Title :
Physics-Based Subsurface Visualization of Human Tissue
Author :
Sharp, Richard ; Adams, Jacob ; Machiraju, Raghu ; Lee, Robert ; Crane, Robert
Author_Institution :
Dept. of Comput. & Inf. Sci., Ohio State Univ., Columbus, OH
Abstract :
In this paper, we present a framework for simulating light transport in three-dimensional tissue with inhomogeneous scattering properties. Our approach employs a computational model to simulate light scattering in tissue through the finite element solution of the diffusion equation. Although our model handles both visible and nonvisible wavelengths, we especially focus on the interaction of near infrared (NIR) light with tissue. Since most human tissue is permeable to NIR light, tools to noninvasively image tumors, blood vasculature, and monitor blood oxygenation levels are being constructed. We apply this model to a numerical phantom to visually reproduce the images generated by these real-world tools. Therefore, in addition to enabling inverse design of detector instruments, our computational tools produce physically-accurate visualizations of subsurface structures
Keywords :
bio-optics; biodiffusion; biomedical optical imaging; blood; cancer; data visualisation; finite element analysis; infrared imaging; light scattering; medical image processing; permeability; phantoms; rendering (computer graphics); solid modelling; tumours; NIR light; blood oxygenation levels monitoring; blood vasculature; diffusion equation; finite element solution; human tissue; inhomogeneous scattering properties; light scattering; light transport simulation; near infrared light; noninvasively image tumors; nonvisible wavelengths; physics-based subsurface visualization; three-dimensional tissue; visible wavelengths; Blood; Computational modeling; Equations; Finite element methods; Humans; Light scattering; Monitoring; Neoplasms; Numerical models; Visualization; Volume rendering; biological tissue; light scattering.; near infrared;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2007.1003
