The Handbook of Photonics for Biomedical Science analyzes achievements, new trends, and perspectives of photonics in its application to biomedicine. With contributions from 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.
Features: Describes important methods, such as finite-difference time-domain simulation, for the mathematical modeling of light transport and interaction with cells; Discusses recent optical and terahertz spectroscopy and imaging methods for biomedical diagnostics; Presents novel modalities of photon ballistic, multidimensional fluorescence, Raman, confocal, CARS, and other nonlinear spectroscopies that provide molecular-level cell and tissue imaging; Explores key photonic technologies for therapy and surgery, including photodynamic, low-intensity laser, and photothermal therapies; Explains how nanoparticle photonic technologies are used for cancer treatment and human organism protection from UV radiation; Focuses on advanced spectroscopy and imaging of a variety of normal and pathological tissues, such as embryonic, eye, skin, brain, and gastric tissues.
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.
- Copyright© 2010 International Institute of Anticancer Research (Dr. John G. Delinassios), All rights reserved