn together to develop prescribing practice within a clinical setting. 

The full Postgraduate Certificate in Non-Medical Prescribing for Pharmacists programme comprises one 40 credit module, SHGM22 Non-medical prescribing and one 20 credit module, Pharmacology principles and practice (NMC) SHGM23. The non-medical prescribing qualification annotated by the General Pharmaceutical Healthcare Council can be achieved by successful completion of a stand-alone 40 credit module, ‘Non-medical prescribing’ - SHGM22. Students wishing to complete the full Post Graduate Certificate in Non-Medical Prescribing for Pharmacists must also complete an optional 20 credit module, Pharmacology principles and practice (NMC) SHGM23.

The Non-Medical Prescribing for Pharmacists programme is taught at the St. David’s Park site in Carmarthen. Teaching takes place one day a week over the academic year.

Staff Expertise

The Non-Medical Prescribing for Pharmacists teaching team:

  • are very experienced in delivering prescribing programmes
  • have a wide range of relevant skills, experience and qualifications
  • are members of a range of prescribing forums and groups
  • have well established links with health board Non-Medical Prescribing Leads throughout the region 

Postgraduate Community

The College of Human and Health Sciences has a vibrant postgraduate community with students drawn from a variety of backgrounds and nationalities. The College is known for its friendly, welcoming and supportive environment, which combined with its extensive facilities, state-of-the-art technology and superb beachside location, helps to ensure that students benefit from an exceptional student experience. 

Facilities 

In addition, students have access to a wide range of excellent facilities and equipment for realistic workplace experiences.



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Your programme of study. If you want to study Medical Physics with applications in nuclear medicine, radiotherapy, electronics and MRI University of Aberdeen has an world renowned historic reputation within major global innovation in this health area. Read more

Your programme of study

If you want to study Medical Physics with applications in nuclear medicine, radiotherapy, electronics and MRI University of Aberdeen has an world renowned historic reputation within major global innovation in this health area. Did you know the first MRI (Magnetic Resonance Imaging) scanner was invented at Aberdeen over 30 years ago? Major innovations to this technology are still being researched at Aberdeen today. You learn everything you need to know as an advanced grounding in medical physics such as understanding anatomy and how cells are altered by disease. You look at the engineering behind MRI and other visual scanning techniques to understand how applications are made in areas such as nuclear, Positron, Tomography, Radio diagnosis (X-ray), MRI and Ultrasound. You understand radiation and you apply electronics and computing to medical physics. The degree ensures plenty of practical understanding and application and you learn MRI within the department that built it.

If you want to work within imaging and medical physics to pursue a medical career in hospitals, industry and healthcare and diagnose disease by different methods of imaging the degree in Medical Physics will help you towards this goal. You can also develop your own research portfolio and PhD from this MSc and work within academia to pursue innovation in the discipline.

You receive a thorough academic grounding in Medical Physics, are exposed to its practice in a hospital environment, and complete a short research project. Many graduates take up careers in health service medical physics, either in the UK or their home country. The MSc programme is accredited by the Institute of Physics & Engineering in Medicine as fulfilling part of the training requirements for those wishing to work in the NHS. You can also work as a researcher, risk manager, radiation physics specialist and within the medical device industry in product development and innovation.

Courses listed for the programme

Semester 1

  • Biomedical and Professional Topics in Healthcare Science
  • Imaging in Medicine
  • Radiation in Medicine
  • Computing and Electronics in Medicine
  • Generic Skills

Semester 2

  • Radiation and Radiation Physics
  • Nuclear Medicine and Post Emission Tomography
  • Magnetic Resonance Imaging
  • Medical Electronics and Instrumentation
  • Medical Image Processing and Analysis
  • Diagnostic Radiology and Radiation Protection

Semester 3

  • Project Programmes in Medical Physics and Medical Imaging

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • You are taught by renowned researchers with opportunity to contribute to the expanding research portfolio
  • You learn in a cutting edge medical facility adjacent to the teaching hospital including a PET-CT scanner, radiotherapy centre and linac treatment machines, plus MRI scanners
  • The MRI scanner was invented and developed at University of Aberdeen

Where you study

  • University of Aberdeen
  • 12 months or 24 months
  • Full time or Part Time
  • September start

International Student Fees 2017/2018

Find out about fees

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs:



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Designed by the Royal College of Physicians and UCL to meet the requirements of doctors who are intending to have a significant role in medical education, these programmes are taken sequentially starting with the Postgraduate Certificate in year one, the Postgraduate Diploma in year two, and finally the Master's in year three. Read more

Designed by the Royal College of Physicians and UCL to meet the requirements of doctors who are intending to have a significant role in medical education, these programmes are taken sequentially starting with the Postgraduate Certificate in year one, the Postgraduate Diploma in year two, and finally the Master's in year three.

About this degree

Participants develop the ability to: adopt a learner-centred teaching approach, structure teaching, and set objectives that enhance their students' learning; apply educational theory and research to their own teaching practice; recognise how assessment theory should inform practice in assessment of medical competence; and appraise both medical trainees and peers.

Students undertake modules to the value of 180 credits.

The MSc programme consists of eight core modules (120 credits), and a research project (60 credits).

A Postgraduate Diploma comprising eight core modules (120 credits, part-time two years) is offered.

A Postgraduate Certificate comprising four core modules (60 credits, part-time one year) is offered.

Core modules

  • Teaching and Learning in Medicine I
  • Teaching and Learning in Medicine II
  • Assessment in Medical Education
  • Educational Supervision and Clinical Teaching
  • Advanced Teaching Skills
  • Research Methods in Medical Education
  • Course and Curriculum Design in Medical Education
  • Advanced Clinical Education

Optional modules

  • There are no optional modules for this programme.

Dissertation/report

All MSc students undertake an individual research project which culminates in a dissertation of 15,000 - 20,000 words.

Teaching and learning

The programmes are part-time, requiring onsite attendance only during the contact days of teaching sessions and tutorials, which include workshop style discussion and practical application 'simulation' sessions. Assessment is through evaluative reports, investigative study proposal and report, a viva during the final stage and the dissertation. 

UCL regulations require attendance for 70% or more of the module's face-to-face teaching before a student is eligible to submit the assessment for that module.

Further information on modules and degree structure is available on the department website: Medical Education MSc

Careers

Whilst many clinical practitioners will continue to practise as doctors, this award carries with it the opportunity to develop a formal role in either undergraduate or postgraduate education. This programme has helped our graduates obtain high-quality posts as NHS consultants or academics in a university setting.

Recent career destinations for this degree

  • Consultant Gastroenterologist, The Great Western Hospital (NHS)
  • Medical Consultant, Addenbrooke's Hospital (NHS)

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

UCL Medical School co-ordinates developments in medical teaching and education and addresses curriculum development, academic standards, the assessment process, clinical and generic skills acquisition and research in medical education.

Our programmes, taught with the Royal College of Physicians, enable participants to gain greater knowledge of teaching and learning processes, develop practical skills and techniques, and gain a deeper understanding of the evidence and theory underpinning current thinking in medical education.

Students benefit from the Jerwood Resource Centre, a world-class medical education library. Collaboration with the Royal College of Physicians attracts teaching input from experts from across the UK.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: UCL Medical School

80% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Your programme of study. If you are interested in medical imaging and highly sophisticated ways of assisting in diagnostics visually the medical imaging programme comes from a long heritage of major world innovation which was led by research at Aberdeen. Read more

Your programme of study

If you are interested in medical imaging and highly sophisticated ways of assisting in diagnostics visually the medical imaging programme comes from a long heritage of major world innovation which was led by research at Aberdeen. Did you know researchers at Aberdeen invented the first MRI scanner (Magnetic Resonance Imaging) for instance? Since this time much has been done to further work on the MRI scanner and deliver some of the most advanced forms of body visualisation tools available to the health area. If you have ever wondered how X rays work or you are interested in the latest radiotherapy techniques to provide therapeutic tools from radiographic equipment and advances this programme not only gives you the theory and practice in applying imaging in a health setting, it also gives you opportunities to think about the technologies involved and the applications. There is a lot of Physics and Maths required behind the different technologies involved in medical imaging so if you have these subjects and a life science background plus engineering or similar science disciplines this will make the programme more accessible.

By the end of the MSc programme you will have received a thorough academic grounding in Medical Imaging, been exposed to the practice of Medical Imaging in a hospital Department, and carried out a short research project. The MSc programme is accredited by the Institute of Physics & Engineering in Medicine as fulfilling part of the training requirements for those wishing to work in the NHS. There are wide ranging career possibilities after graduation. You may wish to go straight into clinic settings to apply your skills within diagnostics or you may wish to study further for a PhD towards teaching or researching. There have also been spin out companies as a result of understanding and applying imaging technologies towards innovative applications. This subject also aligns with some major innovations in Photonics and other areas of medical science which you may like to explore further if you are interested in invention and innovation at the Scottish Innovation Centres: http://www.innovationcentres.scot/

Courses listed for the programme

Semester 1

  • Radiation in Imaging
  • Introduction to Computing and Image Processing
  • Biomedical and Professional Topics in Healthcare Science
  • Imaging in Medicine
  • Generic Skills

Semester 2

  • Nuclear Medicine and Positron Emission Tomography
  • Magnetic Resonance Imaging
  • Medical Image Processing and Analysis
  • Diagnostic and Radiation Protection

Semester 3

  • MSc Project for Programme in Medical Physics and Medical Imaging

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • You have the opportunity to contribute research within the department, expanding the knowledge of medical imaging technology within the largest teaching hospital and Medical School in Europe
  • You have access to a PET-CT scanner, new radiotherapy centre and linac treatment machines.
  • The university won the Queens Anniversary Prize in recognition of achievements in new medical imaging techniques
  • The MRI scanner was invented at the University over 30 years ago - a major innovation which has been global in impact

Where you study

  • University of Aberdeen
  • 12 or 24 months
  • Full Time or Part Time
  • September start

International Student Fees 2017/2018

Find out about fees

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs



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Our Medical Sciences MSc provides you with a broad education in medical sciences at Master's level. A major strength of the course is its clinical and translational nature. Read more
Our Medical Sciences MSc provides you with a broad education in medical sciences at Master's level. A major strength of the course is its clinical and translational nature. Expert scientists and clinicians from the Faculty of Medical Sciences deliver the taught modules.

The Medical Sciences MSc has a flexible modular structure that is designed to provide a broad-based training in current knowledge and research in medical sciences, medicine and dentistry. You are encouraged to tailor your course to suit your background, interests and career aspirations. This is done through selection of three taught modules in the first semester and your choice of dissertation research topic, upon which you will work full-time in the third semester. You will be supervised for your dissertation in a Research Institute or associated NHS department.

As a student on this course you will:
-Study diverse aspects of medical sciences, through structured, subject-based modules
-Acquire advanced knowledge and critical awareness in different areas of medical sciences and medicine
-Acquire knowledge and develop understanding of aspects of medical sciences research practice and of relevant legal, ethical and safety considerations
-Gain experience of hypothesis-led medical research endeavours through personal involvement in a dissertation
-Engage in research, analysis and presentation of research findings, and presentation of scientific hypotheses, data and interpretation in the context of current scientific and medical literature

Our graduates have progressed on to further postgraduate research in dentistry and medicine, and pursued careers in academia, medicine, dentistry, health sciences and the pharmaceutical industry.

The Faculty of Medical Sciences is a recognised national centre of excellence. It brings together internationally acknowledged research in clinical care, medicine, dentistry, pure science and engineering to tackle challenges in health and healthcare. Key research areas include:
-Ageing
-Stem cells
-Cancer
-Cell biology
-Genetics
-Drug development
-Medicine in society
-Neuroscience
-Oral health.

Personal tutors

You will be given a personal tutor shortly after registration. The role of your personal tutor is to support you during your time at Newcastle. Your personal tutor will discuss your academic progress, career intentions and any issues that concern you. They will also act as your academic referee. You should arrange to meet your personal tutor in the orientation and induction week, or as early as possible.

Delivery

The Medical Sciences MSc is an intensive taught course delivered by the Faculty of Medical Sciences and is based on the Newcastle University campus.

In semester one, you will follow three 20-credit subject-focused optional modules. Most modules are taught in either the morning or afternoon of one day each week. There are in-course assessments and you are expected to engage in self-directed study. Lectures, seminars, and tutorials are led by Newcastle University academics or clinicians based in associated NHS Foundation Trusts.

In semester two, you will follow additional two 20-credit subject-focused and compulsory modules.

Alongside the subject-focussed modules, you will also be enrolled in a compulsory research skills module. This explores the basic principles of good practice in relation to experimental design, statistical analysis and ethics that underlie all aspects of research in the biosciences.

In semester three, you work full-time within a research group. This experience provides an excellent opportunity to work in a professional environment. You will benefit from interactions with research students, junior and senior research scientists, established academics and healthcare professionals. In the third semester you work exclusively on your selected dissertation. You will experience
•hypothesis-led medical research and analysis
•presentation of research findings and scientific hypotheses
•data interpretation in the context of current scientific literature.

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Our MSc Medical Virology course covers the medical and molecular aspects of virology, bacteriology and mycology, as well as immunity to infection and epidemiology. Read more

Our MSc Medical Virology course covers the medical and molecular aspects of virology, bacteriology and mycology, as well as immunity to infection and epidemiology.

In the era of AIDS, avian and swine influenza, and other emerging viral infections, the importance of medical virology as a co-discipline with medical microbiology is increasingly being recognised.

You will explore the current issues and concepts in medical virology, and acquire the academic and practical skills necessary to make independent, informed judgements in relation to these issues.

A unique feature of our course is the focus on practical, laboratory-based teaching; you will spend time in the laboratory, learning how to be a virologist.

At the end of our course, you will be prepared for a career in clinical sciences or academic or industrial research.

This course runs alongside our MSc Medical Microbiology course.

Aims

We aim to provide you with an understanding of and expertise in microbiology, with a particular focus on medical virology.

You will develop an understanding of the scientific basis of established and novel medical virology concepts, as well as the specialist knowledge, practical skills and critical awareness required to pursue a career in medical virology.

Special features

IBMS accreditation

This course is accredited by the Institute of Biomedical Science and meets the requirements for registration with the Science Council as a Chartered Scientist (CSci).

Extensive practical learning

The lab-focused nature of this course means you will gain maximum exposure to both the practical and theoretical aspects of a wide range of clinically relevant pathogens, helping develop practical skills that are valued by potential employers.

Various study options

You can study either full-time or part-time on both the MSc and PGDip routes, enabling you to fit learning around your other commitments if needed.

Teaching and learning

This course is delivered by academics from the University and NHS specialists in infectious disease and medical microbiology.

You will learn via a range of methods, including lectures, seminars, tutorials and comprehensive practical classes.

We use both face-to-face sessions and blended learning methods, with some material delivered and assessed online.

Find out more by visiting the postgraduate teaching and learning page.

Coursework and assessment

You will be assessed via continual assessment and formal theory and practical examinations.

Course unit details

The course consists of 120 credits of taught material and followed by a 60-credit research project (MSc only). Some units are shared with the MSc Medical Microbiology course. The taught units are as follows:

Shared units

  • Principles of Microbiology (15 credits)
  • Research Methods (15 credits)
  • Understanding Infection (15 credits)
  • Microbial Pathogenesis (15 credits)
  • Molecular Diagnostics (15 credits)
  • Global Health and Epidemiology (15 credits)

Course-specific units

  • Clinical Virology 1 (15 credits)
  • Clinical Virology 2 (15 credits)

All MSc students carry out a three-month research project in medical virology.

Full-time (FT) students take the above units and research project in Year 1. Part-time (PT) students can undertake the MSc over two years, one full semester per year.

Facilities

This course is based in Stopford Building on Oxford Road, where you will find state-of-the-art teaching and research laboratories, a student common room and good access to University computing clusters.

You will attend lectures across the University campus.

You will be able to access a range of facilities throughout the University.

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service .

Career opportunities

Our graduates typically find employment in the NHS and related organisations, or as medical microbiologists in industrial and pharmaceutical settings.

In addition, many graduates progress to PhD study and a research or academic career.

The course is also useful if you work or plan to work in developing countries that need expertise in the existing and emerging virological and microbiological challenges facing developing communities.

Accrediting organisations

Our MSc is accredited by the Institute of Biomedical Science (IBMS).



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The Department of Psychiatry is an internationally leading centre for research and teaching in psychiatry, with particular focus on the determinants of mental health conditions, their treatments and the promotion of mental health through innovative translational research. Read more
The Department of Psychiatry is an internationally leading centre for research and teaching in psychiatry, with particular focus on the determinants of mental health conditions, their treatments and the promotion of mental health through innovative translational research. The Department’s senior staff support several research groups, covering various aspects of mental health and disorder throughout the life course.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvpcmpmsc

Course detail

The MPhil degree offered by the Department of Psychiatry is a 12 month full time programme and involves minimal formal teaching; students are integrated into the research culture of the Department and the Institute in which they are based.

Each student conducts their MPhil project under the direction of their Principal Supervisor, with additional teaching and guidance provided by an Advisor, to increase access to staff members and accommodate a diversity of viewpoints.

The subject of the research project is determined during the application process and is influenced by the research interests of the student’s supervisor, i.e. students should apply to study with a group leader whose area of research most appeals to them.

To broaden their knowledge of their chosen field, students are strongly encouraged to attend relevant seminars, lectures and training courses. We also require our students to attend their research group’s research-in-progress/laboratory meetings, at which they are expected to regularly present their ongoing work.

Format

The MPhil course is a full time research course. The supervisor and details of the proposed research project are determined during the application process.

Most research training is provided within the structure of the student’s research group and is overseen by their Principal Supervisor. The student should expect to receive one to one supervision at least weekly in term time.

The structure of the MPhil course enables the students to significantly develop their analytical and research skills, and is intended as preparation for further research.

The MPhil programme provides:

- a period of sustained in-depth study of a specific topic;
- an environment that encourages the student’s originality and creativity in their research;
- skills to enable the student to critically examine the background literature relevant to their specific research area;
the opportunity to develop skills in making and testing hypotheses, in developing new theories, and in planning and conducting experiments;
- the opportunity to expand the student’s knowledge of their research area, including its theoretical foundations and the specific techniques used to study it;
- the opportunity to gain knowledge of the broader field of research in psychiatry;
- an environment in which to develop skills in written work, oral presentation and publishing the results of their research in high-profile scientific journals, through constructive feedback of written work and oral presentations.

At the end of the course, examination for the MPhil degree involves submission of a written dissertation, followed by an oral examination based on both the dissertation and a broader knowledge of the chosen area of research.

Continuing

The MPhil in Medical Science (Psychiatry) degree is a one-year degree, i.e. it is not intended to be a probationary year for a three-year PhD degree.

However, it is possible to continue from the MPhil to the PhD in Psychiatry course via the following options:

1. Complete the MPhil then continue to the three year PhD course:

If the student would like to continue with their research and has secured funding for a further THREE years, after completion of their MPhil they may apply to be admitted to the PhD course as a continuing student. The student would be formally examined for the MPhil and if successful, they would then continue onto the three year PhD course as a probationary PhD student, i.e. the MPhil is not counted as the first year of the PhD degree; or

2. Transfer from the MPhil to the PhD course:

If the student has time and funding for only TWO more years, they can apply for permission to change their registration from the MPhil to probationary PhD; note, transfer must be approved before completion of the MPhil.

If granted permission to change registration, the student will undergo a formal probationary PhD assessment (submission of a written report and an oral examination) towards the end of their first year and if successful, will then be registered for the PhD, i.e. the first year would count as the first year of the PhD degree.

Please note that continuation from the MPhil to the PhD, or changing registration is not automatic; all cases are judged on their own merits based on a number of factors including: evidence of progress and research potential; a sound research proposal; the availability of a suitable supervisor and of resources required for the research; acceptance by the Head of Department and Degree Committee.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Pinsent Darwin Fund (managed by the Graduate School of Life Sciences)

Sims Fund (administered by Fees & Graduate Funding, Student Registry)

Other funding opportunities (e.g. through research grants) might become available depending on funds

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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The MSc in Electronics with Medical Instrumentation aims to produce postgraduates with an ability to design and implement medical instrumentation based systems used for monitoring, detecting and analysing biomedical data. Read more
The MSc in Electronics with Medical Instrumentation aims to produce postgraduates with an ability to design and implement medical instrumentation based systems used for monitoring, detecting and analysing biomedical data. The course will provide ample opportunity to develop practical skill sets. The student will also develop an in-depth understanding of the scientific principles and use of the underlying components such as medical transducers, biosensors and state-of-the-art tools and algorithms used to implement and test diagnostic devices, therapeutic devices, medical imaging equipment and medical instrumentation devices.

The course broadens the discussion of medical equipment and its design by investigating a range of issues including medical equipment regulation, user requirements, impacts of risk, regulatory practice, legislation, quality insurance mechanisms, certification, ethics and ‘health and safety’ assessment. The course will enable a student with an interest in medical electronics to re-focus existing knowledge gained in software engineering, embedded systems engineering and/or electronic systems engineering and will deliver a set specialist practical skills and a deeper understanding of the underlying principles of medical physics. A graduate from this course will be able to immediately participate in this multi-disciplined engineering sector of biomedical and medical instrumentation systems design.

Course structure

Each MSc course consists of three learning modules (40 credits each) plus an individual project (60 credits). Each learning module consists of a short course of lectures and initial hands-on experience. This is followed by a period of independent study supported by a series of tutorials. During this time you complete an Independent Learning Package (ILP). The ILP is matched to the learning outcomes of the module. It can be either a large project or a series of small tasks depending on the needs of each module. Credits for each module are awarded following the submission of a completed ILP and its successful defence in a viva voce examination. This form of assessment develops your communication and personal skills and is highly relevant to the workplace. Overall, each learning module comprises approximately 400 hours of study.

The project counts for one third of the course and involves undertaking a substantial research or product development project. For part-time students, this can be linked to their employment. It is undertaken in two phases. In the first part, the project subject area is researched and a workplan developed. The second part involves the main research and development activity. In all, the project requires approximately 600 hours of work.

Further flexibility is provided within the structure of the courses in that you can study related topic areas by taking modules from other courses as options (pre-requisite knowledge and skills permitting).

Prior to starting your course, you are sent a Course Information and Preparation Pack which provides information to give you a flying start.

MSc Electronics Suite of Courses

The MSc in Electronics has four distinct pathways:
-Robotic and Control Systems
-Embedded Systems
-System-on-Chip Technologies
-Medical Instrumentation

The subject areas covered within the four pathways of the electronic suite of MSc courses offer students an excellent launch pad which will enable the successful graduate to enter into these ever expanding, fast growing and dominant areas. With ever increasing demands from consumers such as portability, increased battery life and greater functionality combined with reductions in cost and shrinking scales of technologies, modern electronic systems are finding ever more application areas.

A vastly expanding application base for electronic systems has led to an explosion in the use of embedded system technologies. Part of this expansion has been led by the introduction of new medical devices and robotic devices entering the main stream consumer market. Industry has also fed the increase in demand particularly within the medical electronics area with the need of more sophisticated user interfaces, demands to reduce equipment costs, demands for greater accessibility of equipment and a demand for ever greater portability of equipment.

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