Jörg Goldhahn: Katalogdaten im Herbstsemester 2016

NameHerr Prof. Dr. Jörg Goldhahn
LehrgebietBiomechanik der Rehabilitation
Adresse
Dep. Gesundheitswiss. und Technol.
ETH Zürich, HCP H 15.3
Leopold-Ruzicka-Weg 4
8093 Zürich
SWITZERLAND
Telefon+41 44 633 20 69
E-Mailjgoldhahn@ethz.ch
URLhttp://www.itm.ethz.ch/research/translational-science.html
DepartementGesundheitswissenschaften und Technologie
BeziehungTitularprofessor und Privatdozent

NummerTitelECTSUmfangDozierende
327-0811-00LIndustrial Research and Development at the Interface of Biomaterials and Drug Delivery1 KP1VL. B. Uebersax, J. Goldhahn, F. Schlottig, R. Streicher
KurzbeschreibungThis course will provide an up-to-date, comprehensive review of the industrial perspective at the interface of biomaterials and drugs. This covers regulatory, clinical, pre-clinical and manufacturing concepts. The presentations are provided in an effort to maximize the interaction of student and lecturer.
Lernziel- The student will be able to categorize a drug-biomaterial as a "drug" or a "material" from a regulatory perspective and can summarize general regulatory pathways for material/drug development.
- The student will be able to summarize the current concepts and challenges for the indstry at the material-drug interface.
- The student will actively develop innovative, industrial concepts at the drug-biomaterial interface.
InhaltThis course will provide an up-to-date comprehensive review of the industrial perspective at the interface of biomaterials and drugs. General concepts related to regulatory affairs or such as cost-conscious planning of manufacturing processes will be covered by interactive case-studies and in close interaction between students and lecturers. The course covers the future at the biomaterial - implant interface - as it is seen by the industry today - and will be reviewed by experienced and long-standing faculty from industry with the aim to provide a balanced, insightful perspective. From that, clinical development concepts, regulatory pathways and real-life case studies will be discussed with the students. Finally the students - working in small groups of 4-5 - will outline a development pathway for an industrial project and present it to the course and in presence of all faculty to receive maximum feedback to their approaches.
The student will become familiar with the major elements required for a successful development and which challenges have to be taken into account to translate an idea into a successful product.
376-0300-00LTranslational Science for Health and Medicine Belegung eingeschränkt - Details anzeigen 3 KP2GJ. Goldhahn, C. Wolfrum
KurzbeschreibungTranslational science is a cross disciplinary scientific research that is motivated by the need for practical applications that help people. The course should help to clarify basics of translational science, illustrate successful applications and should enable students to integrate key features into their future projects.
LernzielAfter completing this course, students will be able to understand:
Principles of translational science (including project planning, ethics application, basics of resource management and interdisciplinary communication)
InhaltWhat is translational science and what is it not?
How to identify need?
- Disease concepts and consequences for research
- Basics about incidence, prevalence etc., and orphan indications
How to choose the appropriate research type and methodology
- Ethical considerations including ethics application
- Pros and cons of different types of research
- Coordination of complex approaches incl. timing and resources
How to measure success?
- Outcome variables
- Improving the translational process
Challenges of communication?
How independent is translational science?
- Academic boundary conditions vs. industrial influences
Positive and negative examples will be illustrated by distinguished guest speakers.
376-2017-00LBiomechanik von Sportverletzungen und Rehabilitation3 KP2VK.‑U. Schmitt, J. Goldhahn
KurzbeschreibungDie Veranstaltung vermittelt die Grundlagen der Verletzungsbiomechanik. Sportverletzungen und deren Rehabilitation bilden dabei den Schwerpunkt der Vorlesung.
LernzielIn dieser Veranstaltung sollen Sie Grundlagen der Traumabiomechanik erlernen. Anhand von Beispielen aus dem Sport lernen Sie verschiedene Mechanismen, die zu Verletzungen des menschlichen Körpers führen können, kennen. Sie sollen ein Verständnis für das Entstehen von Verletzungen entwickeln, das Sie in die Lage versetzt Verletzungspotentiale abzuschätzen und präventive Massnahmen zu entwickeln.
InhaltDie Veranstaltung beschäftigt sich mit den Grundlagen der Verletzungsmechanik und der Rehabilitation. Es wird untersucht, wie Verletzungen entstehen und wie sie verhindert werden können. Die Vorlesung konzentriert sich dabei auf Verletzungen, die im Sport erlitten werden.
SkriptUnterlagen werden zur Verfügung gestellt.
LiteraturSchmitt K-U, Niederer P, M. Muser, Walz F: "Trauma Biomechanics - An Introduction to Injury Biomechanics" bzw. "Trauma-Biomechanik - Einführung in die Biomechanik von Verletzungen", beide Springer Verlag
Voraussetzungen / BesonderesDie Mitarbeit an einer Gruppenarbeit ist fester Bestandteil der Veranstaltung. Die Gruppenarbeit wird benotet und zählt somit zur Gesamtnote der Vorlesung hinzu. Nähere Informationen werden in der ersten Vorlesung gegeben.