55 Find a Biomedical Technology degree
- Amsterdam, Netherlands
Full time
2 years
On-Campus
English
Translate fundamental research into biomedical engineering solutions
- Kaunas, Lithuania
Full time
2 years
On-Campus
English
An ageing population and rising health care costs caution us that the health care system must constantly improve. The recent COVID-19 pandemics makes this need even more evident. We have to find new effective ways to diagnose, prevent and treat diseases, and this requires innovative biomedical solutions and technologies.
- Oulu, Finland
Full time
2 years
On-Campus
English
MSc in Biomedical Engineering at University of Oulu offers interdisciplinary knowledge in medical and health technologies from theoretical and practical perspective. Students will gain the capability to design and implement biomedical measurement systems and health applications, and process multimodal biomedical signals and images.
- Dundee, United Kingdom
Full time
12 months
On-Campus
English
Biomedical Engineering is a multidisciplinary field. It combines engineering principles and design concepts with medical and biological sciences. With these disciplines, biomedical engineers seek to create solutions to healthcare problems. Our Biomedical Engineering Master's provides you with expert knowledge and skills. With these, you can succeed in one of the most rapidly-growing engineering disciplines.
- Dundee, United Kingdom
Full time
4 years
On-Campus
English
Biomedical engineering is the application of engineering principles and design concepts to human biology and medicine, to solve challenges in the healthcare industry. This could be the development of surgical devices, improvements to medical instrumentation, or discovery of new techniques in medical imaging.
- Aveiro, Portugal
2 years
On-Campus
English
Biomedical engineers with this solid education shall be capable of understanding, modeling, and creating complex biomedical systems. This multidisciplinary program aims to form professionals capable of finding innovative technological solutions for healthcare-related problems, in areas such as medical imaging, medical instrumentation, medical physics, radiotherapy, biodevices, biomaterials, processing and analysis of biomedical signals, bioinformatics, medical information management, etc; who produce an effective benefit to medical diagnosis and treatment, clinical monitoring and control and quality of life in general. It is also an objective that these professionals can contribute to the technological and scientific development in the context of high-level research to develop, for example, at national or foreign research units in the areas of biomedical engineering
- Vilnius, Lithuania
Full time
2 years
On-Campus
English
Study programme aims at preparing professionals who would acquire the skills and knowledge to close the gap between engineering and medicine by combining the design and problem-solving skills of engineering with medical biological sciences and to advance health care services through the application of engineering principles and design concepts, innovative technologies and methods of multidisciplinary research.
- Arrasate, Spain
Full time
18 months
On-Campus
Spanish, English
The Master in Biomedical Technologies responds to the need for highly qualified personnel who respond and promote advances in the health sector. Thus, students will deepen their engineering knowledge applied to the field of biomedicine, training experts capable of innovating, designing, developing, evaluating and maintaining various medical devices for diagnosis and / or treatment.
- Güzelyurt, Cyprus
Full time
4 years
On-Campus
The practice of biomedical engineering has a long history. One of the earliest examples is a wood and leather prosthetic toe found on a 3,000-year-old Egyptian mummy. Before that, even simple crutches and walking sticks were a form of engineered assistive devices, and the first person to fashion a splint for a broken bone could be considered to have been an early biomedical engineer.
- Barcelona, Spain
Full time
On-Campus
Spanish, English
The master's degree in Biomedical Engineering provides advanced training in various aspects of the discipline. It provides the foundations for academic or professional specialization and an introduction to applied research. Essentially, the course is designed to complement and reinforce the training of graduates in biomedical engineering.
- Amsterdam, Netherlands
Full time
2 years
On-Campus
English
If you’re ready to meet tomorrow's complex medical challenges and new approaches, then this is the Master’s program for you. It offers you the unique opportunity to combine scientific subjects with practical application and fundamental research in a clinical setting.
- Rapid City, USA
Full time
4 years
On-Campus
English
The PhD program prepares students for a career in research; advancing the frontiers of biomedical science and engineering with attention to generating new ideas for commercialization.
- Linköping, Sweden
Full time
4 semesters
On-Campus
English
This program combines fundamental concepts and knowledge in engineering, biology, and medicine to develop innovative technologies, materials, processes, and systems, with the aim of improving healthcare.
Summer Course in Organisational Networks in Healthcare: Theory and Analysis
Vrije University - Summer & Winter graduate programs
Featured
- Amsterdam, Netherlands
Full time
1 week
On-Campus
English
Enroll in our enlightening 'Summer Course in Organisational Networks in Healthcare: Theory and Analysis,' where we navigate the intricate challenges faced by the healthcare sector. Addressing the complexities arising from an aging population and the subsequent demand for more sophisticated healthcare provision, the course examines the strains on affordability, accessibility, and quality. In response, participants will explore the crucial need for increased collaboration within and between healthcare organizations.
- Limerick, Ireland
Full time
4 years
On-Campus
English
Modern medicine has given rise to the development of a wide range of novel engineering solutions to clinical problems. Examples of these developments vary from orthopaedic implants such as total hip replacements to cardiovascular implants such as coronary stents (small wire scaffolds inserted into the blood vessels around the heart). As a result of the increased collaboration between engineers and doctors, the new discipline of biomedical Engineering developed. Biomedical Engineering is the fastest growing area of Engineering.