Regenerative Medicine and Technology (RMT) combines fundamental disciplines such as stem cell biology, materials science and biomechanics with more applied disciplines such as cell therapy, implantology and imaging. New collaborations amongst these disciplines can assist in innovation in fundamental life sciences but also in new patient therapies and clinical applications with the ultimate goal to restore lost tissue or organ function.
This Master’s programme aims to train multidisciplinary scientists and to stimulate innovative research at the interface between biomedical sciences, engineering and clinical application. The rapidly emerging multidisciplinary field of regenerative medicine has significant effects on current and future health care applications. Our strong focus on technology will equip you with an understanding of processes ranging from specific cell culturing techniques and the use of biomaterials to computer models and imaging modalities.
Utrecht University offers the Master’s programme in cooperation with the University Medical Center Utrecht and the Faculty of Biomedical Engineering at Eindhoven University of Technology (TU/e). The programme combines the expertise of both universities and provides access to their state-of-the-art laboratories and research groups.
As a Master’s student of Regenerative Medicine and Technology you will take theoretical courses and seminars as well as master classes led by renowned specialists in the field in both Eindhoven and Utrecht. The courses are interactive, and challenge students to further improve their communication, writing and presenting skills. During your six to nine month internships you work in a lively research environment in academia or in consultancy companies and industry.
Regenerative Medicine and Technology will address the shortage of donor organs/tissue by providing the opportunity to produce tissue substitutes. As a graduates you can pursue a career in academic (PhD) or in industrial and commercial directions, including R&D, sales and consultancy.
Biotechnology is defined as the industrial exploitation of living organisms or the exploitation of components derived from these organisms. Its practical applications include age-old techniques such as brewing and fermentation, which are still important today. In recent decades, gene modification has revolutionized the biotechnology industry, spawning countless new products and improving established processes.
More and more types of fermentation are being used, and most new medicines are products of biotechnology. Modern biotechnology has become an applied area of science with a multidisciplinary approach embracing recombinant DNA technology, cellular biology, microbiology, biochemistry, as well as process design, engineering, modelling and control.
Biotechnology is a broad, multidisciplinary area of science. A Master of Science in Biotechnology is an expert in one (group of) discipline(s) and has to have sufficient knowledge and skills in other disciplines to cooperate with experts from the other disciplines. Therefore, students specialise during the Master programme and learn how to solve complex biotechnological problems in a multidisciplinary team.
On the programme of Biotechnology page you can find the general outline of the programme and more detailed information about courses, theses and internships.
Within the master's programme you can choose one of the following Specialisations to meet your personal interests.
The first job after graduation, obtained by Msc biotechnologist, is often localised at a research institute or an university in- or outside The Netherlands. It usually concerns a research project or, more detailed, a PhD project: more than 50% of the graduated biotechnologist becomes PhD. Although most graduates choose for a career in science about 1/3 also starts in functions as engineer or technical expert. Read more about career perspectives and opportunities after finishing the programme.
Acquire a solid foundation in sustainable energy system management. Topics include modelling, technologies, markets & innovation, scientific framework (law, policy, societal acceptance, nvironmental aspects). Work on real life projects, and follow the specialisation semester at a partner institute or at Hanze UAS. The specialisations you can choose are system integration and optimisation or sustainable energy management. This programme is for students with a background in economics, managerial engineering or equivalent.
Acquire a solid foundation in key renewable energy technologies and related socio-economic issues at Hanze UAS and specialise in a specific technology at a partner institute or at Hanze UAS. Specialisations are available in wind energy, photovoltaics, sustainable fuel systems for mobility, solar thermal energy, grid integration and ocean energy. This programme is for students with a technical background.
The cities of today are complex with interrelated economic, social, environmental and physical challenges which need to be balanced in the ever-changing urban environment.
The intensive 12-month MSc in Urban Management and Development is designed to equip participants with the knowledge and skills to become competent urban managers by offering an in-depth insight into urban issues, policies and trends around the world through a blend of lectures with case studies, discussions, working groups, group assignments and field visits and field work. More specifically, you will be looking into questions like (but not limited to):
What are the dynamics of urban growth? How do you manage a city in a holistic way? What about creating urban land and space use policies that reflect the “New Urban Agenda” goals? What are the theories that underpin good urban governance? Under what conditions are Public Private Partnerships (PPP) successful vehicles for urban development? How can local governments finance urban infrastructure? What is the right way to assess a social policy in the view of a paradigm shift?
The master programme is divided into three main periods: a core period, a specialization period and a thesis period. Visit our website or download the brochure to find more information about the programme structure and the knowledge you will gain during each period.
Throughout the course, students participate in interactive lectures, workshops and discussions, engage in group and individual exercises, analyse cases, give presentations and write papers and essays which aim to deepen their knowledge about the concepts and theory. The training methodology of the programme includes field visits, fieldwork, simulation games, discussions, best practices and case studies.
IHS, the Insitute for Housing and Urban Development Studies of Erasmus University Rotterdam was honoured in 2007 with the UN-HABITAT Award for ‘leading the way as a global center of excellence and knowledge through its high quality teaching programmes in urban management and planning’ and over 60 years of experience in educating and training local and national governments officials.