Simone Schürle-Finke: Katalogdaten im Frühjahrssemester 2021

NameFrau Prof. Dr. Simone Schürle-Finke
LehrgebietReaktionsfähige Biomedizinische Systeme
Adresse
Reaktionsfähige Biomed. Systeme
ETH Zürich, GLC H 17.1
Gloriastrasse 37/ 39
8092 Zürich
SWITZERLAND
Telefon+41 44 633 62 62
E-Mailsimone.schuerle@hest.ethz.ch
DepartementGesundheitswissenschaften und Technologie
BeziehungAssistenzprofessorin (Tenure Track)

NummerTitelECTSUmfangDozierende
376-0304-00LColloquium in Translational Science (Spring Semester)1 KP1KN. Cesarovic, A. Alimonti, C. Ewald, V. Falk, J. Goldhahn, K. Maniura, M. Ristow, R. M. Rossi, S. Schürle-Finke, G. Shivashankar, E. Vayena, V. Vogel, F. von Meyenn
KurzbeschreibungCurrent topics in translational medicine presented by speakers from academia and industry.
LernzielGetting insight into actual areas and problems of translational medicine.
InhaltTimely and concise presentations of postgraduate students, post-docs, senior scientists, professors, as well as external guests from both academics and industry will present topics of their interest related to translational medicine.
Voraussetzungen / BesonderesNo compulsory prerequisites, but student should have basic knowledge about biomedical research.
376-1624-00LPractical Methods in Biofabrication Belegung eingeschränkt - Details anzeigen
Number of participants limited to 12.
5 KP4PM. Zenobi-Wong, S. J. Ferguson, S. Schürle-Finke
KurzbeschreibungBiofabrication 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.
LernzielThe 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.
Voraussetzungen / BesonderesNot recommended if passed 376-1622-00 Practical Methods in Tissue Engineering