Image reconstruction for optical tomography using photon density waves

Author

Khalaf, R. ; Higgins, J.E. ; Roy, R. ; Der Zee, Piet Van ; Dixon, L. ; Davies, A.

Author_Institution

Dept. of Phys. Sci., Hertfordshire Univ., Hatfield, UK

fYear

1997

fDate

35522

Firstpage

42370

Lastpage

42376

Abstract

Various investigations into the nature of light-tissue interaction have indicated that near infrared (NIR) light can be used to penetrate substantial depths of biological tissue. At near infrared wavelengths (700-1300 nm), scattering dominates absorption, which makes the calculation of the light distribution and therefore the reconstruction of absorption and scattering coefficients difficult. Several analytical and numerical approaches such as the diffusion theory and the Monte Carlo simulations have been used to calculate the light distribution in turbid media. In this paper the diffusion of photons is considered in the steady-state domain. The optical image reconstruction is based on the diffusion approximation and simulation is done using the finite element method. Results are given for the forward model, in both homogeneous and heterogeneous cases

Keywords

image reconstruction; 700 to 1300 nm; Monte Carlo simulations; absorption; biological tissue; diffusion approximation; diffusion theory; finite element method; forward model; heterogeneous case; homogeneous case; light distribution; light-tissue interaction; near infrared wavelengths; optical image reconstruction; optical tomography; photon density waves; scattering; steady-state domain; turbid media;

fLanguage

English

Publisher

iet

Conference_Titel

Biomedical Applications of Photonics (Digest No. 1997/124), IEE Colloquium on

Conference_Location

London

Type

conf

DOI

10.1049/ic:19970677

Filename

643671