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Masters Degrees in Neural Engineering, United Kingdom

We have 4 Masters Degrees in Neural Engineering, United Kingdom

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Your programme of study. If you want to study Medical Physics with applications in nuclear medicine, radiotherapy, electronics and MRI University of Aberdeen has an world renowned historic reputation within major global innovation in this health area. Read more

Your programme of study

If you want to study Medical Physics with applications in nuclear medicine, radiotherapy, electronics and MRI University of Aberdeen has an world renowned historic reputation within major global innovation in this health area. Did you know the first MRI (Magnetic Resonance Imaging) scanner was invented at Aberdeen over 30 years ago? Major innovations to this technology are still being researched at Aberdeen today. You learn everything you need to know as an advanced grounding in medical physics such as understanding anatomy and how cells are altered by disease. You look at the engineering behind MRI and other visual scanning techniques to understand how applications are made in areas such as nuclear, Positron, Tomography, Radio diagnosis (X-ray), MRI and Ultrasound. You understand radiation and you apply electronics and computing to medical physics. The degree ensures plenty of practical understanding and application and you learn MRI within the department that built it.

If you want to work within imaging and medical physics to pursue a medical career in hospitals, industry and healthcare and diagnose disease by different methods of imaging the degree in Medical Physics will help you towards this goal. You can also develop your own research portfolio and PhD from this MSc and work within academia to pursue innovation in the discipline.

You receive a thorough academic grounding in Medical Physics, are exposed to its practice in a hospital environment, and complete a short research project. Many graduates take up careers in health service medical physics, either in the UK or their home country. The MSc programme is accredited by the Institute of Physics & Engineering in Medicine as fulfilling part of the training requirements for those wishing to work in the NHS. You can also work as a researcher, risk manager, radiation physics specialist and within the medical device industry in product development and innovation.

Courses listed for the programme

Semester 1

  • Biomedical and Professional Topics in Healthcare Science
  • Imaging in Medicine
  • Radiation in Medicine
  • Computing and Electronics in Medicine
  • Generic Skills

Semester 2

  • Radiation and Radiation Physics
  • Nuclear Medicine and Post Emission Tomography
  • Magnetic Resonance Imaging
  • Medical Electronics and Instrumentation
  • Medical Image Processing and Analysis
  • Diagnostic Radiology and Radiation Protection

Semester 3

  • Project Programmes in Medical Physics and Medical Imaging

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • You are taught by renowned researchers with opportunity to contribute to the expanding research portfolio
  • You learn in a cutting edge medical facility adjacent to the teaching hospital including a PET-CT scanner, radiotherapy centre and linac treatment machines, plus MRI scanners
  • The MRI scanner was invented and developed at University of Aberdeen

Where you study

  • University of Aberdeen
  • 12 months or 24 months
  • Full time or Part Time
  • September start

International Student Fees 2017/2018

Find out about fees

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs:



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Biofluid Mechanics applies engineering, mathematical and physical principles of fluids to solve complex and multifaceted problems, primarily in biology and medicine, but also in aerospace and robotics. Read more

Why this course?

Biofluid Mechanics applies engineering, mathematical and physical principles of fluids to solve complex and multifaceted problems, primarily in biology and medicine, but also in aerospace and robotics.

This newly-launched MSc course is the first one-year taught course in the world dedicated to Biofluid Mechanics. It covers a wide range of multidisciplinary training on the kinematics and dynamics of fluids related to biological systems, medical science, cardiovascular devices, numerical modelling and computational fluid dynamics.

The one-year full-time programme offers you a unique opportunity to lead the next generation of highly-skilled postgraduates that will form a new model worldwide for academia – with world-class research knowledge, industry – with highly-competitive skills in both biomedical engineering and fluid dynamics, and for society – with better training to work with clinicians.

This course is taught by the Department of Biomedical Engineering, with input from other departments across the Faculty of Engineering and the wider University. You'll be supported throughout the course by a strong team of academics with global connections. You'll benefit from a unique training and an innovative teaching and learning environment.

You'll study

In Semesters 1 and 2, you'll take compulsory classes and a choice of optional classes. 
The remaining months are dedicated to project work, submitted as dissertation (Diploma students) or as a research thesis (MSc students).

Compulsory Classes

Biofluid Mechanics
Industrial Software
Medical Science for Engineering
Research Methodology
Professional Studies in Biomedical Engineering

Optional Classes

Haemodynamics for Engineers
Numerical Modelling in Biomedical Engineeirng
Cardiovascular Devices
The Medical Device Regulatory Process
Entrepreneurship and Commercialisation in Biomedical Engineering
Introduction to Biomechanics
Finite Element Methods for Boundary Value Problems and Approximation
Mathematical Biology and Marine Population Modelling
Design Management
Risk Management

Masters Research Project

The project provides MSc students with the opportunity to experience the challenges and rewards of independent study in a topic of their own choice; the project may involve an extended literature review, experimental and/or computational work.

Postgraduate Diploma Dissertation

The dissertation is likely to take the form of an extended literature review. Your project work will have been supported by a compulsory research methods module and specialist knowledge classes throughout the year designed to assist with technical aspects of methodology and analysis.

Industrial Partnerships

We have established strong partnerships with industrial companies that have offered their support through the provision of software licenses and/or teaching material.

Fees & funding

How much will my course cost?

All fees quoted are for full-time courses and per academic year unless stated otherwise.

Scotland/EU

2017/18 - £5,500
Rest of UK

2017/18 - £9,000
International

2017/18 - £19,100
How can I fund my course?

Scholarship search

Scottish and non-UK EU postgraduate students

Scottish and non-UK EU postgraduate students starting in 2017 can apply for support from the Student Awards Agency Scotland (SAAS). The support is in the form of a tuition fee loan and for eligible students a living cost loan. Find out more about the support and how to apply.

Don’t forget to check our scholarship search for more help with fees and funding.

Students coming from England

Students ordinarily resident in England can apply for Postgraduate support from Student Finance England. The support is a loan of up to £10,280 which can be used for both tuition fees and living costs. Find out more about the support and how to apply.

Don’t forget to check our scholarship search for more help with fees and funding.

Students coming from Wales

Postgraduate students starting in 2017 who are ordinarily resident in Wales can apply for support from Student Finance Wales. The support is a loan of up to £10,280 which can be used for both tuition fees and living costs. We are waiting on further information being released about this support and how to apply.

Don’t forget to check our scholarship search for more help with fees and funding.

Students coming from Northern Ireland

Postgraduate students starting in 2017 who are ordinarily resident in Northern Ireland can apply for support from Student Finance NI. The support is a tuition fee loan of up to £5,500. We are waiting on further information being released about this support and how to apply.

Don’t forget to check our scholarship search for more help with fees and funding.

International students

We have a large range of scholarships available to help you fund your studies. Check our scholarship search for more help with fees and funding.

Please note

The fees shown are annual and may be subject to an increase each year. Find out more about fees.

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Biofluid mechanics applies engineering, mathematical and physical principles of fluids to solve complex and multifaceted problems primarily in biology and medicine, but also in aerospace and robotics. Read more

Research opportunities

Biofluid mechanics applies engineering, mathematical and physical principles of fluids to solve complex and multifaceted problems primarily in biology and medicine, but also in aerospace and robotics.

Our new MRes course covers a wide range of multidisciplinary training on the kinematics and dynamics of fluids related to biological systems, medical science, cardiovascular devices, numerical modelling and computational fluid dynamics (CFD), focusing on research. The MRes differs from an MSc in that you'll have the opportunity to perform multidisciplinary research for a longer time, preparing you for a research career and equipping you with world-class research knowledge.

The course is taught by the Department of Biomedical Engineering, with input from other departments across the faculty and the University.

During the course, you'll be supported by a strong team of academics with worldwide connections and you'll be offered a unique training and innovative teaching and learning environment.

Course director: Dr Asimina Kazakidi

Lecturer in Biofluid Mechanics

Course co-director: Professor Dimitris Drikakis

Executive Dean of Engineering and Professor of Engineering Science

What you'll study

This one-year programme consists of compulsory and optional classes in the first two semesters. Each class has timetabled contact hours, delivered predominantly in lectures, laboratories and tutorials.

The MRes research project will be chosen and started in semester one with guidance from a supervisor. Throughout the year you'll be working on your project.

Compulsory classes

Professional Studies in Biomedical Engineering
Research Methodology
MRes project

Elective classes

Biofluid Mechanics
Industrial Software
Medical Science for Engineering
Haemodynamics for Engineers
Numerical Modelling in Biomedical Engineering
Cardiovascular Devices
The Medical Device Regulatory Process
Entrepreneurship & Commercialisation in Biomedical Engineering
Introduction to Biomechanics
Finite Element Methods for Boundary Value Problems and Approximation
Mathematical Biology & Marine Population Modelling
Design Management
Risk Management

Guest lectures

During the course, academics and industrial speakers will be invited as part of the training. You'll also benefit from departmental seminars and knowledge exchange events.

Fees & funding

Fees

All fees quoted are per academic year unless otherwise stated.

Here are our fees for 2017/18:

Scotland/ EU

£4,195
Rest of UK

£4,195
International students

£19,100
Funding

If you can't find what you're looking for, try our scholarship search instead.

The fees shown are annual and may be subject to an increase each year.

Support & development

Careers

The new MRes course aims to train students in the Biofluid Mechanics field, targeting primarily the academic research market, but also the Medical Devices and Simulation/Analysis software industries and other related and new emerging markets.

Our postgraduates will benefit from acquiring world-class training and competitive skills in both biomedical and fluid dynamics disciplines that will make them highly employable at the following markets and related sectors/companies:

academic research
medical device market
simulation & analysis software market
biosimulation market
NHS & the healthcare/medical simulation market
life science research tools & reagents market
We've identified the current key vendors in each of the above markets and aim to create links with the relevant industry and monitor the changing market and employability trends, in order to adjust teaching modules and approaches and to enhance employability of our graduates.

Industrial partnerships

We've already established strong partnerships with industrial companies that have offered their support through the provision of software licenses and/or teaching material.

Student support

From financial advice to our IT facilities, we have loads of different support for all students here at our University. Get all the information you need at Strathlife.

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The Masters in Biomedical Engineering is an interdisciplinary programme that will equip you for employment within the biomedical engineering sector. Read more
The Masters in Biomedical Engineering is an interdisciplinary programme that will equip you for employment within the biomedical engineering sector. This programme addresses all the key aspects of biomedical engineering.

WHY THIS PROGRAMME

The University of Glasgow’s School of Engineering has been delivering engineering education and research for more than 150 years and is the oldest School of Engineering in the UK.
Biomedical Engineering is the newest division of the School, bringing together our long standing expertise. Research covers four themes, Biomaterials and Tissue Engineering, Bionanotechnology, Rehabilitation Engineering, Biosensors and Diagnostics.
The course is based on in-depth modules and individual projects, which are designed to give graduates an opportunity to specialise in specific areas of Biomedical Engineering or to cover a more general Biomedical Engineering syllabus.
This taught MSc/PG Dip offers a wide exposure to the philosophy and practice of Biomedical Engineering whilst simultaneously enabling the students to deepen their knowledge of specific areas of biomedical engineering disciplines, which have been chosen on the basis of the research strengths of the Discipline. The choice includes Biomaterials and Biomechanics including their application in Tissue Engineering and Regenerative Medicine, Rehabilitation Engineering includes applied within Glasgow hospital and bioelectronics and diagnostic systems, designed to be applied from advanced hospitals to out-in-the-field situations.
The compulsory part provides the basic underlying knowledge need throughout biomedical engineering these core courses are taken in both semesters to allow a wide range of optional subjects to be available.
You will broaden and/or deepen your knowledge of biomedical engineering disciplines.

Programme structure

Modes of delivery of the MSc in Biomedical Engineering include lectures, seminars and tutorials and allow students the opportunity to take part in lab, team work and study trips in the UK. You will undertake an MSc project working on a specific research area with one of the academics.

Core courses

Applications of biomedical engineering
Biological fluid mechanics
Cellular biophysics
Energy in biological systems
Medical imaging
Statistics for biomedical engineering
MSc project.
Optional courses

Advanced imaging and therapy
Applied engineering mechanics
Bioinformatics and systems biology
Biomechanics
Biosensors and diagnostics
Microscopy and optics
Nanofabrication
Rehabilitation engineering
Scaffolds and tissues
Signal processing of bio-signatures
Tissue and cell engineering.

Career prospects

Career opportunities include positions in rehabilitation engineering, biomaterials for reconstructive surgery, biosensors, device and implant design and development, and biosignal processing.

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