MA Digital Media and Creative Industries
The MA Digital Media and Creative Industries at Loughborough University aims t...
BEng (Hons) Biomaterials Engineering
Loughborough
INTAKE: October
Program Overview
The BEng (Hons) Biomaterials Engineering program at Loughborough University is designed to provide a comprehensive education in the principles of biomaterials science and engineering, coupled with practical, real-world application. Students will gain an in-depth understanding of the properties and behaviors of biomaterials, including metals, polymers, ceramics, and composites, and how they can be used in medical devices, prosthetics, tissue engineering, and drug delivery systems. The program offers a combination of theoretical coursework, laboratory work, and project-based learning to give students a solid foundation in the material science and engineering principles necessary for the development of medical products. With a focus on innovation and practical problem-solving, the program prepares graduates to contribute to the development of cutting-edge biomaterial solutions.
Curriculum: The BEng (Hons) Biomaterials Engineering program at Loughborough University is structured to provide students with a solid understanding of both the technical and biological aspects of biomaterials. The curriculum covers core topics such as materials science, biomechanics, biocompatibility, biomaterial design, and tissue engineering. In the first stages of the program, students are introduced to fundamental principles of materials science and engineering, learning about the behavior of different materials and how they interact with biological tissues. As students progress, they delve deeper into specialized subjects such as biomaterial characterization, mechanical properties of biomaterials, regenerative medicine, and the design of implantable devices. The program incorporates extensive laboratory and hands-on learning experiences, giving students the opportunity to work with real-world biomaterials and develop practical skills.
Research Focus: Loughborough University is known for its high-impact research in engineering and materials science. The Biomaterials Engineering program benefits from the university's cutting-edge research facilities and collaboration with industry leaders. Research at Loughborough focuses on areas such as advanced biomaterials for medical applications, regenerative medicine, smart materials, and tissue engineering. Students are encouraged to participate in ongoing research projects, providing them with opportunities to engage with the latest developments in biomaterials and contribute to the creation of innovative solutions for healthcare and medical technologies. The university's research expertise in areas such as biomaterial design, manufacturing techniques, and implantable medical devices ensures that students are exposed to the most advanced and relevant areas of biomaterials engineering.
Industry Engagement: Loughborough University has strong connections with the biomaterials and healthcare industries, providing students with numerous opportunities for industry engagement. The BEng (Hons) Biomaterials Engineering program is designed to integrate academic learning with industry practices through collaborative projects, internships, and placements. The university's partnerships with leading medical device companies, research institutions, and healthcare organizations offer students a unique opportunity to apply their knowledge in real-world settings, solving practical engineering problems and developing innovative biomaterials solutions. Industry engagement is a key aspect of the program, with students being encouraged to take part in placement years, work experience, and research collaborations that enhance their employability and give them a competitive edge in the job market.
Global Perspective: Loughborough University attracts a diverse student body from around the world, and the BEng (Hons) Biomaterials Engineering program is designed with a global perspective in mind. The program equips students with the knowledge and skills needed to address global challenges in healthcare and medical technology. With advances in biomaterials playing a crucial role in addressing issues such as aging populations, disease management, and medical treatment innovation, students are prepared to contribute to solving these worldwide challenges. Additionally, the program's international collaborations and research partnerships ensure that students are exposed to the latest global trends and innovations in biomaterials. Graduates of the program are well-equipped to work in international contexts, whether in multinational companies, research institutions, or global healthcare organizations.
Location
Loughborough
Score
IELTS 6.5
Tuition Fee
£ 28600
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 75% or equivalent in their respective country's grading system.
English language proficiency:
- IELTS: A minimum overall score of 6.0 or 6.5 with no individual component below 6.0.
- TOEFL: A minimum overall score of 92.
- PTE Academic: A minimum overall score of 67.
- DET Academic: A minimum overall score of 120.
- Some programs may have specific subject prerequisites or additional requirements.
Loughborough University offers a range of scholarships for international students to support their education and make studying in the UK more affordable. These scholarships recognize academic excellence, financial need, and the potential for students to contribute to the university community.
International Excellence Awards: These are merit-based scholarships offered to international students applying for undergraduate and postgraduate programs. These awards typically cover part of the tuition fees and are designed to attract outstanding students from around the globe.
Global Scholarships: Loughborough offers various global scholarships based on geographical location, supporting students from specific regions or countries with reduced tuition fees.
Loughborough University Elite Sports Scholarships: These are available for students who are competing at an elite level in their sport. The scholarship includes financial support, as well as access to the university's world-class sports facilities, coaching, and training programs.
Country-Specific Scholarships: Loughborough University offers country-specific scholarships for students from particular countries. These scholarships are designed to support students who demonstrate high academic potential and a commitment to contributing to their home country upon graduation.
Loughborough University, a leading academic institution in the United Kingdom, offers the BEng (Hons) Biomaterials Engineering program, designed to equip students with the skills and knowledge required to thrive in the fast-evolving field of biomaterials. The program is structured to provide students with a deep understanding of the principles of biomaterials science, engineering, and their applications in medical devices, prosthetics, tissue engineering, and biotechnology. Graduates of this program are well-prepared to enter a variety of career paths, spanning industries like healthcare, medical technology, research, and bioengineering. The integration of industry placements and hands-on learning opportunities ensures that students gain practical experience, enhancing their employability and career prospects upon graduation.
Biomedical Engineer Biomedical engineers play a critical role in designing and developing medical devices, implants, prosthetics, and diagnostic tools. Graduates with a BEng in Biomaterials Engineering can apply their knowledge to create biomaterials that are biocompatible, functional, and safe for medical use. Biomedical engineers may work in hospitals, research labs, medical device manufacturing companies, or healthcare facilities, developing products that improve patient outcomes. The expertise gained in biomaterials design, testing, and manufacturing equips graduates to take on roles in this high-demand field.
Materials Scientist Materials scientists focus on the study and development of new materials with specialized properties for various applications. In the field of biomaterials, materials scientists work to improve the performance, durability, and biocompatibility of materials used in medical and healthcare applications. They may work in research and development departments of biotechnology companies, government agencies, or academic research institutions. Their work often involves testing new materials and exploring innovative ways to enhance the performance of biomaterials used in medical implants, drug delivery systems, or tissue engineering.
Tissue Engineer Tissue engineering combines biology, materials science, and engineering to develop artificial tissues and organs. Graduates of the Biomaterials Engineering program may pursue careers as tissue engineers, working to create lab-grown tissues that can be used in medical treatments or as models for drug testing. Tissue engineers are employed in research settings, biotech companies, and healthcare institutions, contributing to the advancement of regenerative medicine and cell-based therapies. Their work helps address challenges in organ transplants, wound healing, and tissue repair.
Regulatory Affairs Specialist Regulatory affairs specialists ensure that medical devices and biomaterials meet legal and safety standards set by government agencies. Graduates of the BEng (Hons) Biomaterials Engineering program are well-equipped to work in regulatory roles, where they help navigate the complex process of obtaining approvals for new biomaterials and medical devices. They work with regulatory bodies like the FDA or EMA, ensuring that products comply with safety, efficacy, and quality standards. This role requires knowledge of both biomaterials engineering and regulatory procedures, making it a crucial career option for graduates.
Clinical Applications Specialist Clinical applications specialists work closely with healthcare professionals and medical institutions to help implement new biomaterials and medical devices in clinical settings. They provide technical expertise, training, and support to ensure that the devices or materials are used effectively and safely. Graduates of the Biomaterials Engineering program may enter this role to act as intermediaries between engineering teams and clinicians, contributing to the successful deployment of new healthcare technologies.
Research Scientist (Biomaterials) Graduates may choose to become research scientists, working in academic, government, or private research settings. As research scientists in biomaterials, they explore new materials, design experiments, and analyze results to discover innovative solutions for medical and healthcare challenges. Research scientists often work in laboratories or collaborate with interdisciplinary teams, focusing on areas such as implantable devices, drug delivery systems, tissue engineering, and regenerative medicine. Their findings contribute to the development of new technologies and advancements in healthcare.
Product Development Engineer Product development engineers design and refine new products by applying their technical knowledge of engineering and biomaterials. They collaborate with teams from marketing, design, and manufacturing to bring new medical devices and biomaterials to market. These engineers ensure that the products meet safety standards and perform as intended, focusing on both functionality and user experience. Graduates with an engineering background in biomaterials are well-equipped to succeed in product development, particularly in industries focused on healthcare innovation.
Quality Assurance/Quality Control Engineer Quality assurance and quality control engineers work to ensure that medical devices and biomaterials meet industry standards for safety, quality, and performance. Graduates of the Biomaterials Engineering program can work in these roles, where they oversee product testing, conduct inspections, and ensure that manufacturing processes comply with quality standards. This role is essential in the medical and healthcare industries, where product safety and efficacy are critical to patient health.
Biomaterials Consultant Biomaterials consultants provide expert advice to companies, research organizations, or government agencies looking to develop or implement new biomaterials. They assess material properties, recommend materials for specific applications, and help navigate the regulatory landscape. Consultants may work independently or as part of consulting firms, offering guidance on product design, material selection, and market entry strategies for medical devices or bioengineering products.
Academic or Industry Lecturer Some graduates may choose to pursue an academic career by teaching biomaterials engineering, materials science, or biomedical engineering at universities or research institutions. As lecturers or professors, they can combine their passion for teaching with their expertise in biomaterials. This role involves conducting research, publishing papers, and mentoring students, as well as contributing to the development of the next generation of engineers in the biomaterials and medical device fields.
