Ralph Müller: Katalogdaten im Herbstsemester 2020

NameHerr Prof. Dr. Ralph Müller
LehrgebietBiomechanik
Adresse
Institut für Biomechanik
ETH Zürich, HCP H 23.1
Leopold-Ruzicka-Weg 4
8093 Zürich
SWITZERLAND
Telefon+41 44 632 45 92
Fax+41 44 633 11 24
E-Mailram@ethz.ch
URLhttp://n.ethz.ch/~ram/cv.html
DepartementGesundheitswissenschaften und Technologie
BeziehungOrdentlicher Professor

NummerTitelECTSUmfangDozierende
376-0121-00LMultiscale Bone Biomechanics Belegung eingeschränkt - Details anzeigen
Number of participants limited to 30
6 KP4SR. Müller, X.‑H. Qin
KurzbeschreibungThe seminar provides state-of-the-art insight to the biomechanical function of bone from molecules, to cells, tissue and up to the organ. Multiscale imaging and simulation allows linking different levels of hierarchy, where systems biology helps understanding the mechanobiological response of bone to loading and injury in scenarios relevant for personalized health and translational medicine.
LernzielThe learning objectives include 1. advanced knowledge of the state-of-the-are in multiscale bone biomechanics; 2. basic understanding of the biological principles governing bone in health, disease and treatment from molecules, to cells, tissue and up to the organ; 3. good understanding of the prevalent biomechanical testing and imaging techniques on the various levels of bone hierarchy; 4. practical implementation of state-of-the-art multiscale simulation techniques; 5. improved programing skills through the use of python; 6. hands on experience in designing solutions for clinical and industrial problems; 7. encouragement of critical thinking and creating an environment for independent and self-directed studying.
InhaltBone is one of the most investigated biological materials due to its primary function of providing skeletal stability. Bone is susceptible to different local stimuli including mechanical forces and has great capabilities in adapting its mechanical properties to the changes in its environment. Nevertheless, aging or hormonal changes can make bone lose its ability to remodel appropriately, with loss of strength and increased fracture risk as a result, leading to devastating diseases such as osteoporosis. To better understand the biomechanical function of bone, one has to understand the hierarchical organization of this fascinating material down from the molecules, to the cells, tissue and up to the organ. Multiscale imaging and simulation allows to link these different levels of hierarchy. Incorporating systems biology approaches, not only biomechanical strength of the material can be assessed but also the mechanobiological response of the bone triggered by loading and injury in scenarios relevant for personalized health and translational medicine. Watching cells working together to build and repair bone in a coordinated fashion is a spectacle, which will need dynamic image content and deep discussions in the lecture room to probe the imagination of the individual student interested in the topic. For the seminar, concepts of video lectures will be used in a flipped class room setup, where students can study the basic biology, engineering and mathematical concepts in video tutorials online (TORQUES). All videos and animations will be incorporated in Moodle and PolyBook allowing studying and interactive course participation online. It is anticipated that the students need to prepare 2x45 minutes for the study of the actual lecture material. On the Friday afternoon, the first time slot (12-13) will be used for students, who want to schedule one-to-one meetings with the lecturer/tutors to discuss course content. In the later time slots (13-16), short clips with video/animation content will be used to introduce problems and discuss specific scientific findings using multiscale imaging and simulation technology in a flipped classroom. The students will have to form small groups to try to solve such problems and to present their solutions for advanced multiscale investigation of bone ranging from basic science to personalized health and onto translational medicine. Towards the end of the semester, students will have to present self-selected publications associated with the different topics of the lecture identified through PubMed or the Web of Science.
SkriptMaterial will be provided in Moodle and PolyBook.
Voraussetzungen / BesonderesPrior experience with the programming language python is beneficial but not mandatory. ETH offers courses for practical programming with python.
376-1974-00LColloquium in Biomechanics Information 2 KP2KB. Helgason, S. J. Ferguson, R. Müller, J. G. Snedeker, B. Taylor, M. Zenobi-Wong
KurzbeschreibungCurrent topics in biomechanics presented by speakers from academia and industry.
LernzielGetting insight into actual areas and problems of biomechanics.