BSc in Business Information Technology
The BSc in Business Information Technology (BIT) at the University of Twente is designe...
MSc in Biomedical Engineering - Medical Device Design
Drienerlolaan
INTAKE: Feb & Sept
Program Overview
The MSc in Biomedical Engineering - Medical Device Design at the University of Twente offers students an in-depth exploration of the design, development, and regulation of medical devices. This interdisciplinary program merges engineering, biology, and healthcare, equipping students with the skills required to create innovative devices that improve patient care. The program emphasizes practical knowledge and problem-solving skills that are essential for advancing medical technology. Students will learn to integrate engineering principles with biological systems, and gain expertise in the regulatory frameworks that govern the medical device industry. The curriculum prepares graduates for careers in the development and optimization of devices used in diagnostics, treatment, and rehabilitation.
Curriculum: The MSc in Biomedical Engineering - Medical Device Design offers a comprehensive and balanced curriculum that blends theoretical knowledge with hands-on experience. Core courses cover topics such as biomaterials, medical device design, human anatomy and physiology, regulatory affairs, and the engineering principles behind medical technologies. Students also engage in practical projects that involve designing and prototyping medical devices, from conception to evaluation. The curriculum is structured to provide a deep understanding of the entire lifecycle of medical devices, including market analysis, product development, testing, and commercialization. In the final stage, students undertake a master's thesis, often in collaboration with industry partners, which allows them to apply their learning to real-world problems.
Research Focus: The research focus in the MSc in Biomedical Engineering - Medical Device Design is centered on the advancement of medical technologies aimed at improving healthcare. Students engage in cutting-edge research on topics such as the design of implantable devices, prosthetics, surgical instruments, and wearable health technologies. The program encourages students to focus on innovations that address pressing healthcare challenges, such as personalized medicine, minimally invasive procedures, and enhancing the quality of life for patients. Research often takes place in collaboration with the university's well-established medical research institutes and industry partners, providing students with access to the latest developments in the field.
Industry Engagement: The MSc in Biomedical Engineering - Medical Device Design at the University of Twente maintains strong links with the medical device industry, offering students extensive opportunities for industry collaboration. Through internships, research projects, and partnerships with leading companies in the medical technology sector, students gain invaluable real-world experience. The program’s industry engagement ensures that students are exposed to the practical aspects of medical device design, including the regulatory processes and quality assurance standards required for product development. These connections not only provide practical learning experiences but also increase employability upon graduation.
Global Perspective: The MSc in Biomedical Engineering - Medical Device Design at the University of Twente offers a global perspective on the medical device industry. The program attracts international students and faculty, fostering a diverse learning environment. The curriculum addresses global healthcare challenges and the need for innovative solutions that can be applied across various healthcare systems. Students explore how medical devices are designed to meet the needs of diverse populations, and how emerging technologies are transforming healthcare on a global scale. The program prepares graduates to work in multinational companies, research institutions, or healthcare organizations that operate worldwide.
Location
Drienerlolaan
Score
IELTS 6.5
Tuition Fee
€ 18900
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 75% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 90 or higher.
Standardized Test Requirements
- GMAT (Graduate Management Admission Test): GMAT score of 600 is often required.
The University of Twente (UT) offers various scholarship opportunities for international students to help finance their education and living expenses in the Netherlands. These scholarships are designed to attract talented students from around the world and provide them with financial support to pursue their undergraduate or postgraduate studies at the university.
University of Twente Scholarships (UTS): The University of Twente Scholarships (UTS) are highly competitive merit-based scholarships available to students from non-EU/EEA countries who are applying for a Master’s program at the university. These scholarships are intended to cover part of the tuition fees and living expenses for the duration of the program. The amount of the scholarship varies, and it can range from €3,000 to €25,000 per year, depending on the student’s program and the scholarship type. To be eligible, students must have an excellent academic record and meet the admission requirements for their chosen program.
Holland Scholarship: The Holland Scholarship is a national scholarship program funded by the Dutch Ministry of Education, Culture, and Science in collaboration with Dutch research universities, including the University of Twente. This scholarship is available to international students from outside the European Economic Area (EEA) who are applying for a Master’s program at UT. The Holland Scholarship provides a one-time award of €5,000 to help with tuition fees or living costs. The scholarship is awarded for the first year of study, and students can apply for it once they have been admitted to a Master's program at the university.
Orange Tulip Scholarship (OTS): The Orange Tulip Scholarship (OTS) is a Dutch government-sponsored program aimed at providing scholarships to international students from specific countries, including China, India, Indonesia, Mexico, Russia, South Korea, and Vietnam, among others. UT participates in the OTS program, and selected students can receive a scholarship that covers part of the tuition fees for their Master’s degree. The OTS scholarship is offered in collaboration with the Dutch embassies and institutions in various countries.
Kipaji Scholarship: The Kipaji Scholarship is a special award given by the University of Twente to outstanding international students with excellent academic achievements. This scholarship is typically available for students from Africa, Asia, Latin America, and the Middle East who are applying for a Master’s program. The Kipaji Scholarship covers tuition fees, living expenses, and other costs related to studying abroad, providing a comprehensive financial aid package to deserving students.
Additional Scholarships for Specific Programs: In addition to the general scholarships mentioned above, the University of Twente also offers specific scholarships for students pursuing certain Master's programs. These scholarships are often offered in collaboration with academic departments or external organizations and can cover partial or full tuition fees.
Graduates of the MSc in Biomedical Engineering - Medical Device Design at the University of Twente are well-equipped for a wide array of career opportunities in the rapidly evolving medical device industry. The program’s interdisciplinary approach, which integrates engineering, healthcare, and design, prepares students for roles that bridge the gap between technology and patient care.
Medical Device Designer/Engineer: Graduates can work as medical device designers or engineers, focusing on the development of innovative medical technologies such as diagnostic tools, implantable devices, and therapeutic devices. They can work in R&D departments within medical device companies or healthcare technology firms, using their expertise to create safe and effective devices.
Biomedical Product Development Specialist: In this role, graduates focus on the entire lifecycle of a medical device, from initial concept to commercialization. They work on developing new products that meet regulatory standards, ensuring the devices are safe and effective for use in clinical settings.
Regulatory Affairs Specialist: Medical device products must meet strict regulatory standards before they can be marketed. Graduates can pursue careers in regulatory affairs, where they are responsible for ensuring that medical devices comply with local and international regulations. They work with healthcare companies to guide them through the approval process for new devices.
Clinical Researcher: As clinical researchers, graduates work to test and validate new medical devices in clinical environments. They conduct studies to assess the safety and efficacy of devices in patient care, collaborating with healthcare providers, research institutions, and medical device companies.
Biomedical Systems Engineer: In this role, graduates design and integrate biomedical systems, ensuring that medical devices work seamlessly with other healthcare technologies. They work in hospitals, research labs, or tech companies, focusing on the technical aspects of device performance and integration into healthcare infrastructures.
Medical Device Quality Assurance Engineer: Quality assurance is crucial in the medical device industry. Graduates can pursue careers ensuring that medical devices meet the highest standards of quality and reliability. They work within organizations to conduct rigorous testing and implement quality control procedures for devices before they reach the market.
Health Technology Consultant: With their expertise in biomedical engineering and medical device design, graduates can work as consultants, advising healthcare providers, technology companies, and startups on the development and deployment of new medical devices. Consultants provide insights on technological trends, regulatory challenges, and industry best practices.
Biomedical Research Scientist: Graduates can pursue research positions in academic, industrial, or healthcare settings, where they investigate innovative medical devices and technologies. This may involve developing new types of medical equipment, improving existing devices, or exploring cutting-edge healthcare technologies.
Healthcare Technology Integration Specialist: In this role, graduates work to ensure that new medical devices are properly integrated into healthcare systems. They help hospitals and clinics adopt advanced technologies, ensuring that medical devices function effectively within clinical workflows and improve patient outcomes.
Product Manager in Medical Devices: Graduates can also work as product managers, overseeing the development of medical devices from concept to market. They collaborate with engineering teams, regulatory affairs, and marketing departments to ensure the successful launch and commercialization of new products.
