MSc Biomedical Engineering

Postgraduate Entry Requirements

Application Fee: £50

Academic Qualifications:For postgraduate programs, applicants are expected to hold a bachelor's degree with academic qualifications falling within the range of 60% to 70%. This criterion ensures that candidates possess the foundational knowledge necessary for advanced studies at the postgraduate level.

English Proficiency: 

• IELTS: A minimum overall score of 6.5 or 7.0 with no individual component below 6.
• TOEFL: A minimum overall score of 92 on the TOEFL is accepted, with no sub-score in any section falling below 21.
• PTE: A minimum overall score of 62 with no individual score below 58.
• DET (Duolingo English Test): 110.
• Some postgraduate programs may have specific subject prerequisites or additional requirements.

Students must provide:

• academic marksheets & transcripts
• letters of recommendation
• a personal statement - SOP
• passport
• other supporting documents as required by the university.

Work experience: Some postgraduate courses may require relevant work experience in the field.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

At the heart of the University of Southampton's education lies its diverse scholarship program. These scholarships are strategically designed to cater to the varied needs and aspirations of students, recognizing and rewarding excellence across different dimensions.

Merit-Based Scholarships: Recognizing Academic Brilliance: Merit-based scholarships at the University of Southampton serve as a testament to the institution's dedication to academic excellence. These scholarships are bestowed upon students with exceptional academic achievements, encouraging and rewarding their learning. Whether in science, humanities, or business, these scholarships recognize brilliance across various disciplines.

Need-Based Scholarships: Breaking Financial Barriers: Understanding the financial constraints that students may face, the university offers need-based scholarships. Tailored to support students with demonstrated financial need, these scholarships aim to ensure that economic challenges do not impede their educational journey. This initiative reflects the university's belief in the transformative power of education for all.

Subject-Specific Scholarships: Fostering Excellence in Targeted Fields: For students with a passion for specific courses or disciplines, subject-specific scholarships are a gateway to realizing their potential. These scholarships are crafted to encourage excellence in targeted areas of study, motivating students to delve deeper into their chosen fields and contribute meaningfully to their academic communities.

International Student Scholarships: Embracing Diversity: In a globalized world, the University of Southampton actively embraces diversity through international student scholarships. These scholarships are designed to attract and support students from around the world, fostering a multicultural academic environment. The aim is to help international students integrate seamlessly into the university community, ensuring a rich and inclusive learning experience.

Graduates of the MSc Biomedical Engineering program at the University of Southampton possess a unique skill set that bridges engineering principles with applications in healthcare and life sciences. This interdisciplinary training opens up a diverse range of career opportunities in the rapidly evolving field of biomedical engineering. 

Biomedical Engineer: A primary career path is becoming a Biomedical Engineer. Graduates can work in research institutions, medical device companies, or hospitals, where they apply engineering principles to design, develop, and maintain medical devices and technologies. Biomedical Engineers play a crucial role in advancing healthcare through innovation.

Clinical Engineer: Graduates may pursue roles as Clinical Engineers, working in healthcare settings to manage and maintain medical equipment. They collaborate with healthcare professionals to ensure the safe and effective use of technology in patient care. Clinical Engineers also contribute to the implementation of new technologies in clinical settings.

Medical Device Designer: For those interested in product design, graduates can become Medical Device Designers. They work with multidisciplinary teams to create innovative and user-friendly medical devices. Medical Device Designers contribute to improving the efficiency and effectiveness of healthcare diagnostics and treatments.

Biomechanics Engineer: Graduates may specialize in biomechanics, becoming Biomechanics Engineers. They work on analyzing the mechanics of the human body, designing prosthetics and orthotics, and contributing to the development of technologies that enhance mobility and rehabilitation.

Imaging Engineer: For those interested in medical imaging, graduates can pursue roles as Imaging Engineers. They work on the development and maintenance of medical imaging equipment, such as MRI and CT scanners. Imaging Engineers play a critical role in ensuring the accuracy and quality of medical diagnostic images.

Biomedical Researcher: Graduates may choose to become Biomedical Researchers, contributing to cutting-edge research in healthcare and life sciences. They work in academic institutions, research centers, or pharmaceutical companies, exploring new technologies and methodologies that advance our understanding of human health.

Regulatory Affairs Specialist: With a focus on ensuring compliance with regulations, graduates can work as Regulatory Affairs Specialists in the biomedical industry. They navigate the regulatory landscape, ensuring that medical devices and technologies meet legal and safety standards before entering the market.

Healthcare Consultant: Graduates may explore roles as Healthcare Consultants, providing expertise on the implementation and optimization of biomedical technologies in healthcare settings. Healthcare Consultants work with healthcare providers and organizations to improve patient care through the strategic use of technology.

Biomedical Data Analyst: Given the rise of healthcare data, graduates can become Biomedical Data Analysts. They work on analyzing large datasets generated by biomedical technologies, contributing to research studies, and extracting meaningful insights that inform healthcare decision-making.

Biomedical Entrepreneur: For those with an entrepreneurial spirit, graduates may start their own ventures as Biomedical Entrepreneurs. They can establish startups focused on developing innovative medical devices, diagnostic tools, or healthcare technologies.

Clinical Trials Coordinator: Graduates interested in clinical research can become Clinical Trials Coordinators. They work on the planning, implementation, and monitoring of clinical trials for new medical devices or treatments, ensuring adherence to ethical and regulatory standards.

Rehabilitation Engineer: Graduates may specialize in rehabilitation engineering, working as Rehabilitation Engineers to design assistive technologies that enhance the independence and quality of life for individuals with disabilities.

Health Informatics Specialist: Given the increasing integration of technology in healthcare, graduates can become Health Informatics Specialists. They work on managing and analyzing healthcare information systems, contributing to the development of electronic health records and healthcare informatics solutions.

Biomedical Quality Engineer: For those interested in ensuring the quality of biomedical products, graduates can work as Biomedical Quality Engineers. They focus on quality control, risk management, and compliance with industry standards to ensure the safety and efficacy of medical devices.