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MRes Bioengineering

Keele University Campus

 

INTAKE: Jan & Sept

Program Overview

The MRes Bioengineering course at Keele University is designed to provide students with advanced knowledge and research skills in the field of bioengineering. This program combines taught modules with an extensive research project, allowing students to explore various aspects of bioengineering and develop expertise in their specific areas of interest. The course covers a wide range of topics, including biomedical engineering, biomaterials, tissue engineering, medical imaging, and biomechanics. Students have access to state-of-the-art laboratories and research facilities, gaining practical experience and contributing to cutting-edge research in bioengineering.

  1. Interdisciplinary Approach: The MRes Bioengineering course takes an interdisciplinary approach, integrating principles from engineering, biology, and medicine. Students acquire a comprehensive understanding of the complex interactions between biological systems and engineering principles. This multidisciplinary knowledge equips them with the skills needed to address real-world challenges in the field of bioengineering.

  2. Taught Modules: The program includes a series of taught modules that cover fundamental concepts and advanced topics in bioengineering. These modules provide students with a solid theoretical foundation and enable them to explore the latest developments and research in the field. Examples of modules may include Bioengineering Principles, Biomechanics, Biomaterials, Medical Imaging, and Advanced Tissue Engineering.

  3. Research Project: A significant component of the MRes Bioengineering course is the research project. Students have the opportunity to work closely with experienced researchers and supervisors to conduct original research in their chosen area of bioengineering. The research project allows students to apply their knowledge and skills to a real-world problem or explore a specific research question. It also enhances their analytical, critical thinking, and problem-solving abilities.

  4. State-of-the-Art Facilities: Keele University provides access to state-of-the-art laboratories and research facilities for bioengineering students. These facilities are equipped with advanced equipment and technologies, allowing students to carry out experiments, analyze data, and develop innovative solutions. Students have the opportunity to work with cutting-edge tools and techniques, enhancing their practical skills and preparing them for future careers in research or industry.

  5. Collaboration and Networking: The MRes Bioengineering course encourages collaboration and networking among students, researchers, and industry professionals. Students have opportunities to participate in seminars, workshops, and conferences, where they can present their research findings, exchange ideas, and establish professional connections. This collaborative environment fosters a supportive and stimulating learning atmosphere, enhancing the overall educational experience.

  6. Research Skills Development: The course emphasizes the development of research skills, including experimental design, data analysis, literature review, and scientific communication. Students learn how to critically evaluate research literature, design experiments, collect and analyze data, and effectively communicate their findings through oral presentations and written reports. These skills are essential for a successful career in research or further academic pursuits.

  7. Industry Engagement: Keele University has strong connections with industry partners, and the MRes Bioengineering course incorporates opportunities for industry engagement. Students may have the chance to work on collaborative research projects with industry partners, gaining practical experience and exposure to real-world bioengineering challenges. This industry engagement enhances students' employability and provides valuable insights into the practical application of bioengineering principles.

  8. Further Study Opportunities: The MRes Bioengineering course provides a solid foundation for students who wish to pursue further studies, such as a Ph.D. or research-based careers in academia. Graduates can continue their research in specialized areas of bioengineering or related fields, contributing to the advancement of knowledge and the development of innovative technologies.

The MRes Bioengineering course at Keele University offers a comprehensive and research-intensive program for students interested in the field of bioengineering. By combining theoretical knowledge with practical research experience, graduates are well-equipped to pursue careers in research institutions, healthcare organizations, biomedical industries, or academic institutions.

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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. Research Scientist: Graduates of the MRes Bioengineering course are well-prepared for careers as research scientists in both academic and industrial settings. They can contribute to groundbreaking research projects focused on developing innovative bioengineering solutions. As research scientists, they may work on areas such as tissue engineering, biomaterials development, medical imaging, biomechanics, or biomedical device design.

  2. Biomedical Engineer: With their in-depth knowledge of engineering principles and their application to biological systems, MRes Bioengineering graduates can pursue careers as biomedical engineers. They can contribute to the design, development, and improvement of medical devices, equipment, and technologies used in healthcare settings. Biomedical engineers collaborate with healthcare professionals to address clinical needs and improve patient care.

  3. Product Development Engineer: Graduates with a strong understanding of bioengineering principles and research experience can work as product development engineers in the biomedical industry. They can contribute to the design and development of new medical products, ranging from implantable devices to diagnostic equipment. Their knowledge of regulatory requirements and clinical considerations ensures the development of safe and effective solutions.

  4. Clinical Engineer: MRes Bioengineering graduates can pursue roles as clinical engineers, working in healthcare institutions to support the use and maintenance of medical equipment and technology. They ensure that medical devices are properly calibrated, functional, and meet regulatory standards. They may also provide training and support to healthcare professionals on the use of advanced medical technologies.

  5. Regulatory Affairs Specialist: With a comprehensive understanding of the regulatory landscape in the field of bioengineering, graduates can pursue careers as regulatory affairs specialists. These professionals ensure that medical devices and technologies comply with regulatory requirements and standards. They play a crucial role in obtaining necessary approvals and ensuring product safety and efficacy.

  6. Academic Researcher: The MRes Bioengineering course prepares graduates for further academic pursuits, including Ph.D. studies. Many graduates choose to pursue research-focused careers in academia, working as academic researchers or research associates. They contribute to advancing knowledge in the field of bioengineering through their research, publications, and collaborations with other researchers.

  7. Entrepreneurship and Start-ups: Graduates with an entrepreneurial mindset and a passion for bioengineering innovation can start their own ventures. They can establish start-ups focused on developing and commercializing bioengineering solutions, such as medical devices, diagnostic tools, or healthcare technologies. Entrepreneurship in bioengineering offers opportunities to contribute to healthcare advancements and make a significant impact in the industry.

  8. Consulting and Advisory Roles: MRes Bioengineering graduates can work as consultants or advisors, providing expertise and guidance in the field of bioengineering. They may offer specialized knowledge in areas such as biomaterials, tissue engineering, or medical imaging. Consulting roles may involve working with healthcare organizations, research institutions, or government agencies.

The MRes Bioengineering course at Keele University equips graduates with a strong foundation in bioengineering principles, research skills, and practical experience. The diverse range of career prospects reflects the growing demand for bioengineering expertise in various sectors, including healthcare, industry, academia, and entrepreneurship.

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