Suchergebnis: Katalogdaten im Frühjahrssemester 2018
Biomedical Engineering Master | ||||||
Vertiefungsfächer | ||||||
Bioimaging | ||||||
Kernfächer der Vertiefung Während des Studiums müssen mindestens 12 KP aus Kernfächern einer Vertiefung (Track) erreicht werden. | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
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227-0946-00L | Molecular Imaging - Basic Principles and Biomedical Applications | W | 2 KP | 2V | M. Rudin | |
Kurzbeschreibung | Concept: What is molecular imaging. Discussion/comparison of the various imaging modalities used in molecular imaging. Design of target specific probes: specificity, delivery, amplification strategies. Biomedical Applications. | |||||
Lernziel | Molecular Imaging is a rapidly emerging discipline that translates concepts developed in molecular biology and cellular imaging to in vivo imaging in animals and ultimatly in humans. Molecular imaging techniques allow the study of molecular events in the full biological context of an intact organism and will therefore become an indispensable tool for biomedical research. | |||||
Inhalt | Concept: What is molecular imaging. Discussion/comparison of the various imaging modalities used in molecular imaging. Design of target specific probes: specificity, delivery, amplification strategies. Biomedical Applications. | |||||
227-0948-00L | Magnetic Resonance Imaging in Medicine | W | 4 KP | 3G | S. Kozerke, M. Weiger Senften | |
Kurzbeschreibung | Introduction to magnetic resonance imaging and spectroscopy, encoding and contrast mechanisms and their application in medicine. | |||||
Lernziel | 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. | |||||
Inhalt | 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. | |||||
Skript | D. Meier, P. Boesiger, S. Kozerke Magnetic Resonance Imaging and Spectroscopy |
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