Biomedical Engineering
- Czech Republic
- France
- Greece
- United Kingdom
- France
What is the objective of the course? What is it?
What does it train you for?
What does it train you for?
The Master's Degree in Biomedical Engineering is a natural prosecution of the Bachelor Course in Biomedical Engineering and aims to prepare professionals with interdisciplinary competenzes and skills in the frame of biomaterial engineering, hardware and software technologies, biomechanics, regenerative medicine and biomedial devices (mechanical, electronical, robotics), testing and maintenance of equipment used in sanitary structures.
The formation of Master Biomedical Engineers is organized to provide the students with solid training in the field of the methodologies and technologies of engineering, applied to medical-biological area.
The first part is devoted to mandatory subjects typical of characterizing scopes of biomedical engineering (Bioengineering and Biomedical Disciplines) that range from the analysis and modeling of biomedical signals to tissue engineering, cellular bioengineering, diagnostic imaging, technologies of regenerative medicine, to allow the student to specialize around preferred interest, also thanking to wide space given to master thesis and internship.
What do you learn?
Master Biomedical Engineer owns a solid base education in engineering disciplines that are integrated and assisted by specific knowledge in specific areas.
In the area of biomaterials, Master Biomedical Engineer consolidates the training studying their main properties and characteristics, their nature and interactions with biological tissues.
Moreover (s)he is able to design artificial systems for the functional recovery of a tissue or organ to be substituted, integrated or rehabilitated.
In the area of diagnostic technologies, (s)he consolidates the training on analysis, modeling and elaboration of biomedical signals and, moreover, in electronics, mechatronics and robotics, aided by a base preparation in the medical-biological area with knowledge on specific applications. (S)he is able to elaborate and analyze medical-biological signals, images and data.
Moreover, (s)he is able to apply techniques to design electronic circuits, methodological tools and quantitative methods to study physiological systems.
In the area of biomechanics, (s)he consolidated the training on knowledge and applications of biomechanics and movement, studying functional devices for controlled release.
In particular, s(he) is able to use methodological and calculation tools, necessary to describe transport phenomena of fluids and substances in biomedical field.
What can you do with it?
Master Biomedical Engineer can operate both as freelancer and in industries, companies, hospitals, specialized clinical labs, research centers and universities.
The graduated students will be able to work in differed fields and productive sectors: research and development, design and production of biomaterial with particular reference to those for devices; systems and equipment for diagnosis, recover and rehabilitation; design, production, management and testing of medical and diagnostic equipment; solution of methodological and technological problems for applications in physiology; sanitary, informatic, diagnostic assistance services; research, modeling, management of biomechanic, bioartificial, biological and prosthetic structures and components.
According to the current legislation, the master biomedical engineering has access to private practice, subjected to passing the corresponding state examination and following registration with the Register.
Finally, getting the degree of master Biomedical Engineering allows, after a period of internship under the guidance of a qualified and certified expert, to get access to qualifying examination for registering as qualified expert (I level) in charge of physical monitoring of radioprotection.