BSc in Business Information Technology
The BSc in Business Information Technology (BIT) at the University of Twente is designe...
MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics
Drienerlolaan
INTAKE: Feb & Sept
Program Overview
The MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics at the University of Twente is designed for students passionate about leveraging technology to improve healthcare. This program combines advanced knowledge in biomedical engineering with practical applications in medical imaging and diagnostic technologies. It provides students with the expertise needed to work on the design and development of medical devices, diagnostic tools, and imaging technologies aimed at enhancing patient care. The program equips students with the skills to contribute to the development of cutting-edge medical solutions in a variety of clinical and research settings.
Curriculum: The MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics offers a comprehensive curriculum that covers essential topics in biomedical engineering, medical imaging, and diagnostic technologies. Core courses include medical imaging techniques, signal processing, in vitro diagnostics, and the development of biosensors. Students also engage with subjects such as biomedical optics, image analysis, and molecular diagnostics. The curriculum includes both theoretical learning and practical laboratory work, where students apply their knowledge to real-world problems. The program culminates in a master’s thesis that allows students to conduct in-depth research in their chosen area of interest within biomedical engineering.
Research Focus: The research focus of the MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics emphasizes the development of innovative diagnostic tools and medical imaging technologies. Students explore topics such as advanced imaging techniques, medical sensor technologies, and the integration of diagnostic devices with modern healthcare systems. Research is conducted in collaboration with top-tier research institutes and clinical partners, focusing on areas like early disease detection, personalized medicine, and the optimization of diagnostic procedures. Students are encouraged to contribute to ongoing projects and present their research findings at international conferences.
Industry Engagement: The MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics is closely linked to the healthcare and medical technology industries, offering students ample opportunities for internships and collaborations with industry leaders. The University of Twente has partnerships with hospitals, research centers, and companies in the medical device sector, providing students with hands-on experience in the development and implementation of biomedical technologies. Industry-driven projects and internships allow students to gain practical experience and develop the skills necessary for a successful career in biomedical engineering.
Global Perspective: The MSc in Biomedical Engineering - Imaging & In Vitro Diagnostics attracts students from diverse international backgrounds, offering a global perspective on healthcare challenges and biomedical engineering solutions. The program addresses worldwide healthcare needs by exploring the development of diagnostic and imaging technologies that can be applied across various medical systems. Through its international partnerships and research collaborations, the program prepares students to work in a global context, tackling healthcare issues on a global scale. The university’s diverse student body also fosters cross-cultural exchange, enhancing the learning experience and broadening students' understanding of healthcare systems 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 - Imaging & In Vitro Diagnostics from the University of Twente are prepared for a wide range of career opportunities within the healthcare, medical technology, and biomedical engineering sectors. Their specialized knowledge in medical imaging, diagnostic tools, and biosensors enables them to contribute to the development of innovative healthcare solutions.
Medical Imaging Specialist: Graduates can work as medical imaging specialists, focusing on the design and implementation of imaging technologies used in diagnosing various health conditions. These professionals may work with hospitals, research institutions, and medical device companies to enhance the precision and effectiveness of imaging tools.
Biomedical Engineer: As biomedical engineers, graduates design and develop medical devices, sensors, and diagnostic systems. These professionals work with medical institutions and technology companies to create and improve tools that enhance patient diagnosis and treatment.
In Vitro Diagnostics Specialist: This role involves working on the development of diagnostic tools and technologies used in laboratories for disease detection and analysis. Graduates can work in research institutions, diagnostic companies, or healthcare organizations, focusing on the design and improvement of diagnostic devices and technologies.
Clinical Researcher: Graduates can pursue careers in clinical research, working on projects that aim to test and validate new biomedical devices, imaging technologies, and diagnostic techniques. They collaborate with medical professionals, healthcare providers, and research teams to evaluate the effectiveness of emerging biomedical solutions.
Regulatory Affairs Specialist: A career in regulatory affairs involves ensuring that biomedical products and technologies comply with industry regulations and standards. Graduates can work with regulatory bodies, healthcare companies, and product developers to navigate the regulatory approval process for medical devices and diagnostics.
Healthcare Technology Consultant: Graduates can become consultants, advising healthcare organizations on the integration of advanced biomedical technologies into their systems. This role may involve evaluating existing technologies, recommending improvements, and helping healthcare providers adopt the latest innovations in medical diagnostics and imaging.
Biomedical Systems Integration Engineer: This role focuses on integrating biomedical systems, such as medical imaging equipment and diagnostic tools, into clinical environments. Graduates work to ensure that these systems work seamlessly with healthcare infrastructure to improve diagnosis and patient care.
Product Development Engineer: In this role, graduates design and develop innovative biomedical products, including diagnostic devices, imaging systems, and laboratory equipment. They work for biomedical companies or in research and development teams focused on advancing healthcare technologies.
Medical Device Project Manager: Graduates can manage projects related to the development and commercialization of new medical devices, ensuring that projects are completed on time, within budget, and meet regulatory standards. This role involves overseeing the development of imaging systems and diagnostic technologies from concept to market.
Research Scientist in Medical Technology: Graduates can pursue careers as research scientists, conducting studies to advance the field of medical imaging and diagnostics. These professionals work in academic or private sector research settings, contributing to the development of new techniques and technologies for disease detection and diagnosis.
