MSE Master of Science in Engineering

The Swiss engineering master's degree


Jedes Modul umfasst 3 ECTS. Sie wählen insgesamt 10 Module/30 ECTS in den folgenden Modulkategorien:

  • ​​​​12-15 ECTS in Technisch-wissenschaftlichen Modulen (TSM)
    TSM-Module vermitteln Ihnen profilspezifische Fachkompetenz und ergänzen die dezentralen Vertiefungsmodule.
  • 9-12 ECTS in Erweiterten theoretischen Grundlagen (FTP)
    FTP-Module behandeln theoretische Grundlagen wie die höhere Mathematik, Physik, Informationstheorie, Chemie usw. Sie erweitern Ihre abstrakte, wissenschaftliche Tiefe und tragen dazu bei, den für die Innovation wichtigen Bogen zwischen Abstraktion und Anwendung spannen zu können.
  • 6-9 ECTS in Kontextmodulen (CM)
    CM-Module vermitteln Ihnen Zusatzkompetenzen aus Bereichen wie Technologiemanagement, Betriebswirtschaft, Kommunikation, Projektmanagement, Patentrecht, Vertragsrecht usw.

In der Modulbeschreibung (siehe: Herunterladen der vollständigen Modulbeschreibung) finden Sie die kompletten Sprachangaben je Modul, unterteilt in die folgenden Kategorien:

  • Unterricht
  • Dokumentation
  • Prüfung
Biomedical Engineering (TSM_BioMedEng)

The lecture encompasses a comprehensive exposition of Biomedical Engineering. It commences with a historical overview, followed by an examination of contemporary methodologies and tools. Physiological principles will be discussed before focusing on subjects like biosignals and sensors. An array of topics will be dissected, including but not limited to bioimaging, biomolecular engineering, tissue engineering, and the intricacies of precision and personalized medicine. Attendees will attain discernment concerning foundational prerequisites such as biology and physiology and the variety of materials used for implants, prostheses, and available biomaterials. Current clinical paradigms will be scrutinized, notably osteoporosis, fracture fixation, and osteoarthritis. Furthermore, orthopedic treatment modalities and osteosynthesis techniques will be meticulously analyzed, encompassing fracture fixation and the primary stability of implants and joint replacements. A deeper comprehension will be given to measurement technologies catering to human physiological performance encompassing kinematics and kinetics. This includes evaluating movement analysis, muscular dynamics, and cerebral activity. (7) The course will also discuss (robot-assistive) rehabilitation technologies in the case of neuropathology, such as stroke, MS, and paraplegia, with a specific focus on innovations in virtual/augmented reality. 

Eintrittskompetenzen

Basic knowledge in cell biology, anatomy, functional anatomy, and pathology (fracture, neuro, orthopedics, osteosynthesis) is beneficial. Potentially missing knowledge can be acquired individually as an autodidact effort.

Lernziele

 

 

The first half of each afternoon session will focus on biomedical engineering and prosthetics. During the second half, the students will be tasked to work as a group on describing a medical device product of their choice (an existing device or a medical aid they would like to build).



 

Modulinhalt

Biomedical engineering

 

  • Physiological systems
  • Biotechnology and tissue engineering
  • Bioelectric and neuro-engineering
  • Human sensory systems
  • Bioreactors and tissue engineering in regenerative medicine

Prosthetics

 

  • Human movement analysis, orthopedics, biomechanics, biomaterials
  • Biomechanical testing of implants/test development & lab accreditation

Robot assistive rehabilitation

 

  • Clinical assessment of neurodegenerative diseases/human performance analysis
  • Rehabilitation devices and procedures
  • Therapeutic procedures based on virtual/augmented reality 

Lehr- und Lernmethoden

Various teaching methods, like classical teaching group work, will be applied.

Bibliografie

Slides and lecture notes will be made available to the students. Furthermore, a list will be provided with books and articles relevant to the topics taught.

Vollständige Modulbeschreibung herunterladen

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