Marcy Zenobi-Wong: Catalogue data in Spring Semester 2021

Name Prof. Dr. Marcy Zenobi-Wong
FieldCartilage Engineering and Regeneration
Address
Gewebetechnol. und Biofabrikation
ETH Zürich, HPL J 22
Otto-Stern-Weg 7
8093 Zürich
SWITZERLAND
Telephone+41 44 632 50 89
E-mailmarcy.zenobi@hest.ethz.ch
URLhttps://biofabrication.ethz.ch/
DepartmentHealth Sciences and Technology
RelationshipFull Professor

NumberTitleECTSHoursLecturers
376-0008-00LAdvanced 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.
Prerequisites / NoticeLanguage of teaching in this course is German/English depending on the teacher
376-1614-00LPrinciples in Tissue Engineering3 credits2VK. Maniura, M. Rottmar, M. Zenobi-Wong
AbstractFundamentals in blood coagulation; thrombosis, blood rheology, immune system, inflammation, foreign body reaction on the molecular level and the entire body are discussed. Applications of biomaterials for tissue engineering in different tissues are introduced. Fundamentals in medical implantology, in situ drug release, cell transplantation and stem cell biology are discussed.
ObjectiveUnderstanding of molecular aspects for the application of biodegradable and biocompatible Materials. Fundamentals of tissue reactions (eg. immune responses) against implants and possible clinical consequences will be discussed.
ContentThis class continues with applications of biomaterials and devices introduced in Biocompatible Materials I. Fundamentals in blood coagulation; thrombosis, blood rheology; immune system, inflammation, foreign body reaction on the level of the entire body and on the molecular level are introduced. Applications of biomaterials for tissue engineering in the vascular system, skeletal muscle, heart muscle, tendons and ligaments, bone, teeth, nerve and brain, and drug delivery systems are introduced. Fundamentals in medical implantology, in situ drug release, cell transplantation and stem cell biology are discussed.
Lecture notesHandouts provided during the classes and references therin.
LiteratureThe molecular Biology of the Cell, Alberts et al., 5th Edition, 2009.
Principles in Tissue Engineering, Langer et al., 2nd Edition, 2002
376-1624-00LPractical Methods in Biofabrication Restricted registration - show details
Number of participants limited to 12.
5 credits4PM. Zenobi-Wong, S. J. Ferguson, S. Schürle-Finke
AbstractBiofabrication involves the assembly of materials, cells, and biological building blocks into grafts for tissue engineering and in vitro models. The student learns techniques involving the fabrication and characterization of tissue engineered scaffolds and the design of 3D models based on medical imaging data. They apply this knowledge to design, manufacture and evaluate a biofabricated graft.
ObjectiveThe objective of this course is to give students hands-on experience with the tools required to fabricate tissue engineered grafts. During the first part of this course, students will gain practical knowledge in hydrogel synthesis and characterization, fuse deposition modelling and stereolithography, bioprinting and bioink design, electrospinning, and cell culture and viability testing. They will also learn the properties of common biocompatible materials used in fabrication and how to select materials based on the application requirements. The students learn principles for design of 3D models. Finally the students will apply their knowledge to a problem-based Project in the second half of the Semester. The Project requires significant time outside of class Hours, strong commitment and ability to work independently.
Prerequisites / NoticeNot recommended if passed 376-1622-00 Practical Methods in Tissue Engineering
376-1714-AALBiocompatible Materials
Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement.

Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit.
4 credits9RK. Maniura, M. Zenobi-Wong
AbstractIntroduction to molecules used for biomaterials, molecular interactions between different materials and biological systems (molecules, cells, tissues). The concept of biocompatibility is discussed and important techniques from biomaterials research and development are introduced.
ObjectiveThe course covers the follwing topics:
1. Introdcution into molecular characteristics of molecules involved in the materials-to-biology interface. Molecular design of biomaterials.
2. The concept of biocompatibility.
3. Introduction into methodology used in biomaterials research and application.
4. Introduction to different material classes in use for medical applications.
ContentIntroduction into natural and polymeric biomaterials used for medical applications. The concepts of biocompatibility, biodegradation and the consequences of degradation products are discussed on the molecular level. Different classes of materials with respect to potential applications in tissue engineering, drug delivery and for medical devices are introduced. Strong focus lies on the molecular interactions between materials having very different bulk and/or surface chemistry with living cells, tissues and organs. In particular the interface between the materials surfaces and the eukaryotic cell surface and possible reactions of the cells with an implant material are elucidated. Techniques to design, produce and characterize materials in vitro as well as in vivo analysis of implanted and explanted materials are discussed.
A link between academic research and industrial entrepreneurship is demonstrated by external guest speakers, who present their current research topics.
Lecture notesHandouts are deposited online (moodle).
LiteratureLiterature:
- Biomaterials Science: An Introduction to Materials in Medicine, Ratner B.D. et al, 3rd Edition, 2013
- Comprehensive Biomaterials, Ducheyne P. et al., 1st Edition, 2011

(available online via ETH library)

Handouts and references therin.
376-1974-00LColloquium in Biomechanics Information 2 credits2KB. Helgason, S. J. Ferguson, R. Müller, J. G. Snedeker, W. R. Taylor, M. Zenobi-Wong
AbstractCurrent topics in biomechanics presented by speakers from academia and industry.
ObjectiveGetting insight into actual areas and problems of biomechanics.