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MSc Biomedical Engineering

Keele University Campus

 

INTAKE: Jan & Sept

Program Overview

The MSc Biomedical Engineering course at Keele University offers students the opportunity to gain advanced knowledge and skills in the field of biomedical engineering. This interdisciplinary program combines principles of engineering, biology, and medicine to address challenges in healthcare, medical device design, and rehabilitation. Students will explore topics such as medical imaging, biomaterials, biomechanics, physiological measurement, and bioinformatics, and develop a deep understanding of how engineering principles can be applied to improve healthcare outcomes.

The course is designed to equip students with theoretical knowledge and practical skills essential for a successful career in the biomedical engineering industry. Students will have access to state-of-the-art facilities and laboratories, allowing them to apply their learning to real-world scenarios. The program also focuses on research-led teaching, encouraging students to undertake independent research projects and contribute to the advancement of knowledge in the field.

  1. Interdisciplinary Approach: The MSc Biomedical Engineering course takes an interdisciplinary approach, combining principles of engineering, biology, and medicine. This enables students to gain a holistic understanding of biomedical engineering and its applications in healthcare.

  2. Core Knowledge and Skills: The course covers a wide range of core topics, including medical imaging techniques, biomaterials and tissue engineering, biomechanics, physiological measurement and monitoring, and bioinformatics. Students will develop a strong foundation in these areas, allowing them to tackle complex challenges in the field.

  3. Practical Experience: The program emphasizes hands-on learning and practical experience. Students will have the opportunity to work with cutting-edge equipment and technologies in the university's well-equipped laboratories. This practical training enables students to develop essential skills in data acquisition, analysis, and interpretation.

  4. Industry-Relevant Projects: The MSc Biomedical Engineering course incorporates industry-relevant projects and case studies, providing students with practical exposure to real-world challenges in biomedical engineering. This allows students to develop problem-solving and critical thinking skills that are highly valued by employers.

  5. Research Opportunities: The program offers research opportunities for students to undertake independent projects in collaboration with academic staff or industry partners. This allows students to explore specific areas of interest and contribute to advancements in biomedical engineering. The research experience also enhances their analytical and research skills.

  6. Professional Development: Keele University recognizes the importance of professional development in the field of biomedical engineering. The course includes modules on professional skills, ethics, and entrepreneurship, preparing students for successful careers in the industry.

  7. Industry Connections: Keele University has strong links with industry, providing students with opportunities for industry placements, guest lectures, and networking events. These connections enhance students' exposure to the industry and increase their employability prospects.

  8. Career Opportunities: Graduates of the MSc Biomedical Engineering course have a wide range of career opportunities. They can work in medical device companies, healthcare institutions, research organizations, and government agencies. Graduates may pursue roles such as biomedical engineer, research scientist, medical device designer, regulatory affairs specialist, or clinical engineer.

  9. Further Study: The program also serves as a foundation for further study, such as a Ph.D. in Biomedical Engineering or related fields. This pathway can lead to academic and research positions in universities, research institutions, or industry.

The MSc Biomedical Engineering course at Keele University provides students with a comprehensive understanding of biomedical engineering principles and their applications in healthcare. The combination of theoretical knowledge, practical skills, and research opportunities prepares graduates for successful careers in the field. The strong industry connections and emphasis on professional development ensure that graduates are well-equipped to meet the evolving needs of the biomedical engineering industry.

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Location

Keele University Campus

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

£ 20800

Postgraduate Entry Requirements:

  1. Academic Qualifications: Applicants should hold a bachelor's degree or equivalent with a minimum overall average of 55% or above. The specific entry requirements may vary depending on the chosen program.  

  2. English Language Proficiency:

  • IELTS: Overall score of 6.5, with no sub-score below 6
  • TOEFL: Overall score of 88, with a minimum score of 17 in each section
  • PTE Academic: Overall score of 59, with no sub-score below 51

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.

Keele University offers a range of scholarships and financial support options to attract and assist international students in pursuing their studies. These scholarships are designed to recognize academic excellence, promote diversity, and provide financial assistance to deserving students.

  1. Keele International Student Scholarship: The Keele International Student Scholarship is available to international students enrolling in a postgraduate taught master's degree program. The scholarship provides a tuition fee discount of up to £3,000. Eligibility is based on academic achievement, and applicants are automatically considered when they apply for their chosen postgraduate program.

  2. Commonwealth Shared Scholarship Scheme: Keele University participates in the Commonwealth Shared Scholarship Scheme, which is funded by the UK government. The scheme provides full tuition fees, airfare, and living expenses for students from developing Commonwealth countries. The scholarship is available for selected master's degree programs in specific fields of study.

  3. Global Excellence Scholarship: The Global Excellence Scholarship is awarded to international students who have demonstrated outstanding academic achievement and contribute to the global community. The scholarship provides a tuition fee discount of up to £5,000 for the first year of study. Eligibility is based on academic merit, and applicants are automatically considered when they apply for an eligible undergraduate or postgraduate program.

  4. Country-Specific Scholarships: Keele University also offers scholarships specifically tailored to students from certain countries or regions. These scholarships may vary in terms of eligibility criteria and funding amounts. Examples include the Keele Nigeria Scholarship and the Keele ASEAN Scholarships, which provide financial support to students from Nigeria and Southeast Asia, respectively.

It's important to note that scholarship availability and eligibility criteria may vary each year.

  1. Biomedical Engineer: Graduates of the MSc Biomedical Engineering course can pursue a career as a biomedical engineer. They can work in the design, development, and maintenance of medical devices and equipment. Biomedical engineers collaborate with healthcare professionals to improve patient care, develop innovative technologies, and ensure the safety and effectiveness of medical devices.

  2. Research and Development: With a strong foundation in research and practical skills, graduates can work in research and development (R&D) roles in the biomedical engineering field. They can contribute to advancing knowledge in areas such as medical imaging, biomaterials, biomechanics, and bioinformatics. R&D positions are available in universities, research institutions, and private companies.

  3. Clinical Engineer: Clinical engineers play a vital role in healthcare institutions, where they apply their technical expertise to support the safe and efficient use of medical technology. Graduates can work as clinical engineers, ensuring the proper functioning and maintenance of medical equipment, training healthcare staff, and managing technology-related issues in clinical settings.

  4. Medical Device Industry: The MSc Biomedical Engineering course prepares graduates for careers in the medical device industry. They can work in companies involved in the design, manufacturing, and marketing of medical devices and equipment. Roles may include product development, quality assurance, regulatory affairs, and technical support.

  5. Healthcare Technology Management: Graduates can pursue careers in healthcare technology management, where they are responsible for the planning, procurement, installation, and maintenance of medical equipment in healthcare facilities. They ensure the safe and efficient use of technology, manage equipment inventories, and collaborate with healthcare professionals to meet their technology needs.

  6. Biotechnology and Pharmaceutical Industries: The skills acquired during the MSc Biomedical Engineering course make graduates well-suited for roles in the biotechnology and pharmaceutical industries. They can work on developing and improving processes for drug discovery, production, and delivery, incorporating their knowledge of biomedical engineering principles.

  7. Regulatory Affairs: Graduates with a strong understanding of medical devices and regulations can pursue careers in regulatory affairs. They can work with regulatory agencies or in companies to ensure compliance with local and international regulations governing the development, testing, and marketing of medical devices.

  8. Academia and Teaching: Some graduates may choose to pursue academic careers and become researchers or lecturers in universities or research institutions. They can contribute to the field through research, teaching, and mentoring future biomedical engineers.

  9. Entrepreneurship: The MSc Biomedical Engineering course equips graduates with the skills and knowledge to start their own ventures in the biomedical engineering field. They can develop innovative solutions, launch startup companies, and contribute to the growth of the healthcare technology sector.

  10. Further Education: The MSc Biomedical Engineering course also serves as a stepping stone for further education, such as pursuing a Ph.D. degree. Graduates interested in research and academia can undertake advanced research in specialized areas of biomedical engineering.

The career prospects for graduates of the MSc Biomedical Engineering course at Keele University are diverse and promising. The program provides them with the necessary knowledge, skills, and practical experience to excel in various roles within the biomedical engineering field. The strong industry connections and emphasis on research and professional development enhance their employability and open doors to exciting career opportunities.

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