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Degree type

MSc

Course length

1 year full-time

Location

Durham City

Programme code

H1KH09

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Course details

The programme is led by the Department of Engineering with some input from the Department of Biosciences. Prospective students registered in this new innovative programme will gain the necessary skills for a career in the Biomedical and Biotechnology fields with an outlook of learning skills for designing and developing relevant biomedical devices and products used in the health sector as well as gaining knowledge of the mechanics and operation of artificial organs in the human body.

The programme also covers the use of data and artificial intelligence methods in helping with addressing some of the most pressing challenges in the field of Biomedical Engineering as well as other relevant engineering challenges when applicable.

Course Structure

During the one-year full-time Masters' programme you will study the following:

Core modules:

  • Biomechanics 4
  • Physiological Fluid Mechanics 4
  • Artificial Organs 4
  • Biotechnology Design Project
  • Artificial Intelligence and Deep Learning 4
  • Tissue Engineering
  • Research and Development Project

In recent years, optional modules have included:

Students usually select one optional module from modules such as those listed below (please note not all modules may be available each year):

  • Non-linear Solid Mechanics 4
  • Environmental Engineering 4
  • Optimisation 4

Detailed module information:

For the latest detailed information on all of the modules currently offered on this Masters programme please visit our Postgraduate Module Handbook page.

Employability

Prospective students can expect to gain skills and knowledge which will prepare them for a career in the biomedical engineering sector including working in the health sector and other large multinational biomedical engineering firms involved in design and manufacturing of biomedical devices.

There is a growing demand within the labour market for good quality biomedical engineers and this degree is designed to equip you with skills and resources needed to be able to prosper in this market.

Learning

The core content in this programme is delivered in lecture modules which typically involve 20 hours of lectures plus one or two hours of revision lectures. In addition, at the start of the programme students may be presented with a package of self-study reading material for each module.

Core modules are typically delivered in lecture form (typically one hour per week). Some modules may include guest lectures and seminars from external speakers from both academia and industry within the fields relevant to the degree programme.

Modules typically cover a wide range of topics relating to the functioning and mechanics of human body and design and operation of artificial organs pertaining to human body.

The module Artificial Intelligence and Deep Learning is designed to provide students with a broad spectrum of knowledge on the novel applications of artificial intelligence and deep learning methods applied to biomedical applications as well as wider engineering applications.

The Research and Development project provides students with an opportunity to undertake a substantial research project on an area of interest relevant to the degree programme. This provides an open-ended challenge to each student, in collaboration with a supervisor which could be either from Engineering or the Biosciences departments. This will develop skills in independent research and project management, the analysis and presentation of data, and the ability to argue a coherent case. The project module also contains an initial group phase which will give students the opportunity to engage in group research activities. The module also contains seminars which are designed to give students the skills needed to successfully carry out their individual research projects.

A significant portion of this programme involves working in groups to design specific biotechnology products which could include systems and products that can aid with human bodily functions. Students will also learn about the latest challenges in the biotechnology and biomedical sciences field from industry experts working in the health sector and the biosciences/biotechnology firms. The team-based design projects are overseen by a tutor team, with whom students meet regularly to discuss progress. Tutors also provide advice and guidance when teams are unsure of direction, as well as some technical support when needed.

There is a wealth of support provided by academic and professional support staff throughout the course.

All students are allocated an academic adviser and participate in an ongoing programme of academic adviser meetings and activities.

Assessment

The learning outcomes in this programme are typically assessed by written exams plus written coursework content (if applicable). The Research and Development project is assessed through a combination of an oral examination session and a written research report.

Entry requirements

The MSc in Biomedical Engineering is designed for graduates from an engineering, sciences (physics) or relevant background with significant engineering/sciences content.

To be admitted to the MSc Biomedical Engineering degree, you need the equivalent of a UK Honours degree to at least an upper second class standard (2:1). This should be in engineering, physics or other related subject and must include good grades in mathematical modules. We can consider strong industrial experience in the healthcare sector if your degree does not meet the requirements.

English language requirements

Fees and funding

Full Time Fees

Tuition fees
Home students £14,500 per year
EU students £33,000 per year
Island students £14,500 per year
International students £33,000 per year

Part Time Fees

Tuition fees
Home students £8,000 per year
EU students £18,200 per year
Island students £8,000 per year
International students £18,200 per year

The tuition fees shown are for one complete academic year of study and are set according to the academic year of entry. Fees will be subject to an annual inflationary increase and are expected to rise throughout the programme of study. The fee listed above is for the first year of the course only. More information is available here: Tuition fees - how much are they - Durham University

Please also check costs for colleges and accommodation.

Scholarships and Bursaries

We are committed to supporting the best students irrespective of financial circumstances and are delighted to offer a range of funding opportunities. 

Find out more about Scholarships and Bursaries

Career opportunities

Department of Engineering

We take great pride in our reputation for producing engineers who make a successful and significant contribution in a wide range of professional career roles around the world.

We have strong links with industrial partners and our postgraduates have achieved rewarding and stimulating positions in civil, mechanical, electronic, electrical, manufacturing, design, aeronautics and systems engineering. They work as consultants, technology analysts, and software developers and as entrepreneurs, and also gain prestigious positions in banking and finance.

The Department has a dedicated careers contact who is available to offer advice and carry out mock interviews.

Our Industrial Partnership Committee of around 20 local, national and international companies will ensure you have access to the best employment opportunities.

Department information

Department of Engineering

The Department of Engineering is a general engineering department that works on the principle that engineering is an integrated subject rather than a series of unconnected topics. The world-leading teaching and the research opportunities that we offer underline this academic positioning.

We guide postgraduate researchers so that they are able to make a significant contribution in the Department’s key areas of engineering focus. These topics range from the development of energy systems of the future, through next generation materials and microsystems to creating sustainable infrastructures. All reflect the challenges now facing the modern world.

Taught courses include MSc qualifications in Advanced Mechanical Engineering, Civil Engineering, Electrical Engineering, Electronic Engineering and Renewable and Sustainable Energy. We also offer the Doctor of Philosophy and the Master of Science by Research, which involve individualised training and require an extensive research project or thesis to be completed.

Teaching and supervision are provided by the Department’s subject specialists, who have an outstanding reputation for their expertise. An extensive range of facilities is available to support research work and we have strong and productive links with industry partners, ensuring that the research is relevant and applicable at this challenging yet exciting time to be in engineering.

Facilities

The Department of Engineering features a number of modern dedicated teaching laboratories including the newly refurbished electrical laboratory. Other facilities include a wind tunnel, state-of-the-art clean rooms for experiments in very controlled environments and a geotechnical engineering laboratory.

An investment of more than £4 million has boosted the computing resources available, providing large memory and high-end processor machines for projects requiring major computer capacity.

Our students benefit from the Engineering Open Access area, which was built to facilitate both group work and individual projects.

The Department is located on the main campus at Lower Mountjoy, close to the centre of Durham and a UNESCO World Heritage site.

Apply

Find out more:

Apply for a postgraduate course (including PGCE International) via our online portal.  

Visit Us

The best way to find out what Durham is really like is to come and see for yourself!

Join a Postgraduate Open Day
  • Date: 01/09/2023 - 31/08/2024
  • Time: 09:00 - 17:00
Find out more
Self-Guided Tours
  • Date: 01/09/2023 - 31/08/2024
  • Time: 09:00 - 16:00
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