The Aerospace Medicine course aims to provide medical graduates with advanced theoretical and practical training in the physiology, psychology and clinical medicine of humans exposed to or working in the aviation environment.
The programme will also prepare students for the examination in the Diploma in Aviation Medicine, DAVMed which is run through the Faculty of Occupational Medicine (FOM). More details can be found here
The Aerospace Medicine course is a unique study pathway that provides physicians with comprehensive theoretical and practical instruction in advanced aviation physiology, psychology, pathology, clinical and operational aviation medicine.
This course includes time based at the RAF Centre of Aviation Medicine (CAM), as the Centre provides an appropriate location for valuable elements of the teaching and visits to some of the service and civilian establishments used. The Centre also offers unique practical facilities which are available to students on the course.
You will complete the MSc course in one year, studying September to September. If you are following the MSc pathway, you must take modules totalling 180 credits to meet the requirements of the qualification, of which 60 will come from a research project and written dissertation.
The Postgraduate Diploma pathway requires modules with a total of 120 credits to complete the programme and can be conducted in just over six months.
If carrying out the MSc you will receive approximately 510 contact hours at King’s and various external study locations, primarily the RAF Centre for Aviation Medicine at Henlow – this includes lectures, seminars, practical sessions.
If you are studying for the full MSc qualification, you will be expected to spend approximately 600 hours on the research project module and thesis.
The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However, they may change if the course modules change.
The primary method of assessment for this course is a combination of oral presentations, written assignments and written examinations.
The MSc research project and dissertation will be assessed on an extended piece of writing.
The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However, they may change if the course modules change.
The course at King’s is delivered at an approved centre of the Royal College of Physicians (RCP) to specifically deliver education and training for individuals wishing to take the RCP, Faculty of Occupational Medicine examination leading to the award of the Diploma in Aviation Medicine.
This course is primarily taught at the King’s College London Guy’s campus, with some teaching at the RAF Centre of Aviation Medicine at Henlow as well as other locations, mainly in the UK but commonly with one overseas visit. Please note that locations are determined by where each module is taught and may vary.
Career opportunities in aerospace medicine are varied. Many undertaking specialist training have already been employed specifically for the role and are sponsored to undertake these courses. However others use such training so as to better equip themselves for potential employment.
Areas of possible careers include with airlines, aviation regulators, air traffic services, military aviation and space agencies as well as in academic or commercial research organisations. Some aviation medical examiners (AMEs) undertake the DAvMed. Appointment as an AME in the UK is now restricted to doctors on the GMC specialist register.
Previous graduates of the M.Sc programme and DAvMed courses have been employed in all these areas and enjoyed a varied and challenging career.
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Medicine and Life Sciences at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
The MRes in Medicine and Life Sciences is a one year full time programme, which provides an ideal opportunity and environment in which to gain practical training in Research Methods and to join a thriving research team within Swansea University College of Medicine. The Medicine and Life Sciences course has been developed with an emphasis on providing students with a research-oriented approach to their learning. Students are able to tailor their studies towards a career in one of the College’s internationally recognised research themes:
– Biomarkers and Genes,
– Microbes and Immunity,
– Patient & Population Health and Informatics.
The Medicine and Life Sciences programme is committed to supporting the development of evidence within the areas of Health, Medicine and Life Science through the training of researchers whose findings will directly inform their own understanding and that of others. The ethos of this programme is to produce graduates with the research skill and knowledge to become effective researchers, who will contribute to the body of knowledge within their chosen area of interest that will have an impact upon the health and well-being of all.
- The advantage of a MRes over other formats is that it provides a structured yet in-depth approach, taking the taught component of FHEQ Level 7 teaching as a framework for conducting research on the candidates own practice.
- Innovative and integrated curriculum that reflects the various aspects of the research process.
- Multidisciplinary teaching team with vast experience and expertise in conducting high quality research.
- Research informed teaching.
- Teaching is supported by online learning and support.
-Flexibility for you to gain specialist knowledge.
- A one year full-time taught masters programme designed to develop the essential skills and knowledge required for a successful research career.
- This course is also available for two years part-time study.
- The opportunity to conduct an individual research project with an interdisciplinary team within a supportive environment.
- Students will be assigned a research-active supervisory team
The aim of the MRes in Medicine and Life Sciences is to provide students with a broad research training to prepare them for a research career in Medical and Life Science research with emphasis on: Biomarkers & Genes, Devices, Microbes & Immunity, and Patient & Population Health and Informatics. The course has been developed to enable graduates to pursue a variety of research careers in Medical and Life Sciences. The programme comprises both taught and research elements.
By the end of the Medicine and Life Sciences programme students will have:
Developed necessary skills to critically interpret and evaluate research evidence; Gained experience the in analysis and interpretation of research data; Advanced knowledge at the forefront of Medical and Life Science research, with the ability to integrate the theoretical and practical elements of research training; Developed the ability to conceptualise, design and implement a research project for the generation of new evidence that informs Health, Medicine and Life Science; Developed practical research skills by working with an interdisciplinary research team; The ability to confidently communicate research ideas and conclusions clearly and effectively to specialist and non-specialist audiences; Acquired transferable skills which enhance your employability and future research career.
Modules on the Medicine and Life Sciences course may include:
PMRM01 Critical Appraisal and Evaluation
PMRM02 Data Analysis for Health and Medical Sciences
PMRM03 Research Leadership and Project Management OR any topic specific FHEQ Level 7 module from the College of Medicine ’s portfolio
Mode of delivery:
The 60 credits of the taught element will be delivered face-to-face, combining formal lecturing, seminars, and group work in addition to tutor-led practical classes. The remaining 120 credits for the research element will be available as distance learning either off or on-site. Irrespective of the location for conducting the research project, students will supported through monthly online (Skype)/or face-to-face supervisory meetings.
Students must complete 3 modules of 20 credits each and produce a 120 credits thesis on a research project aligned to one the College’s research theme. Each taught module of the programme requires a short period of attendance that is augmented by preparatory and reflective material supplied via the course website before and after attendance.
The Medicine and Life Sciences programme is designed in two phases:
Phase 1 – Training and Application (October – January; 60 credits)
Taught modules in Research Methods and their application to Medicine and Life Science. Personalised education and training relevant to student’s research interests. Identification of research questions and how they might be addressed.Focused on students existing knowledge and research skills.
Phase 2 – Research Project (February – September; 120 credits)
The project is selected by the student in combination with an academic supervisory team. Focussed on one of the College’s four main research themes: Biomarkers and Genes, Devices, Microbes and Immunity, and Patient & Population Health and Informatics. At the end of Part 2 students submit a 40,000 word thesis worth 120 credits leading to the award of Master of Research in Medicine and Life Science.
Students are required to attend the University for 1 week (5 consecutive days) for each module in Phase One. Attendance during Phase Two is negotiated with the supervisor.
You are also encouraged to attend the Postgraduate Taught Induction Event during the induction week and any programme associated seminars, together with Postgraduate research events.
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Tissue Engineering and Regenerative Medicine at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
Every day we are hearing of ground breaking advances in the field of tissue engineering which offer tremendous potential for the future of regenerative medicine and health care. Staff at Swansea University are active in many aspects of tissue engineering.
We are actively researching many aspects of tissue engineering including the following areas:
- Characterisation and control of the stem cell niche
- Mechanical characterisation of stem cells and tissues
- Production of novel scaffolds for tissue engineering
- Electrospinning of scaffold materials
- Cartilage repair and replacement
- Bone repair and replacement
- The application of nanotechnology to regenerative medicine
- Wound healing engineering
- Reproductive Immunobiology
- Bioreactor design
As an MSc By Research Tissue Engineering and Regenerative Medicine student, you will join one of the teams at Swansea University working in tissue engineering and use state of the art research equipment within the Centre for NanoHealth, a collaborative initiative between the College of Engineering and Swansea University Medical School.
The MSc by Research in Tissue Engineering and Regenerative Medicine typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.
The aim of this MSc by Research in Tissue Engineering and Regenerative Medicine is to provide you with a solid grounding within the field of tissue engineering and its application within regenerative medicine.
This will be achieved through a year of research in a relevant area of tissue engineering identified after discussion with Swansea academic staff. Working with two academic supervisors you will undertake a comprehensive literature survey which will enable the formulation of an experimental research programme.
As a student on the MSc by Research Tissue Engineering and Regenerative Medicine course, you will be given the relevant laboratory training to undertake the research program. The research will be written up as a thesis that is examined. You will also be encouraged to present your work in the form of scientific communications such as journals and conference poster presentation.
The MSc by Research in Tissue Engineering and Regenerative Medicine will equip you with a wealth of research experience and knowledge that will benefit your future career in academia or the health care industries.
Recent MSc by Research theses supervised in the area of Tissue Engineering at Swansea University include:
- Quality assurance of human stem cell/primary cell bank
- The development of electrospinning techniques for the production of novel tissue engineering scaffolds.
- The incorporation of pulsed electromagnetic fields into wound dressings.
- The application of pulsed electromagnetic fields for improved wound healing.
- The use of nanoparticles in the control of bacterial biofilms in chronic wounds.
- The control of bacterial adhesion at surfaces relevant to regenerative medicine.
- The production of micro-porous particles for bone repair
The £22 million Centre for Nanohealth is a unique facility linking engineering and medicine, and will house a unique micro-nanofabrication clean room embedded within a biological research laboratory and with immediate access to clinical research facilities run by local NHS clinicians.
The academic staff of the Medical Engineering discipline have always had a good relationship with industrial organisations. The industrial input ranges from site visits to seminars delivered by clinical contacts.
The close proximity of Swansea University to two of the largest NHS Trusts in the UK outside of London also offers the opportunity for collaborative research.
The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.
The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.
Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.
Highlights of the Engineering results according to the General Engineering Unit of Assessment:
Research Environment at Swansea ranked 2nd in the UK
Research Impact ranked 10th in the UK
Research Power (3*/4* Equivalent staff) ranked 10th in the UK
Geared both to philosophy graduates, as a pathway into research in Philosophy of Medicine & Psychiatry, and medical (and other) graduates, to introduce them to key concepts, arguments, texts and techniques in the Philosophy of Medicine & Psychiatry.
The course provides opportunities for students to develop and demonstrate knowledge, understanding and skills in Philosophy of Medicine & Psychiatry. They will also have the opportunity to study other areas of Philosophy, selected from a broad range of modules, covering all areas of the subject.
The programme provides opportunities for students to develop and demonstrate knowledge, understanding and skills in Philosophy of Medicine & Psychiatry. They will also have the opportunity to study other areas of Philosophy, selected from a broad range of modules, covering all areas of the subject. If you are converting from other subjects at undergraduate level, you will be strongly encouraged to take our 'General Philosophy' module as one of your options which will introduce you to key theories and arguments, concepts and terminology, and classic texts from right across the philosophical spectrum. Whether you are a philosophy graduate or studying the subject with us for the first time, our course will provide a firm foundation for subsequent doctoral research.
Over the course you will be required to study modules on the Philosophy of Medicine and The Concept of Mental Disorder, each worth 20 credits.
You will also write a dissertation of around 10,000 - 12,000 words, on a topic in the philosophy of medicine, worth 60 credits.
Aside from this you are free to choose around four modules from the Department of Philosophy's master's courses. One of these modules can be chosen from outside the department with permission.
The programme is geared equally to students who already have some training in Philosophy, Medicine, or Psychiatry and to those who wish to convert into the field of Philosophy of Medicine & Psychiatry after pursuing another subject at undergraduate level (which may be, but need not be, Medicine). It will enable the former students to consolidate their existing knowledge and to augment it with a close focus on issues in the Philosophy of Medicine & Psychiatry. The latter students will normally be expected (though not strictly required) to take a special ‘General Philosophy’ module, which will introduce them to key theories and arguments, concepts and terminology, and classic texts from right across the philosophical spectrum. For students of both kinds, the programme will provide a firm foundation for subsequent doctoral research.
We will teach you through lectures and seminars. Typically, each optional module will take 2-4hours a week.
You will be assessed through a combination of examination and coursework, as well as a dissertation.
Our graduates usually continue to further research, but many have also entered into the fields of teaching, management and the financial or the public sectors.