Optical Assessment of Cutaneous Blood Volume Depends on the Vessel Size Distribution: a Computer Simulation Study
Overview
Authors
Affiliations
A Monte Carlo simulation was adapted to specify a skin model with pigmented epidermis, dermis with low baseline blood content, and vessels of a vascular lesion with an average added blood volume fraction of 5%. In the study, the lesion vessel diameters were increased and the number of lesion vessels decreased, such that the total lesion blood content was constant. The results show that reflectance (R) increases as vessel size increases, even though the blood content is constant. Light cannot penetrate effectively into larger blood vessels, so the interior of the vessel becomes less visible to the light - a result known in the literature. This study did repeated random placement of vessels to learn the variation in R due to variable vessel placement. The coefficient of variation was about 10% due to random placement. R varies with size, even with small vessels, and does not simply apply to large vessels.
Eduardo Girasol C, Moraes J, Bachmann L, Alfredo D, Barbosa R, Guirro E Lasers Med Sci. 2024; 39(1):24.
PMID: 38194210 DOI: 10.1007/s10103-023-03955-3.
Robustness of diffuse reflectance spectra analysis by inverse adding doubling algorithm.
Tomanic T, Rogelj L, Milanic M Biomed Opt Express. 2022; 13(2):921-949.
PMID: 35284194 PMC: 8884198. DOI: 10.1364/BOE.443880.
Ong Y, Zhu T Proc SPIE Int Soc Opt Eng. 2021; 11628.
PMID: 34083858 PMC: 8171224. DOI: 10.1117/12.2582818.
Tholl M, Zurbuchen A, Tanner H, Haeberlin A J Biomed Opt. 2021; 26(3).
PMID: 33694336 PMC: 7946961. DOI: 10.1117/1.JBO.26.3.038002.
Single wavelength measurements of absorption coefficients based on iso-pathlength point.
Feder I, Duadi H, Fixler D Biomed Opt Express. 2020; 11(10):5760-5771.
PMID: 33149984 PMC: 7587282. DOI: 10.1364/BOE.401591.