International Master of Science in Biomedical Engineering

The International Master course prepares students from Europe and beyond for a profession in Biomedical Engineering. The biomedical engineer generates knowledge from the molecular to the organ and system level. You will develop new materials, devices, tools, systems and methods for the early diagnosis, prevention and treatment of disease in order to improve and guarantee the health care and quality of life of the society.

Biomedical Engineering (BME) is a broad multidisciplinary area, involving many sub-specialisations, varying from regenerative medicine to implant design and from PET-scan imaging to biosensors. It is, for a single university, difficult to have in depth knowledge of all sub-specialisations in Biomedical Engineering to teach their students on an adequate level. In addition, the required European and international scope is difficult to gain when students stick to a single university. Therefore a consortium of six universities has joined their knowledge and specific expertise into a two-year European Master in Biomedical Engineering. The student follows the first and second master at two different universities but any combination is possible. In this way, the student has maximum freedom to create a master’s programme tailored to his/her interests and to choose the preferred specialisation.

Opbouw

During the first two semesters (60 credits) each university teaches the students about basic biomedical engineering topics. These courses define the basic level of competence of students. With these basic courses the student can then follow every specialisation, offered in the third and fourth semester. Traineeships have to be followed in a hospital and/or industry.

In the third semester (30 credits) students move to another one of the participating universities to follow lectures on a specific specialisation. Lectures are based on key research lines of these universities, so students get state-of-the-art knowledge, preparing them optimally for future developments in BME:
Groningen: Biomaterials & Nanotechnology, Imaging Physics
Aachen: Tissue Engineering, Artificial Organs & Implants, Image-Guided Therapy & Molecular Imaging
Dublin: Tissue Biomechanics & Regenerative Medicine, Neural Engineering
Ghent & Brussels: Radiation physics & Medical imaging, Biophysics for Medical Applications
Prague: Medical Instrumentation, Modern Physical Methods in BME, Medical Imaging Instrumentation

The fourth semester encompasses the Master's dissertation to be performed within the context of the chosen specialisation at one of the six participating universities.

Master's dissertation
An individual master's dissertation will be performed by the student. This project can be a research and/or a design assignment. The project will be finalised with a written report and an oral presentation. During this master's dissertation the student will apply all acquired knowledge and skills:
–– to solve a problem by designing a device (in case of a design assignment);
–– to formulate answers to a scientific question by performing scientific research (in case of a research assignment).
Assessment will be based on the report and a presentation.

Arbeidsmarkt

Students are trained to perform a research project and critically reflect on their work and are well prepared to function as a PhD-student at a university, perform research at a large industry R&D-department or to perform applied research (e.g. design of a second generation discus prosthesis, minimally invasive heart support devices ...).

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Thanks to their broad scope and international view these students are also well prepared for the task of product manager in an industry, leading an R&D-department of an industry, working as a project leader on applied research, medical physics engineer in a hospital. Their teamwork skills and knowledge of biomedical engineering make them suitable for hospital or clinical engineers who support and improve patient care by applying engineering and management skills to health care technology. They are involved in technical support of daily practice, training of health care professionals, introducing safety programmes, etc.
The broad view on the various BME-fields, the capability in making judgements, integrating medical, cultural, social, ethical insights make them very well suited for functions in government/public health, consultancy in a wide spectrum of functions (from product design to safety regulations), notified bodies (screening new products for a CE-mark), health insurance, improving health care and controlling costs.