MA Digital Media and Creative Industries
The MA Digital Media and Creative Industries at Loughborough University aims t...
MSc Biomedical Engineering
Loughborough
INTAKE: October
Program Overview
Loughborough University, one of the United Kingdom’s leading institutions for engineering and technology, offers a specialized MSc in Biomedical Engineering that provides students with the knowledge and practical skills to advance healthcare technologies. This program focuses on the intersection of engineering, biology, and medicine, offering a comprehensive understanding of how engineering principles can be applied to the development of medical devices, prosthetics, and healthcare systems. Students enrolled in this program gain exposure to state-of-the-art research, innovative solutions, and the practical challenges faced by the biomedical industry. With Loughborough’s strong reputation for industry partnerships and research excellence, this program equips students for a variety of impactful careers in the growing field of biomedical engineering.
Curriculum: The curriculum of the MSc Biomedical Engineering program at Loughborough University is designed to provide both theoretical knowledge and hands-on experience. The core modules focus on key areas such as biomechanics, biomaterials, medical imaging, and the design of medical devices. Students are introduced to the fundamentals of human physiology, as well as the technical aspects of developing systems and devices that interact with the human body. Specialized topics include tissue engineering, neural engineering, and the development of assistive technologies such as prosthetics and orthotics. The program also emphasizes practical skills through laboratory-based learning, problem-solving tasks, and a final research project or dissertation, where students apply their knowledge to real-world biomedical engineering challenges.
Research Focus: Loughborough University has a strong emphasis on research and innovation in the field of biomedical engineering. The university’s Biomedical Engineering research focuses on addressing real-world challenges in healthcare and medicine. Key research areas include the development of innovative medical devices, wearable health technology, and smart implants. The university also explores biomaterials for tissue regeneration and personalized medicine, where engineering techniques are used to tailor medical treatments to individual patients. Students benefit from being part of an institution that is engaged in cutting-edge biomedical research, often collaborating with industry partners to bring new technologies and solutions to market. The program provides ample opportunities for students to participate in ongoing research, helping them stay at the forefront of advancements in the field.
Industry Engagement: Loughborough University has a strong tradition of working closely with industry partners, which significantly enhances the MSc Biomedical Engineering program. The university’s industry connections allow students to collaborate with healthcare companies, medical device manufacturers, and research institutions, ensuring that the curriculum aligns with the latest trends and demands in the biomedical field. Students have opportunities to work on industry-sponsored projects, internships, and placements, gaining invaluable practical experience and establishing professional networks. Loughborough’s partnerships with leading companies and organizations also provide students with access to state-of-the-art facilities and resources, enabling them to explore innovative solutions in biomedical engineering. These industry collaborations play a crucial role in enhancing the employability of graduates and ensuring that the program is relevant to current industry needs.
Global Perspective: Loughborough University offers a global perspective on biomedical engineering, welcoming students from across the world and preparing them to address healthcare challenges on a global scale. The university’s research and industry collaborations span internationally, with partnerships in Europe, North America, and beyond. The MSc Biomedical Engineering program prepares students to work in diverse healthcare settings and understand the unique needs of different regions. Additionally, students gain insights into global healthcare systems, regulatory requirements, and emerging trends in medical technology, which are essential for working in multinational companies or international organizations. Loughborough’s inclusive environment fosters global networking and collaboration, preparing students to contribute to the advancement of healthcare technologies worldwide.
Location
Loughborough
Score
IELTS 6.5
Tuition Fee
£ 28750
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 75% or equivalent.
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 postgraduate 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.
Postgraduate Taught Scholarships: These are available for international students applying for postgraduate taught programs at Loughborough University. Scholarships typically range from £2,000 to £4,000, depending on the student’s academic qualifications and the program they are enrolled in.
Loughborough University International Research Scholarships: For international students who wish to pursue a research-based postgraduate program, Loughborough offers research scholarships that cover full tuition fees, along with an annual stipend to assist with living costs.
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.
Graduates of the MSc Biomedical Engineering program at Loughborough University can explore a wide range of career opportunities in both the public and private sectors. The demand for professionals with expertise in biomedical engineering is growing, driven by advancements in medical technology, an aging population, and the increasing need for innovative healthcare solutions.
Biomedical Engineer: Biomedical Engineers design and develop medical devices and technologies that improve patient care and quality of life. They work on creating devices such as prosthetics, diagnostic equipment, surgical tools, and implants. Graduates of Loughborough's MSc program are well-equipped to enter the field of biomedical engineering, where they can apply their knowledge of engineering principles and human biology to develop cutting-edge solutions for healthcare challenges.
Medical Device Design Engineer: Medical Device Design Engineers specialize in the creation and development of medical devices such as pacemakers, insulin pumps, and diagnostic machines. These engineers work closely with healthcare professionals to ensure that the devices are both functional and safe for use. Graduates with a strong understanding of materials, manufacturing processes, and user needs are well-prepared to take on roles in the design and development of next-generation medical devices.
Biomaterials Engineer: Biomaterials Engineers focus on the development and optimization of materials that are compatible with the human body. These materials are used in applications such as implants, prosthetics, and tissue engineering. Graduates of the MSc Biomedical Engineering program at Loughborough, with a solid understanding of materials science and biology, can pursue careers in the development of innovative biomaterials that improve medical treatments and patient outcomes.
Clinical Engineer: Clinical Engineers work in hospitals and healthcare settings, maintaining and repairing medical equipment, ensuring it meets regulatory standards, and optimizing its functionality. They play a vital role in bridging the gap between medical technology and clinical practice. MSc Biomedical Engineering graduates can pursue clinical engineering roles, ensuring that medical equipment and technologies are used effectively in patient care.
Tissue Engineer: Tissue Engineers work on creating or regenerating biological tissues for medical purposes, such as repairing damaged organs or growing tissues for transplantation. This is a rapidly evolving field within biomedical engineering. Graduates interested in regenerative medicine, stem cell research, or tissue engineering can find roles in academic research, biotechnology companies, and medical institutions developing innovative solutions for organ replacement and tissue repair.
Biomechanical Engineer: Biomechanical Engineers study the mechanics of the human body to improve the design of medical devices and assistive technologies. They work on projects related to joint replacement, prosthetics, and rehabilitation technologies. Graduates of the MSc Biomedical Engineering program, with expertise in biomechanics, can pursue careers in areas such as orthopedics, sports medicine, and rehabilitation engineering.
Medical Imaging Specialist: Medical Imaging Specialists focus on the use of imaging technologies, such as MRI, CT, and ultrasound, to diagnose and monitor medical conditions. They work with medical professionals to develop and optimize imaging techniques and equipment. MSc Biomedical Engineering graduates with expertise in medical imaging and signal processing can work in hospitals, imaging centers, or research institutions to advance imaging technologies that improve diagnostic accuracy.
Regulatory Affairs Specialist: Regulatory Affairs Specialists ensure that medical devices and healthcare products comply with regulatory requirements and standards. They are responsible for navigating complex healthcare regulations, preparing documentation for product approvals, and ensuring that medical products meet safety and performance standards. Graduates of the MSc Biomedical Engineering program with knowledge of medical device regulations and quality control processes are well-suited for careers in regulatory affairs within healthcare companies or governmental agencies.
Healthcare Consultant: Healthcare Consultants help organizations improve their operations by advising on the integration of new medical technologies and engineering solutions. They work with hospitals, healthcare providers, and government bodies to optimize healthcare delivery, efficiency, and patient outcomes. MSc Biomedical Engineering graduates with a solid understanding of both engineering and healthcare systems can find rewarding roles in consulting, helping healthcare organizations adopt cutting-edge technologies and improve service delivery.
Research Scientist in Biomedical Engineering: For those interested in academia or R&D roles, the Research Scientist position offers opportunities to explore new biomedical technologies and engineering solutions. Research scientists in biomedical engineering focus on developing innovative devices, improving existing technologies, and studying new materials or techniques for medical applications. Graduates can work in university research labs, private research organizations, or healthcare technology companies, contributing to the advancement of biomedical science and engineering.
Product Manager in Medical Technology: Product Managers in the medical technology sector oversee the development and commercialization of new medical products, ensuring they meet customer needs and regulatory standards. They work with cross-functional teams, including engineers, clinicians, and marketers, to bring products to market. MSc Biomedical Engineering graduates with an interest in the business side of medical technology can pursue product management roles in medical device companies, biotechnology firms, or startups.
Medical Technology Entrepreneur: Graduates with an entrepreneurial spirit may choose to start their own biomedical engineering ventures. With expertise in biomedical technology, product development, and healthcare systems, MSc Biomedical Engineering graduates can create innovative medical devices, software applications, or healthcare technologies that address unmet needs in the market. Starting a biomedical engineering company offers the potential for high impact and rewards, as healthcare continues to be a critical and expanding field.
