6533b858fe1ef96bd12b61a5
RESEARCH PRODUCT
3D multispectral light propagation model for subcutaneous veins imaging
Vincent C. PaquitVincent C. PaquitJeffery R. PriceKenneth W. TobinFabrice Meriaudeausubject
Materials scienceOpticsLight propagationFat contentbusiness.industryQuantitative Biology::Tissues and OrgansTissue ModelMonte Carlo methodMultispectral imageVisible radiationbusinessLayer thicknessMulti layerdescription
In this paper, we describe a new 3D light propagation model aimed at understanding the effects of various physiological properties on subcutaneous vein imaging. In particular, we build upon the well known MCML (Monte Carlo Multi Layer) code and present a tissue model that improves upon the current state-of-the-art by: incorporating physiological variation, such as melanin concentration, fat content, and layer thickness; including veins of varying depth and diameter; using curved surfaces from real arm shapes; and modeling the vessel wall interface. We describe our model, present results from the Monte Carlo modeling, and compare these results with those obtained with other Monte Carlo methods.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-03-06 | SPIE Proceedings |