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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 programme aims to impart a robust scientific understanding of burns, plastic and reconstructive surgery, and to equip healthcare professionals (doctors, surgeons, nursing staff and physiotherapists) and scientists with the research techniques and translational tools necessary for research in this expanding field. Read more
This programme aims to impart a robust scientific understanding of burns, plastic and reconstructive surgery, and to equip healthcare professionals (doctors, surgeons, nursing staff and physiotherapists) and scientists with the research techniques and translational tools necessary for research in this expanding field.

Degree information

Students will acquire both scientific and clinical research skills in plastic and reconstructive surgery, develop the necessary transferable skills (laboratory, critical, synthetic), and acquire an appreciation of the needs and requirements of patients requiring this speciality.

Students undertake modules to the value of 180 credits for the MSc. The programme consists of five core modules (75 credits), one optional module (15 credits) and a research project (90 credits). A Postgraduate Certificate (60 credits) is offered. The programme consists of two core modules (30 credits) and two optional module (30 credits).

Core modules
-Plastic and Reconstructive Surgery Burns
-Military Injury and Wound Healing
-Biomaterials in Regenerative Medicine
-Research Methodology
-Applied Tissue Engineering

Optional modules - choose one of the following options:
-Nanotechnology in Medicine
-Translation of Nanotechnology and Regenerative Medicine
-Advanced Surgical Skills in Microsurgery
-Stem cells and their applications in Surgery

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of ~15,000 words and a viva.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, workshops, practical sessions, group discussions and distance learning. Assessment is through written examination, coursework, presentation, dissertation and viva voce.

Careers

Establishing a career in surgery is becoming very competitive, and students on this programme benefit from the latest knowledge and experience in this expanding field. On completion, graduates find they are in a better position to find placements due to the wide exposure they have had to emerging technologies such as nanotechnology, regenerative medicine, and speciality plastic surgery. This MSc also provide our students with an excellent foundation for further research either at MD or PhD level or for a career as a clinician or healthcare professional within this surgical speciality.

Top career destinations for this degree:
-Plastic Surgery Trainee Registrar, NHS (National Health Service)
-MSc Burns, Plastic and Reconstructive Surgery, UCL
-PhD Interventional Science, UCL
-PhD Surgery and Interventional Science, UCL

Employability
This MSc focuses on research as well as theory and students acquire technical, laboratory-based skills. Networking is also one of the key aspects of this programme. Consultant plastic surgeons from both military and civilian backgrounds present lectures, giving students access to one-on-one contact and a multitude of networking opportunities.

Why study this degree at UCL?

This is the only MSc programme in burns, plastic and reconstructive surgery currently in the UK, and addresses a national need.

Clinical staff who undertake teaching include renowned consultants based at the Royal Free Hospital.

The Division of Surgery & Interventional Science is part of one of the most prestigious medical schools in Europe; it is made up of nearly 400 people from surgeons and oncologists to clinical trials specialists and researchers. Its aim is to understand the causes of human disease and develop innovative therapies and technology to improve the quality of life.

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This internationally recognised course is designed to train healthcare professionals to be the clinical leaders of the future by providing a mix of clinical and professional knowledge relevant to the practice of cardiology in contemporary healthcare. Read more
This internationally recognised course is designed to train healthcare professionals to be the clinical leaders of the future by providing a mix of clinical and professional knowledge relevant to the practice of cardiology in contemporary healthcare.

Learning in key professional domains includes service leadership and development, research, commissioning and communication and teaching. The cardiology content of the programme provides comprehensive learning to meet the professional development needs of a wide range of practitioners working in cardiology including: doctors, nurses, paramedics, pharmacists, physiologists and radiographers.

The course aims to increase students’ practical and theoretical knowledge of advanced clinical and interventional cardiology, by promoting their exploration of the current evidence for diagnosis and treatment. The course seeks to enable the student to use this evidence toward good practice through focussing on the practical aspects of the care of common cardiac conditions from a medical and patient perspective. In addition, the course aims to promote a wider understanding of the differing profiles and contributory roles of the various health care professionals involved in the care of cardiac patients.

Key Areas of Study

-Acute cardiology principles and practice
-Fundamentals of cardiac diagnostic procedures and investigations
-Invasive and interventional cardiology
-Research methods and critical appraisal
-Leading and transforming services / Quality, safety and service improvement in clinical services
-Communication, learning and teaching in health and social care

Course Structure

Most modules are assessed by means of a 3,000 word in-depth evaluation of a topic agreed by the student and module leader. The clinical modules are also assessed by means of an unseen written examination.

PGCert
-MDM135 Acute Cardiology Principles & Practice (20 credits)
-MDM136 Fundamentals of Cardiac Diagnostic Procedures & Investigations (20 credits)
-MDM137 Invasive & Interventional Cardiology (20 credits)

PGDip - PGCert Modules PLUS:
-MDM10 Research Methods & Critical Appraisal (20 credits)
-MDM122 Communication, Learning & Teaching in Health & Social Care (20 credits)
AND
-MDM110 Leading & Transforming Services (20 credits)
OR
-MDM76 Quality, Safety and Service Improvement in Clinical Services (20 credits)

MSc - PGDip Modules PLUS:
-MDM96 Dissertation (60 credits)

Career Opportunities

On completion of the course, students will have a broad understanding of cardiovascular medicine combined with a portfolio of advanced research and leadership skills to support the development of specialist interest in cardiology and enhance career opportunities.

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This course is designed for health professionals who use diagnostic imaging and interventions in their current role, including. -Diagnostic and therapeutic radiographers. Read more
This course is designed for health professionals who use diagnostic imaging and interventions in their current role, including:
-Diagnostic and therapeutic radiographers.
-Radiation technologists.
-Physiotherapists.
-Nurses.
-Advanced nurse practitioners.
-Junior doctors.
-Dentists.
-Podiatrists.

It is available worldwide as you don't have to attend the university. You complete your learning at a time and place that suits your own personal and employment circumstances.

You learn in a variety of areas and formats, tailoring the content to your individual circumstance and need. There are opportunities to develop your theoretical knowledge in and around diagnostic imaging, or to specialise in a particular area.

Modules relate to diagnostic imaging as well as wider health practice, and take place in a multi-disciplinary and international environment. The core topics covered include:
-Image interpretation (musculoskeletal, chest, abdominal, CT head).
-Cross-sectional imaging (CT / MRI).
-Interventional.
-Research.
-Education in health care.

As this is a distance learning course, you use various online platforms and technologies to support your learning, such as our virtual learning environment (SHUspace) and PebblePad. Learning takes place in various formats including:
-Online presentations and live collaborative sessions with tutors.
-Discussion forums with peers and tutors.
-Imaging case studies.
-Access to a wide range of online resources and textbooks.
-Ongoing formative activities (e-tivities).

You are supported by an expert team of academics and tutors, all of whom are experienced registered health professionals. Current clinical practitioners also help develop and deliver resources. The course team has a range of specialist expertise including:
-Image interpretation.
-Cross-sectional imaging.
-Interventional radiology.
-Research.
-Higher education.
-Professional issues.
-Advanced practice.

You have a course leader and a named academic advisor to support your learning. Each module has a module leader to aid you specifically in that area, and we have dedicated student support officers who support all aspects of your time on the course.

This course allows you to apply masters level thinking to your practice and boost your confidence in your judgement. This can enhance your job prospects and career progression wherever you choose to work.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-diagnostic-imaging

Study individual modules

You can study individual modules from this course and gain academic credit towards a qualification. Visit our continuing professional development website for more information: http://www.shu.ac.uk/faculties/hwb/cpd/modules.html

Professional recognition

This course is accredited by the Society and College of Radiographers.

Course structure

Distance learning. Starts September and January.

Course structure
The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits. The masters (MSc) award is achieved by successfully completing 180 credits.
The combination of modules studied on this course is tailored according to your own areas of interest, aims and goals. You discuss your individual study route with the course leader.

Core modules
-Awareness of error in diagnostic imaging (15 credits)
-Research methods for practice (15 credits)
-Dissertation (60 credits)

Optional modules
-Chest radiographic image interpretation (15 credits)
-Appendicular musculoskeletal radiographic image interpretation (15 credits)
-Axial musculoskeletal radiographic image interpretation (15 credits)
-Abdominal imaging (15 credits)

Optional modules continued
-Cross-sectional imaging (15 credits)
-Computed tomography head image interpretation: acute and emergency care (15 credits)
-Introduction to healthcare education (30 credits)

Assessment
The approach to assessment is varied and we use both formative (not formally marked) and summative (formally marked) assessments in each of the modules. The assessment pattern is designed to encourage your personal, professional, and academic development.Short online formative activities (e-tivities) are used to promote engagement with the distance learning materials, provide support for the final assignment and facilitate online discussion with fellow students on the module. Final summative tasks to assess your completion of the modules are varied but include methods such as:
-Traditional written coursework assignments.
-Online computer-based exams.
-Electronic poster or powerpoint presentations.
-Research proposals and projects.

Other admission requirements

If English is not your first language you will need an IELTS score of 6.5 with a minimum of 5.5 in all skills, or a recognised equivalent. If your level of English language is currently below IELTS 6.5 we recommend you consider an appropriate Sheffield Hallam University Pre-sessional English course which will enable you to achieve the required level of English.

You also need:
-Access to and the ability to use IT software such as Word and PowerPoint.
-Regular access to a computer with reliable internet access.
-Confidence in accessing and using web-based materials.
-Access to diagnostic images in practice.

We determine your suitability for the course and your ability to complete it through your application, references and personal statement. You may also have an advisory interview/email communication with the course leader to:
-Ascertain your needs and aspirations.
-Decide on potential routes and modules of study.
-Give you guidance to prepare for any claims for credit through our accreditation of recognised prior learning (RPL).

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– Mammography Theory. – Mammography Practice. – Mammography Image Interpretation(double credits). Students may select from other units available in the scheme to identify a route to award. Read more

Course units

– Mammography Theory
– Mammography Practice
– Mammography Image Interpretation(double credits)

Students may select from other units available in the scheme to identify a route to award. For example:
– Specialist Skills Development: Work-based Learning (in the area of choice e.g Breast Ultrasound, Ultrasound guided biopsy & X-ray guided interventional procedures)
– Leadership Skills for Allied Health Professionals
– Understanding Cancer Care and Management for Allied Health Professionals
– An Introduction to Counselling Skills for Health Care Professionals
– Practice Educators Course
– Intravenous Administration of Pharmaceutical Substances for Diagnostic or Therapeutic Purposes
– Understanding Research and Evidence based Practice
– Preparation for Dissertation
– Research Dissertation

Course description

This course is provided through a partnership between LSBU and King’s College Hospital National
Breast Screening Training Centre. Applicants will normally be a HPC registered radiographer, with a relevant professional qualification, or in possession of a first degree in a science, biomedical or health and social care subject. The Mammographic Studies Programme is designed to address the increasingly specialised needs of radiographers for education to underpin professional practice in breast diagnosis. The programme includes provision for developing a high standard of mammography skills, but also caters for those wishing to move into advanced and consultant practice to meet the evolving requirements of breast screening and diagnostic services.

A major feature of this programme is the option for you to pursue specific knowledge and skills development in your area of practice through the use of work-based learning e.g. breast ultrasound, ultrasound guided biopsy and x-ray guided interventional procedures.

Career opportunities

Requirements in respect of Continuing Professional Development (CPD) linked to professional regulation and Knowledge Skills Framework (KSF) requirements, means that flexible
and responsive education and training provision is increasingly important to practitioners and their managers. This programme will assist in developing your career options as a practitioner, or into specialist, advanced and consultant practice, research or management areas.

Professional contacts/industry links

Approved by the College of Radiographers.

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The Musculoskeletal Science MSc covers a broad spectrum of musculoskeletal topics, including basic science and clinical aspects. Read more
The Musculoskeletal Science MSc covers a broad spectrum of musculoskeletal topics, including basic science and clinical aspects. It aims to give students, in a multidisciplinary setting, a holistic view of musculoskeletal science, orthopaedic bioengineering and medicine, and provides an in-depth knowledge of specific areas appropriate to each student's individual interests.

Degree information

Students on this MSc programme acquire essential scientific knowledge, improve their basic research skills, and are equipped with the ability to solve the musculoskeletal problems emphasised within the NHS framework. The programme emphasises the four major areas as identified by the Bone and Joint Decade - arthritis, osteoporosis, trauma and spinal disorders, and transferable skills and research methodology in orthopaedic bioengineering.

Students undertake modules to the value of 180 credits. The programme consists of eight taught modules (120 credits), and a research project (60 credits).

Students will be awarded an MSc on successful completion of all taught modules and research project; a Postgraduate Diploma on successful completion of eight taught modules (all core modules plus any four from options); and a Postgraduate Certificate on successful completion of four taught modules.

A Postgraduate Diploma (120 credits, full-time nine months and flexible study up to five years) is offered. A Postgraduate Certificate (60 credits, full-time three months and flexible study up to two years) is offered.

Core modules
-Clinical Aspects of Musculoskeletal Medicine and Surgery, Part I
-Musculoskeletal Tissue Biology - Form and Function
-Musculoskeletal Biomechanics and Biomaterials, Part I
-Research Methodology and Generic Skills

Optional modules - up to 60 credits of optional modules (4 modules) drawn from the following:
-Clinical Aspects of Musculoskeletal Medicine and Surgery, Part II
-Musculoskeletal Tissue Biology - Disease and Dysfunction
-Musculoskeletal Biomechanics and Biomaterials, Part II
-Research Governance
-Clinical Experience in Musculoskeletal Surgery
-Surgical Skills in Orthopaedic Surgery

Dissertation/report
All MSc students undertake an independent research project that will contribute to cutting-edge scientific, clinical and industrial research, and culminates in a dissertation and oral examination.

Teaching and learning
The programme is delivered through a combination of taught lectures, seminars, tutorials, group project work and workshops. Assessment is through online MCQs, coursework, and the dissertation and viva voce. Candidates are examined in the year in which they complete the programme.

Careers

This programme offers students from a wide variety of disciplines the opportunity to gain a higher degree in an exciting and rapidly developing field, and equips them to make a strong contribution to the development of musculoskeletal services. The students can develop their careers in healthcare sector, medical device industry and bio-industry, regenerative medicine, regulatory bodies, as well as academic community.

Top career destinations for this degree:
-Orthopaedic Surgeon, St Thomas' Hospital (NHS)
-MBBS (Bachelor of Medicine, Bachelor of Surgery), King's College London
-Medical Research on Replacement Joints, Cardiff University (Prifysgol Caerdydd)
-Occupational Therapy Assistant, Watford General Hospital (NHS)
-Orthopaedic Surgeon, Assaswa International Hospital

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, biologists, bioengineers and material scientists and oncologists, to clinical trials specialists and researchers. Our aim is to understand the causes of human musculoskeletal disease and develop innovative therapies and technology to improve the quality of life.

Students on this MSc will gain an unparalleled grounding in musculoskeletal science and orthopaedic bioengineering, including a holistic view of clinical care as well as orthopaedic sciences and bioengineering. The programme is run at the internationally renowned Royal Orthopaedic Hospital in Stanmore.

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The Musculoskeletal Science MSc covers a broad spectrum of musculoskeletal topics, including basic science and clinical aspects. Read more
The Musculoskeletal Science MSc covers a broad spectrum of musculoskeletal topics, including basic science and clinical aspects. It aims to give students, in a multidisciplinary setting, a holistic view of musculoskeletal science, orthopaedic bioengineering and medicine, and provides an in-depth knowledge of specific areas appropriate to each student's individual interests.

Degree information

Students on this MSc programme acquire essential scientific knowledge, improve their basic research skills, and are equipped with the ability to solve the musculoskeletal problems emphasised within the NHS framework. The programme emphasises the four major areas as identified by the Bone and Joint Decade - arthritis, osteoporosis, trauma and spinal disorders, and transferable skills and research methodology in orthopaedic bioengineering.

Students undertake modules to the value of 180 credits. The programme consists of four core modules (60 credits), four optional modules (60 credits) and a research project (60 credits). A Postgraduate Diploma (120 credits, full-time nine months and flexible study up to five years) is offered. A Postgraduate Certificate (60 credits, full-time three months and flexible study up to two years) is offered.

Core modules
-Clinical aspects of Musculoskeletal Medicine and Surgery, Part I
-Musculoskeletal Tissue Biology - Form and Function
-Musculoskeletal Biomechanics and Biomaterials, Part I
-Research Methodology and Generic Skills

Optional modules - up to 60 credits of optional modules (4 modules) drawn from the following:
-Clinical aspects of Musculoskeletal Medicine and Surgery, Part II
-Musculoskeletal Biology, Part II
-Musculoskeletal Biomechanics and Biomaterials, Part II
-Musculoskeletal Epidemiology and Research Methodology, Part II
-Clinical Experience in Musculoskeletal Surgery

Dissertation/report
All MSc students undertake an independent research project, which can be carried out at their own institution or hospital, and culminates in a dissertation and oral examination.

Teaching and learning
The programme is delivered through a combination of web-based taught lectures, seminars, tutorials, online research forum, group project work and workshops. Assessment is through unseen written examination, coursework, and the dissertation and viva voce. Candidates are examined in the year in which they complete the programme.

Careers

This programme offers students from a wide variety of disciplines the opportunity to gain a higher degree in an exciting and rapidly developing field, and equips them to make a strong contribution to the development of musculoskeletal services. The students can develop their careers in healthcare sector, medical device industry and bio-industry, regenerative medicine, regulatory bodies, as well as academic community.

Top career destinations for this degree:
-Trauma and Orthopaedics, NHS Bradford Teaching Hospitals NHS Foundation Trust and studying Engineering, The Open University.

Why study this degree at UCL?

The UCL 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, biologists, bioengineers and material scientists and oncologists to clinical trials specialists and researchers. Our aim is to understand the causes of human musculoskeletal disease and develop innovative therapies and technology to improve the quality of life of the people around us.

Students on this MSc will gain an unparalleled grounding in musculoskeletal science and orthopaedic bioengineering including a holistic view of clinical care as well as orthopaedic sciences and bioengineering. The programme is run at the internationally renowned Royal Orthopaedic Hospital in Stanmore.

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Nanotechnology and Regenerative Medicine are rapidly expanding fields with the potential to revolutionise modern medicine. This cross-disciplinary programme provides students with a robust scientific understanding in these fields, combined with a "hands-on" practical and translational focus. Read more
Nanotechnology and Regenerative Medicine are rapidly expanding fields with the potential to revolutionise modern medicine. This cross-disciplinary programme provides students with a robust scientific understanding in these fields, combined with a "hands-on" practical and translational focus.

Degree information

This programme will equip students with a critical understanding of:
-How nanotechnology can be harnessed for the improved detection and treatment of disease.
-The use of stem cells in medicine.
-Tissue engineering strategies for tissue regeneration.
-Improving biomaterials for directing cell behaviour.
-The regulatory, ethical and commercial hurdles for the translation of these emerging technologies.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), one optional module (15 credits) and a research project (90 credits). A Postgraduate Certificate (60 credits) is offered. The programme consists of two core modules (30 credits) and two optional modules (30 credits).

Core modules
-Nanotechnology in Medicine *
-Applied Tissue Engineering *
-Biomaterials
-Research Methodologies
-Practical Bio-Nanotechnology and Regenerative Medicine
-*PG Cert - compulsory modules

Optional modules - choose one of the following options; attendance at the other module is possible but will not be assessed.
-Stem Cells in Medicine and their Applications in Surgery
-Translation of Nanotechnology and Regenerative Medicine

Dissertation/report
All students undertake an extensive laboratory-based (90 credits) research project which culminates in a dissertation of c.15,000 words and an individual viva voce.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, workshops, group discussions, practical sessions, and demonstrations. Assessment is through presentations, problem-solving workshops, written practical reports, coursework, unseen written examinations and the dissertation.

Careers

Student career options and progression during and following the completion of the degree are considered to be of the utmost importance. Personal tutors will offer individual advice and seminars are arranged on a variety of career competencies including CV writing, writing research proposals and positive personal presentation.

Networking with world-leading scientists, new biotechnology CEO's and clinicians is encouraged and enabled throughout the programme. Research output in terms of publishing papers and presenting at conferences is also promoted.

Recent career destinations include:
-PhD or Medicine at UCL, Imperial College London and Universities of Oxford and Cambridge
-Clinical PhD training programmes
-NHS hospitals in the UK
-EU and overseas hospitals and research facilities

Top career destinations for this degree:
-Health Careers Program, Harvard University
-PhD Medicine, Queen's University, Belfast
-PhD Bioengineering, Imperial College London
-PhD Nanomedicine, UCL
-DPhil Researcher (Biomedical Sciences), University of Oxford and studying MSc Nanotechnology and Regenerative Medicine, -University College London (UCL)

Employability
Graduates of the programme gain the transferable laboratory, critical and soft skills, such as science communication, necessary to pursue a scientific or clinical research career in the fields of nanomedicine and regenerative medicine.

Why study this degree at UCL?

Based within the world-leading medical research environment of the UCL Division of Surgery and Interventional Science this MSc retains a clinical focus and addresses real medicine needs. Students learn about the route of translation from research ideas into actual products which can benefit patients.

An in-depth laboratory-based research project is an integral component of the programme: expert support allows students to investigate cutting-edge projects and thereby open up opportunities for further research and publications.

Students are embedded within the vibrant research community of the Faculty of Medical Sciences which provides students - through research seminars, symposia and eminent guest lecturers - outstanding networking opportunities within the research, clinical and translational science communities.

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The Trauma and Orthopaedics MSc has been designed to reflect the growing trend towards greater integration of clinical service, research and education in the NHS, as exemplified by the development of the various Academic Health Science Centre models, in order to speed up the development of improvements in patient care. Read more
The Trauma and Orthopaedics MSc has been designed to reflect the growing trend towards greater integration of clinical service, research and education in the NHS, as exemplified by the development of the various Academic Health Science Centre models, in order to speed up the development of improvements in patient care.

Degree information

The programme complements clinical training, with a particular focus on the scientific and research content. Students develop an advanced understanding of orthopaedics and trauma and develop an appreciation of scientific research in terms of appraisal of the current scientific literature/evidence and experimental design, practice and analysis.

Students undertake modules to the value of 180 credits. The programme consists of eight core modules (120 credits) and a research dissertation (60 credits). There are no optional modules for this programme.

Core modules
-Trauma, Theory and Upper Limb
-Trauma of the Spine and Lower Limbs
-Paediatric Trauma
-Children's Orthopaedics
-Oncology
-Orthopaedics - Upper Limb
-Orthopaedics - the Spine and Research Methodology
-Orthopaedics - Lower Limb
-Research Project

Dissertation/report
All MSc students undertake an independent research project which culminates in a dissertation of 8,000–10,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials and consultant clinical conferences. Each taught module will be assessed by a two hour unseen examination. The submission of the dissertation and viva voce for assessment will take place in the final year of the programme.

Careers

The programme aims to enhance the training of orthopaedic trainees, promoting a scientific approach to surgery. Combined with the existing NE London Higher Surgical Training programme, this MSc offers students an excellent preparation for FRCS (Orth) and/or further research in this field.

Why study this degree at UCL?

UCL 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 Medical School has highly rated basic science expertise within its academic and clinical departments and students on the Trauma and Orthopaedics MSc programme benefit from a world-class research environment.

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This MSc is designed to give clinicians and practitioners a deeper understanding of sports medicine, sports injuries and exercise medicine. Read more
This MSc is designed to give clinicians and practitioners a deeper understanding of sports medicine, sports injuries and exercise medicine. The programme covers the evidence-based management of sports medicine and musculoskeletal injuries, and emphasises the vital role of physical activity in the prevention and treatment of chronic disease. This MSc can be taken full time over one year, part-time over two years, or via flexible distance learning.

Degree information

The programme focuses on sports injuries and their prevention and treatment, and provides a thorough grounding in relevant areas of anatomy, biomechanics, exercise physiology and psychology, as well as the fundamentals of exercise in maintaining and improving health. Students develop essential research skills through an independent research project.

All students undertake modules to the value of 180 credits.

The programme consists of seven core modules (105 credits), one optional module (15 credits) and a research project (60 credits). Clinical sessions are spread over the year: commitment is equivalent to one half-day per week over three 12-week semesters. Clinic options include sports injury, physiotherapy and podiatry, exercise testing, and team visits.

A Postgraduate Diploma (120 credits, full-time nine months) is offered.

Core modules
-Exercise Physiology
-Health and Physical Activity
-Sports Injuries I – Lower Limb
-Sports Injuries II – Upper Limb
-Sports Injuries III – Head, Neck and Spine
-Advanced Sports Injury and Injury Prevention
-Research Methods

Optional modules
-Team and Event Medicine
-Rehabilitation of Sports Injuries

Dissertation/report
All MSc students undertake an independent research project from a diverse range of available topics, which culminates in a dissertation, an oral examination and a presentation.

Teaching and learning
Teaching is delivered through a combination of formal lectures, hands-on practical sessions, small group seminars, clinics and field trips, and will be delivered by lecturers who are highly experienced in their field. Up-to-date, evidence-based practice will be emphasised throughout and students' contribution through discussion is considered key. Assessment is through written examination, presentations, coursework and Objective Structured Clinical Examination (OSCE), as well as the dissertation and viva voce (oral) examination.

Careers

Graduates of the programme will gain a deeper understanding and valuable insights into the key areas of sports injury prevention and management, health and physical activity, and will be able to prescribe exercise safely for a range of medical conditions. This will prepare them for potential work in many areas from elite sports medicine to NHS sports and musculoskeletal clinics and exercise medicine services.

Top career destinations for this degree:
-Physiotherapist, Josephine Lawson Physiotherapy Clinic
-Sports Clinical Specialist Physiotherapist, Princess Grace Hospital
-Doctor, NHS Health Education East Midlands
-Rotational and Musculoskeletal Physiotherapist, Guy's and St Thomas' NHS Foundation Trust
-Project Manager, Weight Management Centre

Employability
A Master's-level degree in Sports Medicine, Exercise & Health from UCL will open many doors in the sports and exercise medicine world, from sports injury clinics to developing exercise medicine programmes for the prevention and treatment of chronic disease, and working with sports teams. UCL's MSc in Sports Medicine, Exercise & Health is led by local experts with active involvement in NHS and elite sports and exercise medicine settings. A distinct feature of the programme is the wide variety and large number of distinguished external guest speakers, all experts in their own fields locally, nationally and internationally. Students have unrivalled access to our guest speakers for career advice and potential opportunities.

Why study this degree at UCL?

UCL is one of the world's very best universities, consistently placed in the global top 20 in a wide range of world rankings. The UCL 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. This programme is based at the Institute of Sport Exercise and Health (ISEH). Our aim is to understand the causes of human disease and develop innovative therapies and technology to improve quality of life.

The MSc in Sports Medicine, Exercise and Health at UCL places a strong emphasis on improving health through exercise alongside the management of sports and musculoskeletal injury. The programme has significant clinical content and students benefit from attendance at numerous specialist clinics and opportunities for field visits to sports teams and events.

Graduate students on the MSc in Sports Medicine, Exercise and Health at UCL are from diverse backgrounds reflecting the true multidisciplinary nature of sports and exercise medicine.

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This programme combines the academic excellence of the School of Experimental Psychology with the clinical experience, knowledge and skill of a large and well-established clinical neuropsychology department within North Bristol NHS Trust, a regional neurosciences hospital that has an international reputation for excellence in neuroscience. Read more
This programme combines the academic excellence of the School of Experimental Psychology with the clinical experience, knowledge and skill of a large and well-established clinical neuropsychology department within North Bristol NHS Trust, a regional neurosciences hospital that has an international reputation for excellence in neuroscience.

The programme places a strong focus on patient care, diagnosis and management of a range of neurological conditions, and is delivered by academics and experienced clinicians. The Clinical Neuropsychology Department offers neuropsychology services to a broad range of patient groups: both paediatric and adult, acute inpatient and outpatient, as well as patients seen primarily for diagnostic assessment and patients seen for rehabilitation.

Services are offered to patients being referred from neurosurgery, neurology, neuropsychiatry, and rehabilitation medicine, as well as from physicians within the stroke services. Clinical services are also offered to specialist programmes of interventional neurosurgery, principally for epilepsy and movement disorders but also more recently for mood disorders. Along with working within the acute hospital trust, the department provides input to specialist inpatient and outpatient rehabilitation services for people with acquired brain injury.

All lectures are broadcast live online using Adobe Connect and can be viewed at a later date. Some units are provided in a block format of teaching (ie one unit over a single week). The others are presented as lectures on a weekly basis.

Programme structure

Core units
-Functional Neuroanatomy, Neuroscience Methods and Issues in Neuropsychology (30 credits)
Part A: Issues in Neuropsychology
Part B: Functional Neuroanatomy and Neuroscience Methods

-Applied Clinical Neuropsychology and Principles of Assessment (30 credits)
Part A: Assessment in Clinical Neuropsychology
Part B: Applied Neuropsychology

-Development, Rehabilitation and Evidence-based Neuropsychology and Principles of Clinical Statistics (30 credits)
Part A: Development and Rehabilitation
Part B: Evidence-Based Neuropsychology

-Theoretical and Clinical Neuropsychology (30 credits)
Part A: Clinical Neuropsychology in Practice
Part B: Theoretical Neuropsychology

-Dissertation (60 credits)

Careers

This degree provides professional training in clinical neuropsychology and meets the British Psychological Society requirements for the knowledge dimension of the Qualification in Clinical Neuropsychology (QiCN). It also provides continuing professional development to anyone already working in a clinical setting who is seeking specialist training to work with patients with neuropsychological defects.

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This programme combines the academic excellence of the School of Experimental Psychology with the clinical experience, knowledge and skill of a large and well-established Clinical Neuropsychology department within North Bristol NHS Trust, a regional neurosciences hospital which has an international reputation for excellence in neuroscience. Read more
This programme combines the academic excellence of the School of Experimental Psychology with the clinical experience, knowledge and skill of a large and well-established Clinical Neuropsychology department within North Bristol NHS Trust, a regional neurosciences hospital which has an international reputation for excellence in neuroscience.

The programme places a strong focus on patient care, diagnosis and management of a range of neurological conditions, and is delivered by academics and experienced clinicians. Neuropsychology services are offered to a broad range of patient groups: paediatric and adult; acute inpatient and outpatient; patients seen primarily for diagnostic assessment and patients seen for rehabilitation.

Services are offered to patients being referred from neurosurgery, neurology, neuropsychiatry and rehabilitation medicine, as well as from physicians within the stroke services. Clinical services are also offered to specialist programmes of interventional neurosurgery, principally for epilepsy and movement disorders but also more recently for mood disorders. As well as working within the acute hospital trust, the department provides input to specialist inpatient and outpatient rehabilitation services for people with acquired brain injury.

All lectures are broadcast live online using Adobe Connect and can be viewed at a later date. Some units are provided in a block format of teaching (ie one unit over a single week), while others are delivered on a weekly basis.

Programme structure

The programme content is primarily guided by the British Psychological Society (BPS) syllabus and guidelines for training in clinical neuropsychology. The diploma includes eight distinct units, which are taught within the University of Bristol and North Bristol NHS Trust.

Core units
-Functional Neuroanatomy, Neuroscience Methods and Issues in Neuropsychology (30 credits)
Part A: Issues in Neuropsychology
Part B: Functional Neuroanatomy and Neuroscience Methods

-Applied Clinical Neuropsychology and Principles of Assessment (30 credits)
Part A: Assessment in Clinical Neuropsychology
Part B: Applied Neuropsychology

-Development, Rehabilitation and Evidence-based Neuropsychology and Principles of Clinical Statistics (30 credits)
Part A: Development and Rehabilitation
Part B: Evidence-Based Neuropsychology

-Theoretical and Clinical Neuropsychology (30 credits)
Part A: Clinical Neuropsychology in Practice
Part B: Theoretical Neuropsychology

Careers

This degree provides professional training in clinical neuropsychology and meets the British Psychological Society requirements for the knowledge dimension of the Qualification in Clinical Neuropsychology (QiCN). It also provides continuing professional development to anyone already working in a clinical setting who is seeking specialist training to work with patients with neuropsychological defects.

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The Faculty of Dentistry offers advanced study leading to the MSc in Craniofacial Science through one of the following areas of study. Read more

About the MSc Program

The Faculty of Dentistry offers advanced study leading to the MSc in Craniofacial Science through one of the following areas of study:
- Research in Population Health will explore the complex interactions (social, cultural, environmental) that affect the oral health of individuals, communities and populations.
- Oral health related clinical research includes both interventional and observational studies focusing on the following: disease prevention, diagnosis, risk, treatment, prognosis and health care.
- Basic science research in the areas of biomaterials, cell biology, developmental biology, microbiology and molecular biology is available.

Quick Facts

- Degree: Master of Science
- Specialization: Craniofacial Science
- Subject: Health and Medicine
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Dentistry

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The Postgraduate certificate (PGCert) in musculoskeletal ultrasound has been developed at the Homerton University’s Sport and Musculoskeletal Medicine Department in collaboration with The University of East London’s (UEL) Professional Health Sciences subject areas within the School of Health, Sports and Bioscience. Read more
The Postgraduate certificate (PGCert) in musculoskeletal ultrasound has been developed at the Homerton University’s Sport and Musculoskeletal Medicine Department in collaboration with The University of East London’s (UEL) Professional Health Sciences subject areas within the School of Health, Sports and Bioscience. The objective is to support and formally recognise the professional development of those clinicians working in the field of Musculoskeletal and Sports Medicine and to achieve competence in diagnostic and interventional ultrasonography. The PGCert programme allows healthcare professionals to combine learning in the workplace with a recognised postgraduate qualification.

In addition to being validated at The University of East London the PGCert has also been accredited by The Royal College of General Practitioners and The Royal College of Radiologists who have awarded the full programme 60 CPD credits (30 CPD credits per module).

The PGCert is aimed at healthcare professionals from diverse backgrounds including, Orthopaedics, Osteopathy, Physiotherapy, Podiatry, Radiology, Rheumatology, Sonography and Sports Medicine.

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Please note. this programme is only available to home/EU students. Mammography exists in a changing professional environment and requires practitioners to continually update and review clinical practice. Read more
Please note: this programme is only available to home/EU students.

Choose Kingston's Radiography: Medical Imaging (Mammography) MSc

Mammography exists in a changing professional environment and requires practitioners to continually update and review clinical practice. These courses provide a flexible framework to prepare you for advanced practice by studying topics relevant to your needs and those of your clinical departments.

You may be granted credits for your previous academic and professional qualification through Accreditation of Prior Experiential Learning (APEL) scheme. You can take individual modules as 'free standing' as part of your continuing professional development (CPD). An independent work-based learning module enables you to study around your individual CPD and workplace needs.

What will you study?

You will study modules relating to breast cancer diagnosis, treatment and care; management; supervisory and assessment roles; quality issues; research methods and ethics; as well as taking a module of independent study to meet a particular professional need or interest.

Some of the modules are developed in partnership with the Jarvis National Breast Screening Training Centre and South West London (St George's) National Breast Screening Training Centre.

Assessment

Case studies; research protocols; dissertation; essays; portfolios; practical assessment; OSCE; reflective log book.

Course structure

The postgraduate admissions administrator will help you choose the most suitable combination of modules depending on your needs. Some of the modules are developed in partnership with a range of healthcare providers.

Please note that this is an indicative list of modules and is not intended as a definitive list.

Available modules
-Research and Evidence Based Practice in Healthcare (for PgDip)
-Dissertation (for MSc)
-Advanced Practice - Negotiated Independent Work Based Learning
-Advanced Principles and Practice of Breast Interventional Techniques
-Clinical Breast Examination and Client Communication
-Contemporary Practice In Breast Cancer Genetics and Diagnosis
-Cross-sectional Imaging - Diagnostic
-Interpretation and Reporting in Mammography
-PACS (Picture Archiving and Communication System) Administration
-Ultrasound of the Breast
-Management of Resources and Quality within Healthcare
-Professional Practice in Mammography 1 ^
-Professional Practice in Mammography 2 ^
-Practice Education and Mentorship+

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