LF:MOEB1041p Experimental biophotonics - l - Course Information
MOEB1041p Experimental biophotonics - lecture
Faculty of Medicinespring 2021
- Extent and Intensity
- 1/0/0. 1 credit(s). Type of Completion: z (credit).
- Teacher(s)
- Ing. Zbyněk Dostál, Ph.D. (lecturer)
prof. RNDr. Radim Chmelík, Ph.D. (lecturer) - Guaranteed by
- prof. RNDr. Radim Chmelík, Ph.D.
Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine
Contact Person: Lenka Herníková
Supplier department: Department of Optometry and Orthoptics – Departments of Non-medical Branches – Faculty of Medicine - Timetable
- Wed 3. 3. 13:00–13:50 VUT-A4/501, Wed 10. 3. 13:00–13:50 VUT-A4/501, Wed 17. 3. 13:00–13:50 VUT-A4/501, Wed 24. 3. 13:00–13:50 VUT-A4/501, Wed 31. 3. 13:00–13:50 VUT-A4/501, Wed 7. 4. 13:00–13:50 VUT-A4/501, Wed 14. 4. 13:00–13:50 VUT-A4/501, Wed 21. 4. 13:00–13:50 VUT-A4/501, Wed 28. 4. 13:00–13:50 VUT-A4/501, Wed 5. 5. 13:00–13:50 VUT-A4/501, Wed 12. 5. 13:00–13:50 VUT-A4/501, Wed 19. 5. 13:00–13:50 VUT-A4/501, Wed 26. 5. 13:00–13:50 VUT-A4/501, Wed 2. 6. 13:00–13:50 VUT-A4/501, Wed 9. 6. 13:00–13:50 VUT-A4/501
- Prerequisites
- Students are expected to have theoretical knowledge as from "Applied optics" course.
- Course Enrolment Limitations
- The course is only offered to the students of the study fields the course is directly associated with.
- fields of study / plans the course is directly associated with
- Course objectives
- The course provides an overview of modern experimental techniques used to determine structure, function and dynamics of macro and micro biological samples by means of electromagnetic radiation. Attention will be focused on non-invasive methods used for detection, diagnosis and treatment of diseases, including methods used in ophthalmology and optometry.
- Learning outcomes
- Deeper theoretical and chiefly practical knowledge of some modern techniques that use electromagnetic radiation to study structure, function and dynamics of biological samples and methods used to detect, diagnose and treat diseases.
- Syllabus
- 1. Brief summary (reminding) of fundamentals in: Electromagnetic radiation. Structure of matter. Structure of atom. Structure of molecule. Energy levels of electrons. Absorption and emission of radiation. Spectra of atoms and molecules. Light. X-ray and gamma rays.
- 2. Brief summary (reminding) of fundamentals in: Propagation of light and its interactions. Electromagnetic waves, photons. Description and properties (interference, diffraction, energy, momentum). Filters of light (interference, neutral, polarizing), filters in ophthalmology. UV filter and glasses.
- 3. Sources of radiation, lasers (reminding of the priciple). Laser types, use in ophthalmology. Properties of the laser beam. Detectors of radiation (classical and digital camera - principle and applications in medicine). Luxmeter. Detection of UV and IR radiation. Remote TV controls.
- 4. Interactions of radiation with a matter and how it affects tissues. Absorption, transmission, emission + spectroscopy.
- 5. Applications in diagnosis and therapeutic methods: tomography, irradiation, "light acupuncture"
- 6. Optical micromanipulations. Optical tweezers and scalpel.
- 7. Other practical applications of lasers in medicine (ophthalmology): LASIK, femto-LASIK, surgery, stomatology (dental laser, photoactivation), dermatology, cosmetics, cytometry, microdissection.
- 8. Brief summary of fundamentals in optical microscopy: bright and dark field, Zernike phase contrast, polarization microscopy, differential interference contrast (DIC), 3D visualization methods.
- 9. Brief summary of fundamentals in confocal microscopy and OCT/OCM. Holographic microscopy. 3D image formation. Endoscopy.
- 10. Fluorescence microscopy and its modifications (fluorescence resonance energy transfer - FRET, total internal reflection fluorescence - TIRF), raman spectroscopy, multiphoto microscopy, second harmonic generation - SHG, stimulated emission depletion - STED, structured illumination microscopy - SIM, light-sheet microscopy.
- 11. Photodynamic therapy, optical biosensors.
- 12. Applications of micro and nano opto-technologies in medicine (retinal implants), nanosurgery.
- Literature
- recommended literature
- P. N. Prasad: “Introduction to Biophotonics”, John Wiley & Sons, Inc., 2003.
- J. B. Pawley: “Handbook of Biological Confocal Microscopy”, 2nd Edition, Plenum Press, 1995.
- HRAZDIRA, Ivo and Vojtěch MORNSTEIN. Lékařská biofyzika a přístrojová technika. Dotisk 1. vyd. Brno: NEPTUN, 2004, 381 s. ISBN 8090289614. info
- VLACH, Bohumil and Josef FUKA. Vlnová povaha světla. Vyd. 1. Praha: Státní pedagogické nakladatelství, 1971, 199 s. URL info
- FUKA, Josef and Bedřich HAVELKA. Optika a atomová fyzika. fyzikální kompendium pro vysoké školy. Vyd. 1. Praha: Státní pedagogické nakladatelství, 1961, 845 s. URL info
- Teaching methods
- lecture, class discussion
- Assessment methods
- The credit is awarded on the basis of active participation in teaching.
- Language of instruction
- Czech
- Further comments (probably available only in Czech)
- The course is taught annually.
Information on the extent and intensity of the course: 15.
- Enrolment Statistics (spring 2021, recent)
- Permalink: https://is.muni.cz/course/med/spring2021/MOEB1041p