TY - JOUR
T1 - Ultrastructural alterations in field carcinogenesis measured by enhanced backscattering spectroscopy
AU - Radosevich, Andrew J.
AU - Mutyal, Nikhil N.
AU - Yi, Ji
AU - Stypula-Cyrus, Yolanda
AU - Rogers, Jeremy D.
AU - Goldberg, Michael J.
AU - Bianchi, Laura K.
AU - Bajaj, Shailesh
AU - Roy, Hemant K.
AU - Backman, Vadim
N1 - Funding Information:
This study was supported by National Institutes of Health grant numbers RO1CA128641 and R01EB003682. A. J. Radosevich is supported by a National Science Foundation Graduate Research Fellowship under Grant No. DGE-0824162.
PY - 2013
Y1 - 2013
N2 - Optical characterization of biological tissue in field carcinogenesis offers a method with which to study the mechanisms behind early cancer development and the potential to perform clinical diagnosis. Previously, lowcoherence enhanced backscattering spectroscopy (LEBS) has demonstrated the ability to discriminate between normal and diseased organs based on measurements of histologically normal-appearing tissue in the field of colorectal (CRC) and pancreatic (PC) cancers. Here, we implement the more comprehensive enhanced backscattering (EBS) spectroscopy to better understand the structural and optical changes which lead to the previous findings. EBS provides high-resolution measurement of the spatial reflectance profile Prs between 30 microns and 2.7 mm, where information about nanoscale mass density fluctuations in the mucosa can be quantified. A demonstration of the length-scales at which Prs is optimally altered in CRC and PC field carcinogenesis is given and subsequently these changes are related to the tissue's structural composition. Three main conclusions are made. First, the most significant changes in Prs occur at short length-scales corresponding to the superficial mucosal layer. Second, these changes are predominantly attributable to a reduction in the presence of subdiffractional structures. Third, similar trends are seen for both cancer types, suggesting a common progression of structural alterations in each.
AB - Optical characterization of biological tissue in field carcinogenesis offers a method with which to study the mechanisms behind early cancer development and the potential to perform clinical diagnosis. Previously, lowcoherence enhanced backscattering spectroscopy (LEBS) has demonstrated the ability to discriminate between normal and diseased organs based on measurements of histologically normal-appearing tissue in the field of colorectal (CRC) and pancreatic (PC) cancers. Here, we implement the more comprehensive enhanced backscattering (EBS) spectroscopy to better understand the structural and optical changes which lead to the previous findings. EBS provides high-resolution measurement of the spatial reflectance profile Prs between 30 microns and 2.7 mm, where information about nanoscale mass density fluctuations in the mucosa can be quantified. A demonstration of the length-scales at which Prs is optimally altered in CRC and PC field carcinogenesis is given and subsequently these changes are related to the tissue's structural composition. Three main conclusions are made. First, the most significant changes in Prs occur at short length-scales corresponding to the superficial mucosal layer. Second, these changes are predominantly attributable to a reduction in the presence of subdiffractional structures. Third, similar trends are seen for both cancer types, suggesting a common progression of structural alterations in each.
KW - Enhanced backscattering
KW - coherent backscattering
KW - colorectal cancer
KW - elastic light scattering
KW - inverse scattering
KW - optical properties
KW - pancreatic cancer
KW - spectroscopy
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U2 - 10.1117/1.JBO.18.9.097002
DO - 10.1117/1.JBO.18.9.097002
M3 - Article
C2 - 24008865
AN - SCOPUS:84887833009
SN - 1083-3668
VL - 18
JO - Journal of Biomedical Optics
JF - Journal of Biomedical Optics
IS - 9
M1 - 097002
ER -