1st Edition

Handbook of Photonics for Biomedical Science

Edited By Valery V. Tuchin Copyright 2010
    868 Pages
    by CRC Press

    868 Pages
    by CRC Press

    The Handbook of Photonics for Biomedical Science analyzes achievements, new trends, and perspectives of photonics in its application to biomedicine. With contributions from world-renowned experts in the field, the handbook describes advanced biophotonics methods and techniques intensively developed in recent years.





    Addressing the latest problems in biomedical optics and biophotonics, the book discusses optical and terahertz spectroscopy and imaging methods for biomedical diagnostics based on the interaction of coherent, polarized, and acoustically modulated radiation with tissues and cells. It covers modalities of nonlinear spectroscopic microscopies, photonic technologies for therapy and surgery, and nanoparticle photonic technologies for cancer treatment and UV radiation protection. The text also elucidates the advanced spectroscopy and imaging of normal and pathological tissues.





    This comprehensive handbook represents the next step in contemporary biophotonics advances. By collecting recently published information scattered in the literature, the book enables researchers, engineers, and medical doctors to become familiar with major, state-of-the-art results in biophotonics science and technology.

    FDTD Simulation of Light Interaction with Cells for Diagnostics and Imaging in Nanobiophotonics. Plasmonic Nanoparticles: Fabrication, Optical Properties, and Biomedical Applications. Transfection by Optical Injection. Advances in Fluorescence Spectroscopy and Imaging. Applications of Optical Tomography in Biomedical Research. Fluorescence Lifetime Imaging and Metrology for Biomedicine. Raman and CARS Microscopy of Cells and Tissues. Resonance Raman Spectroscopy of Human Skin for the In Vivo Detection of Carotenoid Antioxidant Substances. Polarized Light Assessment of Complex Turbid Media Such as Biological Tissues Using Mueller Matrix Decomposition. Statistical, Correlation, and Topological Approaches in Diagnostics of the Structure and Physiological State of Birefringent Biological Tissues. Biophotonic Functional Imaging of Skin Microcirculation. Advances in Optoacoustic Imaging. Optical-Resolution Photoacoustic Microscopy for In Vivo Volumetric Microvascular Imaging in Intact Tissues. Optical Coherence Tomography Theory and Spectral Time-Frequency Analysis. Label-Free Optical Micro-Angiography for Functional Imaging of Microcirculations within Tissue Beds In Vivo. Fiber-Based OCT: From Optical Design to Clinical Applications. Noninvasive Assessment of Molecular Permeability with OCT. Confocal Light Absorption and Scattering Spectroscopic Microscopy. Dual Axes Confocal Microscopy. Nonlinear Imaging of Tissues. Endomicroscopy Technologies for High-Resolution Nonlinear Optical Imaging and Optical Coherence Tomography. Advanced Optical Imaging of Early Mammalian Embryonic Development. Terahertz Tissue Spectroscopy and Imaging. Nanoparticles as Sunscreen Compound: Risks and Benefits. Photodynamic Therapy/Diagnostics: Principles, Practice, and Advances. Advances in Low-Intensity Laser and Phototherapy. Low-Level Laser Therapy in Stroke and Central Nervous System. Advances in Cancer Photothermal Therapy. Cancer Laser Thermotherapy Mediated

    Biography

    Valery V. Tuchin is the optics and biophotonics chair and director of Research-Educational Institute of Optics and Biophotonics at Saratov State University in Russia. He is also head of the laboratory on laser diagnostics of technical and living systems in the Institute of Precise Mechanics and Control of the Russian Academy of Science.