MSc Accounting, Accountability & Financial Management
The MSc in Accounting, Accountability & Financial Management at King’s Colleg...
MRes Tissue Engineering & Innovation Technology
Strand, London
INTAKE: September
Program Overview
The MRes Tissue Engineering & Innovation Technology program at King’s College London is designed for students who wish to advance their understanding and expertise in the rapidly growing field of tissue engineering and regenerative medicine. The program focuses on the development and application of innovative technologies aimed at creating and repairing tissues and organs. Students will gain in-depth knowledge in bioengineering, biomaterials, and stem cell technologies while addressing the complex challenges of translating laboratory research into clinical practice. This program is ideal for students who aspire to work at the intersection of biology, engineering, and healthcare, with a focus on improving patient outcomes through innovative medical technologies.
Curriculum: The curriculum of the MRes Tissue Engineering & Innovation Technology program is structured to provide students with a comprehensive understanding of the principles and practices in tissue engineering. The program covers a wide range of core subjects, including biomaterials science, stem cell biology, tissue regeneration, and the use of bioreactors in engineering tissues. In addition to theoretical coursework, the curriculum emphasizes hands-on laboratory experience, equipping students with the technical skills required to design and develop tissue engineering solutions. Key modules in the program include biomaterials for tissue engineering, tissue mechanics, regenerative technologies, and stem cell technologies. The program also includes a research project, allowing students to engage in cutting-edge research and contribute to the advancement of tissue engineering innovations.
Research Focus: The MRes Tissue Engineering & Innovation Technology program places a strong emphasis on research, providing students with the opportunity to explore various aspects of tissue engineering and regenerative medicine. Research areas include the development of novel biomaterials for tissue regeneration, 3D printing for tissue scaffolds, stem cell therapies, and tissue engineering for specific organs or tissues. Students will work closely with faculty members who are leaders in the field, conducting independent research projects and contributing to ongoing innovations in tissue engineering. The program encourages students to explore the application of advanced technologies in areas such as wound healing, organ regeneration, and cancer treatments. Students will have access to state-of-the-art laboratories and equipment, supporting a highly collaborative research environment.
Industry Engagement: The MRes Tissue Engineering & Innovation Technology program at King’s College London offers extensive opportunities for industry engagement, ensuring that students are well-prepared for careers in both academia and industry. The university has strong links with the healthcare and biotechnology sectors, providing students with exposure to the latest innovations in tissue engineering. Through partnerships with leading medical institutions, research organizations, and biotech companies, students can participate in internships, industry projects, and collaborative research initiatives. This engagement provides valuable real-world experience, allowing students to gain insight into the practical applications of tissue engineering technologies. Graduates are well-equipped to transition into roles in the biotech and healthcare industries, where there is an increasing demand for professionals with expertise in tissue engineering and regenerative medicine.
Global Perspective: King’s College London’s MRes Tissue Engineering & Innovation Technology program has a global perspective, preparing students to tackle the worldwide challenges in healthcare and regenerative medicine. The program attracts a diverse cohort of students from various countries, creating a vibrant learning environment where students can share knowledge and collaborate on global healthcare issues. The university’s reputation for excellence in research and its international collaborations with leading institutions in the field of biomedical engineering provide students with exposure to global advancements in tissue engineering. Furthermore, students are encouraged to consider the global implications of their research, particularly in addressing healthcare challenges in developing countries or underserved populations.
Location
Strand, London
Score
IELTS 7
Tuition Fee
£ 35800
Postgraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed a bachelor's degree or its equivalent from a recognized institution with a minimum overall score of 65% or equivalent.
English language proficiency:
- IELTS: A minimum overall score of 7.0 with no individual component below 6.5.
- TOEFL: A minimum overall score of 100.
- PTE Academic: A minimum overall score of 76.
- Some postgraduate programs may have specific subject prerequisites or additional requirements.
King’s College London is providing financial support to international students who demonstrate academic excellence and financial need. The university offers a variety of scholarships specifically designed to assist international students in covering tuition fees and living costs while studying in the United Kingdom. These scholarships help make higher education more accessible to students from diverse backgrounds and regions.
King’s College London International Postgraduate Scholarships: King’s College London offers a range of scholarships for international postgraduate students. These scholarships are available for students applying to specific master’s programs and are designed to recognize academic achievement and potential. The scholarships vary in value, with some covering partial tuition fees and others offering full financial support. International students who have a strong academic record and potential for research excellence are eligible for consideration.
Commonwealth Scholarships: King’s College London is part of the Commonwealth Scholarship Commission, which offers scholarships to students from Commonwealth countries. These scholarships cover tuition fees, airfare, and living expenses for international students pursuing postgraduate studies in the UK. They are awarded based on academic excellence and the potential to contribute to the development of the student's home country after completing their studies.
Chevening Scholarships: The Chevening Scholarship is a UK government-funded initiative that provides full financial support for postgraduate students from eligible countries. King’s College London is a participating university for Chevening Scholars, who are selected based on academic merit, leadership potential, and the ability to contribute to their communities. Chevening Scholarships cover tuition fees, travel costs, and a living stipend.
Dean’s Scholarships for International Students: Many departments at King’s College London offer Dean’s Scholarships for international students applying to specific programs. These scholarships are awarded based on academic merit and the student’s potential contribution to their field of study. They may provide partial or full funding for tuition fees and are typically available for high-achieving students who have an excellent academic record.
Country-Specific Scholarships: King’s College London offers country-specific scholarships for international students from specific regions or countries. These scholarships are designed to support students who demonstrate outstanding academic achievement and who are making a positive impact in their home country. Each scholarship may have its own eligibility criteria, including academic qualifications, nationality, and financial need.
Graduates of the MRes Tissue Engineering & Innovation Technology program at King’s College London are well-equipped to pursue a range of exciting and impactful careers in the field of biomedical engineering, healthcare, and tissue regeneration. This multidisciplinary program provides students with the technical expertise and research skills necessary for careers in both academia and industry.
Biotech Industry Roles: Graduates can work in leading biotechnology companies that specialize in tissue engineering, biomaterials development, and regenerative medicine. Roles in this sector include biomedical engineer, tissue engineering specialist, and biomaterials researcher, where professionals contribute to the development of new medical technologies aimed at repairing or replacing damaged tissues and organs.
Pharmaceutical and Healthcare Industries: The healthcare sector is increasingly relying on innovative tissue engineering technologies to treat conditions such as organ failure, chronic wounds, and degenerative diseases. Graduates can work in pharmaceutical companies and healthcare providers in roles such as regenerative medicine scientist, clinical research coordinator, or medical device specialist, where they help translate research into clinical applications.
Research and Academia: Many graduates choose to continue their studies or pursue research careers in academic institutions. They may become research associates, postdoctoral researchers, or PhD candidates, working in labs focused on advancing tissue engineering techniques, regenerative medicine, and stem cell therapies. Their research could contribute to groundbreaking medical treatments and innovations in tissue regeneration.
Medical Device and Engineering Companies: Companies that design and produce medical devices, especially those focusing on tissue regeneration or organ transplantation, value graduates of this program for their expertise in engineering and biological sciences. Graduates can take roles such as medical device development engineer, quality control manager, or product development specialist, playing a crucial role in the design, testing, and regulatory approval of new medical products.
Government and Non-Profit Organizations: Government health agencies and non-profit organizations involved in medical research and development offer a variety of career paths. Graduates may work in policy development, regulatory affairs, or medical technology evaluation, helping to shape the future of regenerative healthcare systems and ensuring the safe application of new technologies.
Consultancy and Innovation: With the combination of scientific knowledge and innovation fostered by the program, graduates can also pursue careers in consulting or technology innovation. In this capacity, they can advise healthcare companies, start-ups, or governments on the potential and application of tissue engineering technologies, as well as help drive the commercialization of new biomedical solutions.
