BioMechanics

BioMechanics (BioMECH)

BioMECHANICS – M2

The BioMECHANICS (BioMECH) track offers in-depth expertise and essential tools to understand and tackle biomedical challenges using principles of mechanics. This program integrates recent and upcoming advancements in biomechanics, designed to offer innovative solutions to pressing health issues and respond to industry needs. Through a combination of lectures, team projects, case studies, and invited talks by both academic and industry experts, students gain knowledge in a stimulating, multidisciplinary environment. The BioMECH program emphasizes translational learning, guiding students from foundational science and modeling to clinical application, in close collaboration with clinicians.

BioMECH equips engineers and healthcare professionals with the skills to engage in research and development (R&D) in biomechanics. Students learn to: Address specific biomedical challenges, Conduct innovative, ethical, and rigorous research, Collaborate across fields at the intersection of mechanics, materials, and biomedicine. 

Program Structure

A core curriculum provides a comprehensive overview of biomechanics fundamentals and methods. Additionally, students choose one of two specialized tracks: Engineering Science (EngSci) or Health Science (HealthSci). 

The HealthSci track offers a part-time, flexible program for clinicians, which can be completed over one or two years. Courses are held in person at ENSAM every Thursday from 9:00 AM to 5:30 PM, beginning in early November. The format is compatible with part-time professional activities, provided students attend classes on Thursdays and allocate sufficient time for experimental research.

Program Overview for Both Tracks

The first semester starts with an integration week composed of:

  • A general kickoff meeting that gives a condensed overview of the Master program.
  • An individual meeting with one member of the BioMECH pedagogic team.
  • 3 orientation days (team building, student organization, outdoor walking rally, Skills workshop, Pitch workshop, Mock interviews)

 

 

The courses will then take place on a weekly basis. The students undertake a scientific thinking module and courses to the value of 30 ECTS credits (European Credit Transfer Scale). Student choices need to be approved by their academic tutor.

 

Engineering Science subtrack

Semester 3 Engineering Science subtrack

Mandatory courses

Open Your Mind Seminars
Interdisciplinary week (3 ECTS)
Immersion, Methodology & Communication (3 ECTS)
Anatomy of the Musculo-skeletal System (3 ECTS)

 

3 ECTS to be picked among

Basics in Continuum Mechanics (3 ECTS)
Modeling and Simulation in Biomechanics (3 ECTS)

 
3/6 ECTS to be picked among

Basics in Tissue and Cell Biology (3 ECTS)
Fundamentals in Biomaterial Science (3 ECTS)

 

12/15 ECTS to be picked among

Mechanical behaviour of biological tissues (3 ECTS)
Dynamics, Impacts & Mechanical Waves (3 ECTS)
Experimental methods in Biomechanics (3 ECTS)
Non-linear aspects for the musculoskeletal modeling (3 ECTS)
Medical Imaging and geometrical modeling (3 ECTS)
Movement analysis and locomotion (3 ECTS)
Muscular system modeling (3 ECTS)
Mechanics of complex materials and modeling (3 ECTS)
An introduction to Virtual Reality and Augmented Reality in the biomedical field (3 ECTS)
Mastering Virtual reality and Augmented Reality (3 ECTS)


One course (3 or 6 ECTS) in another Master (subject to Master chairs’ authorizations)

Optional course

Risk management (3 ECTS)

Semester 4 Engineering Science subtrack

Mandatory courses

Industrial aspects of BioMedical Engineering
Research Internship

NB. No schedule or syllabus will be provided before the kick-off meeting. You must know that it is a full-time program though.

As far as the non mandatory courses are concerned, the students’ choices will have to be discussed with the track chairs and will be finalized during the interdisciplinary week, taking the student’s personal background and interests into consideration. It will then be validated in a co-signed contract of study.

The courses students will eventually attend will also depend on actual availability: some courses might not open because of an insufficient number of attendees, while others may have a limited capacity and not be able to offer a seat to all.

As indicated, a course may be offered to BME Paris students outside the track which supports it. In such cases, priority will be given to students enrolled in the supporting track.

Students enrolled in other Arts et Métiers, Université Paris Cité or Université PSL programs may also attend a BME Paris course, provided that:

  • their respective program chairs support their application
  • the course is not already full
  • the relevant BME Paris chairs accept their applications which must include a CV and a motivation letter

Health Science subtrack

NB. No schedule or syllabus will be provided before the kick-off meeting. You must know that it is a full-time program though.

Semester 3 Health Science subtrack

Mandatory courses

Open Your Mind Seminars
Interdisciplinary week
Immersion, Methodology & Communication
Mathematics for Engineering
Statics of Rigid Bodies
Kinematics of Rigid Bodies
Research Project Health Science - Part 1

Semester 4 Health Science subtrack

Mandatory courses

Strength of materials
Biomechanical modeling and finite element
Kinematic and dynamic movement analysis
Material and Structure mechanical behavior
Industrial aspects of BioMedical Engineering
Research Project Health Science - Part 2
800
graduate students since 2010
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90
nationalities represented since 2010
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50%
bme graduates continue their education with a phd
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