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University of Edinburgh, Full Time Masters Degrees in Medicine

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The pharmaceutical and life sciences industries are investing in stem cells, either in direct applications where the stem cells themselves would be used for therapy or indirectly, where stem cell derived tissues will be used for drug screening and toxicity testing. Read more

Programme description

The pharmaceutical and life sciences industries are investing in stem cells, either in direct applications where the stem cells themselves would be used for therapy or indirectly, where stem cell derived tissues will be used for drug screening and toxicity testing.

This programme is intended to meet current and future needs of the pharmaceutical industry and health care providers by providing a cadre of well-trained scientists capable of fulfilling managerial, administrative, research and technical roles within the developing commercial regenerative medicine sector.

Our programme covers key theoretical and practical aspects of the growth and maintenance of pluripotent stem cell lines, the directed differentiation of these cells into defined tissue phenotypes, and the maintenance of the differentiated state under conditions suitable for drug testing/screening programs.

Essential elements of good practice will also be included, such as quality assurance and the regulatory framework that surrounds the derivation, storage and use of human cells.

Our teaching is multidisciplinary, with contributions from the fields of medicine, biology, chemistry and bioinformatics.

Programme structure

The programme contains both taught and independent project components.

Compulsory courses:
Fundamental Biology of Stem Cells
Basic Techniques in Regenerative Medicine
Stem Cells and Regenerative Medicine
Production of Differentiated Cells
Regenerative Medicine and the Clinic or Regenerative Medicine and Industry

Industrial placement:
There will be an industrial placement of three months, situated within a life sciences company specialising in aspects of regenerative medicine. Financial assistance may be available to cover travel expenses to the location of the industrial placement.

Career opportunities

Graduates will be equipped for a variety of roles within the developing commercial regenerative medicine sector.

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The central goal of the Division of Pathway Medicine (DPM) is to integrate post-genomic science with medicine in order to provide a better understanding of disease processes. Read more

Research profile

The central goal of the Division of Pathway Medicine (DPM) is to integrate post-genomic science with medicine in order to provide a better understanding of disease processes. This will provide the basis for the development of new medical innovations for the diagnosis and treatment of human diseases. To do this the DPM promotes multidisciplinary interactions between science and medicine.

The DPM has two main research themes:

Pathway biology of infection and immunity. This involves the study of host-pathogen interaction in immune cells and the modelling of molecular pathways that control immune cell function in health and disease. Techniques and approaches utilised in this theme are also being applied to the study of other disease processes.

Biochip medicine in systemic response to disease. This programme involves the development of advanced biochip techniques and platforms for translating genomic and pathway research into clinical healthcare. This is a highly disciplinary approach involving the integration of biological and physical sciences with medicine, engineering and computational science.

Training and support

The DPM offers leading-edge multidisciplinary PhD training and research in the application of postgenomic technologies and analytical methodologies for the study of disease pathways and processes.

The DPM has regular seminar speakers and hosts a yearly international conference on pathway medicine. Students attend DPM seminars and the generic skills-training programme provided by the life-sciences graduate programme. Students are invited to the annual DPM scientific workshop held at the Firbush Centre in Perthshire.

Facilities

The DPM fosters an integrative and multidisciplinary approach to disease pathway analysis. Students have access to state-of-the-art facilities for high throughput genomic and proteomic studies and biochip applications, including dedicated laboratories for the study of virus-host interactions.

The Division also houses leading bioinformatics and IT infrastructure and expertise for the integrative analysis and modelling of high throughput genomic and proteomic data. Complementing this, the DPM is also leading the development of computational approaches for the construction and modelling of disease pathways.

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We offer a comprehensive research programme suitable for PhDs and MScs covering a diverse range of musculoskeletal disorders. There are ongoing projects in the following areas. Read more

Research profile

We offer a comprehensive research programme suitable for PhDs and MScs covering a diverse range of musculoskeletal disorders.

There are ongoing projects in the following areas:

musculoskeletal tissue engineering, stem cells and regenerative medicine
orthopaedic engineering and modelling of the musculoskeletal system
osteoporosis and fracture repair
clinical outcome studies

Training and support

Students are assigned to the relevant research group. Each student's progress is monitored by a thesis committee convened from members within these groups. Students participate in a monthly graduate seminar programme, presenting their analysis of original research. All students are encouraged to present their findings at national and international conferences and to publish their findings in international journals, in advance of submission of their PhD theses for examination.

Facilities

The orthopaedic engineering unit and the musculoskeletal research unit along with the microCT facilities are based within the Chancellor's Building. Facilities for collaborative projects are based in the centre for regenerative medicine and the centre for integrative physiology. The outcome performance assessment facilities are based within the clinical department in the Royal Infirmary.

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Edinburgh Cancer Research UK Centre (ECRC) strives to take a comprehensive approach to cancer research, combining both laboratory-based research and clinical approaches. Read more

Research profile

Edinburgh Cancer Research UK Centre (ECRC) strives to take a comprehensive approach to cancer research, combining both laboratory-based research and clinical approaches.

Overall the centre studies the genetic and biological basis of cancer and disease pathology, and devises and test new forms of therapy arising from our basic, translational and clinical research programs.

Our ultimate aim is to carry out high quality research into effective cancer prevention, diagnosis and treatment, as well as the symptoms associated with cancer.

ECRC is part of the School of Molecular, Genetic and Population Health Sciences at the Western General Hospital. This centre, as part of a unit of Hospital-Based Clinical Subjects, was rated 5* in the most recent Research Assessment Exercise.

We have 18 academic staff, 40 research staff, 35 support staff and 22 students.

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The Masters in Medical Sciences programme is the only one of its kind in the UK and is proven to give graduates the competitive edge in the job market. Read more
The Masters in Medical Sciences programme is the only one of its kind in the UK and is proven to give graduates the competitive edge in the job market. It is designed for high-calibre medicine graduates who want to explore and benefit from medical research, perhaps with a view to pursuing a PhD or a career
 in research.

We offer you the opportunity to undertake a research project in a laboratory or department relevant to your speciality. The choice of research projects carried out is wide and ranges from bench research to clinical research. Examples of completed projects are:

1. Therapeutic Hypothermia Decreases Intracranial Pressure in Severe Traumatic Brain Injury
2. Renal Function in the 11β-Hydroxysteroid Dehydrogenase Type 1 Null Mouse
3. Immune cell populations in the mouse lung during RSV infection
4. Salt Appetite in Stable Heart Disease and Healthy Volunteers

You will need to secure a supervisor and project before starting the degree.

Programme Structure

The programme begins with a month of teaching, providing you with an overview of the whole range of techniques used in medical research. In the first two weeks you will attend lectures on subjects ranging from stem cell biology to ethics and clinical trials. You will also receive statistics training and practical workshops in cell biology and molecular medicine. You will be taught practical techniques, including basic tissue culture, how to do PCRs and run Western Blots.

Around 20 per cent of the course will consist of taught classes and seminars. The rest is spent in your host department.

To consider your research interests and opportunities we advise you to visit Edinburgh’s Clinical Academic Training Centre (ECAT) or speak to the Programme Director.

Career opportunities

Around a quarter of our students continue on to a PhD. Those who choose to return to clinical practice go back with a broader experience of research than is afforded by the undergraduate clinical medicine curriculum.

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This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering. Read more

Research profile

This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering.

It provides an introduction to research methodology for biologists, medics and veterinarians. The training also provides an entry into PhD studies. Previous students have undertaken projects in the following areas:

antibiotic resistance and hospital-acquired infections
arthropod vector biology and vectorborne diseases
epidemiology and mathematical modelling of animal and human infections
functional genomics and bioinformatics
molecular diagnosis and point-of-care detection of infectious diseases
the immunology of bacterial and parasitic infections (including major tropical diseases such as malaria, lymphatic filariasis and river blindness)
the immunology of ruminant infections (for example Johne's Disease)
the pathogenesis of prion and viral diseases (animal and human, including herpes and HIV)

The learning process includes a one-year research project and during the study period students will be required to attend research seminars and lectures, including those on the related areas of immunology, microbiology and pathology. Training will also be given in generic skills including: statistics; project management and planning; oral and written presentational skills.

Depending on the project selected, students will learn how to apply modern molecular and biochemical techniques to the investigation of pathogenesis of infections, or the use of statistics and mathematical models to study the epidemiology of diseases.

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In this program you will. - Learn anatomy through dissection. - Gain knowledge and experience of anatomical teaching. - Take additional modules on neuroanatomy, embryology, anatomy law and ethics and medical imaging. Read more

Programme description

In this program you will:
- Learn anatomy through dissection
- Gain knowledge and experience of anatomical teaching
- Take additional modules on neuroanatomy, embryology, anatomy law and ethics and medical imaging.
- Contribute to world leading anatomical and/or biomedical research

Our programme aims to improve your theoretical and practical knowledge of human anatomy through an intensive on-campus dissection course, as well as the development and learning of theoretical and practical aspects of teaching anatomy at undergraduate and postgraduate levels.

This programme has two main strands. One is the in-depth study of the anatomy of the human body. Anatomical knowledge will be learned to a level to teach undergraduate and postgraduate students and professions allied to medicine. This strand will involve the dissection of a body in groups of three to five students over two semesters. This part of the course is largely self-directed, with regular “surgeries” when teaching staff are present to answer questions and help students with the dissections.

The other is anatomy pedagogy, covering the theoretical and practical aspects of teaching anatomy to undergraduate and postgraduate students. Next to theoretical lectures and workshops the first semester will focus on observing the teaching of anatomy to medical undergraduate students. The second semester will focus on being involved in preparing and carrying out teaching sessions to both small and large groups of students. The learned theoretical material, the observations and practical experiences will be compiled in an end-of year teaching portfolio. The experience that you will gain can be used towards an application as associate fellow of the Higher Education Academy.

Complementing these strands will be a lecture-based embryology course providing you with an understanding of normal human development and how normal development can go wrong, manifested in commonly observed congenital abnormalities. You will also study neuroanatomy, the health and safety of embalming procedures and handling bodies, the legal and historical aspects of anatomy in Scotland and the UK, an introduction to the ethics of using bodies in medical education and explore clinical techniques used to image the body.

Programme structure

The programme is made up of six courses plus a summer dissertation project. The courses "Teaching Anatomy" and "Basic Human Anatomy 1 & 2" make up the majority of the degree with 40 credits each. The other courses are 10 credit courses that are spread out over two semesters as follows (10 credits equal 100 hours of work):

Semester one:

- Basic Human Anatomy 1: Gross anatomy of the Limbs and Thorax (20 credits)
- Anatomy Law and Ethics: Divided into 3 parts: Health & Safety of anatomy and body handling, the legislation that governs the activities of anatomy departments both in Scotland and throughout the UK, and the ethics of using human material for the teaching of anatomy (10 credits)

Semester two:

- Basic Human Anatomy 2: Gross anatomy of the Abdomen, Pelvis, Head & Neck (20 credits)
- Neuroanatomy: Gross Anatomy of the central and peripheral nervous systems, sensory and motor pathways, cranial nerves, spinal cord, spinal nerves and autonomic nervous system (10 credits)

Semesters one and two:

- Teaching Anatomy: Theoretical and practical aspects of teaching anatomy to undergraduate and postgraduate students (40 credits).
- Embryology: From ovulation of the egg to fetal development of all body systems (10 credits)
- Medical Imaging and Anatomy: explore anatomy using images produced by clinical tools such as X-ray, CT and MRI. (10 credits)

Summer period:

- Dissertation Project: 10,000 word dissertation and oral presentation (60 credits)

Teaching is by lectures, seminars and tutorials. Courses are assessed by either, or a combination of, oral examinations, essays, multiple choice question exams, extended matching question exams, presentations and practical anatomy exams.

You have the option to finish after the second semester graduating with a Diploma in Human Anatomy, or to gain your masters by completing a summer dissertation project that can be either library-, practical- or laboratory-based.

More information on anatomy at the University can be found on our website: http://www.ed.ac.uk/biomedical-sciences/anatomy

Career opportunities

This programme has been designed to help you gain a highly regarded qualification in anatomy and the teaching of anatomy. It will provide you with a set of major transferable skills such as dissecting experience, teaching experience, expertise in health and safety and anatomy law and ethics.

This programme can therefore open up possibilities in for example anatomy teaching, anatomy laboratories, further studies in medical and biomedical sciences, further research leading to a PhD, and many more increasing your long-term career prospects.

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This one-year, full time programme provides an excellent grounding for PhD or other academic study in the Biomedical Sciences. You will learn valuable research skills, biomedical laboratory techniques and a wide range of other transferable skills that will give you an advantage for the rest of your career. Read more

Research profile

This one-year, full time programme provides an excellent grounding for PhD or other academic study in the Biomedical Sciences. You will learn valuable research skills, biomedical laboratory techniques and a wide range of other transferable skills that will give you an advantage for the rest of your career. You can also choose two themes that best suit your interests and career goals.

The programme includes seminars, taught modules and two research projects in our world-recognised research laboratories. We will also cover a range of valuable transferable skills including critical analysis of research papers, learning how to write a project grant application and literature review, and data presentation and statistical analysis.

Programme structure

The programme includes core skills, seminars, taught modules and laboratory projects in our well-resourced laboratories which are at the cutting-edge of Biomedical research.

Students will carry out two 20-week long research projects selected from the themes available. An assessed research proposal is also required for the second project.

Project 1 (September to February)

Cardiovascular Biology
Cell Communication
Genomics & Biological Pathways
Mechanisms of Inflammatory Disease
Reproductive Science 1
Infectious Diseases
Stem Cells, Tissue Injury and Regenerative Medicine - new theme for September 2017

Project 2 (April to August)

Biomedical Imaging
Genes & Disease
Genomic Technologies
Molecular & Cellular Mechanism of Inflammation
Reproductive Science 2
Cancer Biology
Biological Architecture

Students may also be able to undertake projects in Integrative Neuroscience or in other areas of Biomedical Sciences, with the permission of the Programme Director. These students would be required to attend the taught element of one of the above Themes as appropriate.

Research proposal

In March, students submit a research proposal based on the work performed for Project 2. This takes the form of a grant application, as would be prepared for a research organisation, and is assessed.

Career opportunities and 'Follow-on PhDs'

This programme is an excellent stepping-stone to a PhD, or a career in Biomedical research or industry.

In addition, every year there are vacancies for PhD studentships in the School of Biomedical Sciences and staff are always on the lookout for the outstanding postgraduate students who are on this Programme to encourage them to apply.

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This degree is approved as part of the training programme in paediatric dentistry by the Specialist Advisory Committee in Paediatric Dentistry, for those in possession of a training number awarded by the Postgraduate Dental Dean for Scotland. Read more

Programme description

This degree is approved as part of the training programme in paediatric dentistry by the Specialist Advisory Committee in Paediatric Dentistry, for those in possession of a training number awarded by the Postgraduate Dental Dean for Scotland.

Our programme will develop your knowledge and skills in all areas of paediatric dentistry, including diagnosis, treatment planning, clinical skills and all aspects of patient management.

You will also complete a supervised piece of research and learn research methodology, data analysis and the ability to report results appropriately.

Your syllabus will include:

Clinical Skills Course
Examination of the Child and Adolescent
The Management of Anxious Children and Adolescents
Dental Caries and Periodontal Disease in the Child and Adolescent
Restorative Management of the Primary Dentition
Examination, Diagnosis and Management of Dento-alveolar Trauma
Advanced Restorative Dentistry for Children and Adolescents
Management of Medically, Physically and Intellectually Compromised Patients
Paediatric Oral Medicine, Oral Surgery and Oral Pathology
Basic Principles of Orthodontics
Comprehensive Treatment Planning for the Child and Adolescent
Research methods, basic statistics, critical appraisal, clinical governance and clinical audit

Programme structure

We start with an introductory programme of lectures, seminars and rehearsal for procedures in the clinical skills laboratory.

This is followed by five structured terms, which will cover the clinical care of patients, seminars, journal clubs and trauma discussion groups, plus your supervised research dissertation.

There are examinations at the end of each term and regular essay and critical appraisal exercises.

Career opportunities

This programme has been designed for those practitioners ready to specialise in paediatric dentistry.

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The Centre for Population Health Sciences (CPHS) supervises postgraduate research students in a wide range of population health disciplines, including epidemiology… Read more

Research profile

The Centre for Population Health Sciences (CPHS) supervises postgraduate research students in a wide range of population health disciplines, including epidemiology, genetic epidemiology, health promotion, health services research, medical statistics, molecular epidemiology and sociology and on a wide range of topics including allergic and respiratory disease, clinical trial and statistics methodology, eHealth, ethnicity and health, genetic epidemiology of complex diseases, global health, palliative care and cancer, society and health and families and relationships.

A principal aim is to foster interdisciplinary research involving quantitative and qualitative approaches via effective collaboration with biomedical scientists, epidemiologists, social scientists and clinical researchers throughout the University and beyond.

Prospective students are encouraged to align their research proposal with one of the Centre's main areas of research and with the research interests of academic members of staff who may act as first supervisors.

Training and support

Postgraduate students will have agreed a set of taught courses with their supervisors at the beginning of the period of study.

These should include generic research-skills training and project-specific courses.

Students are also expected to attend a majority of CPHS seminars.

Facilities

The Centre for Population Health Sciences (CPHS) brings together researchers active in population health science research, including public health and primary care.

Within the school the CPHS academic staff play a large role in research project supervision.

There are also links with the Institute of Genes and Molecular Medicine and the Queen's Medical Research Institute.

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The MSc by Research in Integrative Neuroscience is a one-year, full-time research programme covering all levels of modern neuroscience, which makes it an ideal programme to prepare you for a PhD. Read more

Research profile

The MSc by Research in Integrative Neuroscience is a one-year, full-time research programme covering all levels of modern neuroscience, which makes it an ideal programme to prepare you for a PhD.

We include molecular, cellular, systems, regenerative, cognitive, clinical and computational neuroscience. We also allow you to choose your specialty right from the start, allowing you to shape your learning around your interests and career goals.

Programme structure

You start with a taught component in the first 12 weeks, and attend ‘themed weeks’ which run in parallel with elective from which you choose your optional courses. The Elective optional courses include:

-Developmental Neurobiology
-Neural Circuits
-Neurodegeneration and Regeneration

The elective courses run during the first 12 weeks on two half days per week. These will give you a deeper insight into the concepts and methodology of a specific field of interest.

For your research you can choose available projects or contact principal investigators from more than 120 groups in the Edinburgh Neuroscience community to develop your own project, which can range from psychology to nanoscience. Examples of completed projects are:

- Axon Initial Segment plasticity in a mouse model of Fragile X Syndrome (Peter Kind)

- Cognitive and motor functions in neurodegenerative diseases (Thomas Bak)

- Interactions of amyloid beta and tau in causing cognitive decline in a novel Alzheimer’s disease model (Tara Spires-Jones)

- Role of primary cilia in the development of stem cells during development of the cerebral cortex (Thomas Theil)

Career opportunities

This programme is designed to help you in your research career. Over 90% of students on the MSc by Research in Integrative Neuroscience have positive next destinations, including PhD, research or clinical career paths.

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The aim of this programme is to give you a broad-based training in biomedical research, with a focus on cardiovascular science. Read more

Research profile

The aim of this programme is to give you a broad-based training in biomedical research, with a focus on cardiovascular science. This includes an introduction to cardiovascular development, the development of cardiovascular disease, organ function and dysfunction, and the cardiovascular system in reproduction and inflammation.

You will gain an integrated view of the physiology and pathology of cardiovascular system from both basic and clinical scientists.

Programme structure

You will attend research seminars and tutorials by senior clinicians and basic scientists, and conduct research projects in our internationally renowned laboratories in the Centre for Cardiovascular Science.

You will also deliver research-orientated presentations and gain skills in critical reading of scientific literature and in the writing of scientific reports.

Career opportunities

This is the ideal programme for high-calibre students who wish to progress to a PhD in cardiovascular science.

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This programme is for dental surgery graduates who wish to extend their knowledge, clinical practice experience and expertise in oral surgery. Read more

Programme description

This programme is for dental surgery graduates who wish to extend their knowledge, clinical practice experience and expertise in oral surgery.

The programme will give you theoretical and practical understanding of oral surgery and how it relates to other dental specialities.

The syllabus includes components of the core competencies for oral surgery training for the General Dental Council and Royal College of Surgeons of England guidelines:

extraction of teeth & retained roots/pathology
management of associated complications including oro-antral fistula
management of odontogenic and all other oral infections
management of impacted teeth
management of complications
peri-radicular surgery
dentoalveolar surgery in relation to orthodontic treatment
intraoral and labial biopsy techniques
treatment of intra-oral benign and cystic lesions of hard and soft tissues
management of benign salivary gland disease by intra-oral techniques and familiarity with the diagnosis and treatment of other salivary gland diseases
insertion of osseointegrated dental implants including bone augmentation and soft tissue management
appropriate pain and anxiety control including the administration of standard conscious sedation techniques
management of adults and children as in-patients, including the medically at risk patient
management of dento-alveolar trauma and familiarity with the management and treatment of fractures of the jaws and facial skeleton
management of oro-facial pain including temporomandibular joint disorders
clinical diagnosis of oral cancer and potentially malignant diseases, familiarity with their management and appropriate referral
the diagnosis of dentofacial deformity and familiarity with its management and treatment
diagnosis of oral mucosal diseases and familiarity with their management and appropriate referral
control of cross-infection
medico-legal aspects of oral surgery

Programme structure

You will participate in lectures, seminars and a rehearsal of procedures in the clinical skills laboratory.

You will also undertake an integrated programme of theoretical, clinical and laboratory teaching.

Throughout the course you will be assessed by written examinations, case presentations, oral examination and the completion of a research project.

Career opportunities

This programme has been designed for dental surgery graduates who wish to specialise in oral surgery.

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The Specialist Advisory Committee in Orthodontics has approved this degree as part of the training programme in orthodontics. It provides you with a deeper understanding of, and further technical and diagnostic skills in, orthodontics. Read more

Programme description

The Specialist Advisory Committee in Orthodontics has approved this degree as part of the training programme in orthodontics. It provides you with a deeper understanding of, and further technical and diagnostic skills in, orthodontics.

It involves a large clinical component as well as your own research project.

You will learn to:

diagnose anomalies of the dentition
detect development deviations
formulate a treatment plan and predict its course
evaluate the need for orthodontic treatment
carry out treatment using fixed, functional and removable appliances
treat adults, orthognathic, surgical cases and cleft-palate patients

In addition to developing your scientific approach, the programme will teach you the psychological aspects of treatment.

Programme structure

The programme begins with an introduction of core topics, followed by an introduction to our laboratory facilities and the basics of wire-bending skills, appliance design and appliance construction and mechanics.

Clinical patient care is also established early within the first term.

This is followed by five structured terms of theoretical seminars and tutorials, with diagnostic tests on your knowledge carried out regularly.

There are written examinations at the end of each term. You must pass the written examinations at the end of the first year before proceeding to the second year.

Your final MClinDent examination will consist of written examinations, diagnostic tests, case presentations, and the presentation of your research dissertation.

Career opportunities

This programme has been designed for orthodontist specialists.

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The MClinDent degree is recognised by the Royal College of Surgeons of Edinburgh as being two of the three years of specialist training you require if you wish to sit the Membership in Prosthodontics (the UK specialist qualification in the discipline). Read more

Programme description

The MClinDent degree is recognised by the Royal College of Surgeons of Edinburgh as being two of the three years of specialist training you require if you wish to sit the Membership in Prosthodontics (the UK specialist qualification in the discipline).

The Specialist Advisory Committee in Restorative Dentistry also approves this programme as part of the training programme in Prosthodontics, if you have a training number awarded by the Postgraduate Dental Dean for Scotland.

The programme addresses five components:

the scientific basis of prosthodontic care
the relationship of other dental disciplines to prosthodontic care
diagnosis and treatment planning for patients with advanced prosthodontics problems
the clinical treatment of patients with advanced prosthodontic problems
clinical treatment involving combined prosthodontic and other dental therapy

Programme structure

The programme has three major teaching strands. These include seminars and practical classes, supervised clinical and laboratory practice where treatment planning, clinical procedures and technical work are performed for selected cases, and finally a research investigation, which will lead to your dissertation.

Career opportunities

This programme has been designed to help you specialise in prosthodontics.

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