Biomedical Engineering
The Master of Engineering (Integrated Undergraduate Degree) in Biomedical Engineering at Imperial College London is a four-year, full-time program that combines engineering principles with biological sciences to solve healthcare challenges. Students will study areas such as biomechanics, biomaterials, tissue engineering, and medical device design. The program emphasizes the development of technologies that improve patient care and treatment outcomes.
Graduates will be well-prepared for careers in biomedical research, healthcare technology, and medical device development, where they can design innovative solutions to medical problems. The program’s focus on both engineering and biological sciences ensures that students are equipped to lead in the field of biomedical engineering.
Key information
Key Facts
Program Title: Master of Engineering in Biomedical Engineering
Degree Type: Master of Engineering (Integrated Undergraduate Degree)
Duration: 4 years
Mode of Study: Full-time, On Campus
Application Deadline: 14th January 2026
Location: University of Imperial College London, United Kingdom
Field of Study: Bio & Biomedical Engineering
Language of Instruction: English
Program Structure
Year 1 – Foundations of Biomedical Engineering and Scientific Principles
- Introduction to Biomedical Engineering and Medical Technologies
- Biology for Engineers: Anatomy, Physiology, and Biochemistry
- Engineering Mathematics and Computational Methods
- Introduction to Materials Science and Biomaterials
- Mechanical and Electrical Engineering Principles for Biomedical Applications
- Biomedical Instrumentation and Measurement Techniques
Year 2 – Intermediate Biomedical Engineering and Design Principles
- Biomechanics and Tissue Engineering
- Medical Imaging Systems and Techniques
- Biophysics and Biomedical Signal Processing
- Sensors and Actuators in Biomedical Devices
- Cell Biology and Bioengineering Applications
- Biomedical Ethics, Regulation, and Safety
Year 3 – Applied Biomedical Engineering and Healthcare Systems
- Advanced Biomaterials and Drug Delivery Systems
- Medical Device Design and Development
- Neural Engineering and Brain-Computer Interfaces
- Computational Modeling in Biomedical Systems
- Healthcare Systems and Medical Informatics
- Research Project in Biomedical Engineering or Industry Placement
Year 4 – Advanced Biomedical Engineering and Independent Research
- Advanced Topics in Biomedical Engineering (e.g., Regenerative Medicine, Nanomedicine)
- Biomechanical Engineering and Prosthetics Design
- Rehabilitation Engineering and Assistive Technologies
- Independent Research Project in Biomedical Engineering (Industry-based or Academic)
- Medical Robotics and Surgical Systems
- Entrepreneurial Innovation in Biomedical Engineering
Career Opportunities
Graduates of the Biomedical Engineering MEng program are highly sought after in medical device companies, healthcare technology firms, biotechnology startups, and research institutions. The program provides the knowledge and skills required to design and develop cutting-edge biomedical devices, medical imaging systems, and assistive technologies. Career opportunities include roles as biomedical engineers, medical device designers, regulatory affairs specialists, clinical engineers, prosthetics engineers, and research scientists. Graduates are also well-prepared to work in the growing field of healthcare robotics or pursue careers in medical research and biomedical consulting. Many students choose to continue their studies through PhD programs in specialized fields like biomechanics, tissue engineering, or neural engineering. The program's focus on hands-on projects, industry collaboration, and innovation ensures that graduates are ready to take on leadership roles in healthcare technologies and contribute to advancements in medical science and patient care.
Why Choose This Program
The Biomedical Engineering MEng program at Imperial College London offers an exceptional education at the intersection of engineering, medicine, and biology. Students benefit from a rigorous curriculum that combines engineering principles with medical and biological sciences, preparing them to address real-world challenges in healthcare and medical technologies. Imperial’s world-leading faculty, state-of-the-art labs, and strong industry connections provide students with unparalleled opportunities for hands-on learning, research, and internships. The program’s emphasis on biomedical device development, medical imaging, and healthcare systems engineering ensures graduates are ready to take on roles in industries ranging from medical device manufacturing to clinical research. With a focus on innovation, entrepreneurship, and global healthcare challenges, graduates are equipped to shape the future of healthcare technology and contribute to improving patient outcomes and advancing medical treatments.
Contact Information
For further information, please contact the admissions office at:
Phone: +44 (0)20 7589 5111
Email: admissions@imperial.ac.uk
Address: Imperial College London, South Kensington Campus, London SW7 2AZ, United Kingdom
