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Full Time MSc Degrees in Medicine, London, United Kingdom

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Queen Mary University of London School of Medicine
Distance from London: 0 miles
The programme is suitable for physiotherapists, osteopaths and doctors. This internationally renowned programme is open to doctors and physiotherapists. Read more
The programme is suitable for physiotherapists, osteopaths and doctors.

This internationally renowned programme is open to doctors and physiotherapists. As the longest-established Sports and Exercise Medicine MSc in the country, we have a prestigious history. The programme is based on the philosophy of total care for the athlete and the promotion of physical activity in the general population. Working in sport is a largely practical discipline and the programme's emphasis lies firmly on regular clinical experience. You will benefit from regular contact with members of the Centre for Sports and Exercise Medicine as well as visiting clinicians and lecturers who are experienced sport medicine specialists.

The Centre is ideally situated on the same campus as the sports injury, physiotherapy, podiatry and the interdisciplinary combined sports clinics. Additionally, you will have the opportunity to attend recognised external clinics around London, as well as the chance to attend sporting events and visits to national centres of excellence where possible.

Successful alumni have gone on to hold pivotal positions in sports medicine across the UK and internationally, including the Chief Medical Officer to the British Olympic Association and London 2012 and the Medical Director to the English Institute of Sport.

The Centre is renowned in the UK for its academic strength and excellence. Lectures are delivered by national experts; from cutting edge scientists to physiotherapists, doctors, and other health professionals working with world-class athletes.

An insightful video for prospective students interested in the Sports and Exercise Medicine programmes.

This programme will:

-Offer you mastery of foundation concepts and skills in Sports and Exercise Medicine.
-Give you the knowledge and skills to assess sports injuries and to understand their treatment options, as well as understanding the physiological and psychological benefits of exercise and its use as a health tool.
-Allow you regular clinical contact with athletes and sportspeople.
-Introduce you to visiting lecturers, who are experts in the field of Sports Medicine.

Why study your MSc in Sport and Exercise Medicine at Queen Mary?
The Centre for Sports and Exercise Medicine is based at the William Harvey Research Institute at Barts and The London School of Medicine and Dentistry.

Barts and the London School of Medicine and Dentistry is comprised of two world renowned teaching hospitals, St Bartholomew’s and The Royal London, which have made, and continue to make, an outstanding contribution to modern medicine. We were one of the top five in the UK for medicine in the 2008 Research Assessment Exercise.

It is unique in the UK for the delivery of integrated academic and practical tuition. Lectures are delivered by national experts.
Core clinician-scientists on staff consult to elite athletes, we have an international research profile in Sports and Exercise Medicine.
Our staff will work closely with you to nurture your research interests and to develop your clinical ability in Sports and Exercise Medicine.

Many students also go on to publish in peer-reviewed journals, a reflection of the quality of our student research output.
Facilities

You will have access to Queen Mary’s comprehensive libraries, including the Postgraduate Reading Room, and The British Library can also be accessed as a research resource. We subscribe to many journals in sport and exercise medicine. You can access electronic journals online.

The Human Performance Laboratory (HPL) at QMUL combines the expertise of sports medicine clinicians, surgeons, engineers and sports scientists with state-of-the-art physiological testing and motion analysis equipment. This collaborative venture offers clinical, educational, research and athlete support service applications in the laboratory or field based settings.

The capabilities of the HPL can be broadly divided into two areas: musculoskeletal biomechanics and physiological testing.

Musculoskeletal biomechanics
The HPL carries 4 Codamotion Cx1 infra-red scanning units that are used extensively for 3-dimensional motion analysis. This system is fully integrated with 2 ground embedded Kistler force plates and a 16 channel wireless EMG system. The integration of these systems allows for full analysis of movement, forces associated with movement and measuring muscular effort during movement. In addition, the HPL also boasts a 64 channel EMG system for multichannel work and an isokinetic dynamometer, which can be used for both research and rehabilitation.

Physiological testing
Detailed analysis of pulmonary gas exchange can be made using an online gas analysis system, in addition to cardiac monitoring using a 12-lead ECG system, during exercise on a treadmill or the electromagnetically braked cycle ergometer. Measures can also be made out in the field, from simple tests of flexibility, strength, speed, power and cardiorespiratory fitness, to comprehensive measurement of expired air using the portable on-line gas analysis system.

Papers of interest

-In Vivo Biological Response to Extracorpereal Shockwave Therapy in Human Tendinopathy (paper is called ESWT)
-The role of interventions directed at the foot for managing patellofemoral pain (paper is called InTouch Article)
-The biomechanics of running in athletes with previous hamstring injury: A case-control study (Hamstrings paper)
-The ‘Best Practice Guide to Conservative Management of Patellofemoral Pain’: incorporating level 1 evidence with expert clinical reasoning (PFP paper)
-Eccentric and Concentric Exercise of the Triceps Surae: An In Vivo Study of Dynamic Muscle and Tendon Biomechanical Parameters (JAB EL CL paper)

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Develop skills for the provision of safe, high quality nuclear medicine services through training with a strong scientific and academic framework in an approved structured service environment. Read more
Develop skills for the provision of safe, high quality nuclear medicine services through training with a strong scientific and academic framework in an approved structured service environment. The MSc and PG Dip are specifically designed for doctors with the PG Cert open to scientists, technologists, radiographers or nurses.

Key benefits

- GMC approved course for nuclear medicine training
- Conveniently based in central London
- All learning materials including audio-recorded lectures are accessible online via King’s E-learning and Teaching Service (KEATS) to support distance learning.
- Contact with experts in their field from across the UK.
- Close links with medical schools and nuclear medicine departments.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/nuclear-medicine-science-and-practice-msc-pg-dip-pg-cert.aspx

Course detail

- Description -

This programme, taught collaboratively, draws on professional expertise from many disciplines. Lectures cover clinical practice, radiopharmaceutical, scientific and regulatory issues in nuclear medicine, and also diagnostic nuclear oncology and radionuclide therapy. Practical studies include clinical observations, audit, physics and radiopharmacy experiments and original research.

- Course purpose -

This programme develops skills for the provision of safe, high-quality nuclear medicine services by offering nuclear medicine training with a strong scientific and academic framework in an approved structured service environment.

- Course format and assessment -

MSc, PG Dip & PG Cert: unseen written exams and essays for taught modules;

MSc & PGDip: portfolio of clinical studies, audit and experiments and an unseen clinical exam for Practical module; report on research project and short oral exam for Research module.

Required modules:

- Clinical Practice of Nuclear Medicine
- Diagnostic Nuclear Oncology And Radionuclide Therapy
- Nuclear Medicine Research
- Practical Nuclear Medicine
- Radiopharmaceutical & Regulatory Issues In Nuclear Medicine
- Scientific Basis Of Nuclear Medicine

*Please note: core modules differ depending on qualification*

Career prospects

Students continue to work in a range of nuclear medicine services.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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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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The MSc Chinese Herbal Medicine extends your acupuncture practice into the other of the major modalities of Chinese medicine. It is a theoretical and clinical professional entry-training. Read more
The MSc Chinese Herbal Medicine extends your acupuncture practice into the other of the major modalities of Chinese medicine. It is a theoretical and clinical professional entry-training. You will develop your diagnostic and case formulation skills and also learn the materia medica and formulae of Chinese herbal medicine. Phytochemistry and pharmacokinetics are integrated into the understanding of the energetic interactions of herbs. Extensive practice with patients will take place in our on-site teaching clinic where theory is deconstructed and applied. Working in the dispensary with raw herbs will develop your kinaesthetic skills to deepen understanding. The aim is that you learn how to modify classic formulae to create new formulae which address complex patterns of illness.

This course contextualises Chinese medicine within its historical roots, and grounds it in the legal, ethical and inter-professional framework of the UK.

Course content

"The University of Westminster MSc CHM is accredited (approved) by the European Herbal and Traditional Medicine Practitioners Association which accredits courses on behalf of all EHTPA Professional Associations, including the Register of Chinese Herbal Medicine. This enables graduates from the MSc CHM to apply for membership of the RCHM. The EHTPA system of accreditation was endorsed by, and included in, the initial Steering Group Report to Government which recommended that a statutory register for herbal medicine practitioners be established".

Modules

The following modules are indicative of what you will study on this course.
-Chinese Herbal Medicine Clinical Practice
-Chinese Herbal Medicine in the UK
-Chinese Herbs and Formulae
-Formulas and Strategies
-Postgraduate Research Methods
-The Classics: Shang Han Lun and Wen Bing

Associated careers

This course is designed for acupuncturists who want to extend their practice repertoire to include herbal medicine, or for Chinese herbal medicine practitioners who wish to upgrade their academic skills to Masters level. Individual modules can be taken as consuming professional development (CPD)

Professional recognition

The course is accredited by the European Herbal and Traditional Medicine Practitioners Association. This enables graduates to apply for membership of the Register of Chinese Herbal Medicine.

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Queen Mary University of London School of Medicine
Distance from London: 0 miles
Regenerative Medicine. MSc ( 1 year Full-time ). Overview. Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. Read more
Regenerative Medicine
MSc ( 1 year Full-time )

Overview

Regenerative medicine is an interdisciplinary field, which aims to repair diseased or damaged tissues using biological or cell-based technologies. It is a rapidly growing area of biomedical research that encompasses stem cell biology, tissue engineering, drug delivery, and nanotechnology. This MSc course provides advanced, multi-disciplinary training in the scientific principles and clinical applications of regenerative medicine, and is delivered jointly by Barts and The London School of Medicine and Dentistry and the School of Engineering and Materials Science.

Taught modules will develop a strong scientific foundation in the biology of stem cells and regeneration and the fundamental principles of biomaterials, tissue engineering and cellular reprogramming. Through an intensive 12-week research project, students will then gain hands on experience applying these concepts to problems in human health and the development of novel regenerative technologies.

Upon completion of the MSc in Regenerative Medicine, students will be well placed for further training at the PhD level or professional careers in the biotechnology and pharmaceutical industries.

Structure
The MSc in Regenerative Medicine is a one year, full-time programme. Students are required to complete 180 credits comprising taught and research modules.


Taught Modules (15 credits each)

o Cellular and Molecular Basis of Regeneration
o Stem Cell and Developmental Biology
o Advanced Tissue Engineering and Regenerative Medicine
o Research Skills and Methodology
o Biomaterials in Regenerative Medicine
o Tissue-specific Stem Cells
o Induced Pluripotent Stem Cells and Genome Engineering
o Ethics and Regulatory Affairs

Research Project in Regenerative Medicine (60 credits)
During the final 12 weeks of the course, students will work full time on their laboratory-based research projects. Students will select research projects from a wide range of topics in regenerative medicine. Examples include research on the cellular and molecular aspects of tissue regeneration, disease pathogenesis, development of stem cell therapies, design of novel nano-biotechnologies, or engineering biomaterials and tissue scaffolds.


Entry requirements
As a multi-disciplinary course, the MSc is appropriate for a wide range of students. Graduates with degrees in biological sciences or medicine will gain an in-depth understanding of the cellular and molecular aspects of regenerative medicine as well as an introduction to the interdisciplinary fields of biomaterials and tissue engineering. Similarly, students with a physical sciences background will have the opportunity to broaden their experiences and acquire new skills in the biological sciences.
Admission to the course is selective, and based upon academic credentials, research experience, and motivation. At a minimum, students must have an undergraduate degree equivalent to UK second-class honours from a recognised academic institution. Applicants are required to submit a statement of purpose and letter of recommendation with their application.
Applications are accepted all year round, but there are limited places to ensure high-quality training, so please apply early to avoid disappointment.

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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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This MSc aims to provide medical and science students with a comprehensive knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically human genetics, human embryonic development and fetal medicine. Read more
This MSc aims to provide medical and science students with a comprehensive knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically human genetics, human embryonic development and fetal medicine. There is a strong focus on the development of key skills and careers advice in the programme.

Degree information

Students will develop a knowledge and understanding of the field of prenatal genetics and fetal medicine, specifically in the areas of basic genetics and technology, genetic mechanisms, medical genetics, organogenesis and fetal development, gametogenesis and IVF, prenatal diagnosis and screening, fetal and perinatal medicine, and preimplantation genetic diagnosis and developing technology. They gain transferable skills including information technology, analysis of scientific papers, essay writing, seminar presentation, research techniques, peer review and laboratory skills.

Students undertake modules to the value of 180 credits.

The programme consists of eight core modules (120 credits) and a research project (60 credits). A Postgraduate Diploma consisting of eight core modules (120 credits, full time nine months, flexible study two to five years) is offered. There are no optional modules for this programme.

Mandatory modules
-Basic Genetics and Technology
-Gametogenesis, Preimplantation Development and IVF
-Genetic Mechanisms
-Medical Genetics
-Organogenesis and Fetal Development
-Prenatal Diagnosis and Screening
-Fetal and Perinatal Medicine
-Preimplantation Genetic Diagnosis and Developing Technology

Dissertation/report
All MSc students undertake a clinical, laboratory, audit or library-based research project, which culminates in a dissertation of 10,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, practical demonstrations in laboratories, observation days in fetal medicine and IVF units, and student presentations. There are a number of peer-led learning activities. Assessment is through essays, patient case reports, critical reviews of papers, online problem booklet, examinations and the dissertation.

Careers

On completion of the programme, all students will have gained knowledge of both the clinical and laboratory aspects of prenatal genetics and fetal medicine. This will enable the science-orientated students to go on to pursue research degrees, careers in embryology or prenatal diagnosis, or other careers in the field or in general science. Medically-orientated students will be able to develop their careers in the field of fetal medicine.

Top career destinations for this degree:
-Ob/Gyn Surgeon, Ente Ospedaliero Cantonale
-Trainee Embryologist, Homerton University Hospital (NHS)
-PhD Medical Genetics, The Cyprus Institute of Neurology and Genetics (CI
-Clinical Research Nurse, University College London (UCL)
-Trainee Embryologist, Life Hospital

Employability
Throughout the MSc programme students learn key skills through peer-led activities, such as evaluating and presenting orally on patient cases and media coverage of scientific papers. Basic laboratory techniques are taught as are essay writing, the critical evaluation of papers, debates and ethical discussions. We also offer a comprehensive careers programme involving our alumni, covering job applications, CV writing, general careers in science and specific advice on careers in embryology, clinical genetics, medicine and research degrees.

Why study this degree at UCL?

The UCL Institute for Women’s Health delivers excellence in research, clinical practice, education and training in order to make a real and sustainable difference to women's and babies' health worldwide.

The institute houses the UK's largest group of academics working in women's health and the UCL/UCL Hospitals NHS Foundation Trust collaboration at its core provides an academic environment in which students can pursue graduate studies taught by world-class reseachers and clinicians.

Our diversity of expertise in maternal and fetal medicine, neonatology, reproductive health and women's cancer ensures a vibrant environment in which students develop subject-specific and generic transferable skills, supporting a broad range of future employment opportunities.

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This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. Read more
This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. The course offers a wide choice of modules and provides training in clinical tropical medicine at the Hospital for Tropical Diseases.

The Diploma in Tropical Medicine & Hygiene (DTM&H):
All students going on the MSc will take the Diploma in Tropical Medicine & Hygiene. Students with a prior DTM&H, or holding 60 Masters level credits from the East African Diploma in Tropical Medicine & Hygiene may apply for exemption from Term 1 via accreditation of prior learning.

Careers

Graduates from this course have taken a wide variety of career paths including further research in epidemiology, parasite immunology; field research programmes or international organisations concerned with health care delivery in conflict settings or humanitarian crises; or returned to academic or medical positions in low- and middle-income countries.

Awards

The Frederick Murgatroyd Award is awarded each year for the best student of the year. Donated by Mrs Murgatroyd in memory of her husband, who held the Wellcome Chair of Clinical Tropical Medicine in 1950 and 1951.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/tmih_progspec.pdf)

Visit the website http://www.lshtm.ac.uk/study/masters/mstmih.html

Objectives

By the end of this course students should be able to:

- understand and describe the causation, pathogenesis, clinical features, diagnosis, management, and control of the major parasitic, bacterial, and viral diseases of developing countries

- demonstrate knowledge and skills in diagnostic parasitology and other simple laboratory methods

- understand and apply basic epidemiological principles, including selecting appropriate study designs

- apply and interpret basic statistical tests for the analysis of quantitative data

- critically evaluate published literature in order to make appropriate clinical decisions

- communicate relevant medical knowledge to patients, health care professionals, colleagues and other groups

- understand the basic sciences underlying clinical and public health practice

Structure

Term 1:
All students follow the course for the DTM&H. Term 1 consists entirely of the DTM&H lectures, seminars, laboratory practical and clinical sessions, and is examined through the DTM&H examination and resulting in the award of the Diploma and 60 Master's level credits at the end of Term 1.

Terms 2 and 3:
Students take a total of five study modules, one from each timetable slot (Slot 1, Slot 2 etc.). Recognising that students have diverse backgrounds and experience, the course director considers requests to take any module within the School's portfolio, provided that this is appropriate for the student.

*Recommended modules

- Slot 1:
Clinical Infectious Diseases 1: Bacterial & Viral Diseases & Community Health in Developing Countries*
Clinical Virology*
Epidemiology & Control of Malaria*
Advanced Immunology 1
Childhood Eye Disease and Ocular Infection
Designing Disease Control Programmes in Developing Countries
Drugs, Alcohol and Tobacco
Economic Evaluation
Generalised Liner Models
Health Care Evaluation
Health Promotion Approaches and Methods
Maternal & Child Nutrition
Molecular Biology & Recombinant DNA Techniques
Research Design & Analysis
Sociological Approaches to Health
Study Design: Writing a Proposal

- Slot 2:
Clinical Infectious Diseases 2: Parasitic Diseases & Clinical Medicine*
Conflict and Health*
Design & Analysis of Epidemiological Studies*
Advanced Diagnostic Parasitology
Advanced Immunology 2
Clinical Bacteriology 1
Family Planning Programmes
Health Systems; History & Health
Molecular Virology; Non Communicable Eye Disease
Population, Poverty and Environment
Qualitative Methodologies
Statistical Methods in Epidemiology

- Slot 3:
Clinical Infectious Diseases 3: Bacterial & Viral Diseases & Community Health in Developing Countries*
Control of Sexually Transmitted Infections*
Advanced Training in Molecular Biology
Applied Communicable Disease Control
Clinical Immunology
Current Issues in Safe Motherhood & Perinatal Health
Epidemiology of Non-Communicable Diseases
Implementing Eye Care: Skills and Resources
Medical Anthropology and Public Health
Modelling & the Dynamics of Infectious Diseases
Nutrition in Emergencies
Organisational Management
Social Epidemiology
Spatial Epidemiology in Public Health
Tropical Environmental Health
Vector Sampling, Identification & Incrimination

- Slot 4:
Clinical Infectious Diseases 4: Parasitic Diseases & Clinical Medicine*
Epidemiology & Control of Communicable Diseases*
Ethics, Public Health & Human Rights*
Global Disability and Health*
Immunology of Parasitic Infection: Principles*
Analytical Models for Decision Making
Clinical Bacteriology 2
Design & Evaluation of Mental Health Programmes
Environmental Epidemiology
Evaluation of Public Health Interventions
Genetic Epidemiology
Globalisation & Health
Molecular Biology Research Progress & Applications
Nutrition Related Chronic Diseases
Population Dynamics & Projections
Reviewing the Literature
Sexual Health
Survival Analysis and Bayesian Statistics
Vector Biology & Vector Parasite Interactions

- Slot 5:
AIDS*
Antimicrobial Chemotherapy*
Mycology*
Advanced Statistical Methods in Epidemiology
Analysing Survey & Population Data
Applying Public Health Principles in Developing Countries
Environmental Health Policy
Integrated Vector Management
Integrating Module: Health Promotion
Molecular Cell Biology & Infection
Nutrition Programme Planning
Pathogen Genomics
Principles and Practice of Public Health

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/ttmi.html

Project Report:
During the summer months (July - August), students complete a research project in a subject of their choice, for submission by early September. Projects may involve writing up and analysing work carried out before coming to the School, a literature review, or a research study proposal. Some students gather data overseas or in the UK for analysis within the project. Such projects require early planning.

Students undertaking projects overseas will require additional funding of up to £1,500 to cover costs involved. The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/mstmih.html#sixth

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This full-time, one-year Master’s programme includes the diagnosis and medical treatment of, and research into, conditions of the mouth, face, salivary glands and jaws. Read more
This full-time, one-year Master’s programme includes the diagnosis and medical treatment of, and research into, conditions of the mouth, face, salivary glands and jaws.

Degree information

The programme’s students gain an understanding of aetiopathogenesis, clinical features, investigation and management of disorders of the oral mucosa and salivary glands, non-neoplastic disease of the jawbones and disorders of sensation of the mouth, and develop skills in investigating and managing such diseases.

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

Core modules
-Principles of Therapeutics and Treatment Core Course (Oral Medicine)
-Clinical Care Core Course (Oral Medicine)
-Advanced Clinical Care in Oral Medicine
-Principles and Practice in Oral Medicine
-Clinical Science and Research Methods

Dissertation/report
Each student undertakes an independent research project which culminates in a dissertation of approximately 10,000-12,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, clinical teaching on a one-to-one basis, seminar teaching, lectures, journals club, case discussion, self-directed learning and problem-based learning.

Careers

After completion of the programme, graduates have typically followed five potential pathways:
-Academic/hospital positions in oral medicine in countries where no further academic or clinical training is required
-PhD programmes (typically in the UK, but also in the EU and overseas)
-NHS clinical training positions, either foundation training or specialist training (in the UK)
-NHS posts e.g. speciality doctor/dentist in the UK
-Positions in dental practices in the UK, EU and overseas.

Top career destinations for this degree:
-Associate Dentist, National Dental Practice
-Senior Health Officer, Eastman Dental Hospital (NHS)
-Senior Registrar, Margalla College of Dentistry
-Dental Consultant, Khoo Teck Puat Hospital

Employability
The institute has an internationally renowned oral medicine unit with staff who are highly active in teaching and research, and the associated Eastman Dental Hospital has a strong patient base that ensures exposure to a wide range of oral medicine conditions. The programme ensures that students lay the groundwork towards an academic and/or hospital career in oral medicine in the UK or abroad.

Why study this degree at UCL?

The programme’s students benefit from the opportunity to become closely involved in the clinical care of patients, taking full part in the processes of examination, diagnosis, assessment, investigations and the prevention and management of disease. They will also be exposed to the research activities of the unit and gain significant experience in translational research design and delivery.

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The Performing Arts Medicine MSc at UCL is a unique programme providing specialised training to those interested or already involved in offering health services to this very special sector of instrumental musicians, singers, dancers, actors and other performing artists. Read more
The Performing Arts Medicine MSc at UCL is a unique programme providing specialised training to those interested or already involved in offering health services to this very special sector of instrumental musicians, singers, dancers, actors and other performing artists.

Degree information

The MSc and diploma cover musculoskeletal injury, performance psychology, pain management, assessment and rehabilitation, disability, travelling and touring, dance and music performance science, management of the professional voice and research methodology. MSc students also engage in a research project and dissertation. The certificate is a limited curriculum version for non-clinicians or clinicians who wish to upgrade at a later time.

Students undertake modules to the value of 180 credits. The MSc programme consists of eight core modules (120 credits) and the research project (60 credits). A Postgraduate Diploma (eight core modules, 120 credits) A Postgraduate Certificate (four core modules, 60 credits). There are no optional modules for this degree.

Core modules
-Clinical Assessment and Rehabilitation of the Performing Artists
-Clinical Management of the Professional Voice*
-Pain and Disability Management within the Performing Arts World
-Environmental & Lifestyle Issues for the Performing Artist*
-Musculoskeletal and Neuromuscular Performance Related Injury
-Performance Psychology*
-Research Methodology
-Science of Dance and Music Performance*

*PG Cert core module

Dissertation/research project
All MSc students undertake a research project which culminates in a dissertation of approximately 6,000–7,000 words, a presentation and a viva.

Teaching and learning
The delivery of the programme is through lectures, tutorials or workshops. Performing arts clinics and performance settings when possible are also included in the programme. Details about the lecturers and tutors can be found here.

Assessment is through coursework, written examinations and objective structured clinical examinations (OSCEs).

Careers

Graduates gain in-depth knowledge of the diverse field of performing arts medicine. Their specialised skills can be incorporated in their own professional practice or they can participate in performing arts clinics in various settings e.g. conservatoires, orchestras, music or dance colleges.

Graduates' knowledge and experience is valued and they may be invited as educators and trainers in performing arts medicine and will become members of an ever-growing medical community with common interest in the wellbeing of the performer.

Graduates who have aspirations for further academic study and research activity, such as progressing to PhD, will receive appropriate guidance.

Top career destinations for this degree:
-GP (General Practitioner), Grove Surgery
-Physiotherapist, Freelance Physiotherapist
-Physiotherapist, NHS (National Health Service)
-Physiotherapist, Perfect Balance Clinic
-Lecturer, Birmingham Conservatoire

Employability
Assessing a performing artist requires specialised skills and the ability to associate health issues with the particular artistic activity. The course provides its students with broad knowledge of the art forms and their demands on the performer and how these impact on their wellbeing. With focused tutorials and real life scenarios the student builds the confidence to assess and diagnose or refer appropriately as well as to monitor rehabilitation and return to performance. The privileged position of the health professional in helping performers overcome often career threatening adversity is a most rewarding experience that enriches this type of work.

Why study this degree at UCL?

No other MSc programme currently exists that brings together all elements of Performing Arts Medicine. This unique programme has been designed for health professionals entering this diverse field.

The programme is taught and supervised by lecturers working in this and affiliated fields. Research is supported by the Institute of Sport Exercise and Health, the British Association of Performing Arts Medicine, orchestras, theatre companies, and music and dance colleges.

Graduate students present in international conferences and publish in journals becoming members of the global performing arts medicine community.

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This programme pathway is designed for students with a developing interest in radiation physics, both ionising and non-ionising, that underpins many of the imaging and treatment technologies applied in modern medicine. Read more
This programme pathway is designed for students with a developing interest in radiation physics, both ionising and non-ionising, that underpins many of the imaging and treatment technologies applied in modern medicine. Students gain an understanding of scientific principles and practices that are used in hospitals, industries and research laboratories through lectures, problem-solving sessions, a research project and collaborative work.

Degree information

Students study the physics theory and practice that underpins modern medicine, and learn to apply their knowledge to established and emerging technologies in medical science. The programme covers the applications of both ionising and non-ionising radiation to the diagnosis and treatment of human disease and disorder, and includes research project, workplace skills development and computational skills needed to apply this theory into practice.

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). A Postgraduate Diploma of eight modules (120 credits) is offered.

Core modules
-Clinical Practice
-Medical Imaging (Ionising)
-Ultrasound in Medicine
-Magnetic Resonance Imaging and Biomedical Optics
-Research Project
-Professional Skills module
-Treatment with Ionising Radiation
-Ionising Radiation Physics: Interactions & Dosimetry

Optional modules
-Biomedical Engineering
-Computing in Medicine
-Programme Foundations for Medical Image Analysis

Dissertation/report
All MSc students undertake an independent research project within the broad area of Physics and Engineering in Medicine which culminates in a report up to 10,000 words, a poster and an oral examination.

Teaching and learning
The programme is delivered through a combination of lectures, demonstrations, tutorials, assignments and a research project. Lecturers are drawn from UCL and from London teaching hospitals including UCLH, St. Bartholomew's, and the Royal Free Hospital. Assessment is through supervised examination, coursework and assignments, a research dissertation and an oral examination.

Careers

A large percentage of graduates from the MSc continue on to PhD study, often in one of the nine research groups within the department, as a reult of the skills and knowledge they acquire on the programme. Other graduates commence or resume training or employment within the heaalthcare sector in hospitals or industry, both within the UK and abroad.

Employability
Postgraduate study within the department offers the chance to develop important skills and acquire new knowledge through involvement with a team of scientists or engineers working in a world-leading research group. Graduates complete their study having gained new scientific or engineering skills applied to solving problems at the forefront of human endeavour. Skills associated with project management, effective communication and teamwork are also refined in this high-quality working environment.

Why study this degree at UCL?

The spectrum of medical physics activities undertaken in UCL Medical Physics & Biomedical Engineering is probably the broadest of any in the United Kingdom. The department is widely acknowledged as an internationally leading centre of excellence and students on this programme receive comprehensive training in the latest methodologies and technologies from leaders in the field.

The department operates alongside the NHS department which provides the medical physics and clinical engineering services for the University College London Hospitals NHS Foundation Trust, as well as undertaking industrial contract research and technology transfer. The department is also a collaborator in the nearby London Proton Therapy Centre, currently under construction.

Students have access to a wide range of workshop, laboratory, teaching and clinical facilities in the department and associated hospitals. A large range of scientific equipment is available for research involving nuclear magnetic resonance, optics, acoustics, X-rays, radiation dosimetry, and implant development.

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This programme pathway is designed for students with an interest in the engineering aspects of technology that are applied in modern medicine. Read more
This programme pathway is designed for students with an interest in the engineering aspects of technology that are applied in modern medicine. Students gain an understanding of bioengineering principles and practices that are used in hospitals, industries and research laboratories through lectures, problem-solving sessions, a research project and collaborative work.

Degree information

Students study in detail the engineering and physics principles that underpin modern medicine, and learn to apply their knowledge to established and emerging technologies in medical imaging and patient monitoring. The programme covers the engineering applications across the diagnosis and measurement of the human body and its physiology, as well as the electronic and computational skills needed to apply this theory in practice.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two optional modules (30 credits), and a research project (60 credits). A Postgraduate Diploma (120 credits) is offered.

Core modules
-Imaging with Ionising Radiation
-Clinical Practice
-Magnetic Resonance Imaging and Optics
-Medical Electronics and Control
-Professional Skills module

Optional modules
-Aspects of Biomedical Engineering
-Biomedical Engineering
-Computing in Medicine

Dissertation/report
All MSc students undertake an independent research project within the broad area of physics and engineering in medicine which culminates in a written report of 10,000 words, a poster and an oral examination.

Teaching and learning
The programme is delivered through a combination of lectures, demonstrations, practicals, assignments and a research project. Lecturers are drawn from UCL and from London teaching hospitals including UCLH, St. Bartholomew's, and the Royal Free Hospital. Assessment is through supervised examination, coursework, the dissertation and an oral examination.

Careers

Graduates from the Biomedical Engineering and Medical Imaging stream of the MSc programme have obtained employment with a wide range of employers in healthcare, industry and academia sectors.

Employability
Postgraduate study within the department offers the chance to develop important skills and acquire new knowledge through involvement with a team of scientists or engineers working in a world-leading research group. Graduates complete their study having gained new scientific or engineering skills applied to solving problems at the forefront of human endeavour. Skills associated with project management, effective communication and teamwork are also refined in this high-quality working environment.

Why study this degree at UCL?

The spectrum of medical physics activities undertaken in UCL Medical Physics & Biomedical Engineering is probably the broadest of any in the United Kingdom. The department is widely acknowledged as an internationally leading centre of excellence and students receive comprehensive training in the latest methodologies and technologies from leaders in the field.

The department operates alongside the NHS department which provides the medical physics and clinical engineering services for the UCL Hospitals Trust, as well as undertaking industrial contract research and technology transfer.

Students have access to a wide range of workshop, laboratory, teaching and clinical facilities in the department and associated hospitals. A large range of scientific equipment is available for research involving nuclear magnetic resonance, optics, acoustics, X-rays, radiation dosimetry, and implant development, as well as new biomedical engineering facilities at the Royal Free Hospital and Royal National Orthopaedic Hospital in Stanmore.

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Queen Mary University of London School of Medicine
Distance from London: 0 miles
NHS professionals can apply for places sponsored by Health Education England (HEE). Two intakes per year. September and January. - Full time taught “in house”. Read more
NHS professionals can apply for places sponsored by Health Education England (HEE)

Two intakes per year: September and January

- Full time taught “in house”
- Part time-distance learning

Advances in technology and informatics have fuelled an exponential growth in genomics research which in turn has transformed our understanding of disease biology and opening new avenues in drug discovery and patient treatment. Genomics has strong potential to impact patient care but will require highly trained professionals to implement it both at the level of the health care system, the pharmaceutical industry, and the broader biomedical sector.

The MSc Programme in Genomic Medicine is designed to provide healthcare professionals with a multi-disciplinary perspective on genomics and its application in medicine in particular rare genetic diseases, cancer and infection.

The overall aim of the programme is to offer participants the knowledge and training in genomics required to provide, develop and advance specialist scientific services around genomic medicine within healthcare systems. The programme will work closely with Genomics England to train students to analyse high quality genomic data and offer them the possibility to interact with international experts in this field. Working directly with patient data from the 100,000 genomes project will offer students hands on experience on how genomics may be applied to diagnosis and patient treatment. The course will offer opportunities for research and work experience projects in the participating NHS Trusts under UCL Partners.

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University College London Institute of Neurology
Distance from London: 0 miles
This is the first programme in stroke medicine in the UK to provide a comprehensive education and training for the next generation of researchers and clinical providers of expert stroke care. Read more
This is the first programme in stroke medicine in the UK to provide a comprehensive education and training for the next generation of researchers and clinical providers of expert stroke care. Students will be taught by clinical and research experts in the field of stroke medicine at Queen Square.

Degree information

Students will study modules in the pathophysiology and neuroimaging relating to cerebrovascular disease; clinical manifestations of stroke; treatment and service delivery; neurorehabilitation; epidemiology and prevention of stroke and statistical methods in health research.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (120 credits), and a research project/dissertation (60 credits). A Postgraduate Diploma, six core taught modules (120 credits) is available. A Postgraduate Certificate, four core taught modules (60 credits) is available. There are no optional modules for this programme.

Core modules
-Clinical Manifestations of Stroke
-Epidemiology and Prevention of Stroke
-Neurorehabilitation
-Pathophysiology and Neuroimaging relating to Cerebrovascular Disease
-Statistical Methods in Health Research
-Treatment and Service Delivery

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

Teaching and learning
The programme is delivered through a combination of lectures, workshops/practical sessions, journal clubs, presentations and supervisory meetings. Taught modules are assessed by short answer, multiple choice question examinations and timed essays. The research project requires a written dissertation, an oral and a poster presentation at the Queen Square Symposium or similar conference.

Careers

The portfolio of taught graduate programmes at the UCL Institute of Neurology offers research-embedded clinical teaching to enhance and expand the career progression and opportunities of our students. All of our graduates have reported that their degree enhanced their careers. Many of our graduates have gone on to further PhD-level study, or successfully applied to medical school. Clinicians who took time out to obtain an MSc have returned to training and scientists have gone on to obtain research assistant posts. Those already established in their career have been promoted.

Employability
Whatever your chosen career pathway, this programme in stroke medicine will help you become more established in your career, or help you change career direction into this specialised field. As well as gaining knowledge through the taught modules offered by experts in this field, the research project will enable you to gain many transferable skills relevant to conducting research in clinical and medical science. Exposure to the cutting-edge research being carried out in this area at UCL will give you an up-to-date perspective on trends in the causality, diagnosis, management, rehabilitation and innovative treatment of stroke.

Why study this degree at UCL?

UCL has a world-class reputation in stroke research and treatment and hosts the National Institute for Health Research (NIHR) North Thames Stroke Research Network. Our service treats over 2,500 suspected strokes per year in our Hyperacute Stroke Unit (HASU). Areas of excellence include carotid disease, stroke recovery and neurorehabilitation, neuroimaging cerebral haemorrhage and small vessel disease.

We are a major endovascular centre at the forefront of stroke treatment with a highly developed multidisciplinary neuro-critical care pathway.

Whatever your anticipated career goals this MSc will provide opportunities to carry out research with global experts in the field of stroke and network with world-renowned clinicians.

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Imperial College London Department of Medicine
Distance from London: 0 miles
Designed to appeal to both clinical and basic scientists, the course provides a comprehensive, theoretical and practical training using state-of-the-art techniques in molecular and cellular biology as applied to medicine. Read more
Designed to appeal to both clinical and basic scientists, the course provides a comprehensive, theoretical and practical training using state-of-the-art techniques in molecular and cellular biology as applied to medicine.

The practice of clinical medicine is currently being revolutionised by rapid and extraordinary technological advances in molecular biology in areas such as gene discovery, cancer, inherited diseases and gene therapy.

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