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The BEng (Hons) Biomedical Engineering at London Metropolitan University is an exciting program that combines the worlds of engineering and medicine to develop innovative technologies that improve human health. Designed for students who are curious about how engineering principles can be applied to medical challenges, this course suits those interested in designing medical devices, improving healthcare systems, or exploring cutting-edge biotechnology.
Curriculum Structure:
In the first year, students build a solid foundation in both engineering and biological sciences. You’ll study key modules such as Engineering Mathematics, Fundamentals of Electronics, Anatomy and Physiology for Engineers, and Introduction to Biomedical Engineering. These courses give you the essential grounding to understand how biological systems interact with engineering technologies.
The second year moves into more specialised and applied learning. Modules like Biomechanics, Medical Instrumentation, Signals and Systems, and Biomaterials teach you how to design and analyse medical devices and understand the mechanical and electrical systems behind them. Group projects and lab work encourage collaboration and hands-on experimentation.
In the final year, the focus is on innovation and professional application. You’ll work on a major Biomedical Engineering Project, integrating the knowledge you’ve gained to solve a real-world problem. Core modules such as Control Systems, Rehabilitation Engineering, and Medical Imaging Technologies help you refine your technical and analytical skills, preparing you for professional practice or postgraduate research.
Focus Areas: Biomedical instrumentation, biomechanics, biomaterials, medical imaging, rehabilitation engineering, and healthcare technology innovation.
Learning Outcomes: Graduates will develop strong technical, analytical, and design skills, with the ability to apply engineering concepts to medical and biological problems, design safe and effective medical devices, and contribute to research and innovation in healthcare technology.
Professional Alignment (Accreditation): The course follows professional engineering standards and aligns with the educational requirements for eventual Chartered Engineer (CEng) status through the Institution of Engineering and Technology (IET).
Reputation (Employability Rankings): London Metropolitan University is well-regarded for its practical, career-focused teaching and commitment to employability, with graduates moving into diverse roles across biomedical and healthcare engineering sectors.
The BEng (Hons) Biomedical Engineering program at London Metropolitan University is designed to immerse students in hands-on learning through practical experiments, real-world projects, and access to advanced laboratory facilities. From the very first year, students engage with professional-grade biomedical equipment, simulation tools, and design software used across the healthcare technology industry. The course emphasizes applied knowledge — ensuring that students can translate engineering theory into medical innovation, whether through device design, biomaterials testing, or clinical system analysis.
Students gain direct experience through workshops, research assignments, and collaborative projects that mirror challenges faced by biomedical engineers in hospitals, labs, and manufacturing sectors. The program integrates practice-based learning across multiple platforms and facilities such as:
Specialized laboratories including the Biomedical Engineering Lab, Electrical and Electronic Engineering Lab, and Robotics Lab for practical testing and prototype development.
Access to 3D printing technology and CAD/CAM design suites used for medical device design and prosthetic modeling.
Software tools such as MATLAB and SolidWorks to simulate and analyze biomedical systems.
Group design projects where students work collaboratively to develop solutions for real-world biomedical challenges.
Industry-focused research opportunities with access to academic mentors and faculty involved in applied health technology research.
On-campus facilities like the Science Centre—one of Europe’s most advanced teaching facilities featuring superlabs for multidisciplinary learning.
Professional networking opportunities through guest lectures, industry workshops, and project-based collaborations.
This experiential structure ensures that graduates are not only confident in using medical engineering tools but also capable of designing and implementing innovative healthcare technologies that improve patient outcomes.
Graduates of the BEng (Hons) Biomedical Engineering program at London Metropolitan University step confidently into a field that blends medical science with innovative engineering. This degree opens doors to a wide range of careers where technology improves healthcare, such as Biomedical Engineer, Clinical Engineer, Medical Device Designer, or Rehabilitation Technologist. With a strong foundation in both biological systems and engineering principles, students are well-prepared to tackle real-world health challenges and drive innovation across the biomedical industry.
London Met ensures students are career-ready through comprehensive support and strong industry connections:
Career Development Support: The university’s Careers and Employability Service provides one-to-one career coaching, CV-building workshops, mock interviews, and networking events with industry professionals.
Employment Outcomes: London Met ranks highly for its commitment to employability, with many engineering graduates securing roles within six months of graduation.
Industry Partnerships: Students benefit from collaborations with healthcare technology companies and biomedical equipment manufacturers, gaining insights into practical engineering applications.
Professional Recognition: The program is designed in line with Engineering Council standards, helping graduates progress toward professional engineer status (IEng or CEng).
Practical Relevance: The course’s strong laboratory and project-based components ensure graduates meet the skills employers seek in the biomedical technology sector.
Further Academic Progression:
After completing this degree, graduates can advance their expertise through postgraduate study, such as a Master’s in Biomedical Engineering, Medical Physics, or Bioinformatics, or pursue PhD-level research in cutting-edge fields like tissue engineering, medical robotics, or nanotechnology. These higher qualifications further strengthen career prospects in academia, healthcare innovation, and biomedical research.
A Levels : DCC A minimum of 88 UCAS pointsIB : 22GCSE : English Language and Mathematics GCSE at grade C/grade 4 or above (or equivalent)IELTS : Overall score of 6.0 with 5.5 in each component / TOEFL iBT : Overall score of 72 with component scores: Listening: 17 | Reading: 18 | Writing: 17 | Speaking: 20for India : CBSE / ICSE / State Boards: 60% or above in both Class 10 (X) and Class 12 (XII)for USA : SAT / ACT: SAT score of 1100 (550+ in both subjects) or ACT score of 22 (for three-year undergraduate entry)for USA : APs (Advanced Placement): Two passes with grade 3 or above in relevant subjectsfor USA : GPA: At least one year (30 credits) at a US college / university with cumulative GPA of 2.7Career paths include roles such as Biomedical EngineerClinical EngineerMedical Device DesignerRegulatory Affairs SpecialistBiomechanics EngineerTissue EngineerRobotics EngineerRehabilitation EngineerResearch Scientistand Quality Assurance Specialist
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