Course summary

This biomedical and healthcare engineering degree prepares you for a career working in healthcare, with possible destinations including hospitals, research facilities, educational institutions, or regulatory government agencies. As a trained biomedical and healthcare engineer, you directly apply the principles of science, engineering, and medicine to the operation of complex medical technologies. The expertise you develop at City will be used in the prognosis, diagnosis, monitoring and treatment of sick and injured people. This interdisciplinary course begins with a general engineering foundation and introduces elements of health sciences, before focusing on advanced biomedical and healthcare engineering. Advanced subjects include biomedical instrumentation, biomaterials, biomechanics and rehabilitation engineering, and biosignal analysis techniques. Your learning involves a combination of theoretical, experimental, and computational study. Our approach encourages critical thinking and fosters curiosity through teamwork and independent study. Group learning and communication skills are emphasised through design projects and presentations, which will demonstrate your expertise to future employers.

Benefit from industry and NHS involvement, with projects set by external professionals, and guest lectures from practising biomedical and healthcare engineers

Study in world-leading test facilities, including our flagship Biomedical Engineering Research Centre, where you conduct research and test theories

Design and fabricate healthcare technologies, perform physiological measurements and undertake analysis of biosignals

Take an optional placement year to boost your employability – recent placements have included Great Ormond Street Hospital for Children, St Bartholomew’s Hospital, Draeger, PerkinElmer, CureVac, Genetic Microdevices (GMD)

Fast-track to Chartered Engineer status with a degree that meets all academic requirements for professional registration.

Careers in biomedical and healthcare engineering span widely across modern engineering and science. You might find work in the newest scientific fields, such as biosensing, imaging, artificial intelligence, or machine learning. Your specialist skills will also be highly transferable to roles and industries outside the biomedical and healthcare engineering sector. Our graduates can be found in businesses, research organisations and health services around the world. You could join our biomedical and healthcare engineering alumni in any of the following sectors:

Medical technology

Academic research

Medicine and healthcare (NHS)

Finance and professional services

Management consultancy

We have every expectation that these degrees will receive full accreditation from the Institute of Physics Engineering in Medicine (IPEM), the Institute of Engineering and Technology (IET) and the Institute of Measurement and Control (InstMC).

Modules

You will develop a strong technical background in the key subjects of biomedical and healthcare engineering, with management studies and engineering design also integral parts of the course. The Engineer in Society is an innovative theme across each year. We introduce you to the economic, social and technical context where engineers work, and develop your social responsibility, knowledge, and topical engineering skills. Year 1 Build a firm foundation in mathematics, engineering, physics, electronics and computing – including anatomy, physiology and pathology. -The Engineering in Society - Social responsibility (15 credits) -Anatomy and Physiology (15 credits) -Introductory Mathematics and Programming (15 credits) -Electronics - including circuits, digital and analog electronics (15 credits) -Introduction to programming (15 credits) -Engineering Science (15 credits) -Mathematics 1 (15 credits) -Introduction to Thermodynamics and Fluid Mechanics (15 credits) Year 2 Learn to apply engineering analysis to simple but representative components of engineering systems. You will study biomedical design and advance your knowledge of biomedical instrumentation, biomaterials, biomechanics and rehabilitation engineering. -The Engineer in Society: Sustainability and Circular Economy (15 credits) -Mathematics 2 (15 credits) -Engineering Design 2 (15 credits) -Biomedical Instrumentation (15 credits) -Engineering Based Data Analysis (15 credits) -Biomaterials (15 credits) -Biomechanics & Rehabilitation Technology (15 credits) -Electrophysiology & Cardiorespiratory Measurements (15 credits) Year 3 Deepen your specialism with topics including biosignals, biosensors, medical physics and imaging, physiological fluid mechanics and biological system modelling. Your individual research project will consider the design, development and evaluation of a healthcare technology. -Individual project (30 credits) -Biomedical and Healthcare Engineering in the society (15 credits) -Biomedical Signal Processing (15 credits) -Biomedical Sensors (15 credits) -Biological Systems Modelling (15 credits) -Medical Physics and Imaging (15 credits) -Physiological Fluid Mechanics (15 credits)

Assessment method

Assessment is by coursework and examinations. Group learning and communication skills are addressed through design studies and presentations. Practical and technical skills are assessed through laboratory work, data analysis and project reports. Grades obtained in each year count towards the final degree classification, with increasing weight given to the later years.

How to apply

31Jan

This is the deadline for applications to be completed and sent for this course. If the university or college still has places available you can apply after this date, but your application is not guaranteed to be considered.

Application codes

Course code:: BH01

Institution code:: C60

Campus name:: Main Site

Campus code:: -

Points of entry

The following entry points are available for this course:

Year 1

Entry requirements

Qualification requirements

UCAS Tariff - 120 points

A level - BBB

Pearson BTEC Level 3 National Extended Diploma (first teaching from September 2016) - D*DD

in Engineering (First teaching Sept 2016) with minimum grade D in units 1 - Engineering Principles, 7 - Calculus to Solve Engineering Problems and 8 - Further Engineering Mathematics. Candidates must also have a minimum of grade 6 in GCSE Mathematics and Science/Physics. OR D*DD in Civil Engineering / Construction and the Built Environment / Building Services Engineering (First teaching Sept 2017) with minimum grade D in unit 1 – Construction Principles and unit 15 – Further Mathematics for Construction. Candidates must also have a minimum of grade 6 in GCSE Mathematics and Science/Physics.

Access to HE Diploma - D: 33 credits M: 12 credits

International Baccalaureate Diploma Programme - 30 points

GCSE/National 4/National 5

T Level - D

Student Outcomes

Fees and funding

Tuition fees

England	£9250	Year 1
Northern Ireland	£9250	Year 1
Scotland	£9250	Year 1
Wales	£9250	Year 1
EU	£20760	Year 1
International	£20760	Year 1
Channel Islands	£20760	Year 1
Republic of Ireland	£20760	Year 1

Additional fee information

No additional fees or cost information has been supplied for this course, please contact the provider directly.

Degree level: Undergraduate

Biomedical and Healthcare Engineering (with placement)

Course options

Open days