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Masters Degrees (Minimally Invasive Surgery)

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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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We are pleased to deliver an innovative Level 7 Masters, MCh in Surgery with four individual awards in the specialist surgical pathways of. Read more
We are pleased to deliver an innovative Level 7 Masters, MCh in Surgery with four individual awards in the specialist surgical pathways of:
-Orthopaedics and Regenerative Medicine
-Otorhinolaryngology
-Urology
-Ophthamology*

*Subject to validation

Surgical pathways such as in General Surgery and Gynaecology and Emergency Obstetrics are planned to be included for the near future.

The theme of regenerative medicine and the teaching of practical skills through simulation runs through each of the specialist pathways and modules.

Orthopaedics and Regenerative Medicine

The specialist surgical field of orthopaedics has been central in the use of regenerative medicine. The focus in modern orthopaedics is changing as research exposes ever greater knowledge widening the spectrum of therapeutic options encompassing reconstruction, regeneration and substitution (Kim, S-J. and Shetty, A.A., 2011; Shetty, A.A. and Kim, S-J., 2013; Kim, J-M., Hans, J.R. and Shetty, A.A., 2014).

Research methods, studies in regenerative medicine and other emerging technologies feature poorly in the standard curriculum of the orthopaedic trainee. This limits the quality of research output, reduces the potential for innovation and slows the rates of adoption of transformative treatments for patients, while leaving the surgeon unable to critically evaluate new treatments.

This programme targets this deficiency with a strong emphasis on research methodology and critical analysis that is based on a platform formed of in-depth scientific knowledge and proven by translation into clinical practice.

Otorhinolaryngology

Otorhinolaryngology (Ear, Nose and Throat surgery – ENT) is a diverse surgical specialty that involves the management of both children and adults. In contrast to other surgical specialties the management of a significant number of conditions requires a non-surgical approach. An understanding of the pathogenesis and progression of pathology is essential. This surgical specialty is rapidly evolving. Significant progress has been made through regenerative medicine and technology, some locally through mobile platforms.

Entry into Otorhinolaryngology is competitive. This is often despite the fact that whilst at University many medical students may have had little, if any, formal training in ENT. Some junior trainees entering the specialty have had limited exposure which may affect their decision making.

The MCh in Surgery (Otorhinolaryngology) course aims to prepare a trainee to meet the challenges of the current and future challenges in Otorhinolaryngology. It provides an evidence based approach for the management of patients, and provides a foundation for those who will eventually undertake formal exit examinations in this specialty.

Urology

Urology is a surgical specialty dealing with the problems associated with the urinary tract and it deals with cancer, non-cancer, functional problems and diseases (Khan, F., Mahmalji, W., Sriprasad, S. and Madaan, S., 2013). In urology many problems can be managed with medications (for example treating erectile dysfunction and lower urinary tract symptoms have become largely by pharmaceutical agents) and this underpins the importance of understanding the basic science and molecular biology as applied to the specialty.

This surgical field is constantly evolving with technology being the main driver. Improvements have been made through lasers, optics, gadgets and robotics (Jeong, Kumar and Menon, 2016). Regenerative medicine is fast evolving in urology. The architectural simplicity of hollow structures (such as bladder) and tubes (such as the ureters and urethra) make them particularly amenable.

Despite the fact that many medical students may not have had a urology placement during their training (Derbyshire and Flynn, 2011) the specialty is very much sought after. Getting into urological training is very competitive. Doctors typically undertake research, obtain higher degrees and publish papers in peer-reviewed journals in order to advance their surgical training. A MCh in Surgery (Urology) will therefore be significantly valuable to you for not only your professional knowledge and skills but also to help you reach your goals of becoming a Consultant.

The MCh in Surgery (Urology) will prepare you to meet the challenges of current and future urologic medicine and surgery. All this provides a platform for further advancement of your scientific knowledge, innovative and forward thinking, career progression and camaraderie with fellow students.

Ophthalmology

Ophthalmology is a surgical specialty dealing with disorders of the eye and visual pathways. Although the treatment of eye conditions involves a range of therapeutic options, including medicine, laser and surgery, the surgical field in particular is constantly evolving with technology being the main driver. Improvements are being made through lasers, optics, and minimally invasive surgical procedures with enhanced outcomes for patients.

There is very little ophthalmology teaching in modern medical school curricula. However, the speciality is highly sought after with intense competition for a limited number of training positions. Therefore, doctors typically undertake research, obtain higher degrees and publish papers in peer-reviewed journals in order to advance their surgical training and improve their chances of achieving a training number. A MCh in Surgery (Ophthalmology) will provide you with a solid foundation and valuable qualification to enhance selection onto a career pathway in this highly competitive field, culminating in a Consultant appointment. The MCh in Surgery (Ophthalmology) will prepare you as a trainee surgeon to meet the challenges of current and future ophthalmology. Specifically, you will be taught to critically analyse and evaluate data through learning research methodology. You will then learn to apply this to clinical practice and to evaluate the different treatment options and new technologies with respect to patient benefit and outcomes. There will be the opportunity of studying a range of conditions and treatments in depth. All this provides a platform for further advancement of your scientific knowledge, innovative and forward thinking. A unique aspect of the MCh programme is the teaching of regenerative medicine. Regenerative medicine is fast evolving in ophthalmology, and this programme will help you to appreciate this area of medicine as applied to eye conditions. This is especially so in retinal conditions, optic neuropathies and glaucoma. The knowledge gained is critical not just for the local students from the United Kingdom but to any trainee from anywhere in the world.

The theme of regenerative medicine will run through each of the specialist pathway modules with its application, research and emerging technologies being critically explored. Although a key component and theme through this programme will be regenerative medicine, a further theme that will run through each of the modules is the teaching of practical surgical skills in each of the pathways and modules through simulation.

Aims of the Course

In order for you to be able to think in an innovative manner and to be prepared for modern challenges in surgery, this programme aims to develop your scientific insight into current and emerging technologies that will inform your clinical practice and help you to apply basic scientific discoveries to your clinical work for the benefit of your patients.

It aims to facilitate you to develop a critical understanding of current novel and potentially beneficial therapies that use regenerative medicine and digital health platforms in a way that will inspire and encourage you to use this knowledge and develop your own ideas. To be a competent, safe and compassionate surgeon, you need to be able to develop your critical, analytical and problem solving abilities.

The programme therefore will enable you to critically and analytically consider the evidence base presented to you, to confidently challenge this evidence and make comprehensive, considered and robust decisions on patient care. In doing so you will be enabled to think and work creatively and intellectually which in turn will stimulate you to search for new knowledge for the benefit of your patients and health care provision.

Further, this programme will enable you to be a lifelong learner, having developed critical, analytical and evaluative skills at Masters level, to undertake your own high quality research and search for innovation, which in turn will further progress your area of expertise. Integral to the programme is the need to develop and enhance a culture in you that ensures a willingness to challenge poor or bad clinical practice, improve service delivery and effect change.

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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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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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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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Chelmsford, ICENI Centre, Broomfield Robotic Centre. Our course will provide you with the breadth and depth of experience to fully engage with all aspects of minimally invasive and robotic surgery including the latest technological advances. Read more

Campus

Chelmsford, ICENI Centre, Broomfield Robotic Centre

Overview

Our course will provide you with the breadth and depth of experience to fully engage with all aspects of minimally invasive and robotic surgery including the latest technological advances.
You’ll undertake laparoscopic simulation training, based at the ICENI Centre in Colchester, and you’ll also have access to the Robotic Centre at Broomfield Hospital in Chelmsford. The ICENI Centre is internationally recognised as a leading centre of excellence in the field of minimally invasive surgery. It combines the advanced multidisciplinary laparoscopic techniques practised at Colchester Hospital University NHS Foundation Trust, with the highest-quality research infrastructure established here at Anglia Ruskin University.
We’re home to the Postgraduate Medical Institute (PMI), which has its own £10 million building on our Chelmsford campus. It features state-of-the-art laboratory and training facilities and lecture theatres linked with partner hospital sites. In conjunction with Colchester Hospital University Foundation Trust, we’ve funded a £2 million building specifically for minimally-invasive surgery research and a training centre.
Designed by clinical experts, the course will prepare you to advance your career development and opportunities in this area of surgical specialism. On successful completion of this programme, you will be awarded a Master of Surgery which entitles you to use
MCh after your name. MCh is an abbreviation of Magister Chirurgiae, the Latin for Master of Surgery. Master of Surgery, rather than MCh, will appear on your certificate.

Core Modules

Core Principles of Minimally Invasive and Robotic Surgery
Research Studies
Major Project

Specialist modules

Principles of Minimally Invasive and Robotic Surgery – Gynaecology
Principles of Minimally Invasive and Robotic Surgery – Gastrointestinal
Principles of Minimally Invasive and Robotic Surgery – Urological
Principles of Minimally Invasive and Robotic Surgery – Vascular
In addition to the compulsory modules students select one speciality module from the above list to complete the course.

Optional modules

Global Leadership
Advancing Professional Decision Making

Modules are subject to change and availability.

Start dates

September 2017

Read less
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc with an industrial placement year, making it a two-year course, or with a Masters industrial placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term you take taught modules.

Across the spring and summer terms you’ll work on your Masters Individual Project, either at the University or at a company.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc without a placement or with a Masters industrial placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term, you take taught modules.

Across the spring and summer terms, you’ll work on your Masters Individual Project, either at the University or at a company.

For your placement, you work in an industrial setting for at least 40 weeks, making your MSc a two-year course (full time). We help you seek and apply for your placement.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc with an industrial placement year, making it a two-year course, or without a placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term you take taught modules.

Across the spring and summer terms you’ll work on your Masters Individual Project, either at the University or at a company.

For your Masters placement, you work in an industrial setting for at least 12 weeks. We help you seek and apply for your placement.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
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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This distinctive programme is the result of a joint partnership between Edge Hill University and Implant Centres of Excellence (ICE Ltd). Read more
This distinctive programme is the result of a joint partnership between Edge Hill University and Implant Centres of Excellence (ICE Ltd). It will train you in the practical application of dental implantology in the clinic, combining theoretical knowledge with the requirement to successfully complete a range of cases at a clinical hub, supported by a team of experienced dentists and a clinical mentor.

You will be introduced to new technologies such as minimally invasive computer guided surgery and explore CAD-CAM restorative treatment techniques, infection control, medico-legal and ethical considerations, and human factors. There is a focus on teamwork, collaboration and reflection with the overall aim of nurturing an evidence-based approach to practice and enhancing the quality of patient care.

Upon successful completion of the programme you will have developed the core clinical skills and competency in the restorative and surgical aspects of implant dentistry, as well as acquiring essential skills in critical analysis and research.

What will I study?

The overarching aim of the modules is to equip you with an advanced knowledge base and core clinical skills in all aspects of implant dentistry.

You will examine the reasons and consequences associated with tooth loss, with a focus on prevention, and immerse yourself in the application of advanced skills in the assessment, diagnosis and planning of surgical implant treatment.

You will be introduced to research methodology and research skills, undertake a critical appraisal of relevant literature, adopt an evidence-based approach to clinical decision making, and conduct a significant piece of investigative enquiry through the completion of a dissertation.

How will I study?

Taught sessions are typically run in block study days on a part-time basis so that attendance can be incorporated with clinical work.

Teaching methods include lectures by consultant dentists, specialists and expert clinicians in implant dentistry, alongside group work, objective structured clinical examinations (OSCEs), seminar presentations and interactive sessions. There will be strong emphasis on literature analysis and critique as well as development of case presentation skills.

The delivery of the module introducing you to the research process will be more blended and there will be academic and clinical supervision to support you in completing your dissertation.

Several modules contain practice competencies that need to be met so a significant amount of time for learning is allocated to work in practice with support provided by a clinical mentor.

In addition to this, there will be set days of attendance within the clinical hub at ICE Ltd, with the possibility of attending additional optional sessions there if desired.

How will I be assessed?

You will be assessed both formatively and summatively using a combination of theoretical and practical methods. These will enable you to demonstrate successful acquisition of the necessary academic knowledge and clinical competencies in implant dentistry.

Assessment methods will include essay writing, critical appraisal of research papers, preparing research proposals, delivering case presentations or treatment plans, and conducting practice-based pilot studies or a cycle of clinical audits.

Clinical portfolios will be assessed to allow you to demonstrate your engagement with the evidence-base that supports practice and the application of best practice guidance to your clinical work.

Who will be teaching me?

You will be taught by a combination of academic experts from Edge Hill University who are opinion leaders in implant dentistry and a team of dentists from ICE Ltd who work in community and hospital settings, all with extensive experience of teaching and supporting dentists in oral surgery and implantology.

The expertise of the programme team will be complemented by the use of national and internationally renowned external visiting lecturers who will deliver lectures across the clinical modules.

What are my career prospects?

This programme will develop and enhance your clinical skills and knowledge in implant dentistry. The course is designed to provide a strong foundation for dental practitioners to progress their career within this discipline.

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