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MSc Biomedical Engineering
Newcastle - England
INTAKE: September
Program Overview
The MSc in Biomedical Engineering at Newcastle University provides students with the knowledge and practical skills required to design, develop, and optimize medical devices and systems. The program covers key topics in biomedical engineering, including biomaterials, biomechanics, medical imaging, medical device design, and rehabilitation engineering. Students also explore the regulatory, ethical, and social implications of biomedical technologies in healthcare. This course is designed to produce graduates who are not only technically proficient but also capable of addressing real-world challenges in healthcare, with a focus on improving quality of life through engineering innovation. By the end of the program, students will be able to apply engineering principles to solve complex problems in medical technology and healthcare delivery.
Curriculum: The curriculum of the MSc in Biomedical Engineering at Newcastle University is structured to provide students with both theoretical knowledge and practical experience. The program includes a combination of core modules, optional modules, and a research project that contributes to the field of biomedical engineering. Core modules include topics such as biomaterials, biomechanics, tissue engineering, medical imaging, and sensor technologies. Optional modules allow students to specialize in areas such as surgical robotics, drug delivery systems, and rehabilitation technologies. In addition to these technical subjects, students receive training in project management, entrepreneurship, and the ethical considerations of working in healthcare. The final component of the program is an independent research project, where students apply their learning to a real-world biomedical engineering challenge, further developing their research, problem-solving, and innovation skills.
Research Focus: Newcastle University is a leader in biomedical engineering research, with a strong emphasis on developing new technologies to improve healthcare outcomes. The university’s research in this field focuses on areas such as medical device development, advanced biomaterials, tissue engineering, regenerative medicine, and wearable health technologies. Students in the MSc program will have the opportunity to engage in cutting-edge research that pushes the boundaries of biomedical science and engineering. The research at Newcastle is highly interdisciplinary, involving collaborations between biomedical engineers, medical professionals, and scientists to tackle pressing challenges in healthcare. Through access to state-of-the-art laboratories and research facilities, students are positioned to contribute to innovations that will shape the future of medical treatments, diagnostics, and rehabilitation.
Industry Engagement: Newcastle University maintains strong links with industry leaders in the healthcare and biomedical engineering sectors. These partnerships provide students with valuable opportunities for industry engagement through internships, research placements, and collaborative projects with biomedical companies, hospitals, and healthcare organizations. Students gain practical experience and insight into the commercial and clinical applications of biomedical technologies. Additionally, the university hosts guest lectures, seminars, and networking events, allowing students to interact with professionals in the field and stay informed about the latest trends and innovations in biomedical engineering. This industry engagement enhances students' employability and prepares them for careers in biomedical engineering, medical device companies, and healthcare research organizations.
Global Perspective: The MSc in Biomedical Engineering at Newcastle University offers a global perspective, providing students with the skills and knowledge to work in the international biomedical engineering field. The program attracts students from all over the world, fostering a diverse and collaborative learning environment. Newcastle’s research collaborations and partnerships with international institutions and organizations ensure that students are exposed to global best practices in biomedical engineering. The program also addresses global healthcare challenges, such as access to medical technologies in developing countries, the need for affordable medical devices, and the integration of digital health solutions. This global outlook prepares students to work on biomedical engineering projects and innovations that can have a meaningful impact on healthcare systems worldwide.
Location
Newcastle - England
Score
IELTS: 6.5
Tuition Fee
£ 28950
Postgraduate Entry Requirements:
- Applicants should have successfully completed a bachelor's degree or its equivalent from a recognized institution with a minimum overall score of 60% or equivalent.
- English language proficiency is required, and applicants must provide evidence of their English language skills through an approved language test.
- IELTS: A minimum overall score of 6.5 with no individual component below 6.0.
- TOEFL: A minimum overall score of 90, with at least 19 in Listening, 20 in Reading, 22 in Speaking, and 20 in Writing.
- PTE Academic: A minimum overall score of 70 with no individual score below 65.
- 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
Newcastle University in the UK offers a range of scholarships to international students, providing them with financial support to pursue their studies. These scholarships aim to attract talented and academically outstanding students from around the world.
Vice-Chancellor's International Scholarships: These scholarships are highly competitive and are awarded to exceptional international students who have demonstrated academic excellence. The scholarships cover a partial tuition fee reduction.
International Family Discounts: Newcastle University offers a family discount scheme where siblings or married couples who are both studying at the university can receive a tuition fee reduction.
GREAT Scholarships: Newcastle University participates in the GREAT Scholarships program, which is a joint initiative by the British Council and UK universities. These scholarships are available for students from specific countries and cover full or partial tuition fees.
Chevening Scholarships: Newcastle University is a Chevening Partner, and eligible students can apply for the prestigious Chevening Scholarships, which are funded by the UK government. These scholarships cover tuition fees, living expenses, and other allowances.
Country-specific Scholarships: Newcastle University offers a range of scholarships specifically for students from certain countries. These scholarships may be based on academic merit, financial need, or specific criteria defined by the funding organization.
Research Scholarships: Newcastle University offers research scholarships for international students undertaking a Ph.D. or research-based master's degree. These scholarships often include a stipend to cover living expenses in addition to tuition fee support.
Postgraduate Scholarships: Newcastle University provides various scholarships for international students pursuing postgraduate studies. These scholarships may be discipline-specific or open to students from any field of study.
The MSc Biomedical Engineering program at Newcastle University in the UK offers a comprehensive curriculum that prepares graduates for diverse career opportunities in the field of biomedical engineering.
Biomedical Engineer: Graduates can work as biomedical engineers, applying engineering principles and techniques to design and develop medical devices and equipment. They collaborate with healthcare professionals and researchers to create innovative solutions for patient diagnosis, treatment, and rehabilitation. Biomedical engineers may specialize in areas such as medical imaging, prosthetics and orthotics, biomaterials, or biomechanics.
Medical Device Industry: Graduates can pursue careers in the medical device industry, working for companies involved in the manufacturing and commercialization of medical devices and equipment. They contribute to the design, testing, and production processes, ensuring compliance with regulatory standards and quality assurance. Roles within the industry may include product development engineer, regulatory affairs specialist, or technical support engineer.
Clinical Engineer: Graduates can work in hospitals or healthcare institutions as clinical engineers, responsible for managing and maintaining medical equipment and technology. They ensure the safe and effective use of medical devices, conduct equipment evaluations, and provide technical support to healthcare professionals. Clinical engineers play a crucial role in enhancing patient safety and optimizing healthcare delivery.
Research and Development: Graduates can pursue careers in research and development, working in academic institutions, research organizations, or industry. They contribute to cutting-edge research projects aimed at advancing biomedical engineering knowledge and developing innovative technologies. Research and development roles may involve conducting experiments, analyzing data, and collaborating with interdisciplinary teams to address healthcare challenges.
Biomechanics Specialist: Graduates with a focus on biomechanics can work as specialists in this field. They apply engineering principles to study the mechanics of biological systems, such as human movement and tissue mechanics. Biomechanics specialists can contribute to research, product development, and clinical applications in areas such as sports performance, rehabilitation, and ergonomic design.
Healthcare Consultant: Graduates can work as healthcare consultants, providing technical expertise and guidance to healthcare organizations and policymakers. They analyze healthcare systems, assess the effectiveness of medical technologies, and propose strategies for improving patient outcomes and healthcare delivery. Healthcare consultants may also advise on regulatory compliance and healthcare technology management.
Academic and Teaching: Graduates can pursue careers in academia, working as lecturers or researchers in universities and educational institutions. They can contribute to teaching undergraduate and postgraduate courses in biomedical engineering and related disciplines. Additionally, they may engage in research projects, publish scientific papers, and collaborate with industry and healthcare partners.
Entrepreneurship and Innovation: Graduates with an entrepreneurial mindset can start their own businesses or join startups in the healthcare technology sector. They can identify opportunities for innovation, develop new products or services, and bring them to market. Entrepreneurial roles may involve aspects of product development, business strategy, project management, and marketing.
