MA English Literature
The MA in English Literature at the University of Reading offers a comprehensive and im...
BEng Biomedical Engineering
Reading
INTAKE: September
Program Overview
The BEng Biomedical Engineering program at the University of Reading is designed to equip students with the knowledge and skills required to excel in the rapidly advancing field of biomedical engineering. This program offers a comprehensive education that blends engineering principles with biological and medical sciences, enabling students to work on innovative solutions to healthcare challenges. The BEng Biomedical Engineering program provides a solid foundation in the key areas of engineering while also emphasizing the practical application of this knowledge in medical technology and healthcare systems. Graduates are prepared to work in a range of industries, including medical device development, healthcare systems engineering, and biomedical research.
Curriculum: The curriculum of the BEng Biomedical Engineering program is structured to provide both theoretical knowledge and practical experience. In the early years, students are introduced to core engineering concepts, including mechanics, electronics, and materials science, alongside fundamental biological and medical principles. As the program progresses, students delve deeper into specialized subjects such as medical imaging, biomaterials, biomechanics, and the design of medical devices. The program incorporates hands-on learning through laboratory work, design projects, and industry-focused case studies. In the final year, students have the opportunity to undertake a major individual project that allows them to apply their skills to real-world biomedical engineering challenges. The curriculum is designed to meet the needs of a diverse range of industries, ensuring that graduates have the versatility to pursue careers in both engineering and healthcare sectors.
Research Focus: The University of Reading has a strong research focus in biomedical engineering, with particular expertise in areas such as medical device development, tissue engineering, and biomedical imaging. The university’s research is driven by the goal of improving patient care and advancing healthcare technologies. Students in the BEng Biomedical Engineering program benefit from the university’s close ties to research projects, giving them the opportunity to work alongside leading researchers and contribute to innovative studies. Research facilities at the university include state-of-the-art laboratories and equipment, enabling students to engage in cutting-edge research that directly impacts the future of healthcare. The university also collaborates with industry partners to address real-world medical engineering challenges, providing students with a unique opportunity to be involved in translational research.
Industry Engagement: Industry engagement is a central component of the BEng Biomedical Engineering program at the University of Reading. The program places a strong emphasis on preparing students for the workforce by offering opportunities to work with industry professionals and companies. Students can participate in placements, internships, and live projects that allow them to apply their academic knowledge to real-world biomedical engineering challenges. These industry connections provide valuable networking opportunities and help students gain insights into the latest trends and developments in medical technology. The university’s partnerships with leading medical device companies, healthcare organizations, and research institutions ensure that students have access to the latest industry knowledge and technologies. Graduates of the program are well-prepared to enter the biomedical engineering field with practical experience and professional connections.
Global Perspective: The University of Reading offers students a global perspective on biomedical engineering by integrating international perspectives into the curriculum and research. With students from diverse backgrounds and global industry links, the university fosters an environment that encourages cross-cultural collaboration and the sharing of ideas. The program includes opportunities for students to participate in international research projects and industry placements, broadening their understanding of how biomedical engineering is applied in different regions. The global perspective is further enhanced by the university’s involvement in international research collaborations, which give students the chance to engage with experts and institutions around the world. Graduates of the BEng Biomedical Engineering program are equipped with the knowledge and skills needed to work in the global healthcare and engineering sectors.
Location
Reading
Score
IELTS 6.5
Tuition Fee
£ 29950
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 70% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 5.5.
- TOEFL: A minimum overall score of 88.
- PTE Academic: A minimum overall score of 69.
- DET Academic: A minimum overall score of 125.
- Some programs may have specific subject prerequisites or additional requirements.
The University of Reading offers a variety of scholarships for international students to support academic excellence and financial needs.
Vice-Chancellor Global Scholarship Award: Merit-based scholarship for high-achieving international students. Covers partial tuition fees for undergraduate and postgraduate programs.
Subject-Specific Scholarships: Offered by individual departments based on academic excellence and course selection. Examples include scholarships in Business, Law, Agriculture, and Science.
Chevening Scholarships: A UK government-funded scholarship for outstanding students from eligible countries. Covers tuition fees, living expenses, and travel costs.
Country-Specific Scholarships: Scholarships tailored for students from specific countries, including India, China, and the USA. Criteria vary based on nationality and academic performance.
The BEng Biomedical Engineering program at the University of Reading prepares students to pursue a wide range of career opportunities in the dynamic and rapidly advancing field of biomedical engineering. By combining engineering principles with medical and biological sciences, graduates are equipped with the technical skills and knowledge required to work on innovative healthcare technologies and medical devices. With its strong emphasis on practical experience, industry engagement, and cutting-edge research, the program offers excellent prospects for a rewarding career in the biomedical sector.
Biomedical Engineer: One of the most common career paths for graduates of the BEng Biomedical Engineering program is becoming a biomedical engineer. Biomedical engineers design, develop, and maintain medical devices and equipment used in healthcare settings. Graduates can work in various areas, such as medical imaging, prosthetics, and medical instrument design. With their expertise in both engineering and biological sciences, biomedical engineers play a crucial role in improving patient care by creating solutions that enhance medical procedures, diagnoses, and treatments.
Medical Device Development Engineer: The field of medical device development is one of the fastest-growing sectors in biomedical engineering. Graduates can work as medical device development engineers, designing and testing new technologies such as diagnostic equipment, surgical instruments, and implants. These professionals are responsible for ensuring that devices meet regulatory standards, are safe for patient use, and function as intended. Companies specializing in medical technology and healthcare innovation often employ biomedical engineering graduates in this role.
Clinical Engineer: Clinical engineers work within healthcare facilities, using their engineering skills to manage and maintain medical equipment. This role involves troubleshooting, repairing, and ensuring the safe operation of a wide range of medical technologies. Clinical engineers collaborate with healthcare professionals to ensure that medical devices are used efficiently and effectively in patient care. Graduates of the BEng Biomedical Engineering program are well-prepared to step into this role, as they have an understanding of both the engineering and medical aspects of healthcare.
Biomechanics Engineer: Biomechanics is a specialized area within biomedical engineering that focuses on the mechanical principles of human movement. Biomechanics engineers design and analyze devices that assist with movement and mobility, such as prosthetics, orthotics, and exoskeletons. They also work in sports science, helping to develop technologies that improve athletic performance and reduce injury. Graduates with an interest in biomechanics can pursue careers in rehabilitation, research, and performance enhancement.
Tissue Engineer: Tissue engineering is an exciting and rapidly developing field within biomedical engineering that involves creating artificial tissues and organs to replace damaged or diseased body parts. Tissue engineers work on designing scaffolds and growing cells that can be used for transplant, wound healing, or research purposes. Graduates with a strong interest in biology and medical research can contribute to cutting-edge developments in regenerative medicine and stem cell research.
Healthcare Systems Engineer: Healthcare systems engineers work to optimize the delivery of healthcare by improving the design, implementation, and operation of healthcare systems. They may be involved in the integration of new medical technologies into healthcare infrastructure, the management of hospital systems, or the development of healthcare software applications. This career path requires strong problem-solving and project management skills, which are cultivated during the BEng Biomedical Engineering program. Graduates are well-equipped to enter the growing field of healthcare systems engineering, which combines technology, healthcare, and management.
Biomedical Researcher: For graduates interested in the scientific side of biomedical engineering, a career in research is a promising option. Biomedical researchers study biological processes, design experiments, and develop new technologies aimed at improving healthcare. Research roles can be found in universities, private research organizations, government agencies, or pharmaceutical companies. Many biomedical engineering graduates pursue further study, such as a Master’s or PhD, to specialize in a particular area of biomedical research.
Regulatory Affairs Specialist: Regulatory affairs specialists ensure that medical devices and technologies comply with regulatory standards and guidelines set by health authorities such as the FDA (Food and Drug Administration) or EMA (European Medicines Agency). These professionals play a key role in ensuring that biomedical products are safe, effective, and meet legal requirements before they are brought to market. Graduates with an understanding of both engineering principles and healthcare regulations are well-suited for this important career.
Forensic Engineer: Forensic engineers apply their engineering knowledge to legal matters, particularly in cases involving medical device failure or injury. They analyze medical technologies and their failure modes to determine causes of accidents or injuries. Graduates who are interested in the intersection of engineering, law, and healthcare can pursue a career in forensic engineering, where their technical expertise is applied to investigations, legal proceedings, and litigation.
Teaching and Academia: Graduates of the BEng Biomedical Engineering program who are passionate about education and research may choose to pursue teaching roles in academic institutions. With further study, such as a master’s or PhD, they can become university lecturers, teaching the next generation of biomedical engineers. Academic careers also offer opportunities to conduct research and contribute to scientific knowledge in the field of biomedical engineering.
