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Masters Degrees (Neuromuscular)

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This Master’s degree is designed for medical professionals and scientists wishing to specialise in neuromuscular diseases. Read more
This Master’s degree is designed for medical professionals and scientists wishing to specialise in neuromuscular diseases. The programme provides a comprehensive education in all aspects of neuromuscular disease ranging from anatomy and physiology of the neuromuscular system to genetic advances and research, as well as clinical aspects of treatments and identification of neuromuscular diseases.

Degree information

Students will take modules in anatomy and physiology of the neuromuscular system, pathophysiology, genetic and clinical research and current clinical trends in neuromuscular disease. They will undertake projects in world-leading laboratories and attend clinical presentations given by clinical experts in the field. Students will also conduct their own research enabling them to acquire methodological, technical and theoretical understanding.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), one optional module (15 credits), a library project (30 credits) and a research project resulting in a dissertation/report (60 credits). A Postgraduate Diploma, five core modules (75 credits), one optional (15 credits) and library project (30 credits), full-time nine months, part-time two years, flexible five years, is also available. A Postgraduate Certificate, comprising four core modules (60 credits), full-time 12 weeks, part-time nine months, flexible two years, is also available.

Core modules
-Cellular and Molecular Mechanisms of Disease
-Motoneurons, Neuromuscular Junctions and Associated Diseases
-Peripheral Nerves and Associated Diseases
-Research Methods and Introduction to Statistics
-Skeletal Muscle and Associated Diseases

Optional modules - students choose one of the following:
-Advanced Genetic Technologies and Clinical Applications
-Paediatric Musculoskeletal Physiotherapy
-Paediatric Neurodevelopmental Physiotherapy
-Students can also choose the optional module more widely from across UCL, with the agreement of the programme organisers.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 10,000 words. The project can either be laboratory based, offered by scientists at the UCL Institute of Neurology, or a clinical research project offered by leading experts at Queen Square.

Teaching and learning
The programme is delivered through a combination of lectures, practical sessions, journal clubs, presentations, supervisory meetings and poster presentations.

Careers

The portfolio of taught graduate programmes at 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 MSc graduates have gone on to further study at PhD level, or successfully applied to medical school. Clinicians who took time out to obtain an MSc have returned to training and scientists have progressed to obtain research assistant posts. Those already established in their career have been promoted.

Employability
Whatever your chosen career pathway, (medicine, physiotherapy, biological or biomedical sciences, nursing, etc.) this programme will enable you to advance your career to a higher specialised level or help you get more established in your career. The programme will deliver specialised knowledge in the causality, management and treatment of neuromuscular diseases and introduce students to a wide variety of different clinical disorders in the clinics at Queen Square. Students studying for the full MSc will also gain extensive transferable research and critical evaluation skills working with principal investigators who are global experts in this field.

Why study this degree at UCL?

The UCL Institute of Neurology has a world-class reputation in the treatment and management of patients with neuromuscular disease. The aim of the programme is to educate the future generation of experts in all areas of neuromuscular disease.

Our peripheral nerve and muscle clinics are run by leading clinical experts in the field and students will attend clinics and clinical presentations and learn about the clinical management of a wide variety of neuromuscular diseases.

Students will also acquire specialised expertise in research by conducting cutting-edge clinical and basic science research projects under the supervision of world-renowned scientists in the field.

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This specialised postgraduate degree provides expert knowledge in all aspects of neuromuscular diseases and is aimed at professionals wishing to pursue a research career. Read more
This specialised postgraduate degree provides expert knowledge in all aspects of neuromuscular diseases and is aimed at professionals wishing to pursue a research career. Students undertake an extended research project in the areas of the pathomechanisms of disease and developing new treatment strategies in the field.

Degree information

Students on this programme will benefit from the cutting-edge research conducted at the UCL Institute of Neurology and take modules in anatomy and physiology of the neuromuscular system; pathophysiology, genetic and clinical research; and clinical trends in neuromuscular diseases. Students will carry out substantial projects in world-leading laboratories engaged in neuromuscular diseases and attend clinical presentations given by clinical experts.

Students undertake modules to the value of 180 credits.

The programme consists of two core modules (30 credits), two optional modules (30 credits), and an extended research project resulting in a dissertation/report (120 credits).

Core modules
-Cellular and Molecular Mechanisms of Disease
-Research Methods and Critical Appraisal

Optional modules - students choose two of the following:
-Advanced Genetic Technologies and Clinical Applications
-Motoneurons, Neuromuscular Junctions and Associated Disease
-Peripheral Nerves and Associated Diseases
-Skeletal Muscle and Associated Diseases
-One module from across UCL, as an optional module. The choice of module needs to be agreed by the Programme Director.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words. Many of our MRes projects lead to publication of results in peer-reviewed international journals.

Teaching and learning
The programme is delivered through a combination of lectures, practical sessions, journal clubs, presentations, meetings with supervisor, both oral and poster presentation. Assessment of the taught modules will be a mixture of short-answer multiple choice question examinations and timed essays. The research project will be assessed by a written dissertation, oral and a presentation.

Careers

Our portfolio of taught postgraduate programmes at UCL Institute of Neurology has continued to expand in recent years. Past experience suggests that a postgraduate degree obtained from UCL significantly enhances career and promotion prospects. Many of our graduates have undertaken further study at PhD level, or have successfully applied to medical school. Some clinicians who took time out to obtain an MRes have returned to training, and scientists have progressed to their first research assistant post.

Employability
Whatever your chosen career pathway, this programme will enable you to advance your career to a higher specialised level or help you get more established in your career. As well as gaining knowledge in the specialised field of neurological disease, the extended research project will enable you to gain many transferable skills in conducting research in the clinical and medical science area. 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, management and treatment of neuromuscular disease.

Why study this degree at UCL?

The UCL Institute of Neurology has a world-class reputation in the treatment and management of patients with a wide range of neuromuscular diseases. Our specialised peripheral nerve and muscle clinics are run by leading clinical experts in the field.

Students will have a unique opportunity to attend clinics and presentations, and learn about the clinical management of a wide variety of neuromuscular diseases.

Students will also acquire specialised expertise in research into neuromuscular disease by conducting cutting-edge clinical and basic science research. We aim to educate the future generation of experts in the area of neuromuscular disease.

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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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Our Neuromuscular Diseases MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more
Our Neuromuscular Diseases MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes subject-specific content in the area of neuromuscular diseases. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of neuromuscular diseases under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

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The Institute of Genetic Medicine brings together a strong team with an interest in clinical and developmental genetics. Our research focuses on the causes of genetic disease at the molecular and cellular level and its treatment. Read more
The Institute of Genetic Medicine brings together a strong team with an interest in clinical and developmental genetics. Our research focuses on the causes of genetic disease at the molecular and cellular level and its treatment. Research areas include: genetic medicine, developmental genetics, neuromuscular and neurological genetics, mitochondrial genetics and cardiovascular genetics.

As a research postgraduate in the Institute of Genetic Medicine you will be a member of our thriving research community. The Institute is located in Newcastle’s Life Science Centre. You will work alongside a number of research, clinical and educational organisations, including the Northern Genetics Service.

We offer supervision for MPhil in the following research areas:

Cancer genetics and genome instability

Our research includes:
-A major clinical trial for chemoprevention of colon cancer
-Genetic analyses of neuroblastoma susceptibility
-Research into Wilms Tumour (a childhood kidney cancer)
-Studies on cell cycle regulation and genome instability

Cardiovascular genetics and development

We use techniques of high-throughput genetic analyses to identify mechanisms where genetic variability between individuals contributes to the risk of developing cardiovascular disease. We also use mouse, zebrafish and stem cell models to understand the ways in which particular gene families' genetic and environmental factors are involved in the normal and abnormal development of the heart and blood vessels.

Complex disease and quantitative genetics

We work on large-scale studies into the genetic basis of common diseases with complex genetic causes, for example autoimmune disease, complex cardiovascular traits and renal disorders. We are also developing novel statistical methods and tools for analysing this genetic data.

Developmental genetics

We study genes known (or suspected to be) involved in malformations found in newborn babies. These include genes involved in normal and abnormal development of the face, brain, heart, muscle and kidney system. Our research includes the use of knockout mice and zebrafish as laboratory models.

Gene expression and regulation in normal development and disease

We research how gene expression is controlled during development and misregulated in diseases, including the roles of transcription factors, RNA binding proteins and the signalling pathways that control these. We conduct studies of early human brain development, including gene expression analysis, primary cell culture models, and 3D visualisation and modelling.

Genetics of neurological disorders

Our research includes:
-The identification of genes that in isolation can cause neurological disorders
-Molecular mechanisms and treatment of neurometabolic disease
-Complex genetics of common neurological disorders including Parkinson's disease and Alzheimer's disease
-The genetics of epilepsy

Kidney genetics and development

Kidney research focuses on:
-Atypical haemolytic uraemic syndrome (aHUS)
-Vesicoureteric reflux (VUR)
-Cystic renal disease
-Nephrolithiasis to study renal genetics

The discovery that aHUS is a disease of complement dysregulation has led to a specific interest in complement genetics.

Mitochondrial disease

Our research includes:
-Investigation of the role of mitochondria in human disease
-Nuclear-mitochondrial interactions in disease
-The inheritance of mitochondrial DNA heteroplasmy
-Mitochondrial function in stem cells

Neuromuscular genetics

The Neuromuscular Research Group has a series of basic research programmes looking at the function of novel muscle proteins and their roles in pathogenesis. Recently developed translational research programmes are seeking therapeutic targets for various muscle diseases.

Stem cell biology

We research human embryonic stem (ES) cells, germline stem cells and somatic stem cells. ES cell research is aimed at understanding stem cell pluripotency, self-renewal, survival and epigenetic control of differentiation and development. This includes the functional analysis of genes involved in germline stem cell proliferation and differentiation. Somatic stem cell projects include programmes on umbilical cord blood stem cells, haematopoietic progenitors, and limbal stem cells.

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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Produce high quality original research in the areas of sport, exercise, nutritional and health sciences. This programme provides an excellent platform for progression to PhD-level study as well as other related career paths. Read more

Summary

Produce high quality original research in the areas of sport, exercise, nutritional and health sciences. This programme provides an excellent platform for progression to PhD-level study as well as other related career paths.

This programme is for students who want to focus on a research topic with a view to create new knowledge within the growing area of sport and exercise science. You will be guided by experts in the field who will support you to produce high quality original research.

You will have the opportunity to work with state-of-the-art equipment in the laboratories. Our expertise will allow students to employ the latest techniques in the pursuit of producing significant and original research that is publishable. Some of the techniques include modified ELISA’s, Real-Time PCR, Western Blot, isotope methodology for metabolism, 2-3D motion analysis using MaxTRAQ and Vicon, force analysis using Kistler force plates and isokinetic dynamometers, muscle ultrasound, and neuromuscular electrical stimulation.

You will automatically gain access to our research community in the Sport and Exercise Science Research Centre (SESRC) and Health Sciences Research Centre (HSRC). The research centres are active in researching diabetes, obesity, diseased and healthy metabolism, neuromuscular function, biomechanics in elite and pathological populations, environmental physiology, nutrition in athletic and chronic diseased populations, protein synthesis and muscle growth, sport & exercise psychology and performance and well-being.

Content

The key modules on this course revolve around you producing a high-level independent research project, which will prepare you for higher levels of research and study.

The course begins with a research methods module which will equip you with a comprehensive understanding of different approaches to research, allowing you to choose the correct method for your project, depending on your specific area of interest. You will study key philosophical questions as to the nature of science and knowledge, and develop a critical awareness of the principles and practice of qualitative and quantitative approaches and techniques. You will also be introduced to the management of ethical issues associated with collecting and analysing data on human participants.

You will also be guided on the development of your research proposal, and be invited to attend the Sport Science Seminars Series to frame your understanding of current sport-related research.

Other modules on the programme allow you to study more in-depth knowledge and gain relevant practical skill in biomechanics, psychology, and/or physiology that are invaluable for your dissertation project.

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Our programme equips you for a career in sport, exercise and clinical biomechanics. You will gain in-depth knowledge into how theoretical biomechanics can be applied to the understanding and development of movement for sport, exercise and clinical applications. Read more

Summary

Our programme equips you for a career in sport, exercise and clinical biomechanics. You will gain in-depth knowledge into how theoretical biomechanics can be applied to the understanding and development of movement for sport, exercise and clinical applications.

Our MSc in Biomechanics will enable you to support the physical development and health of sports people engaged in intensive training and exercise. This programme critically examines the theoretical basis of methods of assessment and the practical application of data within biomechanics. It offers you a means of studying biomechanics from a discipline-specific standpoint.

You will be taught by staff who are committed to pursue excellence in the field of sport, exercise and health sciences and have achieved a high level of expertise within their profession.

The Sport and Exercise Research Centre houses one of the best sport science laboratory facilities in London. You will have access to our biomechanics laboratory and physiology laboratory during your study here.

You will be able to collaborate with our members of the Sport and Exercise Science Research Centre engaged in range of multidisciplinary research themes including: Neuromusculoskeletal Function through the Ages; Extreme Environments; Amputee Mobility; Performance and Well-Being; and Exercise Adherence and Health.

Roehampton has over twenty-five years' experience of teaching Sport Science and has run Masters level Sport Science programmes since 1997. Over this time, we have constantly embraced changes in the profession and utilised student feedback to ensure that our programmes are relevant, inspiring and provided to the high standards.

Content

You will study modules that provide both the theory and hands-on application in areas such as biomechanical assessment/support techniques, neuromuscular function, and biomechanics of gait. The teaching in these modules is both in-depth and highly practical, with extensive use of laboratory facilities such as Vicon 3D motion capture system, 2D video analysis, Kistler force plates, isokinetic dynamometers, ultrasound scanners, electromyography, and neuromuscular electrical stimulator.

You will also have the opportunity to gain two weeks work placement in gait laboratories of Guys and St Thomas’s Hospital and Queen Mary’s Hospital. Through this placement our previous graduates have developed their clinical gait analysis skills and have enhanced their employability within the field of Biomechanics.

In your research dissertation, you will have the opportunity to perform focused research in a project to be developed with our staff member with the view for publication in a peer-reviewed journal.

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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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Help athletes achieve their full potential as you join the emerging and growing profession of strength and conditioning coaching. Read more
Help athletes achieve their full potential as you join the emerging and growing profession of strength and conditioning coaching. This course will give you the skills to work with any level of athlete, from amateurs to professionals, preparing them to perform to the best of their ability without sustaining injury.

You will study the biomechanics and physiology of the human body, focusing on the development of strength and power in sport and the cardiovascular adaptations of training. You will learn to apply this to your coaching practice, while also understanding the perspectives of other practitioners including nutritionists, physiotherapists and psychologists.

There will be the opportunity to design and implement a programme for athletes or the general population, allowing you to use your theoretical knowledge in real-life situations. This experience will help you develop the ability to establish positive working relationships with a wide range of people including players and athletes, other coaches, parents and officials.

- Research Excellence Framework 2014: 59% of our research submitted was assessed as world leading or internationally excellent.

Visit the website http://courses.leedsbeckett.ac.uk/strengthconditioning_msc

Mature Applicants

Our University welcomes applications from mature applicants who demonstrate academic potential. We usually require some evidence of recent academic study, for example completion of an access course, however recent relevant work experience may also be considered. Please note that for some of our professional courses all applicants will need to meet the specified entry criteria and in these cases work experience cannot be considered in lieu.

If you wish to apply through this route you should refer to our University Recognition of Prior Learning policy that is available on our website (http://www.leedsbeckett.ac.uk/studenthub/recognition-of-prior-learning.htm).

Please note that all applicants to our University are required to meet our standard English language requirement of GCSE grade C or equivalent, variations to this will be listed on the individual course entry requirements.

Careers

Whether you are already working with sports performers or a graduate looking to specialise, this course prepares you for working with a range of athletes in professional sports teams and across public sectors such as the armed forces. It’s also a great foundation for further study at PhD level, where you will have the opportunity to add to your expertise.

- Strength and Conditioning Coach
- Physical Training Instructor
- Personal Trainer

Careers advice: The dedicated Jobs and Careers team offers expert advice and a host of resources to help you choose and gain employment. Whether you're in your first or final year, you can speak to members of staff from our Careers Office who can offer you advice from writing a CV to searching for jobs.

Visit the careers site - https://www.leedsbeckett.ac.uk/employability/jobs-careers-support.htm

Course Benefits

We have worked closely with our contacts in the strength and conditioning industry to create this course. Thanks to this, you will benefit from the input of professionals including physiotherapists, strength and conditioning coaches, lecturers and nutritionists, helping you gain the skills and knowledge you need to be successful in this sector.

Our teaching team have a strong research background and includes practising strength and conditioning coaches who will be able to relate your theoretical learning to real-life practice. You will also benefit from our first-class facilities which include biomechanics labs, an on-site swimming pool, athletics track and strength and conditioning gym.

Our course is aligned with the requirements of the UK Strength and Conditioning Association and the National Strength and Conditioning Association and will prepare you to apply for accreditation after you graduate.

Core Modules

Biomechanics of Strength & Power
Develop an understanding of the physiological and mechanical factors governing the generation of strength and power through a study of the structure and function of the neuromuscular system.

The Physiology of Sports Conditioning
Gain the skills to evaluate the physiological demands of sporting events, measure physiological capacities and prescribe training for physiological development in athletes.

Organisation & Evaluation of Training
Learn how to plan, organise, deliver and evaluate training as you explore the requirements of a sport or event and its participants.

Multidisciplinary Perspectives in Strength & Conditioning
Examine the wider role of the strength and conditioning coach and the implication of working in interdisciplinary teams alongside nutritionists, physiotherapists and psychologists.

Strength & Conditioning Practice
Apply practical coaching skills, critically reflect on practice and plan own professional development as a strength and conditioning coach.

Research Methods
Gain the knowledge you require for your Major Independent Study. You will learn a scientific approach to research including data analysis and interpretation.

Major Independent Study
Plan, implement and evaluate a study relevant to your personal interests and the themes you've explored throughout the course.

Facilities

- Physiology Labs
Our state-of-the-art labs include a human performance lab, a cardio-respiratory lab, blood sampling room for biochemical marker work, a full working physiology lab for monitoring athletes, a full body composition scanner and a nutrition laboratory.

- Biomechanics / Strength and Conditioning Labs
Here our students use our biomechanics and strength and conditioning equipment to measure strength, power output and key neuromuscular performance parametrics.

- Sports Facilities
"I've been coming here to train since 2004 and the facilities are great." - Jessica Ennis, Olympic Gold Medalist

Find out how to apply here - http://www.leedsbeckett.ac.uk/postgraduate/how-to-apply/

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This programme provides the opportunity to gain an in-depth understanding of sports biomechanics. All aspects of sports biomechanics are covered, ranging from experimental equipment requirements and utilisation through to the latest theoretical considerations and research problems. Read more
This programme provides the opportunity to gain an in-depth understanding of sports biomechanics. All aspects of sports biomechanics are covered, ranging from experimental equipment requirements and utilisation through to the latest theoretical considerations and research problems.

Work consists of hands-on laboratory and field techniques, theoretical modelling and computer simulation of human movement, as well as critical analysis, discussion and presentation of research projects.

This is an end-on programme suitable for students from a field where a fundamental grasp of mechanics has been displayed, and with an interest in applying this knowledge to the sports research arena.

Core study areas include research methodologies and methods, experimental biomechanics, neuromuscular function, quantitative research, theoretical biomechanics, developing computer models for sports biomechanics, current research in sports biomechanics, and a research project.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/ssehs/sports-biomechanics/

Programme modules

Compulsory Modules:
Semester 1
- Research Methodologies and Methods
- Experimental Biomechanics
- Neuromuscular Function

Semester 2
- Quantitative Research
- Theoretical Biomechanics
- Developing Computer Models for Sports Biomechanics

Semesters 1 and 2
- Current Research in Sports Biomechanics

Summer
- Research Project

Selection

You may be selected upon confirmation of satisfactory academic background, experience and references.

Assessment

Examination, coursework and a research paper.

Careers and further study

Typical destinations include biomechanics teaching in higher education, athlete support within the English Institute of Sport, and PhD research.

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/sports-biomechanics/

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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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This award has been designed to facilitate the learning of the generic skills and knowledge essential to successful higher clinical practice and careers in academic medicine by applying the principles of the scientific method to studies in both anatomical research and clinically-applied anatomy. Read more

Overview

This award has been designed to facilitate the learning of the generic skills and knowledge essential to successful higher clinical practice and careers in academic medicine by applying the principles of the scientific method to studies in both anatomical research and clinically-applied anatomy. Anatomy encompasses all levels of structural organisation, topographical, neuroanatomical, histological, cellular and developmental, as well as providing a basis for studies in radiological imaging and pathology. This approach allows students to integrate recent advances in molecular genetics, cell biology, microscopy, imaging and computer simulation to biological and clinical problems concerning the human body.

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

Course Content

A total of 180 credits are required to achieve the MMedSci (Anatomical Sciences) Intercalated.

One third of the credits are associated with the major dissertation/project, one third are anatomy-related taught modules with practical content, and one third comprises a combination of core generic methodology modules and a choice of modules in areas of cell and molecular biology or applied clinical science.

COURSE MODULES

FOUR CORE modules which are compulsory:

Applied Morphological Techniques and Imaging (30 credits):

This module, taken early in the semester, introduces some of the key research techniques employed in anatomical, experimental and pathological investigations, including whole body methods, optical, confocal and electron microscopy, histochemical and immunocytochemical staining methods, and quantitative techniques such as morphometry and stereology. In general, half-day theory sessions are followed by practicals and visits to various research and pathology laboratories and seminars involve critical analysis of the literature and applications to project design and research grant funding.

Applied Clinical Anatomy 1 (15 credits):

A six-day module spread over semester 1, covering practical, theoretical and applied aspects of the anatomy and development of the muscular, nervous, cardiovascular and respiratory systems. The unit includes anatomy prosection practicals, anthropometry, ultrasound imaging and critical analysis of the research literature particularly in the field of neuromuscular anatomy, variations, anomalies, and applied anatomy.

Applied Surgical Anatomy (15 credits):

This module, spread over both semesters, provides students with the opportunity to acquire a thorough knowledge of anatomy as applied to surgical diagnoses and procedures as a foundation for understanding and developing the scientific and evidence base of current practice. Activities include anatomy dissection labs, small group work and presentations, case-based discussions and critical appraisal work on the anatomical and surgical literature and self-directed learning.

Research Methods in Health (15 credits):

The aims of this module are as follows:

• To develop the students’ understanding of the philosophical and methodological bases of health and social research
• To enable the student to make an informed and appropriate choice of research design and methods
• To equip the student with critical appraisal skills
• To provide the student with the methodological foundation for a research dissertation

THREE OPTIONAL modules, ideally ONE from each of groups A, B, and C by discussion with the course tutors:

Group A

• Statistics and Epidemiology (15 credits)
• Medical Education 15 credits)

Group B

• Stem Cells: Types, Diagnoses and Applications (15 credits)
• Cell & Tissue Engineering (15 credits)

Group C

• Physiology of Neuromusculoskeletal Tissue (15 credits)
• Psychosocial Aspects of Pain (15 credits)
• Concepts of Neurological Rehabilitation (15 credits)
• Physiology and Pharmacology of Pain (15 credits)
• Assistive Technologies in Neuromuscular Rehabilitation (15 credits)
• Dynamic Ultrasound Imaging (15 credits)

Dissertation/Project:
This may take the form of one long (9 month) dissection or laboratory-based research topic written up to include a literature review, methodologies, results and discussion. Alternatively, this could comprise a short dissection or laboratory research project and a related medical education research project written up as above. Some short exploratory anatomy lab research projects may be undertaken in the style of Applied Clinical Anatomy 2.

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 postgraduate programme.

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

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The Master’s Degree in Clinical and Experimental Sciences of the Nervous System is a blended master’s degree in the field of the neurosciences with three specialities. Read more
The Master’s Degree in Clinical and Experimental Sciences of the Nervous System is a blended master’s degree in the field of the neurosciences with three specialities:
-Research into Neurotoxicology and Neuropsychopharmacology (research track). This speciality aims to train future specialists to research into evaluating and characterising the effects of neuroactive substances(effects of neurotoxins from environmental pollutants on living organisms, effects of medicines and abusive drugs on behaviour). The objective is to provide students with multidisciplinary training and the basic and methodological knowledge that enable them to work as researchers in the field of neurotoxicology and psychopharmacology.
-Invasive Neuromusculoskeletal Physiotherapy (professional track). The general aim of this speciality is to learn to examine and treat patients who suffer from problems of neuromuscular pain. Other aims are to use muscle palpation to identify tense bands of muscle and the most common locations for myofascial trigger points (MTP) and to attribute a patient’s pain to the presence of MTP in the corresponding muscles thanks to a knowledge of their pain patterns and the most important semiological characteristics. One of the primary objectives is to correctly apply the main techniques for the conservative and invasive (dry puncture) treatment of MTPs: that is to say, identifying and avoiding the contraindications, risks and complications generated by the various puncture techniques.
-Neurorehabilitation (professional track). The translational objectives of this speciality are to describe the etiopathological reasons for neurological, sensory and cognitive disorders based on experimental data applied to therapeutic situations. This should enable these disorders to be treated using appropriate and well-founded rehabilitation techniques. One of the main objectives is to use such cutting-edge technologies as robotics.

Student Profile

This master’s degree is designed for two types of students: on the one hand, recent graduates who have scientific concerns and who wish to work in the field of knowledge in general and, specifically, on the central and peripheral nervous system; and, on the other, the online component of the research track is designed specifically for professionals who are already working but who would like to do a doctorate on the nervous systems to increase their professional potential.

The aim of the professional specialities is to train professionals to examine and treat patients who suffer from neuromuscular pain and give them extensive knowledge of the central and peripheral nervous system in pathological situations so that they can suggest possible therapies.

These specialities are designed for health professionals who want to acquire new knowledge and abilities to improve their daily practice on issues of the central or peripheral nervous system and who also want to have sufficient scientific training to be able to opt for a doctoral degree related to their profession so that they can lead a clinical research group.

Career Opportunities

Graduates in the Inter-university Master's Degree in Nervous System Sciences: Neurotoxicology, Neuropsychopharmacology, Neuromusculoskeletal Physiotherapy, Neurorehabilitation can work in:
-Biomedical research: researcher in public or private universities, involved in neuroscience and neurorehabilitation.
-Health care: physiotherapist in public or private institutions specializing in myofascial pain syndrome, rehabilitation services or orthopedic departments.
-Therapist specialised in motor, sensory and/or cognitive neurorehabilitation: rehabilitation centres for nerve damage.

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The programme gives you the opportunity to critically examine the theoretical bases of science in understanding sport and exercise, the assessment methods and their practical application within physiology, psychology and biomechanics. Read more

Summary

The programme gives you the opportunity to critically examine the theoretical bases of science in understanding sport and exercise, the assessment methods and their practical application within physiology, psychology and biomechanics.

This programme will enable you to gain a critical appreciation of a multi-disciplinary approach to contemporary issues in sport and exercise science, along with the assessment of performance and support for the exerciser and athlete. You will be equipped to critically analyse and evaluate complex and specialised assessment and support techniques in sport and exercise, and to select the most appropriate methods for clients from one (or all) of the disciplines of biomechanics, physiology and psychology.

In helping you build on your practical skills, the course will enable students to understand the relationships between theoretical concepts and current techniques of assessment and support, through a range of practice-based learning and assessment where you will benefit from the feedback of staff and peers. This course will give you opportunities to gain knowledge and understanding in applied ways in relation to sport and exercise science field.

You will also have the opportunity to conduct independent research project with the support and supervision from our staff. You will have access to the state-of-the-art facilities in our Sport and Exercise Research Centre.

Content

You will be able to select a range of modules from the three key disciplines in the programme, psychology, biomechanics and physiology, with a wide selection of optional modules and the chance to undertake your own research in an area that interests you.

Key modules will look at traditional, contemporary and innovative approaches in the disciplines for understanding, evaluating, and supporting clients. Other modules on offer allow you to study more in-depth knowledge and its application in sport and exercise science, such as nutrition, psychology of sport performance, neuromuscular function, and human gait.

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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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