City, University of London

Course Introduction

The integrated MEng (Hons) Biomedical Engineering degree is designed to offer students the most direct route to achieving CEng professional registration. Becoming a biomedical engineer promises an exciting career, bridging the advances in biomedical sciences with professional skills in delivering engineering projects within a rapidly growing field.

Biomedical Engineering applies the principles of science, engineering and medicine directly to the complex medical technologies used in the prognosis, diagnosis, monitoring and treatment of the sick and injured. Biomedical engineers also require managerial and communication skills and an awareness of the economic, environmental and social implications of their activity. Our courses are designed to provide excellent training in all these areas.

You can undertake a summer internship at the end of each academic year or opt to spend a year on an industry placement at the end of your third year. Our team of placement specialists, the Professional Liaison Unit, has extensive experience in helping students to secure professional experience across a range of industries. Placements are paid, and are a fantastic way to gain professional experience in a relevant field as part of your degree. Undertaking a placement year could also count towards the experience requirement for a professional engineering qualification. In recent years Biomedical Engineering students have been able to obtain placements at leading companies within their chosen field such as Urban Science, Great Ormond Street Hospital, Department for Work and Pensions, UCAS and Genetic Microdevices.

Biomedical engineers today work in a range of industries. Their problem-solving skills and multidisciplinary education are well known and respected in the UK industry and abroad. Modern provision of healthcare depends greatly on biomedical engineers who are skilled in the design and operation of specialist instrumentation and imaging equipment. Becoming a biomedical engineer promises an exciting career, bridging the advances in biomedical sciences with professional skills in delivering engineering projects within a rapidly growing field.

Recent graduates have joined employers such as Philips Healthcare, Covidien, Siemens, Genetic Microdevices, AstraZeneca, Intertek and major hospitals in the NHS and overseas.

Course Modules

On the Biomedical Engineering course, you will cover a range of engineering applications that are relevant to the needs of the healthcare industry. Subjects covered include measurement, data analysis, mechatronics, biosignal and image processing, medical physics, biomedical instrumentation and biomedical optics.

Year one is common to all of the engineering courses. Students study the science and mathematics that underpin engineering principles. Group exercises provide students with the opportunities to undertake preliminary engineering designs.

Students begin to specialise in Biomedical Engineering in year two while also studying measurement, data analysis and mechatronics.

The third year includes biosignal and image processing, medical physics and biomedical instrumentation, together with biomedical optics.

The final year of the integrated Masters involves a major individual research project and group design exercises and modules covering variety of topics including advanced structural analysis and heat transfer, advanced computational fluid dynamics etc. Students can select one of the following options: European Global Product Design (EGPR), Formula Student, Aircraft Design Project or Gas Turbine project. Please note that project availability may vary year to year dependent on student cohort size, demand and resource constraints.

Start Date:

09/2020

Duration & Attendance Qualification Tuition fees Fee type
4 years
Full Time
Master of Engineering (with Honours) - MEng (Hon) Other Fees