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Masters Degrees (Neuromuscular Therapy)

We have 10 Masters Degrees (Neuromuscular Therapy)

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The course aims to deliver neuromuscular therapy education that will match and exceed the standards set worldwide. It will enable you to develop a competence and confidence in all aspects of professional practice, by encouraging autonomy and criticality in thinking and action. Read more

Overview

The course aims to deliver neuromuscular therapy education that will match and exceed the standards set worldwide. It will enable you to develop a competence and confidence in all aspects of professional practice, by encouraging autonomy and criticality in thinking and action.

Our MSc in Neuromuscular Therapy is a historical and unique development for the profession of bodywork and all involved in the study of myofascial trigger points and myofascial therapy work worldwide. The curriculum for the MSc was developed around three interconnected evidence-based themes of wholism, integration and functionalism embedded in an interprofessional learning environment.

During our programme, bodywork professionals will have the opportunity to develop the critical and practical skills necessary to design, conduct and critically appraise research in the field of neuromuscular therapy, specifically in the areas of myofascial trigger points and fascia.

Most modules are taught at the National Training Centre (NTC) in Dublin. The Human and Fascial Anatomy module is taught at King’s College, London, where you will complete human cadaver dissections as part of your studies.

With a tutoring team of highly qualified and respected bodywork experts, this programme will give participants a complete and fully rounded education.

Modules

The course has a focused emphasis on fascia, myofascial trigger points and chronic pain solutions using neuromuscular therapy. You will cover Human and Fascial Anatomy, including cadaver dissections, in addition to exploring medical exercise modalities through knowledge of:

- Myofascial Trigger Points, Sensitisation and Neuromuscular Pain
- Human and Fascial Anatomy
- Functional Nutritional Medicine
- Research Methods and Data Analysis
- Clinical Applications of Neuromuscular Techniques
- The Science of Medical Exercise
- Research Project

Assessment

Modules will be taught every eight weeks over three days to accommodate students who work full time. Learning will be achieved via:

- lectures
- practical sessions
- group workshops
- independent study.

You will be assessed via coursework assignment, e.g. 4,000 words, or equivalent, and by completion of a research project.

Careers

The MSc in Neuromuscular Therapy is an internationally accepted qualification, which will afford the successful graduate the ability to practice as an Neuromuscular Therapist in Ireland and many other European countries.

Entry requirements

Enrolment is available to applicants with a professional undergraduate degree qualification or equivalent. In addition, applicants are also expected to have practical skills and competencies in Bodywork Therapy and/or a related field of study. The normal university procedures of APL and APEL apply.

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The Master of Physical Therapy (MPT) Program at UBC is a twenty-five month professional program leading to entry to practice and is accredited by Physiotherapy Education Accreditation Canada (PEAC). Read more
The Master of Physical Therapy (MPT) Program at UBC is a twenty-five month professional program leading to entry to practice and is accredited by Physiotherapy Education Accreditation Canada (PEAC). In the UBC MPT program, students experience the breadth and depth of the profession with 45 weeks of academic course work and a total of 1080 “hands-on” clinical hours. Students experience a diverse, inclusive, and evidence-based curriculum. The course content is updated annually to reflect recent research findings and current best practice. The teaching and learning practices in the MPT Program are based on recent education research and best practice in adult teaching and learning.

The MPT Program embraces innovative teaching and learning approaches that align with the curricular vision and goals, including technology-enhanced teaching and learning and simulation; interprofessional learning; and community-based learning. Faculty members within the Department are acknowledged throughout Canada, and internationally, as leaders in Physical Therapy research and include a Canada Research Chair, as well as Michael Smith and CIHR Scholars. The MPT Program is taught by a complement of faculty members and expert clinicians, with high instructor-to-student ratios in clinical skills courses.

Students experience six clinical placements in diverse aspects of clinical care such as acute, outpatient, geriatrics, interprofessional (including rural and paediatrics), and rehabilitation for various populations such as stroke, spinal cord injury, head injury and others (as well as an option for a research placement). In addition, in partnership with Fraser Health and Vancouver Coastal Health, UBC can place students in the only two student-led physiotherapy clinics in the province, which provide an outstanding opportunity for peer learning and interprofessional experience. Students have access to a vast number of clinical placement location possibilities in British Columbia ranging from large city centres to small communities. Students at the senior level have the option to request one “Out-of-Province” or International placement. Clinic site visits and patient interface workshops are offered throughout the curriculum exposing students to real patients while learning their theoretical skills (neuro; pediatric; shadow placements).

The entry-level MPT program is located in a state-of-the-art facility on the campus of the University of British Columbia in beautiful Vancouver. Cameras and large screen monitors in labs allow for all students to have the best seat in the house when observing demonstrations of even the most detailed subjects. Large lab spaces accommodate two students for every physiotherapy plinth. Additionally, students have access to a modern, well-equipped exercise gym in which to learn exercise testing and prescription.

Quick Facts

- Degree: Master of Physical Therapy
- Specialization: Physical Therapy
- Subject: Health and Medicine
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Medicine

Program Overview

Physical therapists specialize in the assessment and treatment related to movement. Common movement disorders result from impairment of the neuromuscular, musculoskeletal, respiratory or cardiovascular systems. Following assessment of their clients, physical therapists often use physical agents such as therapeutic exercise, heat, cold, and electrical stimulation to increase muscle strength and function, reduce pain, promote general health and fitness, and prevent disability. As specialists in movement dysfunction, physical therapists also provide expertise in human mobility, carefully analyzing gait patterns and prescribing treatment regimens or devices (such as braces, crutches, or wheelchairs) to enable clients to move independently through their environments.

The M.P.T. degree provides the professional education necessary to obtain a license to practice physical therapy. It differs from the advanced or research M.Sc. in Rehabilitation Sciences, which prepares practitioners with advanced research skills and requires completion and defense of a thesis.

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We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments. Read more

We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments.

As a student you will be registered with a University research institute, for many this is the Institute for Cellular Medicine (ICM). You will be supported in your studies through a structured programme of supervision and training via our Faculty of Medical Sciences Graduate School.

We undertake the following areas of research and offer MPhil, PhD and MD supervision in:

Applied immunobiology (including organ and haematogenous stem cell transplantation)

Newcastle hosts one of the most comprehensive organ transplant programmes in the world. This clinical expertise has developed in parallel with the applied immunobiology and transplantation research group. We are investigating aspects of the immunology of autoimmune diseases and cancer therapy, in addition to transplant rejection. We have themes to understand the interplay of the inflammatory and anti-inflammatory responses by a variety of pathways, and how these can be manipulated for therapeutic purposes. Further research theme focusses on primary immunodeficiency diseases.

Dermatology

There is strong emphasis on the integration of clinical investigation with basic science. Our research include:

  • cell signalling in normal and diseased skin including mechanotransduction and response to ultraviolet radiation
  • dermatopharmacology including mechanisms of psoriatic plaque resolution in response to therapy
  • stem cell biology and gene therapy
  • regulation of apoptosis/autophagy
  • non-melanoma skin cancer/melanoma biology and therapy.

We also research the effects of UVR on the skin including mitochondrial DNA damage as a UV biomarker.

Diabetes

This area emphasises on translational research, linking clinical- and laboratory-based science. Key research include:

  • mechanisms of insulin action and glucose homeostasis
  • insulin secretion and pancreatic beta-cell function
  • diabetic complications
  • stem cell therapies
  • genetics and epidemiology of diabetes.

Diagnostic and therapeutic technologies

Focus is on applied research and aims to underpin future clinical applications. Technology-oriented and demand-driven research is conducted which relates directly to health priority areas such as:

  • bacterial infection
  • chronic liver failure
  • cardiovascular and degenerative diseases.

This research is sustained through extensive internal and external collaborations with leading UK and European academic and industrial groups, and has the ultimate goal of deploying next-generation diagnostic and therapeutic systems in the hospital and health-care environment.

Kidney disease

There is a number of research programmes into the genetics, immunology and physiology of kidney disease and kidney transplantation. We maintain close links between basic scientists and clinicians with many translational programmes of work, from the laboratory to first-in-man and phase III clinical trials. Specific areas:

  • haemolytic uraemic syndrome
  • renal inflammation and fibrosis
  • the immunology of transplant rejection
  • tubular disease
  • cystic kidney disease.

The liver

We have particular interests in:

  • primary biliary cirrhosis (epidemiology, immunobiology and genetics)
  • alcoholic and non-alcoholic fatty liver disease
  • fibrosis
  • the genetics of other autoimmune and viral liver diseases

Magnetic Resonance (MR), spectroscopy and imaging in clinical research

Novel non-invasive methodologies using magnetic resonance are developed and applied to clinical research. Our research falls into two categories:

  • MR physics projects involve development and testing of new MR techniques that make quantitative measurements of physiological properties using a safe, repeatable MR scan.
  • Clinical research projects involve the application of these novel biomarkers to investigation of human health and disease.

Our studies cover a broad range of topics (including diabetes, dementia, neuroscience, hepatology, cardiovascular, neuromuscular disease, metabolism, and respiratory research projects), but have a common theme of MR technical development and its application to clinical research.

Musculoskeletal disease (including auto-immune arthritis)

We focus on connective tissue diseases in three, overlapping research programmes. These programmes aim to understand:

  • what causes the destruction of joints (cell signalling, injury and repair)
  • how cells in the joints respond when tissue is lost (cellular interactions)
  • whether we can alter the immune system and ‘switch off’ auto-immune disease (targeted therapies and diagnostics)

This research theme links with other local, national and international centres of excellence and has close integration of basic and clinical researchers and hosts the only immunotherapy centre in the UK.

Pharmacogenomics (including complex disease genetics)

Genetic approaches to the individualisation of drug therapy, including anticoagulants and anti-cancer drugs, and in the genetics of diverse non-Mendelian diseases, from diabetes to periodontal disease, are a focus. A wide range of knowledge and experience in both genetics and clinical sciences is utilised, with access to high-throughput genotyping platforms.

Reproductive and vascular biology

Our scientists and clinicians use in situ cellular technologies and large-scale gene expression profiling to study the normal and pathophysiological remodelling of vascular and uteroplacental tissues. Novel approaches to cellular interactions have been developed using a unique human tissue resource. Our research themes include:

  • the regulation of trophoblast and uNk cells
  • transcriptional and post-translational features of uterine function
  • cardiac and vascular remodelling in pregnancy

We also have preclinical molecular biology projects in breast cancer research.

Respiratory disease

We conduct a broad range of research activities into acute and chronic lung diseases. As well as scientific studies into disease mechanisms, there is particular interest in translational medicine approaches to lung disease, studying human lung tissue and cells to explore potential for new treatments. Our current areas of research include:

  • acute lung injury - lung infections
  • chronic obstructive pulmonary disease
  • fibrotic disease of the lung, both before and after lung transplantation.

Pharmacology, Toxicology and Therapeutics

Our research projects are concerned with the harmful effects of chemicals, including prescribed drugs, and finding ways to prevent and minimise these effects. We are attempting to measure the effects of fairly small amounts of chemicals, to provide ways of giving early warning of the start of harmful effects. We also study the adverse side-effects of medicines, including how conditions such as liver disease and heart disease can develop in people taking medicines for completely different medical conditions. Our current interests include: environmental chemicals and organophosphate pesticides, warfarin, psychiatric drugs and anti-cancer drugs.

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.



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This programme aims to provide you with further knowledge of the scientific concepts and procedures underpinning sport and exercise related musculoskeletal function, measurement, injury and treatment. Read more
This programme aims to provide you with further knowledge of the scientific concepts and procedures underpinning sport and exercise related musculoskeletal function, measurement, injury and treatment.

The programme will allow you to adopt a multidisciplinary approach to the scientific study of sport and exercise related musculoskeletal health and performance including anatomy, physiology, biomechanics, bioengineering, and kinesiology. You will have the opportunity to carry out in-depth and critical research in selected areas of interest.

Core study areas include orthopaedic biomechanics, neuromuscular function, physiology of exercise and sport, immediate and pre-hospital care of the injured athlete, research methods for sport and exercise, basic science and regenerative therapy, emerging technologies for health and wellbeing, motion analysis of human movement, developing computer models for sports biomechanics, sports injury, and a research project.

This course is delivered under the auspices of the National Centre for Sport and Exercise Medicine – East Midlands (NCSEM-EM), and is primarily taught at Loughborough University. The NCSEM-EM is an Olympic legacy funded project aimed at improving the health and wellbeing of the nation. The course is delivered in conjunction with The University of Nottingham with some teaching at the Queen’s Medical Centre.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/ssehs/musculoskeletal-sport-science-health/

Programme modules

Programme Modules:
Semester 1
- Orthopaedic Biomechanics
- Neuromuscular Function
- Physiology of Exercise and Sport
- Immediate and Pre-Hospital Care of the Injured Athlete (continues into semester 2)
- Research Methods for Sport and Exercise

Semester 2
- Basic Science and regenerative therapy
- Emerging Technologies for Health and Wellbeing
- Motion analysis of human movement
- Developing Computer Models for Sports Biomechanics
- Sports Injury
- Research Project

Assessment

Coursework and examination, project reports and research project.

Careers and further study

Typical destinations include teaching in further and higher education, sports science support with the English Institute of Sport, working in rehabilitation and exercise therapy, working with professional sports organisations, research and PhD study.

Why choose sport, exercise and health sciences at Loughborough?

Staff within the School are renowned internationally for the quality of their teaching and research, which has influenced policy and practice around the world.

Knowledge gained from our research underpins the teaching and variety of learning experiences offered through the School’s comprehensive range of postgraduate taught and research degrees.

Our staff expertise, combined with on-going investment in buildings, teaching facilities, laboratories and equipment, makes the School of Sport, Exercise and Health Sciences a stimulating, multidisciplinary environment in which to study.

- Research
Research within the School is classified broadly into three themes: Performance in sport, Lifestyle for health and well-being, and Participation in sport and exercise.

- Career prospects
Over 92% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as APR Psychology, Adidas, BUPA, Badminton England, British Red Cross, Ministry of Education, KPGM, Lucozade, NHS, Nuffield Health and Youth Sport Trust.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/ssehs/musculoskeletal-sport-science-health/

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The MSc Neurological Rehabilitation course enables students to study the health care, management and rehabilitation of people with neurological and neuromuscular problems from a dynamic and expanding perspective. Read more

Overview

The MSc Neurological Rehabilitation course enables students to study the health care, management and rehabilitation of people with neurological and neuromuscular problems from a dynamic and expanding perspective. The course provides students with a sound academic core to their relevant clinical practice, encourages a broad approach to health provision, and gives a thorough understanding of research methodology. The overall philosophy is to encourage an analytical, questioning attitude, which in turn will lead to an increase in evidence-based practice together with innovation in clinical practice.

Allied Health Professionals and members of other related disciplines often require both academic accreditation and flexibility when seeking continuing professional development (CPD) and our postgraduate courses endeavour to fulfil these needs. This flexible course is available on a part-time or modular route. Additionally, modules can be taken as independent standalone programmes of study.

The School of Health & Rehabilitation is based on Keele campus. It has strong connections both with local clinical units and with other Schools within the University such as the Schools of Nursing & Midwifery, Medicine, and Pharmacy.

The part-time MSc programme can be completed in two years, but students may take up to five years if they wish (modular route). The structure of the course therefore allows flexible learning in accordance with individual student interests and needs.

See the website https://www.keele.ac.uk/pgtcourses/neurologicalrehabilitation/

Course Aims

Although based in the School of Health and Rehabilitation, this course draws on modules from across the Faculty of Health and the wider University encouraging interprofessional training. The aim of this flexible modular course is to broaden the student’s knowledge and understanding of neurological and neuromuscular health care management and rehabilitation, and encourage personal development. It is also about fostering greater insight into how different disciplines, through a programme of shared learning and teaching, can contribute to this aim. This course facilitates analysis, discussion and critical appraisal of scientific and clinical knowledge.

Course Content

The MSc programme comprises taught modules to the value of 120 M Level credits and a dissertation of 60 M Level credits, giving a total of 180 credits. Students may choose to finish their studies after completing 60 taught credits (Postgraduate Certificate) or 120 taught credits (Postgraduate Diploma), or they may study any module on a stand-alone basis and obtain the relevant credits.

The part-time MSc programme can be completed in two years, but students may take up to five years if they wish (modular route). The structure of the course therefore allows flexible learning in accordance with individual student interests and needs.

The core modules meet the needs of individuals to review and evaluate the scientific background of their own specialism and to integrate this into their clinical practice. The option modules allow students to devise a programme to suit their own specific requirements in terms of professional and personal development. The Research module and Evidence Based Practice module together with the dissertation develop the student’s research capabilities and critical evaluation skills.

Teaching & Assessment

Lecture sessions are led by a variety of experienced authorities in their field. Therefore, the student receives a wide knowledge base from academics and practising experts. Teaching methods include: lead lectures, tutor and student-led tutorials, problem solving scenarios, case study, presentations, small group work and the use of the Virtual Learning Environment – discussion groups, conditional released tasks.

The programme is assessed by a variety of techniques chosen to reflect the aims and objectives and teaching methods of individual modules, for example: critical review papers, essays, portfolios, presentations, interactive practical examinations, assessment in the field and use of the Virtual Learning Environment – online assessments, and dissertation.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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This course will be held at the Medway Campus. - https://www.kent.ac.uk/locations/medway/. Course detail. This programme equips you to work in the field of Sport Science and provides the opportunity to gain real-life experience with athletes. Read more

This course will be held at the Medway Campus

- https://www.kent.ac.uk/locations/medway/

Course detail

This programme equips you to work in the field of Sport Science and provides the opportunity to gain real-life experience with athletes. Graduates become experienced Sports Scientists able to work effectively in academia or professional sport.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/147/sport-science-for-optimal-performance

and find out more at the Sports Science website: https://www.kent.ac.uk/sportsciences/postgraduate/

How to apply: https://www.kent.ac.uk/courses/postgraduate/apply/


Overview

This programme advances your specialist knowledge and understanding of the scientific principles underpinning optimal performance in sport and exercise and provides opportunities to develop professional skills, including monitoring, analysing, evaluating and prescribing interventions for the optimisation of performance. Drawing on the expertise of Kent’s staff, many of whom are at the forefront of their fields, you have the opportunity to apply these skills in a real-world context by working with athletes.

The programme is designed to develop the professional and academic skills of graduate sport scientists. Health and sport professionals who want to take modules on a stand-alone basis for continuing professional development are welcome to contact us.

Format band assessment

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year:

- Dissertation (60 credits)

- Assessment and Training for Optimal Performance (20 credits)

- Research Methods (40 credits)

- Contemporary Perspectives in Sport Research (20 credits)

- Psychology for Injury and Rehabilitation (20 credits)

- Sport and Exercise Nutrition for the High Performance Athlete (20 credits)

- Applied Athlete Support (20 credits)

Assessment is typically by coursework and the final dissertation research project.

Careers

The programme has been developed and designed to provide the required knowledge and skills for you to work autonomously in the field of sport science. Importantly, there are significant opportunities for you to gain real-life experience of working with athletes; both as part of the programme and also through the School’s work with professional teams and elite athletes. Many of our graduates have gone on to further study such as a PhD, work in high level professional sport or as applied sports scientists. 

Why study at The University of Kent?

- Kent was awarded gold, the highest rating, in the UK Government’s Teaching Excellence Framework

- Shortlisted for University of the Year 2015

- In the Research Excellence Framework (REF) 2014, Kent was ranked 17th* for research output and research intensity, in the Times Higher Education, outperforming 11 of the 24 Russell Group universities

- Over 96% of our postgraduate students who graduated in 2014 found a job or further study opportunity within six months.

Find out more: https://www.kent.ac.uk/courses/postgraduate/why/

Cutting-edge research

Our staff regularly publish world-leading research, giving you the chance to study with some of the most influential researchers in this field. We have worked with organisations such as the Medway Community health care, Asthma UK, SmartLife inc and Sport England. Our areas of research are wide ranging, including sports training, performance, fatigue, nutrition, hamstring injuries, sport psychology, cardiac rehabilitation.

First-class sports facilities and State-of-the-art equipment

The School of Sport and Exercise Sciences has excellent purpose-built facilities. For exercise testing, the School has everything you would expect and more, including state-of-the-art treadmills, cycle and rowing ergometers, an isokinetic dynamometer, brain and muscle stimulators, and blood testing and gas analysis equipment, sport and exercise science laboratories, teaching and student clinics, multiple physiology laboratories, a biomechanics laboratory which is equipped with 3D motion capture cameras and force plates, two large therapy clinics and two rehabilitation gyms, a psychobiology laboratory and a respiratory clinic. We were the first university in the UK to install an anti-gravity treadmill in our rehabilitation gym. Using NASA technology, this treadmill is a valuable resource for professional athletes as they look to speed up their return to fitness. Within our neuromuscular laboratory, we have equipment for transcranial magnetic and direct current stimulation and peripheral muscle and nerve stimulation. These devices allow us to manipulate and test areas of the muscle and brain before and during exercise. Only a handful of universities in the UK have access to such state-of-the-art equipment.

We have a heat and altitude environmental chamber that can create various environmental conditions to stimulate the most extreme conditions found around the world. 

The facilities at Medway Park were specified to the highest standards in order to support athletes at pre-Olympic training camps and to enable world-leading research.

Excellent study resources

The general resources on campus are first class. The well-stocked Drill Hall Library has:

·      around 130,000 items including books, journals, CDs and DVDs

·      online resources and journal subscriptions

·      more than 400 student PCs and laptops

·      free high-speed internet access

·      zoned areas for group work; quiet study; and silent study

·      The School of Sport and Exercise Sciences recently increased its library resources by investing an extra £50,000 in new books.

Accessible location

Our award-winning Medway campus near Chatham Historic Dockyard was built at the start of the 20th century. You can get advice, study, socialise, or grab a bite to eat at our newly-refurbished Student Hub, or meet friends for a drink or food at a range of cafes and restaurants across campus.

Five minutes’ walk from campus, the Dockside retail outlet offers a wide range of shops and restaurants. Nearby is the town of Rochester with its historic castle and stunning cathedral, which is one of the venues for Kent’s degree congregations.

The Medway campus is quick and easy to reach from central London. Travel to London from the nearby stations of Gillingham and Chatham takes about 45 minutes.

Postgraduate scholarships and funding

We have a scholarship fund of over £9 million to support our taught and research students with their tuition fees and living costs. Find out more: https://www.kent.ac.uk/scholarships/postgraduate/

English language learning

If you need to improve your English before and during your postgraduate studies, Kent offers a range of modules and programmes in English for Academic Purposes (EAP). Find out more here: https://www.kent.ac.uk/courses/postgraduate/international/english.html



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The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. Read more
The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. The course consists of an intense program of lectures and workshops, followed by a short project and dissertation. Extensive use is made of the electronic learning environment "Blackboard" as used by NUI Galway. The course has been accredited by the Institute of Physics and Engineering in Medicine (UK).

Syllabus Outline. (with ECTS weighting)
Human Gross Anatomy (5 ECTS)
The cell, basic tissues, nervous system, nerves and muscle, bone and cartilage, blood, cardiovascular system, respiratory system, gastrointestinal tract, nutrition, genital system, urinary system, eye and vision, ear, hearing and balance, upper limb – hand, lower limb – foot, back and vertebral column, embryology, teratology, anthropometrics; static and dynamic anthropometrics data, anthropometric dimensions, clearance and reach and range of movement, method of limits, mathematics modelling.

Human Body Function (5 ECTS)
Biological Molecules and their functions. Body composition. Cell physiology. Cell membranes and membrane transport. Cell electrical potentials. Nerve function – nerve conduction, nerve synapses. Skeletal muscle function – neuromuscular junction, muscle excitation, muscle contraction, energy considerations. Blood and blood cells – blood groups, blood clotting. Immune system. Autonomous nervous system. Cardiovascular system – electrical and mechanical activity of the heart. – the peripheral circulation. Respiratory system- how the lungs work. Renal system – how the kidneys work. Digestive system. Endocrine system – how hormones work. Central nervous system and brain function.

Occupational Hygiene (5 ECTS)
Historical development of Occupational Hygiene, Safety and Health at Work Act. Hazards to Health, Surveys, Noise and Vibrations, Ionizing radiations, Non-Ionizing Radiations, Thermal Environments, Chemical hazards, Airborne Monitoring, Control of Contaminants, Ventilation, Management of Occupational Hygiene.

Medical Informatics (5 ECTS)
Bio statistics, Distributions, Hypothesis testing. Chi-square, Mann-Whitney, T-tests, ANOVA, regression. Critical Appraisal of Literature, screening and audit. Patient and Medical records, Coding, Hospital Information Systems, Decision support systems. Ethical consideration in Research.
Practicals: SPSS. Appraisal exercises.

Clinical Instrumentation (6 ECTS)
Biofluid Mechanics: Theory: Pressures in the Body, Fluid Dynamics, Viscous Flow, Elastic Walls, Instrumentation Examples: Respiratory Function Testing, Pressure Measurements, Blood Flow measurements. Physics of the Senses: Theory: Cutaneous and Chemical sensors, Audition, Vision, Psychophysics; Instrumentation Examples: Evoked responses, Audiology, Ophthalmology instrumentation, Physiological Signals: Theory Electrodes, Bioelectric Amplifiers, Transducers, Electrophysiology Instrumentation.

Medical Imaging (10 ECTS)
Theory of Image Formation including Fourier Transforms and Reconstruction from Projections (radon transform). Modulation transfer Function, Detective Quantum Efficiency.
X-ray imaging: Interaction of x-rays with matter, X-ray generation, Projection images, Scatter, Digital Radiography, CT – Imaging. Fundamentals of Image Processing.
Ultrasound: Physics of Ultrasound, Image formation, Doppler scanning, hazards of Ultrasound.
Nuclear Medicine : Overview of isotopes, generation of Isotopes, Anger Cameras, SPECT Imaging, Positron Emitters and generation, PET Imaging, Clinical aspects of Planar, SPECT and PET Imaging with isotopes.
Magnetic Resonance Imaging : Magnetization, Resonance, Relaxation, Contrast in MR Imaging, Image formation, Image sequences, their appearances and clinical uses, Safety in MR.

Radiation Fundamentals (5 ECTS)
Review of Atomic and Nuclear Physics. Radiation from charged particles. X-ray production and quality. Attenuation of Photon Beams in Matter. Interaction of Photons with Matter. Interaction of Charged Particles with matter. Introduction to Monte Carlo techniques. Concept to Dosimetry. Cavity Theory. Radiation Detectors. Practical aspects of Ionization chambers

The Physics of Radiation Therapy (10 ECTS)
The interaction of single beams of X and gamma rays with a scattering medium. Treatment planning with single photon beams. Treatment planning for combinations of photon beams. Radiotherapy with particle beams: electrons, pions, neutrons, heavy charged particles. Special Techniques in Radiotherapy. Equipment for external Radiotherapy. Relative dosimetry techniques. Dosimetry using sealed sources. Brachytherapy. Dosimetry of radio-isotopes.

Workshops / Practicals
Hospital & Radiation Safety [11 ECTS]
Workshop in Risk and Safety.
Concepts of Risk and Safety. Legal Aspects. Fundamental concepts in Risk Assessment and Human Factor Engineering. Risk and Safety management of complex systems with examples from ICU and Radiotherapy. Accidents in Radiotherapy and how to avoid them. Principles of Electrical Safety, Electrical Safety Testing, Non-ionizing Radiation Safety, including UV and laser safety.
- NUIG Radiation Safety Course.
Course for Radiation Safety Officer.
- Advanced Radiation Safety
Concepts of Radiation Protection in Medical Practice, Regulations. Patient Dosimetry. Shielding design in Diagnostic Radiology, Nuclear Medicine and Radiotherapy.
- Medical Imaging Workshop
Operation of imaging systems. Calibration and Quality Assurance of General
radiography, fluoroscopy systems, ultrasound scanners, CT-scanners and MR scanners. Radiopharmacy and Gamma Cameras Quality Control.

Research Project [28 ECTS]
A limited research project will be undertaken in a medical physics area. Duration of this will be 4 months full time

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The term neuromusculoskeletal refers to the musculoskeletal system and the related neuromuscular and cardiovascular systems. This course enables students to study the health care of patients with neuromusculoskeletal problems from a dynamic and expanding perspective. Read more

Overview

The term neuromusculoskeletal refers to the musculoskeletal system and the related neuromuscular and cardiovascular systems. This course enables students to study the health care of patients with neuromusculoskeletal problems from a dynamic and expanding perspective.

The course provides students with a sound academic core to their relevant clinical practice, encourages a broad approach to health provision, and gives a thorough understanding of research methodology. The overall philosophy is to encourage an analytical, questioning attitude, which in turn will lead to an increase in evidence-based practice together with innovation in clinical practice.

Allied health professionals and members of other related disciplines often require both academic accreditation and flexibility when seeking continuing professional development (CPD) and our postgraduate courses endeavour to fulfil these needs. This flexible course is available part-time, or modules can be taken as independent stand-alone programmes of study.

The School of Health & Rehabilitation is based on Keele campus and has a well-established undergraduate physiotherapy programme. It has strong connections both with local clinical units and with other Schools within the University such as the Schools of Nursing & Midwifery, Medicine, and Pharmacy.

The part-time MSc programme can be completed in two years, but students may take up to five years if they wish (modular route). The structure of the course therefore allows flexible learning in accordance with individual student interests and needs.

See the website https://www.keele.ac.uk/pgtcourses/neuromusculoskeletalhealthcare/

Course Aims

The aim of this flexible modular course is to broaden the student’s knowledge and understanding of neuromusculoskeletal health care, and encourage personal development. It is also about fostering greater insight into how different disciplines, through a programme of shared learning and teaching, can contribute to this aim. This course facilitates analysis, discussion and critical appraisal of scientific and clinical knowledge.

Course Content

The MSc programme comprises taught modules to the value of 120 M Level credits and a dissertation of 60 M Level credits, giving a total of 180 credits. Students may choose to finish their studies after completing 60 taught credits (Postgraduate Certificate) or 120 taught credits (Postgraduate Diploma), or they may study any module on a stand-alone basis and obtain the relevant credits. The part-time MSc programme can be completed in two years, but students may take up to five years if they wish (modular). The structure of the course therefore allows flexible learning in accordance with individual student interests and needs.

Teaching & Assessment

Lecture sessions are led by a variety of experienced authorities in their field. Therefore, the student receives a wide knowledge base from academics and practising experts.

The programme is assessed by a variety of techniques chosen to reflect the aims and objectives and teaching methods of individual modules, for example: essay, critical evaluation, paper review, seminar presentations, examination, the use of the Virtual Learning Environment, and dissertation. The pass mark for all modules is 50%.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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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.

About this degree

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)

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

Optional modules

There are no optional modules for this programme.

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).

Further information on modules and degree structure is available on the department website: Performing Arts Medicine MSc

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

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 a PhD, will receive appropriate guidance.

Recent career destinations for this degree

  • Performing Arts Medicine Specialist, Perform Health
  • GP (General Practitioner), Grove Surgery
  • 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 programme 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.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

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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