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Cell mechanobiology and engineering

8MM40

About this course

  • Introduction to mechanobiology
  • Mechanosensing and mechanotransduction
  • Cell and matrix mechanics
  • Cellular and mammalian gene engineering approaches
  • Biophysical manipulation
  • Measurement techniques
  • Reconstructing cell–matrix interactions

For Student Mobility Alliance students: The course will be delivered fully on campus. The final exam is a written on campus exam.

Learning outcomes

Upon completion of the course, the student can:

  1. Explain the scientific concept and the multidisciplinary scope of mechanobiology, as well as its importance in human physiology and diseases.
  2. Specify the essential players in the interactions between the cell and its environment and understands their primary roles.
  3. Describe the mechanical response of cells and extracellular matrices and its structural underlying.
  4. Describe the various state-of-the-art engineering approaches to dissect the principles behind cell–matrix and cell-cell interactions.
  5. Independently identify and propose how dynamic cell–matrix and cell-cell interactions can be harnessed for rational design of biomaterials and to manipulate cell behavior in regenerative medicine applications.

Prior knowledge

You must meet the following requirements

  • Completed Final examination Bsc program

Resources

  • Introduction to Cell Mechanics and Mechanobiology, by Jacobs, Huang, Kwon.
  • Lecture handouts
  • Articles and possible other materials communicated before/during the course

Additional information

  • Credits
    ECTS 5
  • Level
    master
If anything remains unclear, please check the FAQ of TU Eindhoven.
There are currently no offerings available for students of Utrecht University