Biomedical Engineering
From realistic and powerful prosthetic limbs to individually engineered implants, and from high-tech scanners to tiny cameras that can explore blood vessels, biomedical engineers work to develop products at the cutting edge of what is possible to heal and help the human body. When you study Biomedical Engineering, you not only learn how the body works and becomes injured, but you come to understand how medical devices are developed to treat injuries and disease, and how we can help the body heal itself. You’ll use state-of-the-art labs and tools such as 3D simulations and machine learning as you study. Make a real difference If you’re creative, analytical, inquisitive, and innovative, and keen to work in a fast-growing field with real human impact, this could be the course for you. You’ll get biological and medical knowledge, and technical engineering expertise, so you can solve problems in biomedicine. You’ll study advanced biology, biomaterials, biomechanics, tissue engineering, medical device design, surgical technology, rehabilitation engineering and much more besides. In third year, you’ll do a 6-to-10-month INTRA work placement to put what you’ve learned into practice. And you can also opt to study abroad. Both the healthcare and medical devices industry have strong demand for qualified graduate engineers. Typically, our graduates end up working as biomedical engineers, consultants, research and development engineers or data scientists.

Description
From realistic and powerful prosthetic limbs to individually engineered implants, and from high-tech scanners to tiny cameras that can explore blood vessels, biomedical engineers work to develop products at the cutting edge of what is possible to heal and help the human body. When you study Biomedical Engineering, you not only learn how the body works and becomes injured, but you come to understand how medical devices are developed to treat injuries and disease, and how we can help the body heal itself. You’ll use state-of-the-art labs and tools such as 3D simulations and machine learning as you study. Make a real difference If you’re creative, analytical, inquisitive, and innovative, and keen to work in a fast-growing field with real human impact, this could be the course for you. You’ll get biological and medical knowledge, and technical engineering expertise, so you can solve problems in biomedicine. You’ll study advanced biology, biomaterials, biomechanics, tissue engineering, medical device design, surgical technology, rehabilitation engineering and much more besides. In third year, you’ll do a 6-to-10-month INTRA work placement to put what you’ve learned into practice. And you can also opt to study abroad. Both the healthcare and medical devices industry have strong demand for qualified graduate engineers. Typically, our graduates end up working as biomedical engineers, consultants, research and development engineers or data scientists.
Intakes
September Intake 2025 ( Open )
English Test Scores
- DET (Duolingo English test) [ 120 ]
- IELTS (International English Language Testing System) [ 6.5 ]
- PTE (Pearson Test of English) [ 63 ]
- TOEFL Internet Based [ 92 ]