Markus Rudin: Catalogue data in Autumn Semester 2016 |
Name | Prof. em. Markus Rudin |
Address | Dep. Inf.techno.u.Elektrotechnik ETH Zürich, HIT E 22.4 Wolfgang-Pauli-Str. 27 8093 Zürich SWITZERLAND |
rudin@biomed.ee.ethz.ch | |
Department | Information Technology and Electrical Engineering |
Relationship | Professor emeritus |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
227-0385-10L | Biomedical Imaging | 6 credits | 5G | S. Kozerke, K. P. Prüssmann, M. Rudin | |
Abstract | Introduction and analysis of medical imaging technology including X-ray procedures, computed tomography, nuclear imaging techniques using single photon and positron emission tomography, magnetic resonance imaging and ultrasound imaging techniques. | ||||
Learning objective | To understand the physical and technical principles underlying X-ray imaging, computed tomography, single photon and positron emission tomography, magnetic resonance imaging, ultrasound and Doppler imaging techniques. The mathematical framework is developed to describe image encoding/decoding, point-spread function/modular transfer function, signal-to-noise ratio, contrast behavior for each of the methods. Matlab exercises are used to implement and study basic concepts. | ||||
Content | - X-ray imaging - Computed tomography - Single photon emission tomography - Positron emission tomography - Magnetic resonance imaging - Ultrasound/Doppler imaging | ||||
Lecture notes | Lecture notes and handouts | ||||
Literature | Webb A, Smith N.B. Introduction to Medical Imaging: Physics, Engineering and Clinical Applications; Cambridge University Press 2011 | ||||
Prerequisites / Notice | Analysis, Linear Algebra, Physics, Basics of Signal Theory, Basic skills in Matlab programming | ||||
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 | ||||
227-0970-00L | Research Topics in Biomedical Engineering | 0 credits | 2K | M. Rudin, S. Kozerke, K. P. Prüssmann, M. Stampanoni, K. Stephan, J. Vörös | |
Abstract | Current topics in Biomedical Engineering presented by speakers from academia and industry. | ||||
Learning objective | Getting insight into actual areas and problems of Biomedical Engineering an Health Care. | ||||
227-0980-00L | Seminar on Biomedical Magnetic Resonance | 0 credits | 2K | K. P. Prüssmann, S. Kozerke, M. Rudin | |
Abstract | Actuel developments and problems of magnetic resonance imaging (MRI) | ||||
Learning objective | Getting insight to advanced topics in Magnetic Resonance Imaging | ||||
402-0340-BSL | Medical Physics | 9 credits | 18P | A. J. Lomax, K. P. Prüssmann, M. Rudin | |
Abstract | In agreement with the lecturers a semester paper in the context of the topics discussed in the lectures can be written. | ||||
Learning objective | |||||
402-0340-MSL | Medical Physics | 9 credits | 18P | A. J. Lomax, K. P. Prüssmann, M. Rudin | |
Abstract | In agreement with the lecturers a semester paper in the context of the topics discussed in the lectures can be written. | ||||
Learning objective |