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

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

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

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

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

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

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

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

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

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

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

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This one-year, research-led course will fully prepare you for a career within an exciting and ever-expanding field. Read more
This one-year, research-led course will fully prepare you for a career within an exciting and ever-expanding field. You’ll develop expertise in systems analysis and mathematical modelling for application to processes in biomedicine; compartmental modelling in physiology and medicine; physical principles in medicine; properties and design of the materials employed in medical applications; and signal processing and data analysis techniques for physiological data.

Our supportive teaching staff will encourage you to generate new and forward-thinking ideas as part of your independent research project. Projects initiated by former students include: Bone Investigation using Infrared Detection; Modelling Gas Exchange in the Human Respiratory System and Modelling of Acute Hypercalcemia Immunotherapy Treatment. Recent graduates have progressed into careers that range from biomedical engineering and biotechnology to pharmaceutical industries and research.

Core modules

-Fundamentals of Biomedical Engineering
-Imaging and Sensing in Body and Brain
-Biomechanics
-Biomedical Systems Modelling
-Biomedical Signal Processing

Optional modules

Choose one from the following:
-Biomedical Materials, Tissue Engineering and Regenerative Medicine
-Healthcare Technology Engineering: Design, Maintenance and Assessment

Individual project

Half the course credit comprises a substantial project appropriate to the course of study. This entails an in-depth experimental, theoretical or computational investigation of a topic chosen by the student in conjunction with an academic supervisor.

The modules are delivered thoughout the first two terms. The module cycle is typically 3 or more more lectures per week plus seminars and laboratory exercises. Where possible the modules are interleaved in pairs. Each module has a coursework exercise associated with it to be completed within 1 month of the end of the module to demonstrate the student's understanding of the subject.

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The MSc in Critical Care is a part-time, distance learning course, which aims to provide the opportunity to explore critical care as a multidimensional phenomenon through the module assignments and through taught components. Read more
The MSc in Critical Care is a part-time, distance learning course, which aims to provide the opportunity to explore critical care as a multidimensional phenomenon through the module assignments and through taught components.

Critical care is the specialised and comprehensive care of patients whose conditions are life threatening, from pre-hospital assessment through to discharge from critical and acute care environments. The course explores the management of critically ill patients, and the final dissertation requires you to examine in-depth issues related to current practice of the critically ill patient.  The course also aims to inform those who teach within the critical care setting at both undergraduate and postgraduate levels to further their knowledge and teach others more effectively.

The full MSc course takes two years to complete, although you can choose to exit with a Postgraduate Certificate after nine months or a Postgraduate Diploma after 18 months, if you have fulfilled all the criteria for those awards.

The taught component introduces you to the multifaceted nature of caring for a critically ill patient. The modular approach allows you to evaluate care of the acute or critically ill patient from an evidence-based perspective, at any point on the patient’s journey (pre-hospital to discharge), allowing consideration from a multi-professional approach. Professional issues, including interprofessional practice, law, ethics, quality and safety are covered, as well as the psychosocial aspects relevant to caring for critically ill patients. The assessments are structured to allow students to evaluate the topic in relation to their practice and professional base.

Approximately 50 places are offered per intake and the majority of students are self-funded; although some obtain awards from charities and trusts.

Structure

The MSc consists of three stages – stage T1 (first taught stage), stage T2 (second taught stage) and stage R (research dissertation stage):

• Stage T1 (first taught stage)

This stage lasts for nine months, and consists of three 20-credit modules totalling 60 credits, at Level 7.

• Stage T2 (second taught stage)

This stage lasts for a further nine months, and consists of a further three 20-credit modules totalling 60 credits, at Level 7, to achieve a total  of  120 credits to complete the taught stages.

• Stage R (MSc research dissertation stage)

The dissertation stage of the programme lasts for a further six months, to a total for the MSc of two years, and will include a dissertation of 60 credits at Level 7, to achieve a combined total of 180 credits at Level 7 to complete the MSc course.

You may leave the course after successfully completing stage T1 with a postgraduate certificate, or after successfully completing stage T2 with a postgraduate diploma. 

Core modules:

Research Governance and Evidence Based Practice
Advanced Management - Cardiovascular System
Quality and Safety
Advanced Management - Respiratory System
Professional Practice and Management Issues
Clinical Management of Specialities
Dissertation - Critical Care

Teaching

The course is delivered via Cardiff University’s virtual learning environment, Learning Central.  Approaches to enhance your learning include:

Recommended reading / links within modules
Feedback on assignments
On line tutorials
Annual reports made available to students
External examiners’ feedback.

Studies at MSc dissertation level will largely consist of guided independent study and research, making use of the extensive learning and research facilities available. A project supervisor will be allocated to support and advise you on researching and writing up your specific dissertation topic.

Assessment

There are a variety of formative and summative assessment methods used, such as:

Written modules
Voiced over power point presentations
Recommended reading / links within modules
Feedback on assignments
On line tutorials
Discussion board forums
Patient stories 

Career Prospects

Successful completion of this course will add value to your CV. Graduates of the course have reported that it led directly to promotion, and many students were also stimulated to pursue academic careers via further study up to PhD.

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The overall objective of this postgraduate Certificate in Clinical Exercise is to enable clinicians to prescribe exercise as a disease preventative and treatment modality in a safe, effective, and scientific manner. Read more
The overall objective of this postgraduate Certificate in Clinical Exercise is to enable clinicians to prescribe exercise as a disease preventative and treatment modality in a safe, effective, and scientific manner. Material covered on this course includes how to accurately assess activity and fitness and apply this knowledge for the safe and effective prescription of exercise. Research presented throughout this course will enable an understanding of the role of exercise in the prevention and treatment of disease, while case scenarios and group discussions will help apply this knowledge to patients with various pathologies.

This postgraduate certificate in Clinical Exercise will be delivered online and will address how physical activity and exercise can become an intergral part of patient prescription. In recent years evidence has emerged on the role of exercise as a treatment tool for those with depression, anxiety, cognitive impairment, rheumatic diseases and other conditions where exercise was not traditionally considered beneficial. This course in Clinical Exercise has been specifically designed to provide health professionals with the necessary knowledge and skills to become confident at individually prescribing exercise to people with various pathologies.

Modules

This level 9 Postgraduate Certificate in Clinical Exercise is delivered fully online and consists of four Modules which run from September to June.

Module 1: The Cardiovascular and Respiratory System (10 ECTS)
Module 2: Physical Activity and Exercise (5 ECTS)
Module 3: Exercise in the Prevention and Treatment of Disease (10 ECTS)
Module 4: Exercise Prescription for Clinical Populations (5 ECTS)

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Our part-time blended learning MSc Occupational Medicine course provides an overview of the whole spectrum of medicine and hygiene within the workplace. Read more

Our part-time blended learning MSc Occupational Medicine course provides an overview of the whole spectrum of medicine and hygiene within the workplace.

The course is aimed at GPs who want to gain an academic qualification in occupational medicine and doctors already working in the field - especially in specialist training posts - who want to prepare for professional exams with the Faculty of Occupational Medicine (FOM).

This MSc is also suitable for doctors in other disciplines who have an interest in occupational medicine.

You will benefit from access to a range of specialist knowledge and resources within occupational health and examine the evidence on which occupational health practice is based.

The course takes place in a research-enriched environment and, for those progressing to the third year of the MSc, you will have the opportunity to undertake research-based activities relevant to occupational health, including formulating a research question, designing and executing an appropriate study and drawing valid conclusions through writing a dissertation. 

Our course follows the syllabus requirements of the FOM (London and Ireland).

Aims

This course aims to provide you with the information required by medical practitioners working in the field of occupational medicine, and to allow you to pursue an academic qualification in this subject.

We also aim to provide you with the benefit of blended learning methodology, which allows you to apply the knowledge gained during your day-to-day work.

Special features

Compliant course content

This course adheres to the syllabus requirements of the FOM, RCP (London) and RCP (Ireland).

Teaching and learning

The course comprises a blend of specially commissioned written materials in electronic format (PDF), together with interactive teaching material, all delivered via the University's virtual learning environment, Blackboard.

In Year 1, you are required to attend in Manchester for a one-day seminar associated with Module 1 in Month 3, and the same for Module 2 in month 5 for September starters, in Month 6 for April starters and for one exam day in Month 10.

You are allocated to tutorial groups for Modules 4 to 8, each supported by a specialist in occupational medicine. Tutorials are delivered via telephone or web conference.

In Year 2, you are required to attend in Manchester for a four-day practical course in Month 5 and for one exam day in Month 10.

In Year 3, you are required to attend a three-day MSc dissertation course held at the University in Month 1.

Some components of the course are held jointly with students on the MSc Occupational Hygiene course.

You can view  sample study materials  and  MSc abstracts and papers .

Coursework and assessment

All taught course units will be assessed via examinations held at the University at intervals throughout the course, and the third year will be assessed via submission of a dissertation.

Assessment is by eight examination papers, one per course module. The first will be sat at Seminar 1 (Year 1, Month 3) and the second at Seminar 2 (Year 1, Month 5 for September starters and Month 6 for April starters). The remaining Year 1 assessments will be sat in Month 10. For Year 2, assessments will be held in Month 5 and 10.

If you wish to proceed to the MSc, you are also required to complete a third year, during which you will attend a mandatory three-day residential course (in Month 1) and prepare a dissertation. For doctors in approved training posts, the dissertation may also be eligible for submission for the MFOM.

Course unit details

YEAR 1

Module 1: Foundation for Postgraduate Practice

  • Occupational Health in Perspective
  • Introduction to Occupational Health Law
  • Introduction to Communication
  • Ethical Considerations in Practice
  • Introduction to Toxicology
  • Introduction to Occupational Hygiene
  • Introduction to Lighting
  • Introduction to Temperature and Work
  • Introduction to Noise and Vibration
  • Introduction to Hazardous Substances

Module 2: Fitness for Work

  • Recognising Occupational Disease
  • Introduction to Occupational Dermatology
  • Introduction to Musculoskeletal Disorders
  • Introduction to the Respiratory System
  • Introduction to Occupational Infections
  • Mental Ill Health and Stress at Work
  • Introduction to Epidemiology
  • Health Assessment, Surveillance and Screening
  • Sickness Absence
  • Disability Assessment

Module 3: Health and Workability

  • Workplace and Clinical Assessment Skills: the Portfolio
  • Advanced Occupational Health Law
  • Health Promotion
  • Ageing and Employment
  • Ergonomics
  • Shift Work and Daily Rhythms
  • Rehabilitation and Return to Work
  • Choosing a Research Topic and Literature Review
  • Developing the Research Question
  • Common Mental Health Problems and the Workplace
  • Introduction to Audit

Module 4: Aspects of Good Professional Behaviour

  • Management
  • Professional Behaviour/Leadership and Teamwork
  • Communication
  • Clinical Governance
  • Practical Applications in Quality and Audit
  • Standard Setting
  • Business Needs in the Provision of an Occupational Health Service

YEAR 2

Module 5: Understanding Physical Agents

  • Noise
  • Vibration
  • Radiation
  • Compressed Air Work and Commercial Diving
  • Temperature and Work
  • Light and Vision

Module 6: Management of Occupationally Related Disease

  • Respiratory Disorders
  • Occupational Dermatoses
  • Musculoskeletal Disorders
  • Occupational Cancers
  • Aviation Medicine
  • Occupational Infections
  • Medically Unexplained Symptoms

Module 7: Research Methods and Data Analysis

  • Epidemiology and Statistics
  • Life Long Learning
  • Evidence Based Practice
  • Critical Appraisal
  • Social Research Methods
  • Information Technology

Module 8: Management of Workplace Hazards

  • Industry and Environment
  • Occupational Hygiene Practice
  • Food Safety and Hygiene
  • Prevention of Accidents
  • Principles of Toxicology
  • Occupational Health in a Global Market


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The 2-year PG Diploma program uses a multi-disciplinary, research-informed approach to teach clinical and basic science related to the human systems (cardiovascular, respiratory, gastrointestinal, musculoskeletal, female reproductive, renal and genitourinary, the eyes, and skin) and diagnostics & therapeutics. Read more

The 2-year PG Diploma program uses a multi-disciplinary, research-informed approach to teach clinical and basic science related to the human systems (cardiovascular, respiratory, gastrointestinal, musculoskeletal, female reproductive, renal and genitourinary, the eyes, and skin) and diagnostics & therapeutics.

The scientific background is taught in the context of clinical placements in Community Medicine, General Hospital Medicine, Front Door Medicine, Mental Health, General Surgery, Obstetrics & Gynaecology and Paediatrics.

Successful completion of the 2 year PG Diploma enables graduates to take the national certification exam, which is mandatory to register and work as a Physician Associate.

Students benefit from a strong exposure to clinicians and scientists with active research in medically related subjects.

Course Structure

The program is delivered by the Physician Associate Faculty that brings together clinicians and other experts from across the disciplines of primary and secondary medical care. The course content reflects the curriculum and learning requirements for the Physician Associate framework (PA CC 2012).

The Physician Associate programme at Bangor includes an integrated placement programme of work-based learning that will provide progressive experiential learning in a range of clinical settings to allow students to attain the standards of knowledge and understanding in clinical practice, including regulatory structures, professionalism and clinical competences expected of a Physician Associate. Placements will be grouped according to the following clinical subject headings and minimum periods:

  • Community Medicine (180h)
  • General Hospital Medicine (350 h)
  • Front Door Medicine (180 h)
  • Mental Health (90 h)
  • General Surgery (90h)
  • Obstetrics & Gynaecology (90 h)
  • Paediatrics (acute setting) (90h) 

During the course you will learn how to recognise and manage common and complex medical conditions as part of multi-professional team, to make independent and informed judgements on clinical problems and be trained to integrate knowledge and clinical practice. As a Physician Associate graduate you’ll be able to demonstrate outstanding interpersonal and professional skills when working with patients, carers and clinical multi-disciplinary teams in a multicultural environment. You will also have a comprehensive understating of I.T., record keeping and communication using a diverse range of media in evidence based practice and understand the importance of health promotion, disease prevention and inequalities in society and local communities.

The programme aims to give students a comprehensive knowledge of the concepts, principles and technologies used in clinical practice in the following areas:

  • Cardiovascular system
  • Respiratory system
  • Gastrointestinal system
  • Musculoskeletal system
  • Eyes
  • Female reproductive system
  • Renal and genitourinary system
  • Skin
  • Diagnostics and therapeutics.
  • Neurology

On successful completion of the course, you’ll have gained the key knowledge related to practice as a physician associate, including major concepts related to the principles and theories associated with human anatomy and physiology, cell biology, body/system-drug actions and interactions, mechanisms underlying human pathological conditions and the basis of the clinical and technological methods used to diagnose and monitor these conditions. You be able to demonstrate the qualities and transferable skills necessary for employment in the medical domain including history taking and consultation skills, and physical examinations tailored to the needs of the patient and the demands of the clinical situation. You’ll also be able to demonstrate an understanding and appreciation of the needs of patients/clients, and decision-making in complex and unpredictable contexts.

Teaching, Learning and Assessment

Teaching occurs via lectures, clinical placements, practical classes and group work including case centred discussions often delivered by academic clinicians who hold joint University and Health board contracts. Students benefit from a high number of contact hours that includes utilisation of our state-of-the art teaching laboratories and simulation suite at the hospital. Academic assessment includes placement reports, observed clinical skills, MCQ and written exams.



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Health informatics studies the nature of medical data and the use of information technology to manage health-related information in medical practice, education, and research. Read more

Health informatics studies the nature of medical data and the use of information technology to manage health-related information in medical practice, education, and research. With increases in the application and uses of information technology in the medical industry, there is an unprecedented need for professionals who can combine their knowledge of computing and health care to improve the safety and quality of care delivery, as well as to help control costs.

The MS degree in health informatics applies the creative power of information technology to the information and data needs of health care. This includes the acquisition, storage, and retrieval of patient data, as well as access to electronically maintained medical knowledge for use in patient care, research, and education. Professionals in the field require computing expertise; an understanding of formal medical terminology, clinical processes, and guidelines; and an understanding of how information and communication systems can be used to successfully deliver patient information in various health care settings. The program is offered online only.

The program offers two tracks: the clinician track and analyst track.

Admission requirements

To be considered for admission into the MS program in health informatics, candidates must fulfill the following requirements:

  • Complete a graduate application.
  • Hold a baccalaureate degree (or equivalent) from an accredited university or college (MD, RN, or other professional degree).
  • Submit official transcripts (in English) of all previously completed undergraduate and graduate course work.
  • Have a minimum cumulative GPA of 3.0 (or equivalent).
  • Submit a professional essay describing relevant employment or other experience and career plans (recent undergraduate students without extensive employment experience should discuss their career plans as well as any courses they have completed that are relevant to medical informatics, health care, or information technology).
  • Submit three letters of recommendation from individuals who are able to assess the applicant’s potential for success in the program.
  • Have completed at least one year of computer programming in a current object-oriented language or have equivalent work experience.*
  • Have knowledge of medical terminology/vocabulary, clinical processes, and information systems that are used to support health care activities and processes.
  • Have a familiarity with anatomy and physiology, including the major systems of the human body, including the skeletal system, muscle tissue physiology, muscular system, nervous system, cardiovascular system, respiratory system, urinary system, and histology.
  • Have completed the equivalent of one statistics course that covers the fundamental statistical principles necessary to interpret data and present results, including descriptive statistics, random sampling, normal distribution, confidence intervals, and hypothesis testing. (This prerequisite may be completed post-admission if necessary.)
  • Submit a current resume or curriculum vitae.

International Applications

  • International applicants whose native language is not English must submit scores from the TOEFL, IELTS, or PTE. A minimum TOEFL score of 88 (internet-based) is required. A minimum IELTS score of 6.5 is required. The English language test score requirement is waived for native speakers of English or for those submitting transcripts from degrees earned at American institutions.
  • Applicants without previous graduate study and with an undergraduate GPA that is less than 3.0 may be considered for admission, but will be required to submit Graduate Record Exam (GRE) scores. Applicants from international universities are required to submit GRE scores.
  • An interview with the program’s admissions committee may also
  • be required.


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This MSc Advanced Clinical Practitioner course is for healthcare professionals who want to extend the scope of their practice regarding consultation, assessment, diagnosis and therapeutic interventions. Read more
This MSc Advanced Clinical Practitioner course is for healthcare professionals who want to extend the scope of their practice regarding consultation, assessment, diagnosis and therapeutic interventions.

Modern healthcare services are dynamic, diverse and challenging, often requiring care and interventions delivered by healthcare practitioners with advanced clinical skills and sound theoretical knowledge. This course will allow you to develop your skills at an advanced level, thereby meeting the requirements set by National Leadership and Innovation Agency for Healthcare (NLIAH).

You will develop your understanding of altered physiology to effectively assess patients health or ill health status. In addition you will study research methods, influences on current health care practices and independent prescribing.

The MSc can be achieved within three years and you will need to be supported by a medical and professional mentor in practice.

See the website http://courses.southwales.ac.uk/courses/355-msc-advanced-clinical-practitioner

What you will study

Modules:
Years One

- Clinical Conditions 1
This will involve developing your understanding of altered physiological processes in relation to cardiovascular, respiratory and musculoskeletal disease processes, for example Chronic Obstructive Pulmonary Disease (COPD), heart failure and Myasthenia Gravis disease.

- Clinical Skills 1
This will involve further developing your knowledge and skills in relation to examining patients with cardiac, respiratory and musculosketal diseases. This will include completing a comprehensive patient medical history, thoroughly examining each system mentioned above and identifying their treatment and management plan based on an individual clinical presentation.

- Influences on practice
You will debate the political, legal and professional influences on advanced practice in context with today’s healthcare system. Professional influences include considering the role of advanced practice within the Welsh Advanced Practice Framework. Legal influences include accountability and political influences will address the requirements advocated by Welsh Government.

Year Two:
- Clinical conditions 2
This will involve developing your understanding of altered physiological processes in relation to endocrine, neurological and abdominal disease processes, for example Diabetes and Thyroid disease, Parkinson’s disease, liver and gut diseases.

- Clinical Skills 2
You will continue to develop your knowledge and skills in relation to examining patients with endocrine, neurological and abdominal disease. This will include completing a comprehensive patient medical history, thoroughly examining each system mentioned above and identifying their treatment and management plan based on an individual clinical presentation.

- Research methods
You will learn how to critically evaluate a range of research methodologies.

Year three:

- Dissertation
You will choose a topic relevant to your own area of practice and critically evaluate the role of the advanced practitioner within your area.
- Independent Prescribing or

Optional module:
- Critical reflection on learning in the workplace.
- Leading effective teams in health & social care.

There is a dedicated route for paediatric practitioners.

Learning and teaching methods

You will attend the University one day a week. First year students will study on Mondays, whilst second and third years are taught on Thursdays.

You will be taught by a variety of methods including tutorials, lectures, case study presentations, peer presentations, and problem-based learning. You will also undertake practicals in our Clinical Simulation suite as well as in actual clinical practice.

Work Experience and Employment Prospects

On this degree, you will develop a range of clinical skills in greater depth and gain the knowledge to assess, diagnose and treat patients.

Study of relevant protocols, policy and research will complement this to allow safe practice at an advanced level.

Assessment methods

Assessments include written examinations, assignments and OSCEs (Objective Structured Clinical Examinations). The OSCE’s will take place in May each year and be completed as part of the clinical skills modules and involve undertaking a comprehensive patient history, examining a particular bodily system, and identifying a management and treatment plan for the individual.

Facilities

Our state of the art Clinical Simulation Centre is set up to replicate an acute care NHS environment, providing realistic clinical facilities for our Nursing and Midwifery students and qualified healthcare professionals.

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- https://www.kent.ac.uk/locations/medway/. The Professional Doctorate in Sport, Exercise and Health Science is a specialist programme designed for experienced sport, exercise and health practitioners who would like to undertake research that is relevant and applied to their area of professional practice. Read more

This course will be held at the Medway Campus

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

The Professional Doctorate in Sport, Exercise and Health Science is a specialist programme designed for experienced sport, exercise and health practitioners who would like to undertake research that is relevant and applied to their area of professional practice.

Through a combination of individually tutored modules and your own research, you develop your academic and professional knowledge and acquire a range of advanced research skills. The professional doctorate programme culminates with the submission of your doctoral thesis or portfolio on a topic that advances your area of professional knowledge or practice.

Visit the website https://www.kent.ac.uk/courses/postgraduate/158/sport-exercise-and-health-science-professional-doctorate

About the School of Sport and Exercise Sciences

The School of Sport and Exercise Sciences is one of the most exciting and innovative sports schools in the UK.

The School is based on the University’s award-winning Medway campus and has well-equipped, state-of the-art sports science laboratories, sports therapy clinic, sports rehabilitation gymnasium and respiratory clinic.

The University of Kent has recently benefited from the development of Medway Park, an £11 million project to create a regional centre of sporting excellence that was an approved pre-Olympic training camp venue for the London 2012 Olympic and Paralympic Games. Medway Park has hosted a number of major sporting events, such as the Modern Pentathlon World Cup and European Championships.

The School of Sport and Exercise Sciences offers both taught and research postgraduate courses in Sport and Exercise Science and Sports Therapy and Rehabilitation.

Study support

- Postgraduate resources

The School of Sport and Exercise Sciences has recently invested heavily in its equipment and other resources, and has world-class sports therapy and sport science facilities. Campus facilities include a 12-couch teaching clinic and state-of-the-art sports science laboratories. There is a wide range of equipment, including motorised and non-motorised treadmills, cycle ergometers, an isokinetic dynamometer, and blood and gas analysis equipment. In addition, at Medway Park, the School of Sport and Exercise Sciences has its own cutting-edge sports therapy clinic, rehabilitation gymnasium, sports science laboratories and a respiratory clinic.

There is also a hypoxic environmental chamber, and analytical chemistry, respiratory testing and psychobiology laboratories. These specialist rooms have been set up with over £700,000 of new equipment, including an anti-gravity treadmill, a 3D video analysis system, 2D force pedals, ultra-sound imaging, near-infrared spectroscopy and a gait analysis system.

The School operates a commercial sports injury and rehabilitation clinic, respiratory clinic and sports performance services from Medway Park to support elite athletes, regional squads and local residents. As a postgraduate student, you have the opportunity to develop your professional skills as you work with clients in the clinic and laboratory under staff supervision.

- Dynamic publishing culture

Staff publish regularly and widely in leading scientific journals. Among others, they have recently contributed to: Medicine & Science in Sports & Exercise; American Journal of Sports Medicine; Journal of Applied Physiology; and British Journal of Sports Medicine.

- Researcher Development Programme

Kent's Graduate School co-ordinates the Researcher Development Programme (http://www.kent.ac.uk/graduateschool/skills/programmes/tstindex.html) for research students, which includes workshops focused on research, specialist and transferable skills. The programme is mapped to the national Researcher Development Framework and covers a diverse range of topics, including subjectspecific research skills, research management, personal effectiveness, communication skills, networking and teamworking, and career management skills.

Careers

Our programmes have been developed and designed to provide students with the required knowledge and skills to work autonomously in the field of sport science and sports therapy. The programmes provide opportunities for you to develop and demonstrate both specialist academic and transferable skills such as good communication, problem solving, critical analysis and the ability to work independently to a high standard. The programmes also aim to give you the opportunity to build long-term careers within your chosen field.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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

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

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

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

Applied immunobiology (including organ and haematogenous stem cell transplantation)

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

Dermatology

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

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

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

Diabetes

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

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

Diagnostic and therapeutic technologies

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

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

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

Kidney disease

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

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

The liver

We have particular interests in:

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

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

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

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

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

Musculoskeletal disease (including auto-immune arthritis)

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

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

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

Pharmacogenomics (including complex disease genetics)

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

Reproductive and vascular biology

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

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

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

Respiratory disease

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

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

Pharmacology, Toxicology and Therapeutics

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

Pharmacy

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



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The Postgraduate Certificate in Acute and Critical Care addresses the complex care required by critically ill patients. Patients can become acutely or critically ill at any time and the more ill the patient becomes, the more likely they are to be vulnerable, physiologically unstable and require complex care. Read more
The Postgraduate Certificate in Acute and Critical Care addresses the complex care required by critically ill patients.

Patients can become acutely or critically ill at any time and the more ill the patient becomes, the more likely they are to be vulnerable, physiologically unstable and require complex care. Acutely or critically ill patients exist throughout many settings in hospitals and beyond, and there is a need to ensure the quality of care is delivered by knowledgeable health care practitioners.

This one year acute and critical care nursing course is suitable if you work in ICU, CCU, HDU, A&E, theatres, medical/surgical assessment units (MAU/SAU), pre-hospital care and general acute wards.

See the website http://courses.southwales.ac.uk/courses/709-postgraduate-certificate-acute-and-critical-care

What you will study

- Applied Physiology of Acute and Critical Illness
This module looks at critically analysing the impact of pathophysiology on acute and critically ill adult patients and to understand altered physiology. You will explore the consequences of acute and critical illness on homeostasis using a wide knowledge base of normal and altered physiology to understand key treatments. The module will also focus on cardio-respiratory physiology, neurological control and acute medical conditions.

- Care and Management of the Acute and Critically Ill
You will critically evaluate the complexity of care issues in relation to acutely and critically ill adult patients and analyse the context of that care. The effectiveness of care implementation across a range of patient presentations will be analysed with consideration given to the processes of assessment, monitoring and intervention.

- Legal and Professional Issues in Caring for the Acute and Critically Ill
In this module you will undertake a critical evaluation of service delivery systems from legal and professional perspectives. This includes the right to health care; upholding human rights; duty and standards of care; professional negligence and the application of these to professional practice in acute and critical care contexts. Topics such as life and death, euthanasia, legal definitions of death, organ and tissue donation are also considered in terms of the implications on practitioners caring for acute and critically ill patients.

Learning and teaching methods

You will study through a mixture of lectures,group work, patient scenarios, interactive tutorials and seminar presentations. You will need to attend University one day a week, currently our students are taught on Fridays at 9am-5pm.

Work Experience and Employment Prospects

You will develop personally and professionally within your specialist clinical area. The course will also enable you to develop a high level of skill in transferring complex theoretical knowledge into comprehensive, patient-centred and focused clinical practice.

Assessment methods

Modules are assessed through multiple-choice questions, viva voce (oral examination), assignments, Objective Structured Clinical Examinations (OSCE) and written evidence of personal and professional development. The OSCEs will take place in May each year and be completed as part of the clinical skills modules and involve undertaking a comprehensive patient history, examining a particular bodily system, and identifying a management and treatment plan for the individual.

Facilities

Our state of the art Clinical Simulation Centre replicates an acute care NHS environment, providing realistic clinical facilities for our nursing and midwifery students and qualified healthcare professionals.

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This programme is intended for those who wish to enhance their understanding of the role of microorganisms in animal health and disease, and provides an excellent grounding in molecular biology, immunology, epidemiology and microbiology. Read more

This programme is intended for those who wish to enhance their understanding of the role of microorganisms in animal health and disease, and provides an excellent grounding in molecular biology, immunology, epidemiology and microbiology.

This grounding leads into the study of the complex mechanisms of host/microbe interactions that are involved in the pathogenesis of specific animal diseases, and provides insights into diagnosis and interventions, such as vaccines, essential for disease control.

You will enhance your critical and analytical skills and gain hands-on experience in the diagnosis of veterinary diseases, such that you may identify problems, formulate hypotheses, design experiments, acquire and interpret data, and draw conclusions.

Programme structure

This programme is studied full-time over one academic year.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Who is the programme for?

This is a full or part-time programme, intended mainly for graduates, those already working in veterinary diagnostic/research laboratories and staff from other laboratories who want to enhance their understanding of the role of microorganisms in animal health and disease.

Pharmaceutical research personnel, policymakers, veterinarians, public health personnel and environmental biologists will also benefit.

Part-time and short course study

Most modules are offered as standalone short courses. The fee structure for short courses is different to that for registered students, and details may be obtained via admissions enquiries, please refer to the contact details on this page.

The option to study the MSc on a part-time basis is only available following successful completion of three modules as stand-alone/CPD. Please contact the for further information.

Programme partners

This Masters programme is delivered by a consortium comprising the University of Surrey and two world class veterinary microbiology institutions: the BBSRC funded Pirbright Institute (PI), and the Government sponsored Animal & Plant Health Agency (APHA).

The Veterinary Medicines Directorate (VMD) and Public Health England (PHE) also contribute to the programme.

Visits

You will have the unique opportunity to gain hands-on experience in the diagnosis of important veterinary diseases within the world reference laboratories of the APHA and Pirbright Institute (PI).

There will also be an opportunity to visit Public Health England (PHE) to gain a detailed knowledge of how zoonotic diseases outbreaks are investigated, and to visit the Veterinary Medicines Directorate (VMD), a livestock abattoir and an intensive livestock farm.

Colleagues from the CEFAS laboratory will also contribute to the programme, and further research training will be provided during your practical research project.

Educational aims of the programme

This is a one year full-time programme aimed at preparing graduates to work in a range of fields in which a detailed understanding of veterinary microbiology is a valuable asset.

These fields include research, commerce, government and policy, reference laboratory and diagnostic work, epidemiology and disease mapping, veterinary science, farming especially animal production, wild and zoo animal conservation and education.

As such, it is intended that graduates will achieve the highest levels of professional understanding of veterinary microbiology within a range of contexts.

The programme combines the study of the theoretical foundations of, and scholarly approaches to, understanding the application and various practices of veterinary microbiology within the contexts described above along with the development of practical and research skills.

The main aims are to enable students to:

  • Acquire sound knowledge of the major principles of veterinary microbiology
  • Develop the skills to perform relevant interpretation and evaluation of data
  • Apply those acquired skills in practice through research
  • To utilise acquired knowledge and evaluative skills to communicate successfully with stakeholders

Programme learning outcomes

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas.

The learning outcomes have been aligned with the descriptor for qualification at level 7 given in the Framework for Higher Education Qualifications (FHEQ) produced by the Quality Assurance Agency (QAA) for Higher Education.

Knowledge and understanding

Following completion of the programme, students should display knowledge of:

  • The main principles of current veterinary microbiology
  • The methods and approaches used for the molecular characterisation, and diagnosis of disease agents
  • The main principles of infectious diseases epidemiology
  • The analysis of disease and disease carriage that impact on the development and application of control measures to combat diseases
  • Modes of control of infectious diseases
  • Modes of transmission
  • The various aspects of host pathology and immune responses to disease agents
  • Analytical skills to allow interpretation of data and formulation of conclusions

Intellectual/cognitive skills

Following completion of the programme, students should be able to:

  • Critically appraise scholarly and professional writing on a wide range of subjects pertaining to the various aspects of veterinary microbiology
  • Critically analyse experimental data to enable the formulation of hypotheses
  • Design relevant experiments to test formulated hypotheses
  • Efficiently analyse new developments in technology and critically assess their utilisation to answer existing and new problems

Professional practical skills

Following completion of the programme, students should be able to:

  • Plan and execute an experiment/investigation, act autonomously and demonstrate originality
  • Analyse numerical data using appropriate computer tools including specialist computer packages
  • Communicate experiments at a project level, including report writing
  • Perform specific specialised experimental skills

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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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 taught Postgraduate Certificate in Human Anatomy is a new unique programme offering comprehensive training in all human anatomy, including legislation relevant to working in a human anatomy laboratory. Read more

This taught Postgraduate Certificate in Human Anatomy is a new unique programme offering comprehensive training in all human anatomy, including legislation relevant to working in a human anatomy laboratory.

Why this programme

  • You will study in one of the busiest human anatomy laboratories in Europe where we admit approximately 100 donors each year. This provides us with a very unique and privileged way to teach and research in the field of human anatomy.
  • You will have access to a large number of prosected (professionally dissected) anatomical specimens.
  • During your studies you will have access to the recently refurbished teaching and research laboratories within the Thomson Building.
  • You will study in facilities which house our Clinical Anatomy Skills Centre (CASC) - a unique partnership between the Royal College of Physicians and Surgeons of Glasgow and the University of Glasgow.
  • You will also have access to recently modernised and refurbished laboratories including a large dissection room, histology teaching laboratory, histology preparation library. Our tutorial and lecture facilities have been updated with modern audio-visual equipment, all with internet access.
  • During your studies you will have access to the world-renowned anatomical and pathological collections of William Hunter and John Cleland. These collections are unique to Glasgow and we hold the world’s largest collection of anatomical specimens from these two significant individuals who enhanced anatomical knowledge and understanding.
  • Clinical anatomists active in research will teach you, including those specialising in pedagogical techniques related to anatomy and anatomical education.
  • The course also has postgraduate demonstrating staff that have either anatomical or anatomical and medical visualisation training.
  • On completion of the programme you will have gained valuable understanding and a range of skills encompassing anatomical legislation, human anatomy, cadaveric dissection techniques and typical laboratory practices within this environment.
  • We have excellent links with clinicians, paramedical and allied health professionals, scientists and industry specialists.

Programme structure

The Postgraduate Certificate in Human Anatomy comprises three core compulsory courses taught from January – May each year. It comprises approximately 10 hours of direct contact teaching each week during the course.

Introduction to Anatomy

  • During this course you will learn about the history of anatomy, modern day approaches to the subject area and learn about the legislation related to body and organ donation.
  • You will also receive an introduction to each of the major body systems i.e. nervous, musculoskeletal, cardiorespiratory, gastrointestinal and urogenital systems as well as the special senses.

Structure and Function of the Human Body

  • This course will cover upper and lower limb, cardiovascular, respiratory, gastrointestinal, head and neck and genitourinary anatomy in an advanced level of detail
  • You will examine the wide collection of prosections held in the Laboratory of Human Anatomy, coupled with medical imaging techniques, histological sections, historical specimens and embryology as relevant to the system studied.

Cadaveric Dissection Techniques

  • In this course you will undertake cadaveric dissection on a focal area of anatomical structure to enhance dissection techniques.
  • You will work in small groups with a designated cadaver to help explore the anatomy of the chest.
  • You will be trained in relevant dissection practice, and link it to relevant health and safety practices, applying the relevant anatomical legislation in a practical environment.

Teaching and learning methods

During your training in anatomy, you will receive tuition using a wide variety of methods from expert staff including tutorials, lectures, group work, laboratory classes and dissection based classes. As such you will develop a wide range of skills useful in an anatomical and clinically applied environment. These skills will aid in teamwork, scientific exploration, problem solving and identifying relevant laboratory protocols.

Assessment methods

The course is assessed by a variety of different methods including essay writing, group presentations, “spot” examinations where anatomical structures have to be identified, or potentially, applied anatomy has to be demonstrated through data interpretation, and group work through continuous assessment.

Career prospects

The Postgraduate Certificate in Human Anatomy will provide comprehensive anatomical training which could provide a platform for further study in the field. It could help enhance an individual’s clinical portfolio for a specialty related to the surgical, paramedical and allied health professionals practice which requires an in-depth anatomical knowledge.



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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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