BioMaterials and BioDevices

BioMaterials and BioDevices (BioMAT)

Biomaterials research and development currently not only encompass, but extend far beyond the field of prosthetics design. Most biomedical technologies rely today on the design of materials and complex devices able to interact in controlled and specific manners with living systems. The application scope is extremely challenging and diversified including tissue engineered products for regenerative medicine, miniaturized devices for diagnosis as well as model bioactive materials for biomedical research.

The BioMAT track provides scientists, engineers, and medical students with the wherewithal to face the numerous challenges of biomaterials and biodevices R&D; how to carry out innovative and fruitful research with the appropriate methods and ethical considerations, how to collaborate and interact in projects at the interface among materials and biomedical science, and medicine. It is accessible to engineering and life-science students (materials science, physics, chemistry, medicine, pharmacy, dentistry, and biology) preparing for career paths in academic research or industrial R&D environments.

The program relies on a rich combination of high-level lectures, conferences and exchanges with invited experts and interdisciplinary group projects. From all these experiences, the students will learn how to apply their skills on health-related applications ranging from implant and tissue engineering through the modelling and characterization of biological materials to the design of devices for diagnosis.

Course Selection

For Semester 3: Besides the BME conferences and interdisciplinary week, the BioMAT program starts with a set of four core teaching units providing a broad overview of state-of-the-art knowledge of biomaterials science, as well as anatomy and research methodology. These units are completed by upgrade courses in biology or mechanics to be chosen depending on the initial background. In-depth focus on biomaterials research is developed in a syllabus of ten teaching units. Each student selects a set of at least four teaching units: two from the set “General concepts for biomaterials and biodevices design” and two from one of the subtracks “Tissue reconstruction and regenerative medicine” and “Nano- and micro-systems medicine”.

For Semester 4: Two units put the training in a broader perspective with a business plan workshop and a lecture on ethics. Most of the semester is then devoted to the research internship which lasts between 5 to 6 months.   

Additional courses can be chosen. A pedagogical commission of lecturers and researchers assists students and helps them to devise a personalized program consistent with their individual backgrounds and professional objectives.

Semester 3

Semester 4

Mandatory courses

Open Your Mind Seminars
Interdisciplinary week (3 ECTS)
Research Methodology
Practical training: Hands on state-of-the art tech
Fundamentals in biomaterials science and engineering
Anatomy of the Musculo-skeletal System

 

Upgrade courses
3 ECTS to be picked among

Basics in Tissue and Cell Biology (Biology I)
Advanced in Tissue and Cell Biology (Biology II) (3 ECTS)
Basics in Continuum Mechanics (Biomechanics I)
Modeling and Simulation in Biomechanics (Biomechanics II)

 

General concepts for biomaterials and biodevices design
6 ECTS to be picked among

 

Biointerfaces
Cell mechanics, adhesion and motility
Soft cell: substrate interactions

 

Sub-track: Tissue reconstruction and regenerative medicine
6 ECTS to be picked among

Principles in tissue engineering
Cardiovascular repair
Osteoarticular Repair
Clinical applications in tissue engineering (3 ECTS)

 

Sub-track: Nano- and micro-systems for medicine
6 ECTS to be picked among

Biosensors for medical diagnosis
Miniaturized devices for diagnosis
Chemistry for Bioimaging : Basics, probes and nanomedicine

Mandatory courses

Business Plan Workshop
Research Internship (26 ECts)
Ethical Aspects of Biomedical Engineering (1 ECTS)