Markus Weiger Senften: Catalogue data in Spring Semester 2022
|Dr. Markus Weiger Senften
Inst. f. Biomedizinische Technik
ETH Zürich, ETZ F 96
|+41 44 632 45 44
|+41 44 632 11 93
|Information Technology and Electrical Engineering
|Projects & Seminars: Magnetic Resonance: From Spectrum to Image
Only for Electrical Engineering and Information Technology BSc.
The course unit can only be taken once. Repeated enrollment in a later semester is not creditable.
|M. Weiger Senften
|The category of "Laboratory Courses, Projects, Seminars" includes courses and laboratories in various formats designed to impart practical knowledge and skills. Moreover, these classes encourage independent experimentation and design, allow for explorative learning and teach the methodology of project work.
|The phenomenon of nuclear magnetic resonance (NMR) and its application in spectroscopy and imaging will be learned. The course starts with a general introduction to NMR. Afterwards, measurements will be performed on a clinical MRI device. NMR experiments will be developed and programmed by the students themselves. Starting with simple spectroscopic experiments, the basics of imaging are developed step by step. In this way, sectional images of test objects can finally be created.
The course must be cancelled if attendance classes are prohibited.
The course can only be held with a minimum of 2 participants.
|Magnetic Resonance Imaging in Medicine
|S. Kozerke, M. Weiger Senften
|Introduction to magnetic resonance imaging and spectroscopy, encoding and contrast mechanisms and their application in medicine.
|Understand the basic principles of signal generation, image encoding and decoding, contrast manipulation and the application thereof to assess anatomical and functional information in-vivo.
|Introduction to magnetic resonance imaging including basic phenomena of nuclear magnetic resonance; 2- and 3-dimensional imaging procedures; fast and parallel imaging techniques; image reconstruction; pulse sequences and image contrast manipulation; equipment; advanced techniques for identifying activated brain areas; perfusion and flow; diffusion tensor imaging and fiber tracking; contrast agents; localized magnetic resonance spectroscopy and spectroscopic imaging; diagnostic applications and applications in research.
|D. Meier, P. Boesiger, S. Kozerke
Magnetic Resonance Imaging and Spectroscopy
|Seminar on Biomedical Magnetic Resonance
|K. P. Prüssmann, S. Kozerke, M. Weiger Senften
|Current developments and problems of magnetic resonance imaging (MRI)
|Getting insight into advanced topics in magnetic resonance imaging