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Optical Spectroscopy Detects Histological Hallmarks of Pancreatic Cancer

Overview
Journal Opt Express
Specialties Biophysics
Ophthalmology
Date 2009 Nov 13
PMID 19907534
Citations 27
Authors
Robert H Wilson
Malavika Chandra
James Scheiman
Diane Simeone
Barbara McKenna
Julianne Purdy
Mary-Ann Mycek
Affiliations
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Abstract

An empirical model was developed to interpret differences in the experimentally measured reflectance and fluorescence spectra of freshly excised human pancreatic tissues: normal, adenocarcinoma, and pancreatitis (inflammation). The model provided the first quantitative links between spectroscopic measurements and histological characteristics in the human pancreas. The reflectance model enabled the first (to our knowledge) extraction of wavelength resolved absorption and reduced scattering coefficients for normal and diseased human pancreatic tissues. The fluorescence model employed reflectance information to extract attenuation free "intrinsic" endogenous fluorescence spectra from normal pancreatic tissue, pancreatic adenocarcinoma, and pancreatitis. The method developed is simple, intuitive, and potentially useful for a range of applications in optical tissue diagnostics. This approach is potentially applicable to in vivo studies, because it can account for the absorptive effects of blood in tissues.

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