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Masters Degrees (Biomechanical)

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Study Sport and Clinical Biomechanics in the world-leading School of Sport and Exercise Science at Liverpool John Moores University. Read more
Study Sport and Clinical Biomechanics in the world-leading School of Sport and Exercise Science at Liverpool John Moores University. This Masters degree features extensive training in lab-based skills plus analysis of contemporary issues.

•Course available to study full time (1 year) and part time (2-3 years)
•Developed by world-leading researchers from our pioneering School of Sport and Exercise Science
•Modules complement the specific expertise of the biomechanics staff and include: clinical gait analysis and virtual rehabilitation, muscle and tendon mechanics and biomechanical assessment and injury prevention
•Access to state-of-the-art biomechanics laboratories in the award-winning Tom Reilly Building, including the Movement Function Research Laboratory
•Exciting career opportunities in clinical or sports biomechanics and/or academic and professional development
•Ideal for physiotherapists who wish to deepen their biomechanical expertise

Study under the guidance of world-leaders in biomechanics and take your own knowledge into our state-of-the-art facilities. We welcome applications from those interested in the movement and mechanism of the human body, and dedicated to the application and advancement of this field of study.

Biomechanics is the study of the mechanical functioning of the biological system. This course applies biomechanical knowledge in both a sporting and clinical context.

The curriculum is research-led with a number of core modules being directly informed by the current research activity of staff. Extensive training is provided in laboratory-based skills and in the interpretation of biomechanical findings and there is comprehensive coverage of contemporary issues in biomechanics.

The course is taught through a mixture of lectures, seminars, tutorial support, practical sessions and workshops which encourage critical, reflective engagement with a range of theoretical and applied topics.

You will also be exposed to a wide range of research questions in biomechanics and learn how to critically appraise and interpret the literature. The diversity of assessment methods, including written coursework and oral viva assessment, are innovative and well received by students.

Please see guidance below on core and option modules for further information on what you will study.
Technical Training in Biomechanics: provides technical training in laboratory techniques appropriate to sport and clinical biomechanics. It will enable you to develop laboratory skills including 2D, and 3D motion analysis, force analysis and biomechanical modelling so that you can collect and interpret biomechanical measurement and protocols to benchmark standards. The topic is taught in the laboratories in a hands-on, interactive manner.

Research Methods: provides mastery and expertise in quantitative research strategies, methods and techniques, specifically focussed on quantitative data so that you can undertake postgraduate research. It aims to encourage critical understanding of how quantitative data should be handled and analysed using a variety of approaches. The module enables you to develop critical analysis of statistical concepts and procedures, trains you to use statistical analysis software and extend your knowledge of the experimental and research design process.

Current Issues in Biomechanics: develops and extends your opportunity to investigate issues of current importance in Biomechanics. You will be presented with a variety of cutting-edge research topics in biomechanics applied to sport, exercise and clinical applications. You will need to read up-to-date literature in the appropriate fields and to evaluate past and current directions. Laboratory content will involve using measurement skills developed in the Technical Training module to replicate an experimental study from the literature.

Muscle-tendon mechanics: introduces the main biomechanical characteristics of human muscles and tendons and the implications for human movement, performance and biomechanical testing. The mechanical parameters and behaviour of these tissues of the human body in-vivo will also be examined in response to chronic loading and disuse to understand basic, musculoskeletal mechanisms and adaptations underpinning changes in whole-body function and performance.

Biomechanical assessment in sport and exercise: provides the conceptual and practical knowledge base that develops and extends understanding of biomechanical assessment. With continuous developments of equipment, software, and knowledge, there is a growing need for biomechanical assessment in sport and exercise. This has a role both in performance evaluation, in injury prevention, and in injury rehabilitation. You will be exposed to a large variety of tools, each time first gaining a better understanding of the theoretical framework that justifies the use of such tool.

Clinical Movement Analysis: provides the conceptual and practical knowledge base that develops and extends your understanding of clinical movement analysis. You will learn how to interpret gait analysis results in a clinical context through exposure to the current literature, specialised methods, and clinical case studies. You will also be exposed to the latest research developments in the unique area of virtual rehabilitation.

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

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Do you want to understand the mechanics of the human body? Biomechanics is fundamental to our assessment of all human activity and these Clinical Biomechanics awards bridge the divide between clinical practice and biomechanical principles, for a rigorous and tailored understanding of the subject. Read more
Do you want to understand the mechanics of the human body? Biomechanics is fundamental to our assessment of all human activity and these Clinical Biomechanics awards bridge the divide between clinical practice and biomechanical principles, for a rigorous and tailored understanding of the subject.

Staffordshire University’s MSc in Clinical Biomechanics offers students a practical approach to exploring a wide range of biomechanical principles, with modules focusing on tissue stress, the origins and principles of biomechanics, gait analysis, spinal mechanics, sports injuries, podopaediatrics and therapies using biomechanical principles.

Our teaching team includes internationally respected practicing clinicians. All the awards provide flexible study with many modules offered at weekends and by online distance learning to allow practitioners to remain in full time work throughout.


Students have access to our fully equipped gait lab and will collect real-world data using equipment including a 20 camera Vicon system, a 3m pressure walkway and in-shoe system. Course members will also explore the use of EMG and Ultrasound for muscle testing, as well as applying theoretical concepts to clinical practice.

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If you are already working, or aspire to work, in sport, exercise, recreation, we will provide you with the opportunity to upgrade your professional expertise. Read more
If you are already working, or aspire to work, in sport, exercise, recreation, we will provide you with the opportunity to upgrade your professional expertise.

You will study the traditional areas of exercise physiology, psychology, biomechanics and sport and exercise nutrition, and at the end of your course you will complete a major independent study related to your specific interests in sport and exercise science. You can also choose an option module which allows a more detailed consideration of the contributions of biomechanics, exercise physiology, physiology, psychology and nutrition to the study of sport and exercise.

During your course you will have the opportunity to apply for a range of professional development opportunities. Placements with Leeds United, Leeds Rugby and SportAid, as well as discipline-specific projects working with academic staff in the Carnegie Faculty are just a few examples of where past opportunities have taken place.

Sport & Active Lifestyles

At Leeds Beckett we're passionate about sport. There's a huge range of sports and activities for you to get involved in, including more than 40 sports clubs. If you'd like to find out more about what we have to offer - including our Carnegie Sports Scholarship Scheme - take a look at our Sport & Active Lifestyles website.

- 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/sportandexercisescience_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

Our course enables you to develop an advanced level of subject knowledge and research experience, as well as a comprehensive range of transferable scientific and vocational skills. Your career choices may include leading sport science support programmes for teams and elite athletes, community sport, involvement in physical activity initiatives or interventions with the NHS and clinical populations, along with employment in national governing bodies and organisations.You will also be well equipped to pursue a higher degree through research.

- Health Promotion Specialist
- Sports Performance Analyst
- Community Sports Coach
- Healthy Lifestyle Officer

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

Our University is recognised as a leader in the field of sport and exercise science. The quality of our research is evident in the outstanding results achieved in sport-related studies in the Research Assessment Exercise completed in 2014 in which Leeds Beckett came second in the country for sport and exercise science, leisure and tourism.

Much of our outstanding and pioneering research feeds directly into our taught modules providing the opportunity for you to develop the professional skills and expertise in the area of sport and exercise science.

Modules

Research Methods (20 credits)
This module focuses on the design of research projects as a way of answering questions and solving 'real world' problems in a reliable and valid manner.

Research & Professional Practice (20 credits)
This modules aims to develop an understanding of how to apply research into a range of professional contexts associated with sport and exercise science.

Major Independent Study (60 credits)
You will complete a research project of your choosing under the supervision of a member of academic staff. Ideally you will aim to produce research of a publishable quality.

You will also need to select another four sport and exercise science modules with a minimum of three modules from the following:
Essentials of Sport & Exercise Physiology (20 credits)
Develop a comprehensive knowledge and critical understanding of the structure and function of the main human systems during exercise.

Sport & Exercise Nutrition (20 credits)
Gain a good theoretical understanding of the current sport nutrition necessary to become a good sport and exercise practitioner, studying the general principles, concepts and underpinning theory in nutrition necessary for the development of nutrition strategies.

Applied Sport & Exercise Biomechanics (20 credits)
Explore the major aspects of kinematics, kinetics and other biomechanical techniques such as electromyography, becoming familiar with the use of biomechanical equipment and developing the ability to study motion by applying biomechanical principles to collected data.

Contemporary Issues in Sport Psychology (20 credits)
Examine the broad range of cutting-edge issues and trends that appear within contemporary sport psychology literature, as you gain an in-depth understanding of human behaviour in the sporting environment.

Facilities

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- 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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Specialising in sport and exercise biomechanics provides the scientific backup for training and performance and health and wellness intervention. Read more
Specialising in sport and exercise biomechanics provides the scientific backup for training and performance and health and wellness intervention. Students undertaking this course will develop their skills in using advanced biomechanical measurement methods. This innovative master’s programme allows the application of biomechanical principles via both a research and practitioner-based context. This course is targeted at students of sport and exercise sciences who wish to develop their vocational skills in a truly applied context. It consists of a compulsory element outlining research methods, ethics and practices, advanced methodologies and a research project. This is supplemented by a choice of two optional study modules. Learning and assessment is via a combination of coursework, presentations, research reports and critical reviews.

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As well as giving a solid scientific understanding, the course also addresses commercial, ethical, legal and regulatory requirements, aided by extensive industrial contacts. Read more
As well as giving a solid scientific understanding, the course also addresses commercial, ethical, legal and regulatory requirements, aided by extensive industrial contacts.

Students who successfully complete the course will have acquired skills that are essential to the modern biomedical and healthcare industry, together with the expertise required to enter into management, product innovation, development and research.

Programme Structure

The MSc programmes in Biomedical Engineering are full-time, one academic year (12 consecutive months). The programmes consist of 4 core (compulsory) taught modules and two optional streams. Biomedical, Genetics and Tissue Engineering stream has 3 modules, all compulsory (see below). The second option, Biomedical, Biomechanics and Bioelectronics Engineering stream consists of 5 modules. Students choosing this option will be required to choose 60 credit worth of modules. See individual course pages.

The taught modules are delivered to students over two terms; Term 1 (September – December) and Term 2 (January – April) of each academic year. The taught modules are examined at the end of each term, and the students begin working on their dissertations on a part-time basis in term 2, then full-time during the months of May to September.

Core Modules
Biomechanics and Biomaterials (15 credit)
Design and Manufacture (15 credit)
Biomedical Engineering Principles (15 credit)
Innovation, Management and Research Methods (15 credit)

Additional Compulsory Programme Modules
Tissue Engineering and Regenerative Medicine (15 credit)
Genomic Technologies (15 credit)
Molecular Mechanisms of Human Disease (30 credit)
Dissertation (60 credit)

Module Descriptions

Biomechanics and Biomaterials

Main topics include: review of biomechanical principles; introduction to biomedical materials; stability of biomedical materials; biocompatibility; materials for adhesion and joining; applications of biomedical materials; implant design.

Biomedical Engineering Principles

Main topics include: bone structure and composition; the mechanical properties of bone, cartilage and tendon; the cardiovascular function and the cardiac cycle; body fluids and organs; organisation of the nervous system; sensory systems; biomechanical principles; biomedical materials; biofluid mechanics principles, the cardiovascular system, blood structure and composition, modelling of biofluid systems.

Design and Manufacture

Main topics include: design and materials optimisation; management and manufacturing strategies; improving clinical medical and industrial interaction; meeting product liability, ethical, legal and commercial needs.

Genomic Technologies

Main topics: General knowledge of genomic and proteomic technology; Microarrary technology; Transgenic technology. Drug discovery technology; Translational experiment-design and interpretation; Sequencing in microbiology research

Innovation and Management and Research Methods

Main topics include: company structure and organisation will be considered (with particular reference to the United Kingdom), together with the interfacing between hospital, clinical and healthcare sectors; review of existing practice: examination of existing equipment and devices; consideration of current procedures for integrating engineering expertise into the biomedical environment. Discussion of management techniques; design of biomedical equipment: statistical Procedures and Data Handling; matching of equipment to biomedical systems; quality assurance requirements in clinical technology; patient safety requirements and protection; sterilisation procedures and infection control; failure criteria and fail-safe design; maintainability and whole life provision; public and environmental considerations: environmental and hygenic topics in the provision of hospital services; legal and ethical requirements; product development: innovation in the company environment, innovation in the clinical environment; cash flow and capital provision; testing and validation; product development criteria and strategies.

Molecular Mechanisms of Human Disease

Main topics: The module will focus on the following subject material with emphasis on how these processes are altered in a variety of human diseases. Where appropriate, therapeutic intervention in these processes will be highlighted. Signalling pathways resulting from activation of membrane, intracellular or nuclear receptors will be discussed. Examples include: Mammalian iron, copper and zinc metabolism, G-Protein coupled receptor signalling, Wnt signalling, JAK/STAT signalling and cytokine signalling, Steroid signalling

Tissue Engineering and Regenerative Medicine

Main topics: Fundamentals of tissue structure, function and pathology. Tissue regeneration. Tissue engineering substitutes. Cells, cell culture, stem cells, cell and gene therapy. Extracellular matrix, structure, scaffolds. Cell signalling, growth factors, cytokines, neurotransmitters, receptors and other signalling molecules. Bioreactors, ex-vivo and in-vivo. Engineering host tissue responses.

Dissertation

The choice of Dissertation topic will be made by the student in consultation with academic staff and (where applicable) with the sponsoring company. The topic agreed is also subject to approval by the Module Co-ordinator. The primary requirement for the topic is that it must have sufficient scope to allow the student to demonstrate his or her ability to conduct a well-founded programme of investigation and research. It is not only the outcome that is important since the topic chosen must be such that the whole process of investigation can be clearly demonstrated throughout the project. In industrially sponsored projects the potential differences between industrial and academic expectations must be clearly understood.

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As well as giving a solid scientific understanding, the course also addresses commercial, ethical, legal and regulatory requirements, aided by extensive industrial contacts. Read more
As well as giving a solid scientific understanding, the course also addresses commercial, ethical, legal and regulatory requirements, aided by extensive industrial contacts.

Programme Structure

The MSc programmes in Biomedical Engineering are full-time, one academic year (12 consecutive months). The programmes consist of 4 core taught modules and two optional streams. Biomedical, Genetics and Tissue Engineering stream has 3 modules, all compulsory (individual course pages). The second option, Biomedical, Biomechanics and Bioelectronics Engineering stream consists of 5 modules. Students choosing this option will be required to choose 60 credit worth of modules.

The taught modules are delivered to students over two terms of each academic year. The taught modules are examined at the end of each term, and the students begin working on their dissertations on a part-time basis in term 2, then full-time during the months of May to September.

Core Modules
Biomechanics and Biomaterials (15 credit)
Design and Manufacture (15 credit)
Biomedical Engineering Principles (15 credit)
Innovation, Management and Research Methods (15 credit)
Plus: Dissertation (60 credit)

Optional Modules

60 credit to be selected from the following optional modules:
Design of Mechatronic Systems (15 credit)
Biomedical Imaging (15 credit)
Biofluid Mechanics (15 credit)
Artificial Organs and Biomedical Applications (15 credit)
Applied Sensors Instrumentation and Control (30 credit)

Module Descriptions

Applied Sensors Instrumentation and Control

Main topics:

Sensors and instrumentation – Sensor characteristics and the principles of sensing; electronic interfacing with sensors; sensor technologies – physical, chemical and biosensors; sensor examples – position, displacement, velocity, acceleration, force, strain, pressure, temperature; distributed sensor networks; instrumentation for imaging, spectroscopy and ionising radiation detection; 'lab-on-a-chip'.

Control – Control theory and matrix/vector operations; state-space systems, multi-input, multi-output (MIMO) systems, nonlinear systems and linearization. Recurrence relations, discrete time state-space representation, controllability and observability, pole-placement for both continuous and discrete time systems, Luenberger observer. Optimal control systems, Stochastic systems: random variable theory; recursive estimation; introduction to Kalman filtering (KF); brief look at KF for non-linear systems and new results in KF theory.

Artificial Organs and Biomedical Applications

Main topics include: audiology and cochlear implants; prostheses; artificial limbs and rehabilitation engineering; life support systems; robotic surgical assistance; telemedicine; nanotechnology.

Biofluid Mechanics

Main topics include: review of the cardiovascular system; the cardiac cycle and cardiac performance, models of the cardiac system, respiratory system and respiratory performance, lung models, physiological effects of exercise, trauma and disease; blood structure and composition, blood gases. oxygenation, effect of implants and prostheses, blood damage and repair, viscometry of blood, measurement of blood pressure and flow; urinary system: anatomy and physiology, fluid and waste transfer mechanisms, urinary performance and control, effects of trauma, ageing and disease; modelling of biofluid systems, review of mass, momentum and energy transfers related to biological flow systems, fluid mechanics in selected topics relating to the cardiovascular and respiratory systems; measurements in biomedical flows.

Biomechanics and Biomaterials

Main topics include: review of biomechanical principles; introduction to biomedical materials; stability of biomedical materials; biocompatibility; materials for adhesion and joining; applications of biomedical materials; implant design.

Biomedical Engineering Principles

Main topics include: bone structure and composition; the mechanical properties of bone, cartilage and tendon; the cardiovascular function and the cardiac cycle; body fluids and organs; organisation of the nervous system; sensory systems; biomechanical principles; biomedical materials; biofluid mechanics principles, the cardiovascular system, blood structure and composition, modelling of biofluid systems.

Biomedical Imaging

Principle and applications of medical image processing – Basic image processing operations, Advanced edge-detection techniques and image segmentation, Flexible shape extraction, Image restoration, 3D image reconstruction, image guided surgery

Introduction of modern medical imaging techniques – Computerized tomography imaging (principle, image reconstruction with nondiffracting sources, artifacts, clinical applications)

Magnetic resonance imaging (principle, image contrast and measurement of MR related phenomena, examples of contrast changes with changes of instrumental parameters and medical applications)

Ultrasound imaging (description of ultrasound radiation, transducers, basic imaging techniques: A-scan, B-scan and Doppler technique; clinical application)

Positron emission tomography (PET imaging) (principle, radioactive substance, major clinical applications)

Design and Manufacture

Main topics include: design and materials optimisation; management and manufacturing strategies; improving clinical medical and industrial interaction; meeting product liability, ethical, legal and commercial needs.

Design of Mechatronic Systems

Microcontroller technologies. Data acquisition. Interfacing to power devices. Sensors (Infrared, Ultrasonic, etc.). Optoelectronic devices and signal conditioning circuits. Pulse and timing-control circuits. Drive circuits. Electrical motor types: Stepper, Servo. Electronic Circuits. Power devices. Power conversion and power electronics. Line filters and protective devices. Industrial applications of digital devices.

Innovation and Management and Research Methods

Main topics include: company structure and organisation will be considered (with particular reference to the United Kingdom), together with the interfacing between hospital, clinical and healthcare sectors; review of existing practice: examination of existing equipment and devices; consideration of current procedures for integrating engineering expertise into the biomedical environment. Discussion of management techniques; design of biomedical equipment: statistical Procedures and Data Handling; matching of equipment to biomedical systems; quality assurance requirements in clinical technology; patient safety requirements and protection; sterilisation procedures and infection control; failure criteria and fail-safe design; maintainability and whole life provision; public and environmental considerations: environmental and hygenic topics in the provision of hospital services; legal and ethical requirements; product development: innovation in the company environment, innovation in the clinical environment; cash flow and capital provision; testing and validation; product development criteria and strategies.

Dissertation

The choice of Dissertation topic will be made by the student in consultation with academic staff and (where applicable) with the sponsoring company. The topic agreed is also subject to approval by the Module Co-ordinator. The primary requirement for the topic is that it must have sufficient scope to allow the student to demonstrate his or her ability to conduct a well-founded programme of investigation and research. It is not only the outcome that is important since the topic chosen must be such that the whole process of investigation can be clearly demonstrated throughout the project. In industrially sponsored projects the potential differences between industrial and academic expectations must be clearly understood.

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The programme provides the student with an Engineering education applied to medical and biological issues, through deep basic and specialist training in various biomedical topics. Read more

Mission and goals

The programme provides the student with an Engineering education applied to medical and biological issues, through deep basic and specialist training in various biomedical topics. The educational path is intended to train students for designing equipment, devices, materials and procedures and for a correct introduction, development and management of biomedical technologies inside Companies and Health Structures, as well as freelance. The peculiar multidisciplinary structure of the programme allows developing a strong knowledge in electronics and informatics, mechanical, chemical and material engineering and promotes the integration of technical studies with life science disciplines (biology, physiology and medicine).

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/biomedical-engineering/

Career opportunities

Graduated biomedical engineers find employment for the design, development and commercialization of biomedical devices, as well as in the pharmaceutical sector. Career opportunities are found: 1) in manufacturing companies which are active on health-care market with systems for prevention, diagnostics, therapy and rehabilitation; 2) in public and private hospitals for the management of health technologies; 3) in medical plant and equipment service companies; 4) in specialised biomedical laboratories; 5) in biomedical research 6) as freelance.
For a more specific training in scientific research in the area, a Ph.D. in Bioengineering is available.

The programme has 4 advised paths (besides the possibility to develop a personal path with some constraints):
- Clinical Engineering
- Electronic Technologies
- Biomechanics and Biomaterials
- Cell, Tissue and Biotechnology Engineering

Presentation

See http://www.polinternational.polimi.it/uploads/media/Biomedical_Engineering_01.pdf
This postgraduate programme provides students with an engineering education applied to medical and biological issues. The educational path is intended to train students in the design of biomedical equipment, devices, materials and procedures and to offer a correct introduction to the management of biomedical technologies in companies and health bodies. The peculiar multidisciplinary structure of the programme allows the development of a strong knowledge in electronics and informatics, in mechanical, chemical and material engineering and promotes the integration of technical studies with life science disciplines like biology, physiology and
medicine. The programme is taught in English.

Subjects

Four specializations available:
- Clinical Engineering
- Electronic Technologies
- Biomechanics and Biomaterials
- Cell, Tissue and Biotechnology Engineering

Mandatory courses for all areas:
- mathematical and digital methods for engineering
- bioengineering of the motor system
- mechanics of biological structures
- bioengineering of autonomic control and respiratory systems
- biofluid dynamics
- biomechanical design
- biomachines (with laboratory)
- biomaterials
- endoprostheses
- biomimetics and tissue engineering
- biotechnological applications and bioreactors
- design of life support systems
- laboratory of tissue characterization
- laboratory of biomaterials + lab. of instrumental analysis
- laboratory of biofluid dynamics
- laboratory of biomechanical design
- computational biomechanics laboratory

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/biomedical-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/biomedical-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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With an excellent reputation for teaching quality, our MSc Sport and Health Sciences presents an exciting and challenging opportunity to develop scientific understanding of sport, exercise and health. Read more
With an excellent reputation for teaching quality, our MSc Sport and Health Sciences presents an exciting and challenging opportunity to develop scientific understanding of sport, exercise and health. Programme content is underpinned by past and current research from our internationally recognised research groups: Bioenergetics and Human Performance(http://sshs.exeter.ac.uk/research/bhp/); and Physical Activity and Health Across the Lifespan(http://sshs.exeter.ac.uk/research/pahal/).

Our MSc Sport and Health Sciences provides you with a sound grounding in research methods and analytical procedures relating to sport and health sciences. The programme presents opportunities to employ theoretical concepts in applied sport, health and exercise settings and allows you to choose from a diverse range of modules allied to our research expertise.

Learning and teaching

The MSc Sport and Health Sciences presents an academic challenge whilst also providing you with the skills to apply theoretical concepts in real-world laboratory and field settings. The Masters programme is intended to enhance teaching and learning through research and applied practice derived from sport, health and exercise. It will provide you with the opportunity to employ theoretical concepts in applied sport, health and exercise settings and acquire a range of transferable skills to develop as an autonomous and reflective individual.

Delivered within a friendly and supportive learning environment, the programme draws upon innovative multi-method and multi-disciplinary research and teaching by our leading academics. You will have access to state-of-the-art teaching and research facilities including modern laboratories for biomechanics, physiology and psychology. You will also have the opportunity to be involved with on-going research projects and develop key transferable skills, which has led to a number of students subsequently seeking PhD study.

Careers

A dedicated careers day and tailored career support for each student are provided. Graduates of the programme have typically found employment in a variety of sport, exercise, leisure management and consultancy, and health promotion settings. Recent examples include: community based obesity practitioners and physical activity facilitators; lifestyle support worker and public health officers for NHS trusts; sports development officers; and a research assistant at the Medical Research Council.

This programme is suitable for sport, exercise and health-related professionals seeking continuing professional development. Recent examples of professionals graduating from our programmes include medical doctors, practice nurses, physiotherapists and youth sports managers/coaches.

Programme structure

The programme is made up of compulsory and optional modules, which may be updated, deleted or replaced as a consequence of the annual programme review of this programme. The following are examples of what you can expect to be learning.

Compulsory modules

The compulsory modules are likely to be; Research Methods and Analytical Procedures and Dissertation (Journal Article).

Optional modules

Some examples of optional modules are as follows; Biomechanical Aspects of Lower Limb Injury; Laboratory Techniques in Physiology; Paediatric Exercise and Health; Physical Activity in the Prevention and Treatment of Chronic Disease and Current Issues in Sport and Exercise Psychology.

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The programme is suitable for physiotherapists, osteopaths and doctors. This internationally renowned programme is open to doctors and physiotherapists. Read more
The programme is suitable for physiotherapists, osteopaths and doctors.

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

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

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

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

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

This programme will:

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

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

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

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

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

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

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

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

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

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

Papers of interest

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

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This programme is designed for dental graduates who wish to pursue a career in orthodontics either in primary or secondary care services, or in a university setting. Read more
This programme is designed for dental graduates who wish to pursue a career in orthodontics either in primary or secondary care services, or in a university setting. The two-year full-time Masters programme is integrated into a three-year clinical programme, with a strong emphasis on close chairside support.

You will undertake the MClinDent examination (University of London) at the end of your second year and the Royal College of Surgeons Membership (MOrth) examination during the third year.

Our programme enables you to:

Understand the biomechanical principles of tooth movement
Understand the development, growth and influence of the skeletal and soft tissues on the dentition
Understand the importance of materials science in orthodontics
Formulate a diagnosis of malocclusion and appropriate treatment plan
Apply the theory and practice of clinical orthodontics to treat a variety of malocclusions.

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The MSc in Sport Rehabilitation educates students in the management and care of the injured athlete or those returning to physical activity following prolonged illness. Read more
The MSc in Sport Rehabilitation educates students in the management and care of the injured athlete or those returning to physical activity following prolonged illness.

The degree provides students with the knowledge and understanding required to assess and manage musculoskeletal injuries from the acute stage through to return to sport or activity.

There is currently a high clinical demand for provision of highly skilled, autonomous and analytical therapists specialising within the field of prevention, assessment and management of sports related injuries.

This demand is from sportsmen and women, teams and clinicians currently working in the field of amateur and professional sport and this course aims to provide specialists in the field of Sport Rehabilitation to fulfil this demand.

Why St Mary’s?

The teaching staff at St Mary’s have a vast amount of experience working with athletes at all levels of competition. The structure of the course embeds clinical placements into the programme, allowing students to bridge the theory to practice gap as they progress through their studies.

It enables students to observe and work with healthcare professionals working in high level sport and clinical settings providing an insight into the demands of the profession and the roles they will fulfill upon graduating.

The degree is underpinned by a detailed understanding of physiological, biomechanical, anatomical and psychosocial principles.

Lectures and practicals take place in specialist rooms. Some are taught in the state-of-the-art strength and conditioning facility (the performance education centre) or in our biomechanics laboratory. We also make use of the sports services at the University when this is relevant.

Course Content

What you will study
-Clinical Anatomy and Physiology
-Clinical Assessment and Soft Tissue Management
-Acute Management of Injury and Specialised Treatment Techniques
-Principles of Rehabilitation and Neuromechanics
-Late Stage Rehabilitation and Factors Affecting Performance
-Evidence Based Practice and Clinical Placement
-Advanced Research Methods
-Dissertation

Please note: All information is correct at the time of publication. However, course content is regularly updated and this may result in some changes, which will be communicated to students before their programme begins.

Career Prospects

Graduates of the MSc in Sport Rehabilitation will be eligible to join BASRaT, the professional body overseeing and regulating the practice of Sport Rehabilitators and Trainers in this country. The 400 clinical placement hours required for BASRAT membership are included in the Evidence Based Practice and Clinical Placement module. BASRaT also has a minimum attendance requirement for lectures, practicals and seminars. To qualify for BASRaT membership students must complete and pass an Immediate Care in Sport (Level 2) course, which is included.

"BASRaT graduates are trained solely in Sports and Exercise Medicine, with an emphasis on the design and implementation of exercise and rehabilitation programmes in both health and disease. St. Mary's University and the University of Salford were the pioneering institutions to run degree programmes of this nature, and have since been joined by several other institutions. To ensure that all accredited courses were of a high equitable standard, and that all graduates conformed to strict codes of professional practice and conduct, the British Association of Sport Rehabilitators and Trainers was born."

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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 Sports Sciences course has been designed to enable you to develop a range of discipline-specific abilities and apply them to selected areas of special interest for more advanced study of the physiological, performance analysis, strength and conditioning, or biomechanical factors that might influence sports performance. Read more
The MSc Sports Sciences course has been designed to enable you to develop a range of discipline-specific abilities and apply them to selected areas of special interest for more advanced study of the physiological, performance analysis, strength and conditioning, or biomechanical factors that might influence sports performance. Excellent collaborative links with elite national and international athletes and teams will also give you the opportunity to gain valuable applied experience of delivering sports science.

Why Study Sports Sciences (with named pathways) with us?

As well as increasing your theoretical and empirical knowledge within the area, our course comprises core modules that are designed to provide opportunities to enhance your abilities in a range of transferable skills, and also to develop the basic competencies that will aid your personal development should you wish to pursue accreditation in the future, for example with BASES, UKSCA or ISPAS.

The course is taught by an experienced team of tutors who have specialist research interests and publications within the subdiscipline pathways. All teaching has an applied focus, with full use made of the BASES-accredited sports science laboratories.

The above critical elements of teaching excellence and research, combined with the applied practical experience of many of the staff who have worked with national and international athletes and teams, means that during all lectures you will not only be challenged intellectually but will also gain experience and knowledge of how research informs and is informed by practice.

The requirement for an experiential learning placement within the course means that our course provides invaluable practical experience that provides you with the opportunity to apply your knowledge within an applied sporting environment, as well as developing key interpersonal skills while working alongside applied practitioners.

This course is suitable for: (i) students who wish to embark upon a career in the sports sciences domain and who are seeking postgraduate study with the opportunity of supervised experience; (ii) practitioners already working in the field (coaches, trainers, analysts and physiotherapists); (iii) those looking to extend their knowledge before moving into the research and academic sectors.

What will I learn?

Over the year, full-time students will take six taught modules, including: Research Methods; two sports science generic modules designed to examine practitioner skills (The Applied Sports Scientist Core Competencies) and allow you to gain field-based experience of working in an applied setting (Experiential Learning in Applied Sporting Performance); and three pathway-specific modules in Sports Biomechanics, Performance Analysis of Sport, Physiology, or Strength and Conditioning. You will also complete one triple-module Research Project.

How will I be taught?

The course is located on the Parkgate Road Campus across a range of lecture rooms and dedicated sports science and computer laboratories.

You will learn and be taught by means of lectures, seminars, group work and laboratory practical sessions.
The number of contact hours for full-time students is typically six to seven hours per week, plus ad-hoc tutorials. The total study time expected for each module is 200 hours.

How will I be assessed?

Assessment of modules is varied, and comprises a combination of coursework, research reports and presentations. There are no exams.

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Enhance your academic and professional skills, expertise and knowledge in the field of sport and exercise biomechanics. You will have the opportunity to apply for a range of professional development opportunities. Read more
Enhance your academic and professional skills, expertise and knowledge in the field of sport and exercise biomechanics.

You will have the opportunity to apply for a range of professional development opportunities. These will provide you with the opportunity to gain experience in sport and exercise biomechanics working under supervision with Leeds Beckett sports teams, sporting partners and elite performers.

You will study core modules in the different aspects of sport and exercise biomechanics, as well as research methods, research into practice and a major independent study related to your specific interests in sport and exercise biomechanics.

You will also be able to choose one option from a range of other discipline-based modules in sport and exercise science including biomechanics, nutrition and psychology.

Assessment

Modules are assessed through a mix of coursework assignments, case studies, examinations, laboratory reports and presentations appropriate to the programme. Each module is assessed through the equivalent of 4,000 words.

Sport and active lifestyles

At Leeds Beckett we're passionate about sport. There's a huge range of sports and activities for you to get involved in, including more than 40 sports clubs. If you'd like to find out more about what we have to offer - including our Carnegie Sports Scholarship Scheme - take a look at our Sport & Active Lifestyles website (http://www.leedsmet.ac.uk/sport).

- 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/sportandbiomech_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

Our course enables you to develop an advanced level of subject knowledge and research experience, as well as a comprehensive range of transferable scientific and vocational skills. Your career choices could include leading sport science support programmes for teams and elite athletes, involvement in physical activity initiatives, along with employment in national governing bodies and organisations. You will also be well equipped to pursue a higher degree through research.

- Athlete Support Officer
- Performance Analyst
- Biomechanics Teacher
- Sports Equipment Developer

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

Our University is recognised as a leader in the field of sport and exercise science. The quality of our research is evident in the outstanding results achieved in the Research Assessment Exercise completed in 2014 in which Leeds Beckett came second in the country for sport and exercise science, leisure and tourism.

Much of our outstanding sport and exercise science research pervades our taught modules providing the opportunity for those of you working or intending to work in the field of sport and exercise science and its sub-disciplines (physiology, nutrition, biomechanics and psychology) to upgrade your academic and professional skills, expertise and knowledge.

Modules

Research Methods (20 credits)
This module focuses on the design of research projects as a way of answering questions and solving 'real world' problems in a reliable and valid manner.

Research & Professional Practice (20 credits)
This modules aims to develop an understanding of how to apply research into a range of professional contexts associated with sport and exercise science.

Major Independent Study (60 credits)
You will complete a research project of your choosing under the supervision of a member of academic staff. Ideally you will aim to produce research of a publishable quality.

You will also need to select another four sport and exercise science modules with a minimum of three modules from the following:
- Applied Sport & Exercise Biomechanics (20 credits)
- Neuromuscular Biomechanics (20 credits)
- Biomechanics of Human Performance (20 credits)
- Evaluation of Biomechanical Measurement Techniques (20 credits)

Facilities

- Sports Science 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.

- Library
Our libraries are two of the only university libraries in the UK open 24/7 every day of the year. However you like to study, the libraries have got you covered with group study, silent study, extensive e-learning resources and PC suites.

- 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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On this course you will gain a thorough grounding in the science underpinning performance enhancement through the key areas of biomechanics, physiology and psychology. Read more

Why take this course?

On this course you will gain a thorough grounding in the science underpinning performance enhancement through the key areas of biomechanics, physiology and psychology. This will complement the practical skills and research expertise you will develop in applied settings, providing an insight into the way that scientific support is integrated into the real world of top-level sport.

What will I experience?

On this course you can:

Develop an interdisciplinary applied approach to enhancing and maintaining sports performance
Learn laboratory and field-based skills for assessing and evaluating sports performance
Develop the ability to communicate with clients in a professional and approachable style

What opportunities might it lead to?

With an estimated worth in excess of £110 billion, the global sports industry is growing rapidly. You can expect to find a career in many specific areas such as teaching, research, sport science support, and the health and fitness sectors.

Here are some routes our graduates have pursued:

Health and fitness companies
Coaching and training
Management roles
Sports science roles
Teaching
PhD study

Module Details

You can choose to take this course in either full-time or part-time mode, with a mixture of core and compulsory units providing good flexibility for part-time students. You will study several key topics; however these are subject to innovation and progression within the field and may therefore change slightly over the years.

Here are the units you will study:

Applied Research Methods: This unit comprehensively prepares you for research in your chosen field. You will cover a range of research designs and approaches and will prepare you to undertake your MSc Research Project.

Research Project: Your final project will enable you to carry out an individual study in the area of sports/exercise performance.

Optional units include:

Applied Sports Physiology: On this unit you will examine various physiological factors that affect sports performance and learn to carry our physiological tests and measures of sports performance.

Applied Sports Psychology: You will examine various approaches to sport psychology delivery and ethical issues that might affect them in order to identify and develop a range of professional skills associated with applied practice (e.g. counselling, service evaluation and effectiveness, reflective practice).

Environmental Factors Affecting Sports Performance: This unit trains you to critically review various environmental factors that affect sports performance and links theory to practical applications for maintaining and enhancing performance in adverse environmental conditions.

Applied Sports Biomechanics: This unit provides an applied experience of biomechanics and conditioning, and encourages a focused understanding of the practical advantages and limitations of various biomechanical systems.

Professional Practice in Sports Performance: On this unit will gain experience of working in a Sports Performance setting allowing you to apply your knowledge in a professional environment.

Programme Assessment

You will be taught mainly in practical workshop sessions in which you directly apply the skills and strategies you have learnt working with athletes or each other.

You will be assessed in a variety of ways with a focus on self-assessment and problem-based assignments. Here’s how we assess you:

Practical and written exams
Laboratory reports
Role plays
Presentations
Projects

Student Destinations

This course provides the skills necessary for range of careers in the sport industry, as well as providing opportunities to work toward BASES accreditation as a sport and exercise scientist, and the theoretical basis for further specialised study.

Given the range of general employability skills developed throughout the programme, you could go on to a variety of careers in other sectors, for example, business, the police and the armed services.

Roles our graduates have taken on include:

Strength and conditioning coach
Sports scientist
High performance sports coach
Personal trainer
Exercise specialist
Corporate fitness manager
University/college lecturer
Sports facility manager
PhD study
Clinical trials manager

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