Zurück
| Semester | Frühjahrsemester 2020 |
| Angebotsmuster | Jedes Frühjahrsem. |
| Dozierende |
Ferda Canbaz (ferda.canbaz@unibas.ch)
Azhar Zam (azhar.zam@unibas.ch, BeurteilerIn) |
| Inhalt | Introduction: Nature of light, fundamentals of light-matter interactions, photobiology, photophysics, photochemistry, laser and light sources, laser safety. Light-Tissue Interactions: Photochemical interaction, biostimulation, photo-thermal effects, photoablation, plasma-induced ablation, photo-acoustic effects, photon transport, monte carlo simulations, adding doubling method. Spectroscopy: Absorption, diffuse reflectance, fluorescence, Raman and tissue spectroscopy Biosensors: Principles of optical biosensing, optical geometries for biosensors and biosensing methods. Bioimaging Principles and Techniques: Introduction to optical microscopy, principle of image formation, amplitude and phase microscopy, polarization, fluorescence and confocal microscopy, optical diffraction tomography and new microscopic techniques. 2D Bioimaging: Endoscopy, videomicroscopy, diffuse reflectance, laser Doppler perfusion imaging, laser speckle perfusion imaging, . 3D Bioimaging: Optical coherence tomography, polarimetry, diffuse optical tomography, photothermal imaging, photoacoustic imaging and optical biopsy. Applications Laser and Optics in Medicine and Biology: Biophotonics applications in medicine, laser tweezers and scissors, microarray and microfluidic technologies for genomics and proteomics, flow cytometry, bioluminescence, bio-nanophotonics, opto-genetics, tissue engineering with light and data analysis in Biophotonics. |
| Literatur | Recommended Reading: Prasad, P.N., “Introduction to Biophotonics”, (Wiley-VCH), 2003 Wang, LV and Wu HI, Biomedical Optics, Principles and Imaging, (Wiley-VCH), 2007, Demchenko, A P "Introduction to Fluorescence Sensing", Springer, 2008 Popp,Tuchin, Chiou, Heinemann (Editors) Handbook of Biophotonics, 3 Volume Set, (Wiley-VCH), 2012. Leahy, M.J. editor, Microcirculation Imaging, (Wiley-VCH), 2012. |
| Weblink | DBE |
| Unterrichtssprache | Englisch |
| Einsatz digitaler Medien | kein spezifischer Einsatz |
| Intervall | Wochentag | Zeit | Raum |
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Keine Einzeltermine verfügbar, bitte informieren Sie sich direkt bei den Dozierenden.
| Module |
Doktorat Biomedizinische Technik: Empfehlungen (Promotionsfach: Biomedizinische Technik) Modul: Biomaterials Science and Nanotechnology (Masterstudium: Biomedical Engineering) Modul: Image-Guided Therapy (Masterstudium: Biomedical Engineering) |
| Leistungsüberprüfung | Leistungsnachweis |
| Hinweise zur Leistungsüberprüfung | Attendance 25%, Practical Work 20%, Quiz 15% and Final oral Exam 40%. |
| An-/Abmeldung zur Leistungsüberprüfung | Anm.: Belegen Lehrveranstaltung; Abm.: stornieren |
| Wiederholungsprüfung | eine Wiederholung, bester Versuch zählt |
| Skala | 1-6 0,5 |
| Wiederholtes Belegen | beliebig wiederholbar |
| Zuständige Fakultät | Medizinische Fakultät |
| Anbietende Organisationseinheit | Departement Biomedical Engineering (DBE) |