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Masters Degrees (Clinical Lab)

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Infertility is a common problem with approximately 1 in 7 couples of reproductive age being diagnosed as infertile - equating to 72.5 million people globally - and there is an increasing demand for assisted reproductive technology (ART). Read more
Infertility is a common problem with approximately 1 in 7 couples of reproductive age being diagnosed as infertile - equating to 72.5 million people globally - and there is an increasing demand for assisted reproductive technology (ART). This course will provide a robust and wide ranging education in human clinical embryology and ART.

Professor Barratt, Programme Director of the new programme MSc Human Clinical Embryology and Assisted Conception has been confirmed as one of the lecturers at the forthcoming Campus Workshop "From gametes to blastocysts – a continuous dialogue" to be held in Apex City Quay Hotel, Dundee, 7-8th November 2014. This programme is organised by the ESHRE Special Interest Group Embryology.

Why study Human Clinical Embryology and Assisted Conception at Dundee?

The MSc in Human Clinical Embryology and Assisted Conception is a new taught master’s programme which has been designed to provide a robust and wide ranging education in human clinical embryology and ART (assisted reproductive technology). Students will gain a systematic understanding of clinical embryology and ART whilst developing high level laboratory skills in various aspects of clinical embryology, andrology and ART.

The emphasis of the course is on humans and clinical ART/embryology and offers practical experience in handling and preparing HUMAN gametes.

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The University of Dundee has excellent clinical links and a close working relationship with the NHS and students will benefit from a scientifically rigorous programme with teaching drawn from experienced embryologists, scientists and clinicians.

A key benefit of the programme is that it offers a unique opportunity to gain substantial exposure to an NHS IVF clinic (NHS Tayside). This will allow students to observe the practice and management of a working IVF clinic and benefit from teaching by staff involved in ART, and will be of considerable benefit for those wanting a clinical based career. The NHS Tayside IVF clinic has recently benefitted from a substantial investment in its facilities which has created a high quality clinical environment.

The blend of scientific, practical skills and the integration with an NHS facility giving students first hand experience and exposure to the workings of an NHS IVF clinic will provide students with an excellent base to enter a career in ART either in a clinical or research setting.

How you will be taught

The MSc is full time programme (September to August) and will consist of 5 taught modules and a research project. The course consists of a combination of lectures, seminars, tutorials, discussion and journal clubs as well as self-directed study. The research project will be carried out under either in the research laboratory or in the IVF clinic.

What you will study

The course is divided into 6 modules:

Module 1: Fundamental science (Semester1)
Module 2 Advanced Applied laboratory skills in ART (Semester 1 and 2)
Module 3: Statistics (Semester 1)
Module 4: Running a successful ART laboratory and clinical service (Semester 2).
Module 5: Clinical Issues and Controversies in ART (Semester 2)
Module 6: Research Project (Semester 3)

How you will be assessed

The programme is assessed using a variety of traditional and more innovative approaches. We use essays, portfolios, folders of evidence, research proposals, learning contracts, exams, OSCEs, and assessed online activities such as debates and team work.

Careers

Due to the increased demand for infertility treatment there has been a substantial growth in the demand for high quality laboratory and clinical staff in this area.

Approximately 1:7 couples are infertile and IVF is the predominant treatment for infertility contributing ~2% of the births in the UK and up to 5% in some EU countries. IVF is a rapidly growing field and as an example of this the number of cycles treated in the UK has increased by almost 30% in the last 4 years (http://www.hfea.gov.uk).

Following successful completion of the MSc students could apply for a training position in ART e.g. in embryology and/or andrology. Alternatively the MSc would be an ideal preparation for undertaking a PhD or applying for a research position. Clinically qualified graduates would gain valuable skills to enable them to specialise in reproductive medicine and assume responsibility within an ART clinic.

Skills that students will acquire include:

* In-depth understanding of basic reproductive physiology and a detailed knowledge of human ART;
* Sperm preparation and cryopreservation
* Recruitment of patients and donors for research
* Preparation of ethical approvals and appreciation for the ethical issues in ART
* Detailed work with human eggs and sperm (including assessment of gamete quality)
* Time lapse imaging of human embryos
* Business planning for running an ART laboratory and clinical service.
* QA and QC in the ART laboratory
* Troubleshooting in an ART lab
* The role of media and marketing in the development of an ART service.
* Detailed and practical knowledge of the HFEA and legislative and regulatory framework.
* Knowledge of basic IVF laboratory techniques e.g. preparation of dishes, witnessing
* Appreciation of the clinical diagnostic and pathways in ART

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Who is it for?. This Masters is ideal for those who have an undergraduate degree in Psychology or a related discipline and would like to build more knowledge and skills highly valued both in academic research and the clinical professions. Read more

Who is it for?

This Masters is ideal for those who have an undergraduate degree in Psychology or a related discipline and would like to build more knowledge and skills highly valued both in academic research and the clinical professions. The MSc is an ideal platform from which to progress to PhD studies, particularly in Cognitive or Social Neuroscience. Students will also be well-equipped should they wish to undertake further professional training in Clinical Psychology, or a related discipline.

Objectives

This Masters degree bridges three research and clinical disciplines:

  • Cognitive Neuroscience (the study of human brain functions such as memory, perception and language)
  • Clinical Neuroscience (the understanding of neurological, psychological or psychiatric illness via their neural and cognitive antecedents)
  • and Social Neuroscience (the investigation of brain processes that help us communicate, feel, learn and interact with others).

The major aim of this programme is to provide you with a thorough grounding in the neuroscience that underpins human cognitive brain function, clinical, social and affective interaction, and neuropathology.

Teaching will comprise of seminars, lectures, computing and statistics classes, and supervision of an individual research project. Your learning experience during the programme will be enhanced by an invited speaker’s programme of external experts who work in Clinical, Social or Cognitive neuroscience.

Academic facilities

You will have access to all the facilities and laboratories in the Psychology Department. Check our labs facilities in the Cognitive Neuroscience Research Unit (CRNU)the Baby lab, the Autism Research Group (ARG), the Human Memory Research Group, etc. For a full list of facilities visit the Psychology Department.

Our members have experience with a wide range of neuroscientific techniques, including neuropsychological testing, psychophysics, electrophysiology, and neuroimaging methods.  We have particular strengths in the use of Electroencephalography (EEG)Transcranial magnetic stimulation (TMS) and Transcranial Electric Stimulation (a weak current applied to the scalp), in addition to measures of human behaviour (e.g. response times, response errors, and eye movements) and physiological measures (e.g. galvanic skin response and heart rate).

We test neurologically normal individuals, special populations (e.g. people with synesthesia) and people with expertise or acquired skills (e.g. dancers, musicians, athletes), as well as people with brain damage (e.g. neglect or split-brain patients), psychiatric diagnoses (e.g. schizophrenia), sensory deficits (e.g. visual and hearing impairments) and developmental disorders (e.g. dyslexia or autism).

Placements

We facilitate clinical internships through our specialist research Centre for Psychological Wellbeing and Neuroscience (CPWN) and with the local Mind centre.

Teaching and learning

Teaching will be comprised of lectures, seminars, group work and discussions, workshops and tutorials, reports, computing and statistics classes and the individual research dissertation.

You will undertake independent study, supported by the teaching and learning team, and will receive detailed feedback on your coursework. You will be provided with assessment and grade-related criteria which will outline your intended learning outcomes, along with the skills, knowledge and attitudes you are expected to demonstrate in order for you to complete an assessment successfully. You will also be assigned a personal tutor as your primary contact, who will advise you on academic matters and monitor your progress through the programme.

You will find a supportive vibrant research environment in the Department. The course is taught by academics, who are internationally recognised experts in their field with different backgrounds in clinical, social and cognitive neuroscience.

Check out what is going on in our laboratories and at the Center for Psychological Wellbeing and Neuroscience (CPWN).

Find our more about our work on our Facebook group.

Assessment

Your learning will be assessed through essays, examinations, oral presentations, research methods projects and interpretation of statistical analyses, formal research proposals and a dissertation.

Modules

The programme consists of eight taught modules worth 15 credits each with around 30-34 hours of face-to-face contact, supported by online resources and an empirical research project (worth 60 credits).

You will learn about the latest advances in clinical, social and cognitive neuroscience and develop an appreciation of the reciprocal nature of research and practice in these domains. For example how insights from functional neuroimaging inform our understanding of neurological disorders and how clinical observations inform neurocognitive modelling.

Career prospects

This course will provide you with knowledge and skills highly valued both in academic research and the clinical professions. The MSc is an ideal platform from which to progress to PhD studies, particularly in Cognitive or Social Neuroscience. You will also be well-equipped should you wish to undertake further professional training in Clinical Psychology, or a related discipline.

The knowledge and skills you will acquire in this programme are highly valuable, whether you choose to pursue further research or an applied occupation. They will enhance your employability prospects in a wide range of sectors including the pharmaceutical industry, neuromarketing, the computing industry, science and the media, science and the arts, business or education.



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The course involves the detailed study of the physiological consequences of chronic debilitating diseases and highlights the changes that these different diseases cause during exercise testing. Read more
The course involves the detailed study of the physiological consequences of chronic debilitating diseases and highlights the changes that these different diseases cause during exercise testing.

This unique course gives you a solid grounding in theory and application of physiological tests in clinical populations including: graded cardiopulmonary exercise testing; cardiac ultrasound; vascular ultrasound; and muscle function analyses; as well as practical and theoretical elements of Phase IV cardiac rehabilitation.

Throughout the course you will actively participate in practical sessions designed to increase your skills, with supervised practice sessions working alongside University sports teams. Integration of theory and practice ensures you will meet developing statutory professional requirements of practice-specific knowledge, understanding and skills.

Intermediate qualifications available:

• Postgraduate diploma – 120 credits at Masters level https://www.beds.ac.uk/howtoapply/courses/postgraduate/next-year/clinical-exercise-physiology3

• Postgraduate certificate – 60 credits at Masters level

Visit the website: https://www.beds.ac.uk/howtoapply/courses/postgraduate/next-year/clinical-exercise-physiology

Course detail

• Study on a unique course with a multi-disciplinary approach to teaching, with access to world-leading staff expertise and research
• Explore areas including: research design; exercise testing and diagnosis; exercise testing and prescription; physical activity, nutrition and metabolic health; laboratory skills; research methods; advanced exercise testing and diagnosis
• Develop the high-level professional standards demanded of members of a health care team; understanding your ethical, moral and legal responsibilities as well as acquiring the practical competencies, theoretical knowledge and research skills that will help you access careers in health and fitness or academia
• Gain from the opportunity to practice your skills on work placement, and shadow experienced staff
• Benefit from gaining the necessary skills to become a Health Promotion Specialist; Clinical Exercise Physiologist; Clinical Technician or researcher, and/or continue to further research-based study on MSc by research, MPhil or PhD programmes.

Modules

• Laboratory Skills
• Cardiopulmonary Exercise Testing and Interpretation
• Exercise Testing and Diagnosis
• Exercise Prescription for Clinical Populations
• Research Methods
• Clinical Exercise Physiology Dissertation
• Psychological Approaches to Public Health*
• Professional Skills for Healthcare Providers*
• Metabolic Health*
• Sport Science Support*
• Placement (short)*
• Placement (long)*
*denotes options

Assessment

A variety of assessment formats are used and are designed to develop your transferable skills such as written and oral communication, the ability to follow logical instructions, problem solving and time management.

Some assessments are designed to mimic the scenarios that you may find in the clinical environment, such as practical exams, assess client care, technical skills, analysis and interpretation of test results.

All of these assessments are considered to be the best method to assess the learning outcomes of the particular unit, as well as developing professional and transferable skills.

• Written assessments – dissertation, projects, reports, lab reports (approx. 85%)
• Exams and tests (5%)
• Presentations and practicals (approx. 10%)

Careers

You will experience hands-on practical experience from the start of the course developing confidence for meeting and assessing patients in the clinical setting.

You will be introduced to a range of specialist equipment that you become competent in, allowing you to transfer your practical skills to clinical environment.

The placement units allow you to experience the clinical setting and different clinical populations.

Clinical practitioners deliver some of the lecture and practical content ensuring that you can receive insight into the setting in which you are likely to work.

Graduates can to apply for positions such as: Health Promotion Specialist, Clinical Exercise Physiologist, Clinical Technician. Previous graduates have gone on to train as cardiologists, including a specialist in congenital and adult heart disease in the Evelina Children’s Hospital and Guy's and St Thomas’.

You could also apply for further study, such as a PhD or the NHS Scientific Training Programme.

Funding

For information on available funding, please follow the link: https://www.beds.ac.uk/howtoapply/money/scholarships/pg

How to apply

For information on how to apply, please follow the link: https://www.beds.ac.uk/howtoapply/course/applicationform

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This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. Read more

This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. As a student on the MSc Clinical Pharmacology programme, you will acquire core skills, enabling an appreciation of how to apply clinical pharmacological, regulatory and ethical principles to the optimisation of therapeutic practice and clinical research. Crucially, in addition to a firm grasp of the principles of molecular pharmacology, you will also gain foundational knowledge in the emerging science of pharmacogenomics and personalised medicine.

Why this programme

  • This Clinical Pharmacology MSc is one of only a few UK postgraduate programmes that cover clinical pharmacology in sufficient detail to allow you to make an informed choice about pursuing clinical pharmacology as a career.
  • You will learn the basics of molecular genetics and population genetics as applied to pharmacogenetics and gene therapy.
  • You will have the opportunity to gain hands-on experience in molecular methods and analysis along with critical interpretation of genomic literature. This will enable you to analyse, synthesise and formulate an action plan for personalised patient care.
  • You will gain the knowledge and experience necessary to engage in and contribute to discussions about therapeutic issues in the commercial and academic research environments. As part of the MSc Clinical Pharmacology degree, you will undertake your own research project under expert supervision, which will allow you to consolidate your knowledge and apply the skills you have acquired.
  • At every stage of the MSc Clinical Pharmacology you will benefit from the close involvement of clinical academics and visiting lecturers from the pharmaceutical industry and national drug regulatory bodies: the programme is specifically designed to prepare graduate for future senior roles within the pharmaceutical medicine. Guest lecturers have recently included staff from Pfizer, Servier, Johnson & Johnson and the Scottish Medicines Consortium.

Programme structure

You will attend lectures, seminars and tutorials and take part in lab, project and team work.

Core courses

  • Principles of Pharmacology
  • Drug Disposition
  • Pharmaceutical Medicine
  • Topics in Therapeutics: General Topics and Cardiovascular Drugs
  • Topics in Therapeutics: Commonly Used Drugs
  • Medical Statistics 1
  • Medical Statistics 2
  • Pharmacogenomics & Molecular Medicine: Fundamentals of Molecular Medicine
  • Pharmacogenomics & Molecular Medicine: Applied Pharmacogenomics & Molecular Medicine

In addition you will undertake a dissertation/project.

Career prospects

Career opportunities include positions in academia, health care and the pharmaceutical industry; returning to more advanced positions within a previous clinical environment (eg pharmacicts, clinicians); and PhD study.



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Why take this course?. There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. Read more

Why take this course?

There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Specifically, cardiovascular diseases, pulmonary diseases, diabetes, stroke, cancer and musculoskeletal limitations remain important health concerns that have all been shown to benefit from regular, safe exercise.

Therefore, this innovative course is designed to offer you an interdisciplinary approach to exercise in clinical settings as well as vocational qualifications and experiences that will enable you to apply theory to practice. The integration of theory and practice within this course will enable you to critically analyse, adapt and modify existing approaches to develop safe and effective physical activity programmes to optimise the health-related fitness of clients.

What will I experience?

On this course you can:

Obtain lab-based and field skills, as well as the ability to communicate with clients in a professional and approachable style.

Gain Register of Exercise Professionals endorsed vocational qualifications in clinical exercise, including exercise referral, cardiac disease, chronic respiratory diseases, stroke, cancer and falls prevention which are essential requirements should you wish to pursue a career as a clinical specialist exercise instructor.

Work with clinicians providing exercise in the management of a range of long term conditions

What opportunities might it lead to?

The programme provides an opportunity to work toward ACSM Clinical Exercise Physiologist certification and units aligned to National Occupation Standards for Health and Fitness.

Here are some routes our graduates have pursued:

Health and wellbeing physiologist

Bariatric exercise physiologist

NHS trainee clinical scientist

Health advisor

Clinical Exercise Physiologist

Exercise Referral Coordinator

Exercise Therapist

PhD Research

Module Details

The modular programme is offered in two formats: Full-time (12 months) and Part-time (24 months). The course includes 120 credits of taught units and a 60 credit Project. It is also possible to study parts of this course for CPD purposes, such as a single unit (30 credits) or top up a related Postgraduate Diploma to a full MSc.

The units contain vocational elements relevant for providing personalised exercise training for a range of medical conditions, including classroom, exercise laboratory and placement learning. The MSc Clinical Exercise Project unit prepares you for your independent project, where you will plan and implement a service evaluation, research project or enterprise & innovation project in the area of clinical exercise.

Teaching takes place on Thursdays, Fridays and some Saturdays, so attendance on selected weekends is necessary for the vocational training included in some of the units. Placements take place in areas such as Southampton, Winchester, Portsmouth and Chichester and are scheduled according to placement provider requirements during the week. Each unit is generally taught over a three week block, however cardiac rehabilitation requires a longer study period.

The core unit you will study is:

MSc Clinical Exercise Project (60 credits)

Optional units to choose include 120 credits from:

Exercise for Cardiac Rehabilitation (30 credits)

Exercise for Chronic Respiratory Diseases (30 credits)

Exercise and Cancer Care (30 credits)

Exercise and Fitness after Stroke (30 credits)

Exercise for Falls Prevention (30 credits)

Paediatric Exercise Science and Medicine (30 credits)

Programme Assessment

The delivery format for the course is largely based around seminar, practical, workshop and placement learning to integrate theory into practical sessions. Teaching sessions will include vocational training, seminar and exercise laboratory work, led by leading practitioners in the area of clinical exercise. You will be provided with a personal tutor to assist with academic and pastoral issues.

The course has a problem-based learning approach and you will be assessed in a variety of ways with a focus on self-reflection and initiative and problem-based assignments. Here’s how we assess you:

Vocational training (MCQ and case study)

Practical assessment

Applied essays

Case studies

Project report

Poster presentation

Student Destinations

We have strong links with National Health Service partners in the Wessex region and professional training providers in exercise, such as the American College of Sports Medicine and the Register of Exercise Professionals. Graduates of this course possess qualifications to provide exercise in cardiac rehabilitation, pulmonary rehabilitation, exercise after cancer, exercise after stroke or exercise for falls prevention provided by leading vocational clinical exercise training providers. Having such a skills-set is important for being employable as an exercise physiologist in diverse multi-disciplinary teams, whilst also presenting the opportunity to work as an exercise entrepreneur as your own exercise service manager.

Roles our graduates have taken on include

Exercise referral coordinator

NHS trainee clinical scientist

Health advisor

Cardiopulmonary exercise physiologist

Health and wellbeing physiologist

Bariatric exercise physiologist

NHS physical activities advisor

Private exercise physiologist



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IN BRIEF. You will be supported in clinical practice by experienced neonatal nurse practitioners, consultant neonatologists, or specialist pediatric registrars. Read more

IN BRIEF:

  • You will be supported in clinical practice by experienced neonatal nurse practitioners, consultant neonatologists, or specialist pediatric registrars
  • You will be taught by experts in the field including tertiary neonatologists, advanced neonatal nurse practitioners, midwifery lecturers, pharmacists and radiographers
  • You will develop advanced clinical skills in our brand new simulation suites with our award-winning human simulators
  • Clinical placement opportunity

COURSE SUMMARY

This practical course uses a work-based learning approach to develop the higher-level skills that will lead to advanced practitioner status.

This is a challenging and intense programme and allows experienced neonatal intensive care nurses to become qualified advanced neonatal nurse practitioners.

This 12 month course requires a high level of commitment to succeed and you will move from a nursing to a medical rota immediately upon qualification.  

You will achieve a number of clinical competencies such as advanced resuscitation skills, insertion of percutaneous long lines, insertion of umbilical and venous catheters, airway management and intubation and chest drains.

COURSE DETAILS

The programme may be commissioned by Health Education North West to meet the needs of a modernizing NHS. Upon completion you will be eligible for a non-medical advanced practitioner in Neonates to work within a junior medical rota.

TEACHING

You are expected to be flexible during the programme to facilitate your learning and clinical practice/experience:

  • During the first three months you will be introduced to new concepts, theories and medical management  including physiology, pathophysiology for neonates with in the maternity department and Neonatal Intensive Care Unit
  • For the rest of the programme you will attend university and work in clinical practice
  • You will self-roster your off duty, clinical practice/experience within your tertiary intensive neonatal care unit (learning on the job)
  • You will be given a named supervisor (consultant neonatologist)
  • You must accrue a minimum of 720 clinical hours during your twelve months training

Simulation teaching will be undertaken in the university’s simulation suite and in the clinical area.

ASSESSMENT

You will be expected to undertake a series of assessments including a clinical portfolio, written assignments, OSCE, and supervised clinical practice by specialist registrars, advanced neonatal nurse practitioners and consultant neonatologists.

FACILITIES

Our Clinical Practice Wards are located in the Mary Seacole Building on the second floor. There are four rooms designed to give the look and feel of a hospital environment. The rooms are furnished with patient's beds, lockers, chairs, sinks and curtains as well as audio-visual equipment, internet and a teaching area.

We also have a number of clinical skills rooms that enhance student learning from taking blood pressure, to giving CPR and more complicated procedures. Along with nursing skills rooms where you can practice in a ward situation, there are basic skills rooms for sessions such as moving and handling.

Patient Simulators

The patient simulation laboratory provides you with the opportunity to tackle real-life scenarios in a safe and supported environment. Set up like a hospital ward, the lab contains hi-tech patient simulators that can mimic everything from the common cold to a major heart condition.

The equipment includes:

  • Emergency Care Patient Simulators: Anatomically correct, feature-rich mannequins, which can be used for the physical demonstration of various clinical signs including bleeding, breathing, blinking eyes and convulsions.
  • iStan Patient Simulators: A step up from the ECS, the iStan adds an essential human element to patient simulation. It moves, breathes, can cry out or moan with pain, providing a realistic patient for you to practice on
  • Pedia Patient Simulator: A complete reproduction of a six-year-old child enabling you to practice paediatric scenarios
  • Baby simulator: This mannequin makes it possible to interact with our most vulnerable patients - in a safe, realistic learning environment

All the simulation equipment can be linked up to some very hi-tech computer and audio-visual aids. Groups of students get to role-play a wide range of different scenarios, with a lab co-ordinator observing, running and intervening in the scenario remotely.

Sophisticated computer equipment can also provide detailed physiological information for each of the simulators under observation. The lab will help you develop the clinical skills you need but also the high level communication skills that will make a real difference to your patients.

CAREER PROSPECTS

Upon completion of this course, students will become advanced neonatal nurse practitioners and will work on a medical rota. Some students may also wish to progress onto a PhD or work as a nurse consultant or in a leadership role in clinical practice.



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The objective of the course is to equip students with a strong foundation in the fundamental techniques of clinical and translational research in experimental medicine, applying contemporary research tools to clinically relevant areas of investigation. Read more
The objective of the course is to equip students with a strong foundation in the fundamental techniques of clinical and translational research in experimental medicine, applying contemporary research tools to clinically relevant areas of investigation. The bespoke experimental medicine research training will be taught by Cambridge academics and industry, and will incorporate a research project focused experimental medicine. Each student is allocated an individual supervisor, who will provide support throughout the course and help build a customised training programme.

The MPhil includes formal modular teaching in core experimental modules (Statistics, Epidemiology, and Practical Aspects of Clinical Research) as well as specialist modules in Clinical Pharmacology and Clinical Drug Development. In addition, all students will have the opportunity to undertake a relevant 12 week research projects with one of our outstanding supervisors, including clinicians across a range of specialties, bio-medical scientists and bio-medical industry partners.

The course aims to provide students with broad research study and communications skills.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvmdmptmt

Course detail

Upon successful completion of the MPhil graduates will have developed a strong foundation in the fundamental knowledge and techniques required to enable them to undertake clinical and translational research in experimental medicine. They will be able to apply contemporary research tools to clinically relevant areas of investigation.

The MPhil programme will produce clinical researchers who are competitive in seeking research support and
who are knowledgeable about the complex issues associated with conducting sound clinical research and
trials.

Format

The course consists of core modules in Practical Aspects of Clinical Research, Statistics, Epidemiology, as well as bespoke modules in Clinical Pharmacology and Clinical Drug Development timetabled over two terms. Students from both themes (Experimental Medicine and Rare Diseases) will have the opportunity to attend the modules of the other theme.

Students will be allocated mentor groups to work on a group research project; and all students will conduct their own individual supervised 12 week research project for which they will submit a thesis. The course is examined by two sat exams and thesis assessment.

Assessment

Students are expected to submit a thesis with a maximum word count of 15000 words.

Students will sit two exams of 2 hours each. The exams will be multiple choice questions and structured answer questions.

Students are required to present their work to their supervisors lab and a supervisor report is submitted to the programme directors - this is not assessed, but gives an indication of the progress of the student.

The course components are completed by the end of July. However, to complete the course, students will be required to attend a viva in person on a date (to be announced) in late August or early September.

Continuing

Students who are progressing well, have the support of a Principal supervisor, and have the necessary funding, may apply during the year to continue to do a PhD on successful completion of their MPhil. Such students will need to gain a pass mark of 70% or more in the MPhil examination.

Find out how to apply here http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are no specific funding opportunities advertised for this course. For information on more general funding opportunities, please follow the link below.

General Funding Opportunities: http://www.graduate.study.cam.ac.uk/finance/funding

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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.

  • 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
  • Good links with local companies for work placements - including hospitals, elite sport organisations and sport equipment manufacturers
  • Course available to study full time (1 year) and part time (2 years)

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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There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Read more

Why take this course?

There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Specifically, cardiovascular diseases, pulmonary diseases, diabetes, stroke, cancer and musculoskeletal limitations remain important health concerns that have all been shown to benefit from regular safe exercise.

Therefore, this innovative course is designed to offer you an interdisciplinary approach to exercise in clinical settings and vocational qualifications and experiences that will enable you to apply theory to practice. The integration of theory and practice within this course will enable you to critically analyse, adapt and modify existing approaches to develop safe and effective physical activity programmes to optimise the health-related fitness of clients.

What will I experience?

On this course you can:

Obtain lab-based and field skills, as well as the ability to communicate with clients in a professional and approachable style.
Gain Register of Exercise Professionals endorsed vocational qualifications in clinical exercise, including exercise referral, cardiac disease, chronic respiratory diseases, stroke, cancer and falls prevention which are essential requirements should you wish to pursue a career as a clinical specialist exercise instructor.
Work with clinicians providing exercise in the management of a range of long term conditions

What opportunities might it lead to?

The programme provides an opportunity to work toward ACSM Clinical Exercise Physiologist certification and units aligned to National Occupation Standards for Health and Fitness.

Here are some routes our graduates have pursued:

Health and wellbeing physiologist
Bariatric exercise physiologist
NHS trainee clinical scientist
Health advisor
Clinical Exercise Physiologist
Exercise Referral Coordinator
Exercise Therapist
PhD Research

Module Details

The modular programme is offered in two formats: Full-time (12 months) and Part-time (24 months). The course includes 120 credits of taught units and it is also possible to study parts of this course for CPD purposes, such as a single credit-bearing unit (30 credits), a postgraduate certificate (PG Cert; 60 credits) or progress to the full MSc. The units contain vocational elements relevant for providing personalised exercise training for a range of medical conditions, including classroom, exercise laboratory and placement learning.

Teaching will take place on Thursdays, Fridays and some Saturdays so attendance on selected weekends is necessary for the vocational training associated with some of the units. Placements take place in areas such as Southampton, Winchester, Portsmouth and Chichester and are scheduled according to placement provider requirements during the week. Each unit is generally taught over a three week block, however cardiac rehabilitation requires a longer study period.

Options to choose include 120 credits from:

Exercise for Cardiac Rehabilitation (30 credits)
Exercise for Chronic Respiratory Diseases (30 credits)
Exercise for Cancer Care (30 credits)
Exercise and Fitness after Stroke (30 credits)
Exercise for Falls Prevention (30 credits)
Paediatric Exercise Science and Medicine (30 credits)

Programme Assessment

The delivery format for the course is largely based around seminar, practical, workshop and placement learning to integrate theory into practical sessions. Teaching sessions will include vocational training, seminar and exercise laboratory work, led by leading practitioners in the area of clinical exercise. You will be provided with a personal tutor to assist with academic and pastoral issues.

The course has a problem-based learning approach and you will be assessed in a variety of ways with a focus on self-reflection and initiative and problem-based assignments. Here’s how we assess you:

Vocational training (MCQ and case study)
Practical assessment
Presentation
Applied essays
Case studies

Student Destinations

The Schools/Departments delivering the course have strong links with National Health Service partners in the Wessex region and professional training providers in exercise, such as the American College of Sports Medicine and the Register of Exercise Professionals. Graduates of this course possess qualifications to provide exercise in cardiac rehabilitation, pulmonary rehabilitation, exercise after cancer, exercise after stroke or exercise for falls prevention provided by leading vocational clinical exercise training providers. Having such a skills-set is important for being employable as an exercise physiologist in diverse multi-disciplinary teams, whilst also presenting the opportunity to work as an exercise entrepreneur as your own exercise service manager.

Roles our graduates have taken on include

Exercise referral coordinator
NHS trainee clinical scientist
Health advisor
Cardiopulmonary exercise physiologist
Health and wellbeing physiologist
Bariatric exercise physiologist
NHS physical activities advisor
Private exercise physiologist

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There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Read more

Why take this course?

There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Specifically, cardiovascular diseases, pulmonary diseases, diabetes, stroke, cancer and musculoskeletal limitations remain important health concerns that have all been shown to benefit from regular safe exercise.

Therefore, this innovative course is designed to offer you an interdisciplinary approach to exercise in clinical settings and vocational qualifications and experiences that will enable you to apply theory to practice. The integration of theory and practice within this course will enable you to critically analyse, adapt and modify existing approaches to develop safe and effective physical activity programmes to optimise the health-related fitness of clients.

What will I experience?

On this course you can:

Obtain lab-based and field skills, as well as the ability to communicate with clients in a professional and approachable style.
Gain Register of Exercise Professionals endorsed vocational qualifications in clinical exercise, including exercise referral, cardiac disease, chronic respiratory diseases, stroke, cancer and falls prevention which are essential requirements should you wish to pursue a career as a clinical specialist exercise instructor.
Work with clinicians providing exercise in the management of a range of long term conditions

What opportunities might it lead to?

The programme provides an opportunity to work toward ACSM Clinical Exercise Physiologist certification and units aligned to National Occupation Standards for Health and Fitness.

Here are some routes our graduates have pursued:

Health and wellbeing physiologist
Bariatric exercise physiologist
NHS trainee clinical scientist
Health advisor
Clinical Exercise Physiologist
Exercise Referral Coordinator
Exercise Therapist
PhD Research

Module Details

The modular programme is offered in one format: Part-time (12 months). The course includes 60 credits of taught units and it is possible to study parts of this course for CPD purposes, such as a single credit-bearing unit (30 credits), as a postgraduate certificate or to complete this PgCert and then top this up to a postgraduate diploma (PG Dip; 120 credits) or progress to the full MSc. The units contain vocational elements relevant for providing personalised exercise training for a range of medical conditions, including classroom, exercise laboratory and placement learning.

Teaching will take place on Thursdays, Fridays and some Saturdays so attendance on selected weekends is necessary for the vocational training associated with some of the units. Placements take place in areas such as Southampton, Winchester, Portsmouth and Chichester and are scheduled according to placement provider requirements during the week. Each unit is generally taught over a three week block, however cardiac rehabilitation requires a longer study period.

Options to choose include 60 credits from:

Exercise for Cardiac Rehabilitation (30 credits)
Exercise for Chronic Respiratory Diseases (30 credits)
Exercise for Cancer Care (30 credits)
Exercise and Fitness after Stroke (30 credits)
Exercise for Falls Prevention (30 credits)
Paediatric Exercise Science and Medicine (30 credits)

Programme Assessment

The delivery format for the course is largely based around seminar, practical, workshop and placement learning to integrate theory into practical sessions. Teaching sessions will include vocational training, seminar and exercise laboratory work, led by leading practitioners in the area of clinical exercise. You will be provided with a personal tutor to assist with academic and pastoral issues.

How are you assessed?

The course has a problem-based learning approach and you will be assessed in a variety of ways with a focus on self-reflection and initiative and problem-based assignments. Here’s how we assess you:

Vocational training (MCQ and case study)
Practical assessment
Presentations
Applied essays
Case studies

Student Destinations

The Schools/Departments delivering the course have strong links with National Health Service partners in the Wessex region and professional training providers in exercise, such as the American College of Sports Medicine and the Register of Exercise Professionals. Graduates of this course possess qualifications to provide exercise in cardiac rehabilitation, pulmonary rehabilitation exercise after cancer, exercise after stroke or exercise for falls prevention provided by leadin vocational clinical exercise training providers. Having such a skills-set is important for being employable as an exercise physiologist in diverse multi-disciplinary teams, whilst also presenting the opportunity to work as an exercise entrepreneur as your own exercise service manager.

Roles our graduates have taken on include

Exercise referral coordinator
NHS trainee clinical scientist
Health advisor
Cardiopulmonary exercise physiologist
Health and wellbeing physiologist
Bariatric exercise physiologist
NHS physical activities advisor
Private exercise physiologist

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Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course. This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. Read more
Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course.

Who is it for?

This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. It is open to science and engineering graduates and those working within hospitals or related industry who want to work in healthcare organisations, in the medical devices industry, or in biomedical engineering research.

The course will suit recent graduates and/or clinical engineers with a technical background or those working in healthcare who want to move into a management position.

Objectives

With several medical conditions requiring extensive and continuous monitoring and early and accurate diagnosis becoming increasingly desirable, technology for biomedical applications is rapidly becoming one of the key ingredients of today and tomorrow’s medical care.

From miniaturised home diagnostic instruments to therapeutic devices and to large scale hospital imaging and monitoring systems, healthcare is becoming increasingly dependent on technology. This course meets the growing need for biomedical and clinical engineers across the world by focusing on the design of medical devices from conception to application.

One of the few accredited courses of its kind in London, the programme concentrates on the use of biomedical-driven engineering design and technology in healthcare settings so you can approach this multidisciplinary topic from the biological and medical perspective; the technological design and development perspective; and from the perspective of managing the organisation and maintenance of large scale equipment and IT systems in a hospital.

This MSc in Biomedical Engineering with Healthcare Technology Management course has been created in consultation and close collaboration with clinicians, biomedical engineering researchers and medical technology industrial partners. The programme fosters close links with the NHS and internationally-renowned hospitals including St. Bartholomew's (Barts) and the Royal London Hospital and Great Ormond street so that you can gain a comprehensive insight into the applied use and the management of medical technology and apply your knowledge in real-world clinical settings.

Placements

In the last few years there have been some limited opportunities for our top students to carry out their projects through placements within hospital-based healthcare technology groups or specialist London-based biomedical technology companies. Placement-based projects are also offered to selected students in City’s leading Research Centre for Biomedical Engineering (RCBE). As we continue our cutting-edge research and industrial and clinical collaborations, you will also have this opportunity.

Academic facilities

As a student on this course you will have the opportunity to work with cutting-edge test and measurement instrumentation – oscilloscopes, function generators, analysers – as well as specialist signal generators and analysers. The equipment is predominantly provided by the world-leading test and measurement equipment manufacturer Keysight, who have partnered with City to provide branding to our electronics laboratories. You also have access to brand new teaching labs and a dedicated postgraduate teaching lab. And as part of the University of London you can also become a member of Senate House Library for free with your student ID card.

Teaching and learning

You will be taught through face-to-face lectures in small groups, where there is a lot of interaction and feedback. Laboratory sessions run alongside the lectures, giving you the opportunity to develop your problem-solving and design skills. You also learn software skills in certain modules, which are taught inside computer labs. We also arrange hospital visits so you gain hands-on experience of different clinical environments.

We arrange tutorials for setting coursework, highlight important subject areas, conduct practical demonstrations, and offer support with revision. You are assessed by written examinations at the end of each term, and coursework assignments, which are set at various times throughout the term.

You also work towards an individual project, which is assessed in the form of a written thesis and an oral examination at the end of the summer. The project can be based on any area of biomedical engineering, telemedicine or technology management and will be supervised by an academic or clinical scientist with expertise in the subject area. Many projects are based in hospital clinical engineering departments, or if you are a part-time student, you can base the project on your own workplace. You will have regular contact with the supervisor to make sure the project progresses satisfactorily. Some of the programme’s current students are working on a project focusing on devices that use brain signals to move external objects such as a remote control car and a prosthetic arm.

Some of the previous projects students have worked on include:
-A cursor controller based on electrooculography (EOG)
-Modelling a closed-loop automated anaesthesia system
-Design of a movement artefact-resistant wearable heart rate/activity monitor
-Review of progress towards a fully autonomous artificial mechanical heart
-Design of smartphone-based healthcare diagnostic devices and sensors.

If you successfully complete eight modules and the dissertation you will be awarded 180 credits and a Masters level qualification. Alternatively, if you do not complete the dissertation but have successfully completed eight modules, you will be awarded 120 credits and a postgraduate diploma. Completing four modules (60 credits) will lead to a postgraduate certificate.

Modules

Along with the 60 credit dissertation eight core modules cover diverse subject areas including biomedical electronics and instrumentation, technology infrastructure management, as well as the latest advances in medical imaging and patient monitoring.

The course includes a special module which gives you an introduction to anatomy, physiology and pathology designed for non-clinical science graduates.

The most innovative areas of biomedical and clinical engineering are covered and the content draws from our research expertise in biomedical sensors, bio-optics, medical imaging, signal processing and modelling. You will learn from academic lecturers as well as clinical scientists drawn from our collaborating institutions and departments, which include:
-Charing Cross Hospital, London
-The Royal London Hospital
-St Bartholomew's Hospital, London
-Basildon Hospital
-Department of Radiography, School of Community and Health Sciences, City, University of London

Modules
-Anatomy, Physiology and Pathology (15 credits)
-Physiological Measurement (15 credits)
-Biomedical Instrumentation (15 credits)
-Medical Electronics (15 credits)
-Cardiovascular Diagnostics and Therapy (15 credits)
-Medical Imaging Modalities (15 credits)
-Clinical Engineering Practice (15 credits)
-Healthcare Technology Management (15 credits)

Career prospects

This exciting MSc programme offers a well-rounded background and specialised knowledge for those seeking a professional career as biomedical engineers in medical technology companies or research groups but is also uniquely placed for offering skills to clinical engineers in the NHS and international healthcare organisations.

Alumnus Alex Serdaris is now working as field clinical engineer for E&E Medical and alumna Despoina Sklia is working as a technical support specialist at Royal Brompton & Harefield NHS Foundation Trust. Other Alumni are carrying out research in City’s Research Centre for Biomedical Engineering (RCBE).

Applicants may wish to apply for vacancies in the NHS, private sector or international healthcare organisations. Students are encouraged to become members of the Institute of Physics and Engineering in Medicine (IPEM) where they will be put in touch with the Clinical Engineering community and any opportunities that arise around the UK during their studies. Application to the Clinical Scientist training programme is encouraged and fully supported.

The Careers, Student Development & Outreach team provides a professional, high quality careers and information service for students and recent graduates of City, University of London, in collaboration with employers and other institutional academic and service departments. The course also prepares graduates who plan to work in biomedical engineering research and work within an academic setting.

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Sponsored by the NIHR Rare Diseases Translational Research Collaboration, this new course is part of the MPhil in Clinical Science degree programme. Read more
Sponsored by the NIHR Rare Diseases Translational Research Collaboration, this new course is part of the MPhil in Clinical Science degree programme. The objective of the course is to equip students with a strong foundation in the fundamental techniques of clinical and translational research in rare diseases, applying contemporary research tools to clinically relevant areas of investigation.

The bespoke rare disease research training will be taught by Cambridge academics and industry, and will incorporate a research project focused on rare diseases. Each student is allocated an individual supervisor, who will provide support throughout the course and help build a customised training programme.

The MPhil includes formal modular teaching in core experimental medicine modules (Statistics, Epidemiology, and Practical Aspects of Clinical Research) as well as specialist modules in Genetics and Rare Diseases. In addition, all students will have the opportunity to undertake a relevant 12 week research project with one of our outstanding supervisors, including clinicians across a range of specialities, geneticists, basic biomedical scientists and bio-medical industry partners. It also aims to provide students with broad research, study and communication skills.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvmdmprad

Course detail

Upon successful completion of the MPhil graduates will have developed a strong foundation in the fundamental knowledge and techniques required to enable them to undertake clinical and translational research in rare diseases. They will be able to apply contemporary research tools to clinically relevant areas of investigation.

The MPhil programme will produce clinical researchers who are competitive in seeking research support and who are knowledgeable about the complex issues associated with conducting sound clinical research and trials.

Format

The course consists of core modules in Practical Aspects of Clinical Research, Statistics, Epidemiology; as well as bespoke modules in Genetics and Rare Diseases, timetabled over two terms. Students will be allocated mentor groups to work on a group research project; and all students will be allocated/or negotiate an individual 12 week research project for which they will submit a thesis. The course is examined by two sat exams and thesis assessment.

Assessment

Students are expected to submit a thesis covering the research project undertaken in the second and third terms. There is a maximum length of 15000 words.

Students will sit two exams of 2 hours each. The exams will be multiple choice and structured answers.

Students are required to present their work to their supervisors lab and a supervisor report is submitted to the programme directors - this is not assessed but is used as an indication of the progress of the student.

The full-time components of the course are completed by the end of July. However, to complete the course, students will be required to attend a viva in person on a date to be set in August or early September.

Continuing

Students who are progressing well, have the support of a Principal Supervisor, and have the necessary funding, may apply during the year to continue to a PhD on successful completion of their MPhil. Such students will need to gain a pass mark of 70% or more in the MPhil examination.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There is an opportunity for UK students to apply for one of two NIHR BRC- Rare Diseases scholarship of £6500 each to supplement University/college fees.

Information on the application procedure is available from Clinical Academic Training Office -

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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This course is for those interested in pursuing professional or research training in applied psychology at Doctoral level. Read more

Why this course?

This course is for those interested in pursuing professional or research training in applied psychology at Doctoral level.

The classes that make up this course have been carefully developed to offer theory, knowledge and practical skills across the areas of clinical, health and neuropsychology, in addition to providing training in research methods.

The knowledge and skills you'll develop will substantially help you if you're aiming to take a PhD in a clinical or health based area, or want to become a Practitioner Psychologist.

You can study full-time over one year or part-time over two years. Single modules can be taken as part of Continuing Professional Development.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/clinicalhealthpsychology/

You’ll study

- Research methods
Three modules covering qualitative and quantitative analyses and common experimental methods.

- Applied
Four modules covering theoretical issues and practical skills relevant to medical conditions from a clinical, health and neuropsychological perspective.

- Professional practice & placement
This module provides you with the professional skills required in a workplace setting. You’ll complete a project linked to a real-world issue in a specific applied setting, for example, a pain clinic.

- Dissertation
You’ll complete an individual, supervised research dissertation on a topic related to the course themes.

Work placement

You’ll have the opportunity of a work-based placement, arranged by the MSc team each year.
Typically, these will be available in NHS, academic, government and third sector settings. The placement is usually a consultancy project such as a service/training evaluation, case notes audit, or designing and delivering a stress management intervention.

Empirical project

You’ll undertake a significant empirical project suitable for publication during the MSc. It can take the form of an individual primary study, a secondary data analysis or a formal systematic review or meta-analysis.

Facilities

We've a number of purpose built experimental labs and facilities including:
- Driving Simulator Lab
- Memory Lab
- Perception & Action Lab
- Psychophysiology Lab
- Psycholinguistics Lab
- Strathclyde Oculomotor Lab

Guest lectures

Practitioner psychologists contribute to both lectures and seminars throughout the course. For example, you’re introduced to techniques such as cognitive-behavioural therapy and motivational interviewing by Health & Care Professionals Councils (HCPC) accredited Practitioner Psychologists.

Learning & teaching

The course is delivered through seminars, workshops, practical training sessions and practical labs. Specialist guest lectures from external speakers are also included in the curriculum.
The placement enables you to experience an applied work setting and to begin to build your own independent professional networks.

Assessment

A wide variety of assessment methods are employed by the course including:
- practical reports
- self-reflective practice diaries
- exams
- design of health information leaflets
- poster presentation
- case study evaluations
- essays
- thesis

English language Requirements

If English is not your first language, you'll need an IELTS score of 6.5, with no area scoring less than 6.0.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options
To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form, or to ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Careers

The course will be of interest to students who wish to pursue a career as an applied psychologist, either as a researcher progressing to a PhD, or to support progression to further training to become a practitioner psychologist.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/

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Our MSc Dental Implantology (Dental Specialties) course gives dental practitioners the knowledge and skills needed to replace missing teeth and support oral tissues with dental implants. Read more

Our MSc Dental Implantology (Dental Specialties) course gives dental practitioners the knowledge and skills needed to replace missing teeth and support oral tissues with dental implants.

This course is ideal for dentists with a range of experience, from those new to the discipline to those with considerable implant exposure.

You will develop the requisite knowledge and skills to undertake implant surgery and prosthodontic reconstruction with predictable long-term success while studying a comprehensive range of course units.

You will complete a five-day foundation course at Manchester Dental Education Centre (MANDEC) in July. This ensures that you possess foundation knowledge before starting the MSc in September.

During the MSc, you will complete five cases and go on surgical placements where you will receive one-to-one mentoring from an experienced implant surgeon.

You will also attend a two-day cadaver course run by the Royal College of Surgeons and local consultants, and travel to an implant company teaching centre in Sweden for two days to receive teaching from well-established international contributors. You will continue to attend several hands-on courses at MANDEC.

Special features

Extensive practical experience

You will build hands-on experience through surgical placements at private clinics and courses at MANDEC throughout the MSc.

Expert teaching

Learn from consultants, specialists and experienced general implantologists, as well as contributors from the clinical specialities of Oral and Maxillofacial Surgery and Restorative Dentistry.

Additional course information

The clinical training part of the course involves travel and attendance at the dental facilities on campus and associated practices.

Teaching and learning

You will complete a five-day foundation course at Manchester Dental Education Centre (MANDEC) in July. This ensures that you possess foundation knowledge before starting the MSc in September.

Learning on the MSc is via observation, seminars and hands-on experience, with contributors from the clinical specialities of Oral and Maxillofacial Surgery and Restorative Dentistry so you can observe surgical and restorative stages.

The course is supported by a number of consultants, specialists and experienced general implantologists and regular observation sessions are organised.

You will complete five cases and go on surgical placements where you will receive one-to-one mentoring from an experienced implant surgeon.

You will also attend a two-day cadaver course run by the Royal College of Surgeons and local consultants, and travel to an implant company teaching centre in Sweden for two days to receive teaching from well-established international contributors. You will continue to attend several hands-on courses at MANDEC.

In Year 1, you are required to attend lectures and clinical attachments. At the start of the new term in September you will be required to learn at the University for three days a week until the last week of October. You will then be required to learn at the University on a Monday and Tuesday on (mostly) a weekly basis.

In Year 2, you are required to attend lectures and clinical attachments on a fortnightly basis. Lectures take place at the University itself, while clinical attachments take place at private clinics off campus.

Coursework and assessment

Assessment is via written exams, essays, case presentations and viva voce.

The PGCert, PGDip and MSc courses run in succession. The PGCert offers a foundation in implantology, and the PGDip builds on this, offering a diverse range of contemporary experiences and techniques.

A research dissertation is required for the MSc qualification, many of which are published in international peer-reviewed journals.

Unit assessment methods include:

  • Research Methods: two tutor-marked assignments and participation in specified online group activities;
  • Biostatistics: two tutor-marked assignments;
  • Dissertation: an independent research project with a written report of 10,000-15,000 words.

Course unit details

There are four components to the course:

Research Methods unit: Training in skills related to the design, execution and interpretation of clinical and clinically related research.

Biostatistics unit:  Training in skills in data collection, simple analysis and interpretation of clinical and clinically related research.

Specialist Clinical units:  Gain an understanding of the scientific basis of implantology, with particular emphasis on current theories relevant to the diagnosis, treatment planning and clinical management of adult patients.

The specialist clinical units encompass the following:

  • Core lectures to include:
  • Medical emergency management
  • Cross infection control
  • Radiological protection
  • Clinical governance
  • Interactive seminars related to implantology
  • Pre-clinical skills course
  • Clinical treatment sessions in state-of-the-art facilities
  • Attendance at consultation clinics
  • Case reviews

Research unit: This unit aims to give you skills in the identification, formulation and implementation of a specific research project and to give you experience of working independently.

Year 1 course content

  • Implant Basic Sciences (15 credits)
  • Basic Implant Surgical and Restorative Techniques parts 1 and 2 (15 credits each)
  • Implant Treatment Planning (15 credits)

Completion of the first year provides the 60 credits needed for the Dental Implantology PGCert.

Year 2 course content

  • Advanced Implant Surgical and Restorative Techniques (15 credits)
  • Research Methods and Biostatistics (15 credits each)

Completion of Year 1 plus Research Methods and Advanced Implant Sciences provides the 120 credits needed for the Dental Implantology PGDip.

  • Research project and dissertation (60 credits) : For MSc students only. You will have a supervisor who will discuss the choice of research project and give advice and guidance throughout. Dissertation areas include the writing of a systematic review in any field of implant dentistry or lab-based research projects.

Completion of Years 1 and 2 provide the 180 credits needed for the Dental Implantology MSc.

Facilities

You will have access to dedicated postgraduate suites at the University, as well as extensive library and online services to help you get the most out of your studies.

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service .

CPD opportunities

Some selected seminars will also provide you with CPD hours.

Career opportunities

Several dentists who have completed this course have either contributed as lecturers or become mentors.



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Our MSc in Neuroimaging for Clinical and Cognitive Neuroscience will provide you with the theoretical and practical skills required to carry out high-quality cognitive brain imaging work in healthy individuals and patient populations. Read more

Our MSc in Neuroimaging for Clinical and Cognitive Neuroscience will provide you with the theoretical and practical skills required to carry out high-quality cognitive brain imaging work in healthy individuals and patient populations.

Our course is aimed at graduates with scientific training in fields as diverse as experimental psychology, cognitive neuroscience, neuroscience, physics, computer science, mathematics, medicine, pharmacology, and engineering who are interested in a career where brain imaging forms a major focus, or where the scientific and technological needs of brain imaging are addressed.

The course aims to provide a unique environment in which students from a variety of scientific backgrounds can work together in a way that reflects their potential future collaborations, and in which they can readily acquire the multidisciplinary skills needed.

You will explore issues relating to the optimisation of fMRI and EEG data acquisition and analysis, with a particular focus on the cross-talk between the physics of the scanning environment, the psychology of the experimental design, and the neuroanatomy and neurophysiology of the human brain.

In addition, the course offers an in-depth grounding in cognitive, social, behavioural, and clinical neuroscience theory, and offers the opportunity to be directly involved neuroimaging research.

Graduating students will be ideally placed to make major contributions to research and technological development within the field of brain imaging.

Special features

MSc + PhD studentships

Our MSc can form the first year of Research Council-funded 1+3 postgraduate PhD studentships (such as from the ESRC Northwest Doctoral Training Centre ).

Teaching and learning

Our course is delivered through a series of lectures and practical lab-based classes, as well as informal seminar-style sessions encouraging interaction and discussion.

The research project offers one-to-one supervision within the research environment.

Apart from doing standard background reading and preparation for coursework and examinations, you will be required to work on lab-based skills outside formal teaching times. Dedicated facilities will be available for this.

Coursework and assessment

Assessment will vary between course units, but will comprise a mixture of examinations (including short answer and multiple-choice formats), coursework, lab reports and a final research report.

Course unit details

You will take eight taught course units worth 15 credits each and complete a research project.

Semester 1:

  • Neuroimaging Techniques (including MRI, fMRI, PET, EEG, MEG)
  • Functional Neuroanatomy
  • Image Analysis
  • Experiment Design and Optimisation.

Semester 2:

  • Advanced Image Analysis
  • Cognitive Psychology for Clinical Neuroscience
  • Cognitive and Social Neuroscience
  • Clinical and Behavioural Neuroscience.

Research projects

For the research project, you will join an active neuroimaging research programme from across the University. A wide variety of research options will be made available in the hope that the experience reflects the research environment that you might enter once you have graduated.

All students will be required to carry out a major component of neuroimaging data analysis and interpretation of results as part of the project. Project results will be presented in poster format at a mini-conference towards the end of the course.

Facilities

You will be able to access a range of facilities throughout the University.

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service 

Career opportunities

This MSc will prepare you for a career path in scientific and clinical research and academia, as it provides the ideal platform from which to proceed to doctoral work involving brain imaging.

The course also provides clear career paths in specialist software and hardware industries, and in specialist sections of the pharmaceutical industry.

In addition, our MSc offers a high-level specialisation relevant for students and graduates of medicine.



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