Photomedicine: Introduction

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Related lectures (11)

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Explores light dosimetry in tissues for photomedicine applications, covering mechanisms of light therapy, laser classification, and the influence of laser parameters on treatment outcomes.

Applications of Optical Spectroscopy in Photomedicine

Explores optical spectroscopy in photomedicine, emphasizing fluorescence principles, biological fluorophores, and fluorescence lifetime measurements.

Fluorescence Spectroscopy: Principles and Applications

Explores fluorescence spectroscopy principles, applications in photomedicine, and biological fluorophores.

Microscopy and Imaging Systems

Covers the fundamental concepts of microscopy, explaining the need for magnification beyond the human eye and introducing advanced imaging techniques.

Tissue Optics

Explores Tissue Optics, focusing on Optical Coherence Tomography and light scattering in photomedicine, with applications in ophthalmology, dermatology, cardiology, and gastroenterology.

Fluorescence: Applications in Photomedicine

Explores the principles of fluorescence lifetime and quenching in photomedicine.

Fluorescence Lifetime in Photomedicine

Explores fluorescence lifetime in photomedicine, covering health effects of artificial light, fluorescence guided surgery, and applications of optical spectroscopy.

Microscopy: Imaging Systems and Techniques

Covers the fundamentals of microscopy, including lens functioning, image creation, and advanced techniques like fluorescence and super resolution.

Application of Scattering in OCT

Explores the application of light scattering in Optical Coherence Tomography for high-resolution tissue imaging in various medical fields.

Optical Microscopy: Concepts and Applications

Explores optical microscopy principles, techniques, resolution limits, and Nobel Prize-winning advancements in microscopy.