Biomedical Engineering

Biomedical Engineering at Eindhoven University of Technology offers a comprehensive interdisciplinary program designed to prepare students for innovative contributions at the intersection of engineering, biology, and medicine. This program emphasizes developing advanced technical skills combined with a deep understanding of biological systems and medical applications. Students will gain expertise in areas such as biomechanics, biomaterials, medical instrumentation, imaging techniques, and systems physiology, enabling them to design and improve healthcare devices and solutions. The curriculum combines rigorous engineering principles with biological sciences, ensuring graduates are well-equipped to address the complex challenges faced by the healthcare industry. Through a combination of theoretical coursework, practical laboratory work, and project-based learning, students will develop critical problem-solving skills and an entrepreneurial mindset essential for translating research into real-world medical technologies. The program actively collaborates with hospitals, research institutes, and industry partners, providing students opportunities for internships and collaborative projects that enhance their practical experience. Graduates of Biomedical Engineering are prepared for careers in medical device development, biomedical research, healthcare consultancy, and further academic study. The program’s innovative approach aims to foster a new generation of engineers capable of advancing personalized medicine, improving patient outcomes, and contributing to healthcare technology innovation worldwide. With state-of-the-art laboratories, a vibrant academic community, and an emphasis on sustainable and ethical engineering solutions, Eindhoven’s Biomedical Engineering program is committed to shaping the future of medical technology and improving health globally.

The Bachelor's degree programme in Biomedical Engineering at Eindhoven University of Technology offers a comprehensive and innovative education that combines engineering principles with medical and biological sciences. This interdisciplinary programme is designed to equip students with the technical skills and scientific knowledge necessary to develop and improve medical devices, diagnostic tools, and healthcare solutions. Throughout the programme, students gain a solid foundation in areas such as electronics, biomechanics, signal processing, data analysis, and materials science, all tailored specifically to address challenges in healthcare and medicine.

Students begin their studies with core courses that introduce fundamental engineering concepts, biological systems, and mathematics. As they progress, they engage in specialized modules covering medical imaging, biosensors, tissue engineering, and rehabilitation engineering. Practical hands-on experience is integrated into the curriculum through laboratories, project work, and collaborations with hospitals and medical technology companies. This approach ensures that students not only learn theoretical concepts but also develop problem-solving skills and practical competencies relevant to the biomedical field.

The programme emphasizes teamwork and communication skills, preparing students to work effectively in multidisciplinary environments typical of healthcare and medical research settings. In addition, students have opportunities for internships and collaborative projects, which provide insights into industry practices and foster innovation. The curriculum is designed to keep pace with rapid technological advancements and emerging trends in biomedical engineering, such as personalized medicine, wearable health devices, and digital health solutions.

Graduates of the programme are well-prepared for careers in medical device development, healthcare technology, research and development, or further academic study. They are capable of contributing to the advancement of medical sciences and improving patient care through engineering solutions. The programme's combination of technical education, practical experience, and interdisciplinary collaboration makes it an excellent choice for students passionate about making a tangible impact in healthcare and improving quality of life through innovative engineering.

Admission requirements

For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.

Other requirements

1. intake gesprek Een gesprek met de coördinator om te bepalen of de vooropleiding afdoende is voor toelating tot de Master en over een mogelijk schakelprogramma.
2. gemiddeld cijfer For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.
3. vooropleiding (ISPAC: vereiste vooropleiding) BSc in Biomedical Engineering or equivalent.
4. schriftelijk verzoek Letter of Motivation.

The Eindhoven University of Technology offers a range of financing options for students enrolled in the Biomedical Engineering master's program. International students are encouraged to apply for scholarships such as the Holland Scholarship, which provides partial funding to talented students from outside the European Economic Area. Additionally, students may be eligible for the Orange Tulip Scholarship, aimed at students from selected partner countries, which substantially reduces tuition fees and provides financial support throughout the duration of the program. The university also collaborates with various industry partners and research institutions that sometimes offer funding opportunities, grants, and sponsorships for outstanding students pursuing biomedical research and engineering projects.

Students can also explore government student loan programs available in their home countries, which might provide manageable repayment plans for financing their studies in the Netherlands. The student housing and living costs in Eindhoven are also factors to consider, and students are advised to budget accordingly. The university's website provides comprehensive guidance on applying for financial aid, including detailed eligibility criteria, application procedures, and deadlines. Additionally, many students opt for part-time work opportunities permitted by Dutch regulations, which help offset living expenses while gaining valuable professional experience.

It’s important for prospective students to start researching early and prepare necessary documentation to maximize their chances of securing financial support. The university’s financial aid office offers personalized advice and assistance throughout the application process, ensuring students are aware of all available options. The overall cost of the Biomedical Engineering program encompasses tuition fees, health insurance, and living expenses, which vary depending on the student’s nationality and personal circumstances. Eindhoven University of Technology remains dedicated to making higher education accessible and affordable by providing a variety of financial resources aimed at reducing the financial barriers faced by international students.

The Bachelor's programme in Biomedical Engineering at Eindhoven University of Technology is designed to provide students with a comprehensive understanding of the interdisciplinary field that combines principles from engineering, biology, and medicine. The program aims to prepare graduates to develop innovative technological solutions for healthcare and improve patient outcomes. Students in this programme acquire knowledge of systems biology, medical imaging, biomaterials, and medical device design, along with core engineering principles such as electronics, mechanics, and computer science. The curriculum emphasizes practical experience through laboratory work, design projects, and internships, enabling students to apply theoretical concepts to real-world challenges in healthcare technology.

Throughout the programme, students learn to develop medical devices, analyze biological data, and collaborate with healthcare professionals to solve biomedical problems. The programme's structure includes foundational courses in mathematics, physics, and chemistry, followed by specialized courses in biomedical systems, signal processing, tissue engineering, and regulatory aspects of medical device development. In addition to technical skills, students develop soft skills such as teamwork, project management, and communication, which are essential for effective collaboration in multidisciplinary teams. The Eindhoven University of Technology also offers opportunities for students to engage in research projects, industry collaborations, and international exchange programmes, broadening their professional perspective and enhancing their employability.

Graduates of the Biomedical Engineering Bachelor's programme are equipped to pursue careers in medical technology companies, healthcare institutions, research organizations, or to continue their studies at the master's level. The programme emphasizes innovation, ethical considerations, and the societal impact of biomedical technologies, ensuring that graduates are prepared to contribute responsibly and effectively to advancements in healthcare. The university's strong ties with industry partners and research institutes provide a valuable network for internships and employment opportunities after graduation. Overall, the programme combines rigorous technical education with a focus on biomedical applications, fostering the development of versatile engineers capable of addressing complex health challenges through technological innovation.