Biomedical engineering is the application of the engineering's principles and problem-solving techniques to biology and medicine in a multidisciplinary perspective. The Bio-medical Devices courses provide to the students general knowledge in physics, engineering and biology, in order to facilitate their integration in the biomedical field where they will be confronted to multisciplinary missions and where they will be at the interface between doctors, biologists, engineers, researchers, patients...
The courses are composed of 5 sections:
1- Introduction to Biology (21 hrs Lecture and practical work)
2- Research in Bioelectronics (9 hrs lecture)
3- Applications to Neurosciences (36 hrs lecture and hospital visit)
4- Introduction to Biodiagnostics (9 hrs Lecture and practical work)
5- Medical imaging (12 hrs lecture)
10 credits
| A la fin de l’unité pédagogique, l’élève sera capable de : | Niveau de taxonomie | Priorité |
|---|---|---|
| Biology concepts | 2. Comprendre | Essentiel |
| Bioelectronic devices design and challenges | 2. Comprendre | Important |
| Neurosciences challenges and applications | 2. Comprendre | Important |
| Biodiagnostics methods and evolution | 2. Comprendre | Utile |
| Medical imaging techniques and evolution | 2. Comprendre | Important |
| Part de l'évaluation individuelle | Part de l'évaluation collective | ||||
|---|---|---|---|---|---|
| Examen sur table : | 40 | % | Livrable(s) de projet : | % | |
| Examen oral individuel : | 20 | % | Exposé collectif : | % | |
| Exposé individuel : | 20 | % | Exercice pratique collectif : | % | |
| Exercice pratique individuel : | % | Rapport collectif : | % | ||
| Rapport individuel : | 20 | % | |||
| Autre(s) : % | |||||
| Type d’activité pédagogique : | Contenu, séquencement et organisation |
|---|---|
| Introduction to Biology | 1- Biomolecules, protein structure and function 2- Elements of eukaryotic cells 3- Cell types and tissue organization 4- Practical work on bioinformatics or cell biology and microscopy |
| Research in bioelectronics | 1- Principle and challenges of bioelectronics 2- Bioelectronic materials 3- Optoelectronic devices for biology/medical applications |
| Application to Neurosciences | 1- General introduction to Neurosciences and neural prosthesis 2- Medical EEG ECG, EMG and MEG: from principle to data analysis and diagnostics 3- EEG and MEG laboratory visit + hospital visit (Epylepsy and sleep departments) 4- Electrode technologies 5 Signal conditioning, biomedical instrumentation amplifier, designing medical devices dor isolation and safety |
| Introduction to Biodiagnostics | 1- Overview of medical biodiagnostics 2- Toxicology, drug development, from in vivo to in vitro 3- research seminar |
| Medical imaging | 1- Medical imaging techniques 2- Evolution and applications 3- Entrepreneurship |