A Robust Monte Carlo Model for the Extraction of Biological Absorption and Scattering In Vivo

TitleA Robust Monte Carlo Model for the Extraction of Biological Absorption and Scattering In Vivo
Publication TypePeer Reviewed Archived Journal Publications
Year of Publication2009
AuthorsBender, JE, Vishwanath, K, Moore, LK, Brown, JQ, Chang, V, Palmer, GM, Ramanujam, N
JournalIEEE Transactions on Biomedical Engineering
Volume56
Issue4
Pagination960 - 968
Date Published04/2009
ISSN1558-2531
Abstract

We have a toolbox to quantify tissue optical properties that is composed of specialized fiberoptic probes for UV-visible diffuse reflectance spectroscopy and a fast, scalable inverse Monte Carlo (MC) model. In this paper, we assess the robustness of the toolbox for quantifying physiologically relevant parameters from turbid tissue-like media. In particular, we consider the effects of using different instruments, fiberoptic probes, and instrument-specific settings for a wide range of optical properties. Additionally, we test the quantitative accuracy of the inverse MC model for extracting the biologically relevant parameters of hemoglobin saturation and total hemoglobin concentration. We also test the effect of double-absorber phantoms (hemoglobin and crocin to model the absorption of hemoglobin and beta carotene, respectively, in the breast) for a range of absorption and scattering properties. We include an assessment on which reference phantom serves as the best calibration standard to enable accurate extraction of the absorption and scattering properties of the target sample. We found the best reference-target phantom combinations to be ones with similar scattering levels. The results from these phantom studies provide a set of guidelines for extracting optical parameters from clinical studies.

DOI10.1109/TBME.2008.2005994
Short TitleIEEE Trans. Biomed. Eng.
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