Code |
14931
|
Year |
3
|
Semester |
S2
|
ECTS Credits |
6
|
Workload |
PL(30H)/T(30H)
|
Scientific area |
Physics
|
Entry requirements |
None
|
Learning outcomes |
The main goals of this course unit are to disseminate applications of lasers in medicine and the basic concepts of physical optics that allow their understanding. At the end of this course, the student should be able to identify and characterize several types of laser systems (and associated optics) for therapeutic applications. The student should be able to understand the biophysical mechanisms of interaction of laser light with biological tissues. The student should also be aware of the state of the art laser applications in medicine.
|
Syllabus |
1 Foundations of Physical Optics 1.1 Properties of electromagnetic waves 1.2 Laser Radiation properties: spectral width, coherence, polarization 1.3 Radiometry 2 Medical Lasers 2.1 Stimulated emission and amplification 2.2 Gaussian beams 2.3 Laser constitution 2.4 Types of medical lasers 2.5 Laser Safety Standards 3 Laser-Tissue Interactions 3.1 Optical effects in biological tissues 3.2 Photochemical Interactions 3.3 Thermal Interactions 3.4 Photoablation 3.5 Ablation induced plasma 3.6 Photodisruption 4 Laser Beam Delivery and Shaping Systems 4.1 Optic fibres 4.2 Articulated arms 4.3 Optical components 5 Medical Applications Of Lasers 5.1 Lasers in ofthalmology 5.2 Lasers in cardiology 5.3 Lasers in dentistry 5.4 Lasers in dermatology 6 Seminars
|
Main Bibliography |
1 Hecht E (2012). Óptica, 3.a Ed. Fundação Calouste Gulbenkian 2 Ferreira Mário (2003). Óptica e Fotónica. LIDEL 3 Niemz MH (2007). Laser Tissue Interactions, 3rd ed. Springer 4 Katzir A (1993). Lasers And Optical Fibers In Medicine. Academic Press
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Teaching Methodologies and Assessment Criteria |
Regarding the knowledge assessment the student must: Carry out 2 progress tests (TP) Carry out the laboratory activities (PL) Attend all the seminars Theoretical class attendance >= 50%. Lab class attendance >= 85% The final grade is calculated using the following formula: NF = 0,7xTP + 0,3xPL
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Language |
Portuguese. Tutorial support is available in English.
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