A master in Biomedical Science has the expertise to contribute to translational research regarding current biomedical problems on an international academic level. You will have the know-how to develop, in a critical and creative manner, new insights regarding human health (you will bridge the gap between ‘pure’ sciences and the medical-clinical practice).
It is a master of 120 ECTS credits. It consists of general subjects, specialised biomedical subjects, a research internship and a master’s dissertation. In the second year of the master, you will have 18 credits to spend on elective courses. All these courses together form two learning trajectories aiming at your growth as an independent researcher and enabling you to bridge the gap between scientifical knowledge and the medical-clinical practice.
There are nine majors to choose from. Eight of them deal with current, constantly evolving, biomedical fields. You choose one major in close accordance with your research internship and the subject of your master’s dissertation. Each major has five complementary subjects. They follow a trajectory that starts from fundamental research and leads to clinical applications and insights, the so-called translational research. Major nine, Education and communication, allows you to follow a part of the teacher’s training.
- The major Nutrition and metabolism deals with the methods of nutrition research and the relationship between nutrition, metabolism and pathology: diabetes, obesity, hypertension, atherosclerosis etc. The major has a direct link with the medical laboratory diagnostics and the underlying validation systems.
- The major Neurosciences focusses on brain research and its diseases and dysfunctions, such as epilepsy. You will deal with medical imaging of the brain, the neurophysiological principles of brain activity, diseases of the nerve system (origins and treatment), experimental behavioral sciences and research of cognitive and mental functions.
- The major Tissue engineering and regenerative medicine offers a profound knowledge in cellular biological processes regarding ageing, cell death, inflammation, tissue regeneration and stem cell biology. It also deals with the multidisciplinary field of tissue engineering.
- The major Radiation Sciences can be considered as the run-up for a course as expert in medical radiation physics for radiation protection of the patient in medical diagnostics and therapy. The most recent insights in radiation biology and radiation dosimetry will be studied as well as technological innovations in radiotherapy.
- The major Medical Genetics focusses on in-depth insight in the newest developments in the field of human genetics; more specifically genetic diagnostics, the genetic basis of syndromes (e.g. neuroblastoma, connective tissue diseases, mental retardation, genetic cancers) and the fast-evolving genetic research techniques will be studied extensively.
- The major Immunity and infection studies the normal functioning of human immunity on a cellular and molecular level. A large number of current topics are dealt with: immunopathologies, infection diseases, molecular pathogenesis of viruses and bacteria, the development of therapeutic vaccines and immunomodulators.
- The major System Biology studies the functional system as a whole: the human being, the exemplary organism, the organism or the cell as a whole are objects of the study. Attention is paid to the comparison of a ‘system’ in disease and health as to objectively mapping out the disruption and its effects in the molecular mechanisms. The major strongly relies on the explosive technological developments in the last decennium, more specifically in the highly advanced execution technologies and bioinformatics.
- The major Cancer deals in five complementary subjects both with biological aspects (genetics, proliferation and survival, communication and metastasis) and clinical aspects of cancer. Special attention is paid to personalised medicine. −− The major Education and communication allows you to follow a part of the teacher’s training (30 credits).
- Laboratory Animal Science I
- Good Laboratory Practice
- Bio-Ethics in Experimental Medicine
- Cell and Gene Therapy
- Advanced Academic English
- Specialised Bio-informatics
- Good Clinical Practice - Clinical studies
- Medical Seminars
- Innovation Management
Research in the field of biomedics will remain very important due to the major social relevance for healthcare. A biomedical researcher will be able to contribute to the understanding of the mechanism of diseases and will be able to improve the molecular diagnostic techniques of clinical treatments. Personalised medicine will gradually gain importance and the professional future in biomedical research looks promising.
If you are looking for a job as a biomedical researcher, you have different options. You can choose for an academic research environment by starting a PhD at a university or you aim at working in research-oriented companies or in a university hospital. Besides universities and research-oriented companies, there is also the option of working in research institutions run by the government. Finally, also teaching jobs, both in secondary schools as in higher education, are an option for masters in biomedical sciences.
Admission (for Flemish degree students)
- Immediate Admission
- Bachelor in de biomedische wetenschappen
- Admission Subject to Passing a Preparatory Course
- 50 SP
- Bachelor in de biochemie en de biotechnologie
- 55 SP
- Bachelor in de diergeneeskunde
- 58 SP
- Bachelor in de bio-ingenieurswetenschappen, afstudeerrichting: Cell and Gene Biotechnology
- 66 SP
- Bachelor in de geneeskunde
Admission (for international degree students)
An academic diploma of Bachelor (or Master) in Biomedical Sciences or an equivalent to this.
All students are required to demonstrate language proficiency at the latest upon enrolment.
Program taught in: