DocumentCode
810625
Title
Simultaneous measurement of angular and spectral properties of light scattering for characterization of tissue microarchitecture and its alteration in early precancer
Author
Kim, Young L. ; Liu, Yang ; Wali, Ramesh K. ; Roy, Hemant K. ; Goldberg, Michael J. ; Kromin, Alexey K. ; Chen, Kun ; Backman, Vadim
Author_Institution
Biomed. Eng. Dept., Northwestern Univ., Evanston, IL, USA
Volume
9
Issue
2
fYear
2003
Firstpage
243
Lastpage
256
Abstract
We present a novel instrument to measure the spectral, angular, azimuthal, and polarization dependence of light backscattered by living biological tissues, thus providing the most comprehensive description of the light scattering to obtain unique quantitative information about the microarchitecture of living cells and tissues. We show the potential of this technique to characterize and diagnose early premalignant changes in the epithelia. In studies with a rodent model of colon carcinogenesis, we show that several parameters obtained using this technique, such as the number density of red blood cells in the capillary network immediately underlying the epithelium, the fractal dimension of the tissue, and the average roundness of subcellular structures, are significant for detection of precancerous changes at a very early stage of the carcinogenic process, at which no other histological or molecular markers have been identified.
Keywords
backscatter; bio-optics; biological tissues; biomedical optical imaging; blood; cancer; cellular biophysics; fractals; light polarisation; light scattering; angular properties; azimuthal dependence; backscattered light; capillary network; carcinogenic process very early stage; colon carcinogenesis; early precancer; early premalignant changes; epithelia; epithelium; fractal dimension; light scattering; living biological tissues; living cells; number density; polarization dependence; red blood cells; rodent model; simultaneous measurement; spectral properties; subcellular structure average roundness; tissue microarchitecture; Biological system modeling; Biological tissues; Cells (biology); Colon; Instruments; Light scattering; Microarchitecture; Optical polarization; Red blood cells; Rodents;
fLanguage
English
Journal_Title
Selected Topics in Quantum Electronics, IEEE Journal of
Publisher
ieee
ISSN
1077-260X
Type
jour
DOI
10.1109/JSTQE.2003.814183
Filename
1238988
Link To Document