Master of Science in Biomedical Engineering

Biomedical engineers combine a passion for engineering with medicine and life sciences. They develop new materials, devices, tools, systems and methods for the early diagnosis, prevention and treatment of pathology in order to improve and guarantee health care and quality-of-life of the individual and society.

Master's Programme
2 year 120 credits
Faculty of Engineering and Architecture
English
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About the programme
Programme summary
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Off to a good start
After graduation

What

The Master of Science in Biomedical Engineering is an interuniversity collaboration between Ghent University and Vrije Universiteit Brussel. Students acquire a solid technical know-how (integrating mathematics, physics, chemistry and life sciences with engineering techniques) to operate in the biomedical sector, while being introduced to the specificities of working for and with the patient and with living matter, and getting to know the perspective of the clinician and all stakeholders in the biomedical and health care industry.

Students acquire the necessary research and engineering skills to analyse and solve complex problems independently, and are capable of developing new materials, devices, tools, systems and methods for the early diagnosis, prevention and treatment of disease in order to improve and guarantee society's health care and quality of life. Students are made aware of ethical, socio-economic and sustainability aspects of the biomedical engineering profession and get to know the organisation of our health care system. In the fast-evolving field of biomedical engineering, the Master’s programme also stimulates an attitude of live-long learning.

This programme delivers academically formed engineers of an outstanding international level, naturally trained to function in a multidisciplinary and international team through the multidisciplinary programme (with lecturers from diverse faculties and research areas) and work on multidisciplinary projects together with international students solving multidisciplinary problem cases in group. Students acquire excellent communication skills in oral and written reporting.

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Remarks

The Faculty of Engineering and Architecture (FEA) offers most of its Engineering programmes at Master’s level in English. This underlines the international ambition of the faculty, as well as the importance of an international education and multiple language skills for students.

For whom

The admission requirements vary. Depending on your prior education, you are either able to enrol directly, or there are additional requirements.

Structure

The study programme consists of:

  • 120 ECTS-credits spread over four twelve-week terms.

  • 64 ECTS-credits worth of mandatory course units on established and newly emerging biomedical engineering disciplines.

  • 39 ECTS-credits worth of project work staggered over the two years.

  • 32 ECTS-credits worth of elective course units to give shape to your individual curriculum with options to specialize in Mechanics and Materials, Radiation Physics, Neuro-engineering, Artificial Intelligence and Digital Health, or Sensors and Devices.

  • participation in the National Day on Biomedical Engineering, a Biomedical Industry Day and in company and field trips.

  • possibility to choose a track that results in the recognition of ‘Expert in Medical Radiation Physics’. 

Master's Dissertation

The programme culminates with the Master's Dissertation. It consists of substantial, original and high-level academic research that is to be elaborated individually by the student and thus with a high degree of independence. All the while, however, the student is surrounded and supported by a research team. This independently conducted research, together with the written report and oral presentation is the students' ultimate demonstration of their ability to familiarize themselves with a new relevant biomedical engineering problem, study the problem on a high scientific level, and to report on the subject in various ways (Master’s dissertation, poster, oral public presentation).

Programme mobility

The basic biomedical engineering course units are, in principle, offered in parallel at both universities, while the more specialist course units are either taught at Ghent University, Vrije Universiteit Brussel or together. We take into consideration optimal student and teaching staff mobility. For the elective course units and the Master’s dissertation, students are free to choose between Ghent University, Vrije Universiteit Brussel or one of the (international) partner institutions with which either university has a bilateral agreement. Erasmus+ gives students the opportunity to study abroad as well, using the mobility window that is part of the second year. Students can choose to spend either one term of the 1st or 2nd master, or to spend the full 2nd master abroad.

Our interuniversity programme board overlooks each student's individual curriculum and might impose (a limited number) of course units, depending on their previously acquired credits and competences. As each student's trajectory is assessed on an individual basis, it is important to apply in a timely fashion. This ensures a careful study of individual track records and an optimal selection of course units.

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Labour Market

Biomedical engineers find employment in industry (medical devices and technology, consultancy, software development, production and distribution industry, pharmaceutical industry, …), in hospitals (university hospital labs, as well as in university and/or general hospital management), in universities and research institutes, notified bodies and regulatory affairs, and in government (government and advisory bodies). It goes without saying that biomedical engineers are wanted for all generic academic engineering jobs.