From 2 November 2020, the autumn semester 2020 will take place online. Exceptions: Courses that can only be carried out with on-site presence.
Please note the information provided by the lecturers via e-mail.

Gisela Anna Kuhn: Catalogue data in Spring Semester 2019

Name Dr. Gisela Anna Kuhn
Institut für Biomechanik
ETH Zürich, HCP H 17.1
Leopold-Ruzicka-Weg 4
8093 Zürich
Telephone+41 44 633 60 31
DepartmentHealth Sciences and Technology

376-0008-00LAdvanced Anatomy and Physiology II: Advanced Physiology and Pathophysiology Restricted registration - show details
Only for Health Sciences and Technology BSc.
4 credits4VK. De Bock, O. Bar-Nur, M. Detmar, G. A. Kuhn, M. Ristow, G. Schratt, C. Spengler, C. Wolfrum, M. Zenobi-Wong
AbstractIn-depth theory to molecular and pathophysiological aspects of nerves, muscles, heart , circulatory , respiratory and sensory organs .
ObjectiveIn-depth knowledge of anatomy and physiology.
ContentMolecular fundamentals of physiological processes, processes of disease development.
376-1721-00LBone Biology and Consequences for Human Health2 credits2VG. A. Kuhn, J. Goldhahn, E. Wehrle
AbstractBone is a complex tissue that continuously adapts to mechanical and metabolic demands. Failure of this remodeling results in reduced mechanic stability ot the skeleton. This course will provide the basic knowledge to understand the biology and pathophysiology of bone necessary for engineering of bone tissue and design of implants.
ObjectiveAfter completing this course, students will be able to understand:
a) the biological and mechanical aspects of normal bone remodeling
b) pathological changes and their consequences for the musculoskeletal system
c) the consequences for implant design, tissue engineering and treatment interventions.
ContentBone adapts continuously to mechanical and metabolic demands by complex remodeling processes. This course will deal with biological processes in bone tissue from cell to tissue level. This lecture will cover mechanisms of bone building (anabolic side), bone resorption (catabolic side), their coupling, and regulation mechanisms. It will also cover pathological changes and typical diseases like osteoporosis. Consequences for musculoskeletal health and their clinical relevance will be discussed. Requirements for tissue engineering as well as implant modification will be presented. Actual examples from research and development will be utilized for illustration.