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| Publications [#172251] of Gregory M Palmer
Papers Published
- GM Palmer, N Ramanujam, Monte Carlo-based inverse model for calculating tissue optical properties. Part I: Theory and validation on synthetic phantoms.,
Applied optics, vol. 45 no. 5
(February, 2006),
pp. 1062-71, ISSN 0003-6935
(last updated on 2013/07/01)
Abstract:
A flexible and fast Monte Carlo-based model of diffuse reflectance has been developed for the extraction of the absorption and scattering properties of turbid media, such as human tissues. This method is valid for a wide range of optical properties and is easily adaptable to existing probe geometries, provided a single phantom calibration measurement is made. A condensed Monte Carlo method was used to speed up the forward simulations. This model was validated by use of two sets of liquid-tissue phantoms containing Nigrosin or hemoglobin as absorbers and polystyrene spheres as scatterers. The phantoms had a wide range of absorption (0-20 cm(-1)) and reduced scattering coefficients (7-33 cm(-1)). Mie theory and a spectrophotometer were used to determine the absorption and reduced scattering coefficients of the phantoms. The diffuse reflectance spectra of the phantoms were measured over a wavelength range of 350-850 nm. It was found that optical properties could be extracted from the experimentally measured diffuse reflectance spectra with an average error of 3% or less for phantoms containing hemoglobin and 12% or less for phantoms containing Nigrosin.
Keywords:
Algorithms* • Animals • Connective Tissue • Humans • Models, Biological* • Models, Statistical • Monte Carlo Method • Phantoms, Imaging • Refractometry • Spectrum Analysis • chemistry* • methods* • physiology*
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