BSc Bioengineering (Regenerative Medicine)

At Keele University, the BSc Bioengineering (Regenerative Medicine) programme gives students a rich mix of theory and hands-on experience. From the very first year, students take part in laboratory sessions, collaborative projects, and research initiatives that prepare them for real-world careers in bioengineering and regenerative medicine.

Key experiential learning opportunities include:

• Year-long laboratory series in Years 1 and 2: Students gain authentic laboratory skills that build a strong foundation for more advanced work later in the degree.

• Intensive 12-week research project in Year 3: This major project allows students to apply their knowledge to real-world challenges in regenerative medicine, working closely with academic supervisors.

• Optional Work Placement Year: Students can extend their studies by a year to gain practical experience in academic labs, industry, or research institutions, boosting their employability.

• Study Abroad Opportunities: Options for a semester or an international year give students a global perspective on bioengineering.

• Elective Modules: Students can choose additional modules, such as modern languages or computer science, to broaden their skill set.

• State-of-the-Art Research Facilities: The programme uses advanced labs, including the Guy Hilton Research Institute and the Robert Jones and Agnes Hunt Orthopaedic Hospital, giving students access to cutting-edge equipment and resources.

• Collaborative Learning Spaces: Keele’s campus encourages teamwork and innovation through modern, shared learning environments.

• Access to Modern Software and Tools: Students work with industry-standard software and tools relevant to bioengineering and regenerative medicine, enhancing their technical expertise.

• Field Trips and Industry Visits: Students have the chance to visit industry partners and see how their studies are applied in real-world settings.

• Comprehensive Library Resources: Keele’s libraries provide extensive journals, databases, and study spaces to support academic research and learning.

Through these experiences, students graduate not only with strong theoretical knowledge but also with the practical skills, confidence, and industry awareness needed to excel in the fast-moving field of bioengineering and regenerative medicine.

Graduates of the BSc Bioengineering (Regenerative Medicine) at Keele University are well-equipped to enter dynamic fields such as tissue engineering, regenerative medicine, and biomedical device development. Typical roles include:

• Tissue Engineering Researcher

• Biomedical Device Design Engineer

• Regenerative Medicine Specialist

• Bioprocessing or Biomanufacturing Engineer

These positions are supported by Keele's strong industry connections and comprehensive career services:

• Careers and Employability Team: Offers tailored support including CV workshops, mock interviews, and networking events to help students secure employment in their chosen field.

• Work Placement Year: Provides an optional 9–12 month placement in academic laboratories, industry, or research institutions, allowing students to gain practical experience and enhance their employability.

• International Year Opportunities: Students can apply for an additional year of study at international partner institutions, broadening their global perspective and academic experience.

• Industry Partnerships: Keele University collaborates with leading institutions such as the University of Napoli and the Centre for Regenerative Medicine in Barcelona, facilitating student exchanges and research opportunities.

• State-of-the-Art Facilities: Students have access to advanced laboratories at Keele's campus and partner hospitals, including the Guy Hilton Research Centre and the Robert Jones and Agnes Hunt Orthopaedic Hospital.

Further Academic Progression:

After completing the BSc Bioengineering (Regenerative Medicine), students may pursue postgraduate studies such as:

• MSc in Medical Engineering (Biomedical Engineering): Develops expertise in creating platforms, equipment, and software to improve patient care.

• MSc in Medical Engineering (Cell and Tissue Engineering for Regenerative Medicine): Focuses on advanced techniques in tissue engineering and regenerative medicine.

• PhD in Bioengineering or Related Fields: Offers opportunities for in-depth research and specialization in areas like stem cell therapy, biomaterials, or regenerative technologies.

These advanced programs further enhance career prospects in research, academia, and specialized industries.