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E-grāmata: Handbook of Optical Sensing of Glucose in Biological Fluids and Tissues

Edited by (Saratov State University, Russia)
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Contributors from around the world look at new optical techniques for glucose diffusion coefficient measurements in human tissues, and describe glucose-induced optical clearing effects in tissue and blood. Noninvasive techniques described include glucose sensing based on light scattering, coherent-domain, polarization-sensitive, optoacoustic, and/or photonic crystal measurements. Some specific topics covered are Monte Carlo simulation of light propagation in human tissues, statistical analysis for glucose prediction in blood samples by infrared spectroscopy, and fluorescence-based glucose biosensors. The audience for the book includes researchers, students, laser engineers, biomedical engineers, and physicians who are interested in designing and applying noninvasive optical methods and instruments for glucose sensing and tissue optical clearing using glucose. Tuchin is affiliated with Saratov State University and the institute of Precise Mechanics and Control of RAS, Russia. Annotation ©2009 Book News, Inc., Portland, OR (booknews.com)

Although noninvasive, continuous monitoring of glucose concentration in blood and tissues is one of the most challenging areas in medicine, a wide range of optical techniques has recently been designed to help develop robust noninvasive methods for glucose sensing. For the first time in book form, the Handbook of Optical Sensing of Glucose in Biological Fluids and Tissues analyzes trends in noninvasive optical glucose sensing and discusses its impact on tissue optical properties.

This handbook presents methods that improve the accuracy in glucose prediction based on infrared absorption spectroscopy, recent studies on the influence of acute hyperglycemia on cerebral blood flow, and the correlation between diabetes and the thermo-optical response of human skin. It examines skin glucose monitoring by near-infrared spectroscopy (NIR), fluorescence-based glucose biosensors, and a photonic crystal contact lens sensor. The contributors also explore problems of polarimetric glucose sensing in transparent and turbid tissues as well as offer a high-resolution optical technique for noninvasive, continuous, and accurate blood glucose monitoring and glucose diffusion measurement.

Written by world-renowned experts in biomedical optics and biophotonics, this book gives a complete, state-of-the-art treatise on the design and applications of noninvasive optical methods and instruments for glucose sensing.

Preface. Glucose: Physiological Norm and Pathology. Commercial
Biosensors for Diabetes. Monte Carlo Simulation of Light Propagation in Human
Tissues and Noninvasive Glucose Sensing. Statistical Analysis for Glucose
Prediction in Blood Samples by Infrared Spectroscopy. Near-Infrared
Reflectance Spectroscopy for Noninvasive Monitoring of GlucoseEstablished
and Novel Strategies for Multivariate Calibration. Characterizing the
Influence of Acute Hyperglycaemia on Cerebral Hemodynamics by Optical
Imaging. Near-Infrared Thermo-Optical Response of the Localized Reflectance
of Diabetic and Non-Diabetic Human Skin. In Vivo Nondestructive Measurement
of Blood Glucose by Near-Infrared Diffuse-Reflectance Spectroscopy. Glucose
Correlation with Light Scattering Patterns. Challenges and Countermeasures in
NIR Noninvasive Blood Glucose Monitoring. Fluorescence-Based Glucose
Biosensors. Quantitative Biological Raman Spectroscopy. Tear Fluid Photonic
Crystal Contact Lens Noninvasive Glucose Sensors. Pulsed Photoacoustic
Techniques and Glucose Determination in Human Blood and Tissue. A Noninvasive
Glucose Sensor Based on Polarimetric Measurements through the Aqueous Humor
of the Eye. Noninvasive Measurements of Glucose in the Human Body Using
Polarimetry and Brewster Reflection off of the Eye Lens. Toward Noninvasive
Glucose Sensing Using Polarization Analysis of Multiply Scattered Light.
Noninvasive Monitoring of Glucose Concentration with Optical Coherence
Tomography. Measurement of Glucose Diffusion Coefficients in Human Tissues.
Monitoring of Glucose Diffusion in Epithelial Tissues with Optical Coherence
Tomography. Glucose-Induced Optical Clearing Effects in Tissues and Blood.
Index.
Saratov State University, Russia University of Wisconsin, Madison, USA King's College London, Strand, UK University of Minnesota, Minneapolis, USA University of Malaya, Kuala Lumpur, Malaysia
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