Name | Prof. Dr. Stephen J. Ferguson |
Field | Biomechanics |
Address | Institut für Biomechanik ETH Zürich, GLC H 15.2 Gloriastrasse 37/ 39 8092 Zürich SWITZERLAND |
Telephone | +41 44 633 93 30 |
sferguson@ethz.ch | |
Department | Health Sciences and Technology |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
227-0386-00L | Biomedical Engineering | 4 credits | 3G | J. Vörös, S. J. Ferguson, S. Kozerke, U. Moser, M. Rudin, M. P. Wolf, M. Zenobi-Wong | |
Abstract | Introduction into selected topics of biomedical engineering as well as their relationship with physics and physiology. The focus is on learning the concepts that govern common medical instruments and the most important organs from an engineering point of view. In addition, the most recent achievements and trends of the field of biomedical engineering are also outlined. | ||||
Learning objective | Introduction into selected topics of biomedical engineering as well as their relationship with physics and physiology. The course provides an overview of the various topics of the different tracks of the biomedical engineering master course and helps orienting the students in selecting their specialized classes and project locations. | ||||
Content | Introduction into neuro- and electrophysiology. Functional analysis of peripheral nerves, muscles, sensory organs and the central nervous system. Electrograms, evoked potentials. Audiometry, optometry. Functional electrostimulation: Cardiac pacemakers. Function of the heart and the circulatory system, transport and exchange of substances in the human body, pharmacokinetics. Endoscopy, medical television technology. Lithotripsy. Electrical Safety. Orthopaedic biomechanics. Lung function. Bioinformatics and Bioelectronics. Biomaterials. Biosensors. Microcirculation.Metabolism. Practical and theoretical exercises in small groups in the laboratory. | ||||
Lecture notes | Introduction to Biomedical Engineering by Enderle, Banchard, and Bronzino AND https://www1.ethz.ch/lbb/Education/BME | ||||
376-0002-00L | Product Design in Medical Engineering | 4 credits | 2V + 2U | S. J. Ferguson | |
Abstract | This course will provide insight into various aspects of medical device design such as patient needs assessment, product specification, research and technical design, validation, regulatory affairs and clinical evaluation. | ||||
Learning objective | The goal of this lecture series is to enable the students to (i) identify the principal functional requirements for a medical device, (ii) to understand the mechanical properties of natural tissues and synthetic biomaterials, (iii) to apply this information and a basic knowledge of mechanics in the calculation of implant performance, (iv) to develop a plan for the pre-clinical evaluation and regulation of a new device. | ||||
Content | 1. Introduction to Medical Technology 2. Design Process 3. Mechanics 4. Mechanics of Materials 5. Tissue Mechanics 6. Prostheses: Biomechanics and Design 7. Prostheses: Biomaterials, Surfaces and Wear 8. Allografts: Heart Valves 9. Preclinical Evaluation 10. Regulatory Affairs (MepV, FDA, CE) 11. Intellectual Property 12. Group Work and Presentation | ||||
Lecture notes | https://moodle-app2.let.ethz.ch/course/view.php?id=180 | ||||
376-1974-00L | Colloquium in Biomechanics | 2 credits | 2K | B. Helgason, S. J. Ferguson, R. Müller, J. G. Snedeker, W. R. Taylor, K. Würtz-Kozak, M. Zenobi-Wong | |
Abstract | Current topics in biomechanics presented by speakers from academia and industry. | ||||
Learning objective | Getting insight into actual areas and problems of biomechanics. |