Bradford, United Kingdom
DURATION
1 year
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2025
TUITION FEES
GBP 24,180 / per year *
STUDY FORMAT
On-Campus
* international / home: GBP 9,462
Key Summary
Introduction
Biomedical engineering is a fast-evolving interdisciplinary field, which has been at the forefront of many medical advances in recent years. As such, it is a research-led discipline, which sits at the cutting edge of advances in medicine, engineering and applied biological sciences.
This MSc programme is designed to provide advanced biomedical engineering education and to develop specialist understanding; the programme contains a large project component which allows you to develop advanced knowledge and research skills in a specialist area.
The programme also aims to develop a multidisciplinary understanding of the subject, which can be applied in a variety of clinical, biomedical and industrial settings. All subjects are taught by biomedical/medical engineers and clinical scientists. This allows you to gain the related skills and experience in healthcare science and technology, engineering principles and manufacturing, and management of various industry-standard medical devices.
Cutting-edge research feeds directly into teaching and various student projects, ensuring your studies are innovative, current and focused with direct relation to related industries. All academic staff are research-active and very enthusiastic, leading to research-led/taught core modules with an excellent pass rate.
Professional Accreditation
Accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng-accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.
Gallery
Admissions
Curriculum
What you will study
All module information is for 2023 entry and is subject to change.
First-year
Core
- Regenerative Medicine
- Telemedicine & E-Health
- Clinical Biomechanics
- Clinical Diagnostics
- MSc Project
Option
- Supply Chain Management and Production
- Statistical Applications of Industrial Big Data
- Big Data Visualisation
- Polymer and Materials Engineering
- Imaging
- Materials Characterisation
- Food and Pharmaceutical Process Engineering
Learning and assessment
- Formal and informal lectures
- Tutorials
- Laboratory practicals
- Workshop skills
- Seminars
- Group and individually assessed projects
Career Opportunities
Career support
We aim to produce postgraduates who aspire to challenging careers in industry, the National Health Service (NHS), commerce and the public sector or to developing their own enterprises. You should therefore be able to move directly into responsible roles in employment with a minimum of additional training. This aim is achieved by:
- Providing a supportive, structured environment in which students are encouraged to develop independent learning and research skills
- Developing subject knowledge and understanding, developing discipline skills and developing personal transferable skills, to enable graduates to pursue programmes of advanced study, or to move directly into responsible employment
Various local and national companies including NHS trusts are invited for graduate careers/schemes and for providing placement year specific to biomedical/medical engineering students.
Career prospects
Biomedical Engineering is a growing, increasingly important field, with many significant diagnostic and therapeutic advances pioneered by biomedical engineers. It is highly interdisciplinary in nature and requires engineers who are flexible, able to acquire new skills, and who have a broad knowledge base. In particular, given the research-lead nature of the discipline, there is demand for engineers who can work effectively in a research-lead environment and who can push forward technological boundaries.
Consequently, there is need for people with advanced knowledge and skills, who have a good appreciation of developments in the clinical and biological fields. The MSc in Advanced Biomedical Engineering programme is designed to give you this.
There is a shortage of professionally qualified engineers in both routine clinical and medical research activities in hospitals, industrial research centres and companies that design, maintain, repair and manufacture electronic medical devices and equipment for public and private health services.
Program Tuition Fee
Scholarships and Funding
Every year we award numerous non-repayable scholarships to UK, EU, and international students on the basis of academic excellence, personal circumstances, or economic hardship.