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This innovative Masters degree is suitable for qualified practitioners who have been appointed to surgical care practice training posts within surgical directorates. Read more
This innovative Masters degree is suitable for qualified practitioners who have been appointed to surgical care practice training posts within surgical directorates. Your role should encompass the provision of care and appropriate intervention within the perioperative environment, on wards and/or in clinics (usually within a specified surgical specialty).

The programme will provide you with a systematic and critical understanding of the breadth and depth of knowledge within specific areas of practice. You will develop core and specialist surgical skills and extend your knowledge and practice within the surgical care environment. This will include some operative procedures that will enable specialist practitioners to provide continuity of service and standards of care to patients in areas which do not necessarily need to be provided by medically qualified staff.

Eleven specialist pathways are available:

- MSc Surgical Care Practice (Cardiothoracic Surgery)
- MSc Surgical Care Practice (General Surgery)
- MSc Surgical Care Practice (Gynaecology)
- MSc Surgical Care Practice (Maxillofacial Surgery)
- MSc Surgical Care Practice (Neurosurgery)
- MSc Surgical Care Practice (Otorhinolaryngology)
- MSc Surgical Care Practice (Paediatric Surgery)
- MSc Surgical Care Practice (Plastic and Reconstructive Surgery)
- MSc Surgical Care Practice (Trauma and Orthopaedics)
- MSc Surgical Care Practice (Urology)
- MSc Surgical Care Practice (Vascular Surgery)

What will I study?

Initially, you will be given a broad overview of surgical practice, covering areas such as clinical examination and diagnostic tests. You will also study and practice first assistant skills, basic surgical skills, and generic surgical care practice skills (including all of the pre, intra and post-operative patient phases). Research and leadership skills in relation to the role of a surgical care practitioner are also introduced and discussed.

In the second half of the programme, you will undertake a specialist negotiated module which will be tailored to your specific specialist practice requirements. For instance, if you work for an orthopaedic team then the module will be tailored to the specific requirements of that team, potentially considering themes such as understanding the pathophysiology of joint disease and strategies for their treatment, the use of implants in elective orthopaedic surgery and in relation to specific orthopaedic procedures, and knowledge of available options and surgical techniques.

A dissertation module focuses on a clinical project that will demonstrate leadership and innovation in a specific clinical issue.

How will I study?

The programme incorporates a blend of face-to-face study, independent learning and time spent working in practice. Delivery is at St James' in Manchester, although some face-to-face sessions and/or examinations may be undertaken at Edge Hill University.

For the time spent in university, the first half of the course will be delivered through block-weeks of face-to-face sessions. Eight block-weeks of face-to-face sessions will take place in the first year. Some reading time will be incorporated into these eight weeks to help you plan for the assessment and submission of work.

In the second half of the programme, there is a greater focus on independent learning. However, some face-to-face sessions will be planned and there will also be an attendance requirement for assessments.

Throughout the programme, you will undertake training in your place of employment, working alongside the multidisciplinary team to deliver safe and effective care to patients in the perioperative environment, on the wards and in the clinics both pre and post-operatively.

A minimum of 33.5 hours per week, for approximately 37 weeks, will be spent working in practice.The national curriculum requires a minimum of 2,200 hours over the two years in combined clinical activities in and out of the theatre environment. A minimum of 1,100 hours has to be spent in the operating theatre environment.

In addition to the above, a half-day per week will be built into your annual timetable to facilitate self-directed learning and engagement with Edge Hill University’s virtual learning environment.

How will I be assessed?

In university, assessments will take the form of essays, written case studies, viva voce (oral) examinations, written examinations and observed structured clinical examinations (OSCEs).

In practice, you will be assessed using a variety of techniques, including:

- The Direct Observation of Procedural Skills (DOPS), where you will perform a specific practical procedure that is directly observed;

- Case-based Discussion (CbD), requiring the evaluation of your performance in the management of a patient. This will provide an indication of your competence in areas such as clinical reasoning, decision-making and the application of medical knowledge in relation to patient care;

- Clinical Evaluation Exercise (CEX), where a clinical encounter with a patient is evaluated to provide an indication of your competence in skills essential for outstanding clinical care.

Who will be teaching me?

You will be taught by tutors from the Faculty of Health and Social Care who have the experience and expertise to deliver the applied elements of this MSc via lessons, seminars and discussions. In addition, teaching will be provided by associate lecturers who are either medically qualified, or employed as qualified surgical care practitioners.

You will require a mentor who must be a consultant surgeon for the practice elements of the programme, although it is expected that you will work with a variety of staff within the surgical team. This may include, for example, other consultant surgeons, registrars and junior medical staff, in addition to other surgical care practitioners (subject to availability). The mentor(s) must be willing and available to work alongside you in the clinical arena, with real patients, supervising and assessing your clinical activities.

What are my career prospects?

On completion of this programme, you will gain a nationally recognised qualification that enables you to undertake the role of a surgical care practitioner.

You will also be able to demonstrate a number of core and specialist skills that will enable you to work effectively as part of the surgical team, work competently to practice within your field of speciality (e.g. cardiothoracic, colorectal, or trauma and orthopaedics) and to be able to function confidently, competently and autonomously.

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Medical art encompasses a wide range of applications from patient communication and information to medical teaching and training. Read more
Medical art encompasses a wide range of applications from patient communication and information to medical teaching and training. It is also used by the pharmaceutical industry to aid in explanation of their products and by television companies in the production of documentaries.

This highly innovative one-year taught Masters course employs highly specialised tutors from scientific backgrounds alongside experienced medical art supervisors.

Why study Medical Art at Dundee?

Medical Art is the depiction of anatomy, medical science, pathology and surgery. This may include medical images, models or animations for use in education, advertising, marketing and publishing, conceptual work in relation to research, education and publishing and two or three-dimensional visualisation for the training of specific medical professionals.

Medical and forensic artists require technical and conceptual art skills alongside comprehensive medical and anatomical knowledge.

What's so good about studying Medical Art at Dundee?

You will benefit from the facilities of a well-established art college, whilst appreciating the newly-refurbished laboratories, a dedicated library and access to human material in a modern medical science environment.

Internships

Short term internships in forensic and medical institutes throughout the world will be offered to selected students following graduation. Internship institutes offer these internships based on the reputation of the course and its tutors and include the National Centre for Missing and Exploited Children (NCMEC), USA; the Turkish Police Forensic Laboratory, Ankara and Ninewells Hospital, Dundee.

How you will be taught

The course is delivered using traditional methods including lectures, practical studio sessions and small group discussions with an encouragement into debate and theoretical solutions to current problems.

What you will study

Students on both Forensic Art and Medical Art MSc's share joint modules with increasing specialisation. Students may carry out their semester three Dissertation module either at the University or from a working environment or placement.

The course is delivered using traditional methods including lectures, practical studio sessions and small group discussions with an encouragement into debate and theoretical solutions to current problems.

Medical Art students study:

Semester 1 (60 credits)
Anatomy - Head and Neck
Anatomy - Post Cranial
Life Art
Digital Media Practice
Research Methods

Semester 2 (60 credits)
Medical Art 1 - Image Capture and Creation
Medical Art 2 - Communication and Education
Medical-Legal Ethics

Semester 3 (60 credits) - dissertation and exhibition resulting from a research project undertaken either at the university or as a placement.

On successful completion of Semesters 1 and 2 there is an exit award of a Postgraduate Diploma in Medical Art.

How you will be assessed

Anatomy modules will be assessed by spot-tests and practical examinations and coursework. Medico-legal ethics will be assessed by both a written exam and coursework. All other modules will be assessed by coursework.

Careers

This programme aims to provide professional training to underpin your first degree, so that you can enter employment at the leading edge of your discipline. Career opportunities in medical art are varied and will depend on individual background and interests.

In medical art potential careers exist in the NHS as well as industry. Medical art and visualisation is a rapidly changing and broad discipline. Possible careers include:

NHS medical illustration departments producing patient information and illustration services for staff
E-learning
3D model making (including clinical/surgical skills trainers) companies
Digital art and animation studios
Publishing houses
Illustration studios
Medico-legal artwork
Freelance illustration and fine art applications
Special effects and the media/film world
Academia – teaching or research
PhD research

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The MSc in Surgical Science and Practice is a part-time, modular course completed in two to three years by surgical trainees. Read more
The MSc in Surgical Science and Practice is a part-time, modular course completed in two to three years by surgical trainees.

Delivered in collaboration with the Nuffield Department of Surgical Sciences (http://www.nds.ox.ac.uk/) it is designed to prepare senior surgical trainees for life as independent specialists by providing key skills and knowledge essential for modern practice, which are not fully represented or are omitted from most postgraduate training curricula. The course is unique as its part-time nature is designed to allow students to fit their study around work.

The MSc in Surgical Science and Practice provides a foundation in some of the most important additional life long skills which the future leaders of the profession need to acquire. Surgeons in the future will work as part of multi-disciplinary teams in complex organisations, and will need to adapt and develop new skills and roles throughout their professional lives. Thus the syllabus covers management skills, quality improvement, leadership, teamwork and patient safety, as well as an introduction to the principles of medical education and clinical research methods. The knowledge gained during this course will stand students in good stead throughout their careers.

Visit the website https://www.conted.ox.ac.uk/about/msc-in-surgical-science-and-practice

Programme details

The MSc in Surgical Science and Practice is organised around six compulsory modules, plus a work-based research project and dissertation. The programme is normally completed in two to three years. Students are full members of the University of Oxford and are matriculated as members of an Oxford college.

The course features a significant component of online and distance learning, as well as one week of intensive teaching in Oxford per module.

Modules:

- Becoming a Medical Educator
- Human Factors, Teamwork and Communication
- Introduction to Surgical Management and Leadership
- Quality Improvement Science and Systems Analysis
- Surgical Technology and Robotics
- The Practice of Evidence-Based Health Care (Surgery)

Each module takes place once a year, giving students the opportunity to individualise their patterns of study.

During the course there is an exceptional opportunity for an introduction, with hands-on experience, to leading edge modern surgical technology such as the Da Vinci robot. The programme also features lectures by staff from the Centre for Evidence Based Medicine based in the world-renowned Department of Primary Care Health Sciences.

Taught by global experts, the modules in this programme can also be taken as individual stand-alone courses.

Course aims

The overarching aim of the MSc in Surgical Science and Practice is to provide the next generation of surgeons with the tools to build and lead successful surgical units delivering safe, high quality, high reliability care.

By the end of the course candidates will be able to understand the following important principles:

- How to evaluate clinical research evidence critically and understand how it should be interpreted and applied to one’s own context and practice;

- How to design, conduct and evaluate teaching and training for postgraduate clinicians, and how to assess curricula and teaching programmes;

- Financial and quality management ideas, and methods for analysing and restructuring the systems in which surgeons work;

- A theoretical understanding of the use of modern surgical technology linked to baseline practical training in minimally invasive and robotic surgical techniques;

- The teamwork, leadership and communication skills required for effective and safe working in a modern surgical environment.

What will you gain from attending the programme?

At the end of the programme you will be able to:

- Critically appraise relevant clinical research and estimate its validity and relevance to your practice;

- Understand in principle how to design your own clinical research studies, and what expert support you need to be successful;

- Understand basic business and financial planning in the health care industry;

- Develop your own business plans and cases for your practice;

- Understand the principles of leading a team and how to foster an appropriate culture to promote good teamwork and communication;

- Analyse and improve systems of work within surgery using standard industrial quality improvement and human factors principles;

- Understand how to act as a mentor and trainer for postgraduate trainees, how to set up and run courses and curricula, and how to evaluate and improve trainee progress;

- Understand and have some experience of using up to the minute surgical technology which is likely to become important during your career.

Teaching methods

The class-based modules include a period of preparatory study, a week of intensive face-to-face lectures and tutorials, followed by a period for assignment work. Attendance at modules is a requirement for study. Some non-classroom activities are provided at facilities elsewhere in the University, including surgical simulators and operating theatres on the University's hospital sites. The course includes taught material on research skills.

The taught modules include group work, discussions, guest lectures, and interaction and feedback with tutors and lecturers. Practical work develops the student's knowledge and understanding of the subject. This includes supervised access to surgical simulators and robots as part of the Surgical Technology and Robotics module.

A virtual learning environment (VLE) provides extensive support between modules.

Resources available:

University of Oxford libraries, including:

- The Cairns Library at the John Radcliffe Hospital
- Radcliffe Science Library
- Rewley House Continuing Education Library
- Bodleian Libraries e-Resources

Plus facilities from the Department of Continuing Education, including:

- The Graduate School
- WebLearn virtual learning environment

Assessment methods

To complete the MSc, students will need to:

- Attend the six compulsory modules in Oxford, and undertake assessed written assignments for each module;
- Complete a dissertation on a topic selected by the candidate in consultation with the supervisor and approved by the Standing Committee.

Dissertation

The dissertation will be founded on a work-based research project that will build on the material studied in the taught modules. The dissertation should normally not exceed 15,000 words.

The project will normally be supervised by an academic supervisor from the University of Oxford, and an employer-based mentor.

Find out how to apply here - http://www.ox.ac.uk/admissions/graduate/applying-to-oxford

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The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. Read more
The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. The course will expose you to the leading edge of modern medical and surgical technologies, as well as exploring the role of entrepreneurship, business development and intellectual property exploitation.

Why study Design for Medical Technologies at Dundee?

The unique environments of medicine and biotechnology offer exacting challenges in the design of high technology products for use in these fields. Engineers and product designers involved in the development of new biomedical instrumentation, surgical tools or biotechnology products must understand the constrictions placed on them by this environment. As a result, bioengineering has been established as the fusion of engineering and ergonomics with a deep understanding of medical science.

Benefits of the programme include:
Knowledge and understanding of medical and surgical engineering and technology
Skills in research methods, communications, teamwork and management
Appreciation of entrepreneurship and the global 'Medtech' industry
Participation in research activities of world renowned research groups
Preparation for careers in industry, academia and commerce

What's great about Design for Medical Technologies at Dundee?

The University of Dundee is one of the top UK universities, with a powerful research reputation, particularly in the medical and biomedical sciences. It has previously been named Scottish University of the Year and short-listed for the Sunday Times UK University of the year.

The Mechanical Engineering group has a high international research standing with expertise in medical instrumentation, signal processing, biomaterials, tissue engineering, advanced design in minimally invasive surgery and rehabilitation engineering.

Links and research partnerships:

We have extensive links and research partnerships with clinicians at Ninewells Hospital (largest teaching hospital in Europe) and with world renowned scientists from the University's College of Life Sciences.

The new Institute of Medical Science and Technology (IMSaT) at the University has been established as a multidisciplinary research 'hothouse' which seeks to commercialise and exploit advanced medical technologies leading to business opportunities.

The start date is September each year, and lasts for 12 months.

How you will be taught

The structure of the MSc course is divided into two parts. The taught modules expose students to the leading edge of modern medical and surgical technologies. The course gives concepts and understanding of the role of entrepreneurship, business development and intellectual property exploitation in the biomedical industry, with case examples.

The research project allows students to work in a research area of their own particular interest, learning skills in presentation, critical thinking and problem-solving. Project topics are offered to students during the first semester of the course.

What you will study

The three taught modules are:
Imaging and Instrumentation for Medicine and Surgery (30 Credits)
Biomechanics and Biomedical (30 Credits)
Advanced Medical and Surgical Instrumentation (30 Credits)

These modules are followed by the biomedical research project (90 credits).

How you will be assessed

The course is assessed by coursework and examination, plus research project.

Careers

The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. This opens up a vast range of opportunities for employment in these industries as a design, development or product engineer, research scientist, sales and marketing manager or Director of a start-up company. The programme also provides the ideal academic grounding to undertake a PhD degree leading to a career in academic research.

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Do you want to specialise in trauma and orthopaedic surgery? Establish your career and develop the necessary skills to become a surgical care practitioner, with a focus on trauma and orthopaedic surgery. Read more
Do you want to specialise in trauma and orthopaedic surgery? Establish your career and develop the necessary skills to become a surgical care practitioner, with a focus on trauma and orthopaedic surgery. Gain the necessary skills to assist with complex surgical procedures and provide high quality patient care. Work alongside experienced surgical consultants and take part in sessions run by medical professionals.

Key features

-Develop professional experience and specialist knowledge, through our blend of academic and practical teaching, delivered by a team involved in the education and practice development of the Surgical Care Practitioner role at national level for over 15 years.
-Benefit from eight weeks of taught theory and 28 weeks of direct clinical practice (per year).
-Expand your practical skills to undertake complex surgical procedures, manage patients intra-operatively and be responsible for pre-operative and post-operative outpatient clinics.
-Benefit from a combination of academic, theoretical and practical teaching, giving you the necessary clinical skills to meet national industry standards. We have strong links with existing practitioners, and visiting lecturers include current practising qualified Surgical Care Practitioners and Consultant Surgeons.
-Consider innovative approaches to care delivery and enhance the surgical patient experience.
-Cultivate a precise and meticulous work ethic, delivering an effective, safe and efficient service to patients.
-Work both autonomously and as part of a multi-profession team.
-Secure the experience you need to excel in unpredictable and highly pressurised clinical environments.
-Use your initiative to solve complex problems and deliver high quality patient care. Past students have enabled new service provision, such as satellite clinics for pre and/or postoperative assessment, and student initiated audits have generated new processes and cost savings for employing organisations.
-Royal College of Surgeons accredited programme.

Course details

Postgraduate certificate - to achieve a postgraduate certificate, you will need to earn 60 credits.

Develop your existing professional skills and learn how to undertake a comprehensive health assessment including history taking, clinical examination, diagnosis and documentation in the advanced consulting and clinical skills module. You’ll discover how to create effective treatment and management strategies and gain advanced skills through clinical practice experience, utilising relevant theoretical models and decision making processes.

Acquire the knowledge and skills you need to excel as a surgical care practitioner, specialising in trauma and orthopaedic surgery through the surgical care practitioner specialist practice module. You’ll develop an understanding of the pathological, clinical, and practical aspects of both trauma and orthopaedic surgical practice and master the necessary surgical techniques.

Assessment in practice is ongoing throughout the programme with specified competencies to be achieved within operating theatres, clinics and ward areas. Assessment in theory is patient and service focused to enable development of condition/patient specific knowledge as well as service enhancement.

Core modules
-SCP701 Core Competencies for Surgical Care Practice
-APP702 Advancing Research Knowledge in Practice 1

Final year
Postgraduate diploma - to gain a postgraduate diploma, you will need to earn 120 credits.

During the PgDip students develop further specialist knowledge and skills enabling greater participation and leadership in surgical patient care. Most organisations offer mid-Band 6 during training, and Band 7 on qualification (PgDip). Many continue to participate in service delivery innovation, with high level patient interaction and decision-making.

On completion of PgDip, you have the option to enrol onto the MSc Surgical Care Practitioner (Trauma and Orthopaedic Surgery).

Core modules
-SCP703 Surgical Care Specialist Practice (Trauma and Orthopaedic Surgery)
-APP710 Advanced Assessment for Clinical Practice

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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The MSc Medical Imaging programme is intended to provide a Masters-level postgraduate education in the knowledge, skills and understanding of engineering design of advanced medical and biotechnology products and systems. Read more
The MSc Medical Imaging programme is intended to provide a Masters-level postgraduate education in the knowledge, skills and understanding of engineering design of advanced medical and biotechnology products and systems. Students will also acquire a working knowledge of the clinical environment to influences their design philosophy.

Why study Medical Imaging at Dundee?

With biotechnology replacing many of the traditional engineering disciplines within the UK, this programme will allow you to develop the skills to apply your engineering or scientific knowledge to technologies that further the developments in this field. As a result, employment opportunities will be excellent for graduates, both in research and in industry.

We have an active research group, and you will be taught by leading researchers in the field.

What's so good about Medical Imaging at Dundee?

The MSc in Medical Imaging at the University of Dundee will:

Provide knowledge, skills and understanding of medical imaging technologies, particularly in modern biomedical, radiological and surgical imaging instrumentation, biomaterials, biomechanics and tissue engineering

Enhance your analytical and critical abilities, competence in multi-disciplinary research & development

Provide broad practical training in biology and biomolecular sciences sufficient for you to understand the biomedical nomenclature and to have an appreciation of the relevance and potential clinical impact of the research projects on offer

Allow you to experience the unique environment of clinical and surgical aspects in medical imaging in order to provide an understanding of the engineering challenges for advanced practice

Provide core training in electrical, microwave, magnetic, acoustic and optical techniques relevant to the life sciences interface and

Provide broad experience of analytical and imaging techniques relevant for biology, biomolecular and clinical sciences
provide core training in acoustic ultrasound technologies.

Who should study this course?

This course is suitable for students who are recent graduates of mechanical engineering courses or other related programmes.

This course has two start dates - January & September, and lasts for 12 months.

How you will be taught

The programme will involve a variety of teaching formats including lectures, tutorials, seminars, hands-on imaging classes, laboratory exercises, case studies, coursework, and an individual research project.

The teaching programme will include visits to and seminars at IMSaT and clinical departments at Ninewells Hospital and Medical School and Tayside University Hospitals Trust, including the Clinical Research Centre, the Departments of Medicine, Surgery, Dentistry and ENT, the Vascular Laboratory and Medical Physics.

A high degree of active student participation will be encouraged throughout. Taught sessions will be supported by individual reading and study. You will be guided to prepare your research project plan and to develop skills and competence in research including project management, critical thinking and problem-solving, project report and presentation.

What you will study

The course is divided into two parts:

Part I has 60 credits:

Biomechanics (20 Credits)
Biomaterials (20 Credits)
Bioinstrumentation (10 Credits)
Introduction to Medical Sciences (10 Credits)

Part II has one taught module and a research project module. It starts at the beginning of the University of Dundee's Semester 2, which is in mid-January:

Taught module: Advanced Biomedical Imaging Technologies (30 Credits).
Research project (30 Credits for diploma or 90 Credits for MSc)

How you will be assessed

The taught modules will be assessed by a combination of written examinations and coursework. The research project will be assessed by a written thesis and oral presentation.

Careers

This Master's programme provides you with the skills to continue into research in areas such as biomedical and biomaterials engineering as well as progression into relevant jobs within the Mechanical Engineering and Mechatronics industries.

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This MSc has the approval of the Royal Colleges of Surgery and aims to improve the level of scientific appreciation of surgical trainees by exposing them to scientific principles and methods. Read more
This MSc has the approval of the Royal Colleges of Surgery and aims to improve the level of scientific appreciation of surgical trainees by exposing them to scientific principles and methods. The programme is suitable for both surgical and dental trainees and is primarily intended to provide scientific research experience prior to or as part of the surgical training programme.

Degree information

Students gain skills in the verbal and written communication of science, together with an in-depth understanding of science-based subjects of clinical relevance. Students also undertaken in-depth scientific research project (50% of final mark) and an appreciation of scientific research which further trains them to appraise the current scientific literature/evidence and experimental design, practice and analysis.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (45 credits), three optional modules (45 credits), and a research project (90 credits).

Core modules
-Advanced Surgical Skills (Microsurgery)
-Advanced Surgical Skills (Robotics)
-Research Methodology and Transferable Skills (Part I)

Optional modules - students choose three of the following optional modules:
-Research Methodology and Transferable Skills (Part II)
-Applied Tissue Engineering
-Biomaterials in Tissue Regeneration: Micro and Nanoscale Surface Structuring
-Clinical Experience in Musculoskeletal Surgery
-Experimental Models in Surgical Research
-Heart and Circulation
-Musculoskeletal Biology (Part I)
-Musculoskeletal Biology (Part II)
-Musculoskeletal Biomechanics and Biomaterials (Part I)
-Musculoskeletal Biomechanics and Biomaterials (Part II)
-Nanotechnology
-Pain
-Performing Systematic Reviews of Interventions (Part I)
-Performing Systematic Reviews of Interventions (Part II)
-Surgical Oncology
-Translation of Nanotechnology and Regenerative Medicine (Bench to Bedside)
-Translation of Nanotechnology and Regenerative Medicine (Bench to Bedside)

Dissertation/report
All students undertake an independent research project on a subject of relevance to their clinical interests which culminates in a dissertation of 13,000 words and contributes 50% of the final mark. We encourage students to submit their work for presentation at conferences and for publication.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, workshops and tutorials. Student performance is assessed through unseen written examination papers, written reports, oral presentations, written coursework and oral examinations, and a dissertation and oral examination for the research project.

Careers

First destinations of recent graduates as junior surgeons in surgical training include: Southend Hospital: Surgeon; Bangor Hospital: Doctor; Royal Derby Hospital: Core Surgical Trainee; Royal National Orthopaedic Hospital: Academic Clinical Fellow; King's College Hospital NHS Trust: Specialist Registrar in Cardiothoracic; Greater Glasgow NHS: Paediatric Surgery Registrar and Training Surgeon. The majority of older graduates have become consultants in specialist surgical fields, e.g. at the Royal Free Hospital, Birmingham, Great Ormond Street, UCLH and generally throughout the UK and abroad.

Why study this degree at UCL?

The Division of Surgery & Interventional Science is part of one of the most prestigious medical schools in Europe, with a team of nearly 400 people, from surgeons and oncologists to clinical trials specialists and researchers. Our aim is to understand the causes of human disease and develop innovative therapies and technology to improve the quality of life of the people around us.

The UCL Medical School has highly rated science expertise within its academic and clinical departments thus guaranteeing an excellent research environment.

Students have the advantages of studying in a multi-faculty university with a long tradition of excellence, situated within the heart of one of the world's greatest cities.

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This new two year part-time Masters programme, taught entirely online, is jointly offered by the University of Edinburgh and the Royal College of Surgeons of Edinburgh, and leads to the degree of Master of Surgery (ChM). Read more

Programme description

This new two year part-time Masters programme, taught entirely online, is jointly offered by the University of Edinburgh and the Royal College of Surgeons of Edinburgh, and leads to the degree of Master of Surgery (ChM). It has been developed with the support of NHS Education for Scotland (NES).

The ChM is designed to support advanced ophthalmology trainees in the UK and internationally through a curriculum which recognises their subspecialist ophthalmic interests in preparation for exit examination and hospital-based practice.

Our programmes are aligned with the curricula of both the FRCSEd and FRCOphth examinations in the United Kingdom and Ireland, making these degrees very attractive to domestic and international students.

The ChM provides advanced training for medical and surgical ophthalmologists preparing for the fellowship examinations of the Royal College of Surgeons of Edinburgh (RCSEd) and the Royal College of Ophthalmologists (RCOphth) in the UK and Ireland and those approaching consultancy. On completion of this programme students will be able to:

-demonstrate in-depth knowledge of their chosen surgical subspecialty, and be able to apply this knowledge to the systematic assessment and management of medical and surgical patients in the elective, urgent and emergency clinical setting
-recognise the leadership contribution and responsibilities of the ophthalmologist in the multidisciplinary management of complex medical and surgical disease
-critically reflect upon day-to-day medical and surgical practice in the context of recent advances, and engage in critical dialogue with peers and experts in other specialties
-apply the general principles of clinical study design, ethics, and statistics to critically evaluate the scientific literature in medical and surgical research, and make informed judgements on new and emerging issues in medicine and surgery
-exercise a high level of autonomy and initiative in professional activities at a level of independent medical and surgical practice

Online learning

The programme is taught entirely online. Students are supported by asynchronous discussion with e-tutors - all leading clinicians in their field - and have access to a large learning resource, including subscriptions to key online books and journals. Students will be expected to lead e-seminars and e-journal clubs.

Our online learning technology is fully interactive, award-winning and enables you to communicate with our highly qualified teaching staff from the comfort of your own home or workplace.

Our online students not only have access to Edinburgh’s excellent resources, but also become part of a supportive online community, bringing together students and tutors from around the world.

The programme is headed up by Professor Baljean Dhillon.

Programme structure

The programme runs on a semester basis over 2 years and involves approximately 10-15 hours of study each week in a flexible, modular manner.

The programme is delivered using a purpose-built learning environment that supports a variety of learning styles, and allows students flexibility in their study patterns.

Core, compulsory modules in each area of clinical ophthalmology are aligned to the curricula of the FRCSEd and FRCOphth. These are taught and assessed using a clinical problem-based approach, supported by systems-based review of the course material. Knowledge and understanding will be assessed with a formal MCQ exam designed to replicate the trainees' upcoming exit exams.

Academic modules (core and specialist) allow the student to explore research and teaching methodology, as well as develop skills which ensure an ability to analyse published evidence and explore interactive and written clinical communication skills. Students are required to complete an e-dissertation involving an academic critique in an appropriate subspecialty area of work, such as that resulting from a publication in a peer-reviewed journal.

Year 1
Ophthalmology 1
Core Ophthalmology
Applied Basic Sciences, Examination and Surgical Strategies
Clinical Decision Making, Therapeutics, Avoiding and Managing Complications
Diagnostics and Technologies in Clinical Practice
Acute Ophthalmology, Trauma and Advanced Surgical Techniques

Year 2
Academic modules will explore research and teaching methodology, whilst enabling students to develop the ability to analyse published evidence and enhance their interactive and written clinical communication skills. Students will also have the opportunity to complete an academic research project in Year 2 e.g. Original research or a Systematic Review in a relevant area of work. Following completion of the programme, students are encouraged to seek publication of their study in a peer-reviewed journal.

Students are supported throughout the programme through asynchronous discussions with e-tutors who are all leading clinicians in their field. Students also have access to a large learning resource, including subscriptions to key online books and journals. A written examination (MCQ)) is held in the second year, following completion of core modules.

Ophthalmology 2
Core Academic Activity (Reflective ePortfolio)
Examination (MCQ and EMI)
Specialist Academic Activity (Research Project)

Career opportunities

The programme will offer an alternative to clinical / laboratory research training for those students who do not wish to take time out of training. It will develop the trainee's academic portfolio and facilitate medical/surgical research projects essential to a research active career.

The ChM programme is designed to follow the FRCSEd and FRCOphth curricula and prepare the advanced trainee for their exit professional examinations.

The award of ChM will highlight the trainee's commitment to continuing professional development and will ensure a competitive edge when applying for consultant positions.

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The programme provides postgraduate education for doctors specialising in surgical gastroenterology and is delivered in collaboration with South Tees NHS Foundation Trust. Read more
The programme provides postgraduate education for doctors specialising in surgical gastroenterology and is delivered in collaboration with South Tees NHS Foundation Trust.

Course details

During the programme you study the underpinning principles of evidence-based surgical gastroenterology and minimally invasive surgery. you will focus on developing your clinical knowledge and understanding of surgical gastroenterology practice and the research skills necessary to be an evidence-based practitioner able to undertake clinical research. The programme enables you to:
-Further develop an understanding of the principles and clinical concepts underpinning practice in surgical gastroenterology and minimally invasive surgery
-Further develop the knowledge, skills and attitudes necessary to perform evidence-based practice and research within the specialist field of surgical gastroenterology and minimally invasive surgery
-Foster a commitment to lifelong learning and an inquisitive approach to clinical practice in surgical gastroenterology and minimally invasive surgery that will enable you to acquire skills to practice safely and enhance your practice

We have used a flexible approach to course delivery. For the majority of modules you can choose to attend taught sessions or study by distance learning.

What you study

In Year 1 you study a number of modules which develop your understanding of the principles underpinning clinical practice in surgical gastroenterology and minimally invasive surgery - these develop your skills in evidence-based practice, research methods and statistics.

In Year 2 you undertake a dissertation which includes developing a research paper for publication as well as the research project, OR a dissertation plus an option module.

Year 1 core modules
-Designing Research Projects
-Evidence-based Practice
-Practical Statistics
-Surgical Gastroenterology and Minimal Access Surgery

Year 2 core modules
-Dissertation
-Dissertation and Research Paper

Modules offered may vary.

Teaching

We use a range of learning and teaching methods. For most modules you can choose to attend classes or study by distance learning. Our taught classes use key lectures, group discussions, case-based discussions, practical activities, clinical simulation work and computer lab sessions. All distance learning is supported through the virtual learning environment where learning materials are available in a variety of forms including written materials, narrated PowerPoint presentations, interactive materials and electronic discussion forums. You receive supervision and support from your personal tutor, programme leader, module leaders, academic supervisors and clinical advisers. You are also expected to undertake some self-study to support your learning.

We use a range of assessment methods throughout including formative assessment, written reports, statistical analysis, written and oral exams and a research project.

Employability

You improve your career prospects by developing your specialist knowledge in surgical gastroenterology to postgraduate level and enhancing your research and evidence-based practice skills.

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Chelmsford. If you're currently a trainee surgical care practitioner, working as part of a surgical team in a hospital and would like to develop your knowledge and skills, our part-time course accredited by the Royal College of Surgeons of England is for you. Read more

Campus

Chelmsford

Overview

If you're currently a trainee surgical care practitioner, working as part of a surgical team in a hospital and would like to develop your knowledge and skills, our part-time course accredited by the Royal College of Surgeons of England is for you.
You’ll work under the direction of a clinical consultant surgeon, as well as academics and explore techniques to evaluate, develop and influence practice to make sure that everything you do maintains and enhances patient care.
You’ll develop your skills in clinical reasoning and problem solving and understand professional, ethical and legal limitations.
You’ll learn on our Chelmsford campus through a mix of lectures, seminars and practical workshops, using our simulated skills laboratories, which mirror real-life clinical situations. You’ll gain experience in applied practice in clinical placements, within Trusts across the East of England, where you’ll be directly supervised and assessed by a dedicated medical practitioner.
By completing this course you'll achieve an MSc Surgical Care Practice, which leads to the title of Surgical Care Practitioner (SCP). SCPs work in surgical teams in a number of specialities, including urology, trauma and orthopaedics, cardiothoracic, plastic and reconstructive surgery, neurosurgery, paediatrics, general, vascular, maxillofacial, otorhinolaryngology and gynaecology.

Core Modules

Introduction to the Surgical Care Practitioner Role
Clinical Consultation and Assessment Skills
Surgical Care Practitioner Skills
Research Studies
Major Project
Please note that you will need to complete all of the above core modules. This course does not have any optional modules. Modules are subject to change and availability.

Start dates

January 2017
September 2017

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The field of medical textiles is an extensive and constantly evolving area and presents a multitude of opportunities that can be addressed with innovative textiles for the diagnosis, treatment, and prevention of disease, illness, and injury. Read more

MSc Medical Textiles

The field of medical textiles is an extensive and constantly evolving area and presents a multitude of opportunities that can be addressed with innovative textiles for the diagnosis, treatment, and prevention of disease, illness, and injury.

The use of technical textiles and fibrous materials are already prevalent in the healthcare sector, from a simple wipe, to a complex composite structure used for bone replacement, but continual development in both healthcare and materials technology provides a need for study and research to enable the market to benefit from new innovations. Areas of application for medical textiles in the current market include implantable materials/tissue engineering (artificial ligaments etc), non-implantable materials (wound dressings, hygiene products, ostomy pouches), healthcare environment materials (surgical gowns, materials to reduce healthcare associated infection (HAI)), as well as assistive and therapeutic technologies.

Suitable for students who have completed undergraduate degree programme in textile science or textile engineering discipline or other related science or engineering.

This programme presents a unique opportunity for graduates to bring together the disparate fields of healthcare and advanced textile technology and equip graduates with the necessary skills for challenging careers in healthcare materials research, or related industries. The growth of these industries is predicted to be sustainable due to improvements in medical procedures and a growing knowledge of materials.

What you will study

This stimulating and flexible course aims to furnish textiles, science, and engineering graduates with the advanced specialised knowledge and skills required for the design and development of polymer and fibre based products for use in the Medical Textiles sector.

The School is internationally recognised for its teaching and research activities. The new MSc programme draws heavily on this research platform to provide a unique student learning experience at the University of Leeds. The MSc also provides an opportunity to develop candidates for future PhD study and research assistantships within this School research specialism. The taught modules are delivered over two semesters with a dissertation project undertaken throughout the full year. Each semester comprises of core modules taught through formal lectures, directed reading, private study, seminars, tutorials, assignments and, where appropriate, workshops. The period from the end of the second semester, to the end of the academic year is scheduled for the completion of the dissertation project.

Careers

This science degree provides an attractive opportunity for students with textile science or textile engineering or other related science or engineering subject background to gain knowledge required for a successful career in the specialised and prospering area of medical textiles. You will develop the skills required to pursue a career in any of the following fields: textile management; technical consultancy; education and training; and academic research in medical textiles. You may also be employed as a product development technologist in the specialist field of medical and health care.

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During the Dentistry Degree, students study Medical/Surgical Buccal Pathology, which is intended to provide future dentists with a basic understanding of surgery which, in many cases, is not used in professional practice for various reasons. Read more
During the Dentistry Degree, students study Medical/Surgical Buccal Pathology, which is intended to provide future dentists with a basic understanding of surgery which, in many cases, is not used in professional practice for various reasons: lack of practice, loss of this understanding, uncertainty when faced with surgical situations, lack of interest in surgical aspects of the profession, etc.

Once the degree has been completed, this basic understanding may not be sufficient for the dentist to confidently deal with surgical situations, and this understanding may be lost with time if not applied. As such, the aim of this course is to strengthen and broaden this surgical knowledge in recent graduates as far as possible in order to help them deal with such situations in the safest and most confident manner possible. In order to be able to practice correctly, dentists require a comprehensive clinical and surgical understanding of the field of dentistry that allows them to assess and solve any type of surgical situation themselves.

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Medical Robotics and Image-Guided Intervention are two technology driven areas of medicine that have experienced tremendous growth and improvement over the last twenty years, partly driven by the surgical aim of progressively less invasive and harmful treatments. Read more
Medical Robotics and Image-Guided Intervention are two technology driven areas of medicine that have experienced tremendous growth and improvement over the last twenty years, partly driven by the surgical aim of progressively less invasive and harmful treatments.

This course will provide the research experience required to work within the highly innovative field of medical robotics and surgical technology.

This is a multidisciplinary field and is led by three internationally known departments:

The Hamlyn Centre for Medical Robotics (part of the Institute of Global Health Innovation)
The Department of Surgery and Cancer
The Department of Computing

All teaching and research will take place in the brand new facilities of the Hamlyn Centre.

Taught modules include a mixture of engineering and medical topics such as medical robotics and instrumentation, minimally invasive surgery, surgical imaging and optics, image guided intervention, perception and ergonomics.

You will spend nine months working on a cutting edge research project.

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The Master of Surgery at Sydney Medical School is designed to complement the practical experience you obtain through the hospital based training program of the Royal Australasian College of Surgeons. Read more
The Master of Surgery at Sydney Medical School is designed to complement the practical experience you obtain through the hospital based training program of the Royal Australasian College of Surgeons.

This stream is coursework based and designed for those embarking on a surgical career who are preparing to sit for the RACS Part 1 Examination.

Having chosen this stream you will undertake one core Unit of Study (PUBH5018 Introductory Biostatistics) and 4 stream specific core units of study. You will also be required to undertake 3 elective units of study.

Please Note: An interview with the Discipline Head or his nominee is required for this stream. Entrance may be either through the normal enrolment process or via the Graduate Certificate in Surgical Sciences pathway.

Senior medical students interested in undertaking a Graduate Certificate in Surgical Sciences may enrol in one Unit of Study per semester in years 3 and 4. After successfully completing their medical studies, students in this course may :
i. Use the 24 credit points for the Graduate Certificate
ii. Use the 24 credit points for the Graduate Certificate and take the option of putting 12 of these credit points towards the MS(Coursework)
iii. Put the 24 credit points towards the MS(Coursework) thus fulfilling half the requirements for this degree.

To ask a question about this course, visit http://sydney.edu.au/internationaloffice/

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The programme is a full-time taught postgraduate degree course leading to the degree of MSc in Biomedical Engineering. Read more
The programme is a full-time taught postgraduate degree course leading to the degree of MSc in Biomedical Engineering. It has an international dimension, providing an important opportunity for postgraduate engineers to study the principles and state-of-the-art technologies in biomedical engineering with a particular emphasis on applications in advanced instrumentation for medicine and surgery.

Why study Biomedical Engineering at Dundee?

Biomedical engineers apply engineering principles and design methods to improve our understanding of living systems and to create new techniques and instruments in medicine and surgery.

The taught modules in this course expose students to the leading edge of modern medical and surgical technologies. The course also provides concepts and understanding of the role of entrepreneurship, business development and intellectual property exploitation in the biomedical industry, with case examples.

The research project allows students to work in a research area of their own particular interest, learning skills in presentation, critical thinking and problem-solving. Project topics are offered to students during the first semester of the course.

UK qualifications are recognised and respected throughout the world. The University of Dundee is one of the top UK universities, with a powerful research reputation, particularly in the medical and biomedical sciences. It has previously been named 'Scottish University of the Year' and short-listed for the Sunday Times 'UK University of the Year'.

Links with Universities in China:

This course can be taken in association with partner universities in China with part of the course taken at the home institution before coming to Dundee to complete your studies. For students from elsewhere it is possible to take the entire course at Dundee.

What's so good about Biomedical Engineering at Dundee?

The University of Dundee has had an active research programme in biomedical engineering for over 20 years.

The Biomedical Engineering group has a high international research standing with expertise in medical instrumentation, signal processing, biomaterials, tissue engineering, advanced design in minimally invasive surgery and rehabilitation engineering.

Research partnerships:

We have extensive links and research partnerships with clinicians at Ninewells Hospital (largest teaching hospital in Europe) and with world renowned scientists from the University's College of Life Sciences. The new Institute of Medical Science and Technology (IMSaT) at the University has been established as a multidisciplinary research 'hothouse' which seeks to commercialise and exploit advanced medical technologies leading to business opportunities.

This course has two start dates - September or January, and lasts for 12 months.

How you will be taught

The structure of the MSc course is divided into two parts. The taught modules expose students to the leading edge of modern biomedical and surgical technologies. The course gives concepts and understanding of the role of entrepreneurship, business development and intellectual property exploitation in the biomedical industry, with case examples.

The research project allows students to work in a research area of their own particular interest, learning skills in presentation, critical thinking and problem-solving. Project topics are offered to students towards at the beginning of second semester of the course.

What you will study

The course is divided into two parts:

Part I (60 Credits):

Bioinstrumentation (10 Credits)
Biomechanical Systems (20 Credits)
Biomaterials (20 credits)
Introduction to Medical Sciences (10 Credits)
Part II (120 Credits) has one taught module and a research project module. It starts at the beginning of the University of Dundee's Semester 2, which is in mid-January:

The taught module, Advanced Medical and Surgical Instrumentation (30 Credits), exposes students to the leading edge of modern medical and surgical technologies. It will also give concepts and understanding of the role of entrepreneurship, business development and intellectual property exploitation in the biomedical industry, with case examples.
The research project (90 Credits) will allow students to work in a research area of their own particular interest and to learn skills in presentation, critical thinking and problem-solving. Project topics will be offered to students before Part II of the course. We shall do our best to provide all students with a project of their choice.
The time spent in Dundee will also give students a valuable educational and cultural experience.

How you will be assessed

The course is assessed by coursework and examination, plus dissertation.

Careers

An MSc degree in Biomedical Engineering will prepare you for a challenging and rewarding career in one of many sectors: the rapidly growing medical technology industry, academic institutions, hospitals and government departments.

A wide range of employment possibilities exist including engineer, professor, research scientist, teacher, manager, salesperson or CEO.

The programme also provides the ideal academic grounding to undertake a PhD degree leading to a career in academic research.

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