Tissue phantom for optical diagnostics based<? xpp qa?> on a suspension of microspheres with a fractal<? xpp qa?> size distribution
D Passos, JC Hebden, PN Pinto… - Journal of biomedical …, 2005 - spiedigitallibrary.org
We demonstrate experimentally the possibility of reproducing the phase function,
absorption, and scattering coefficients of a real biological tissue (adult brain white matter
and liver) using a suspension of polystyrene microspheres with a fractal size distribution.
The design of a light scattering goniometer with a cylindrical cell in air is discussed, and
phase function measurements using the device are described. The scattering coefficient is
measured using transmission spectrophotometry and the absorption and reduced scattering …
absorption, and scattering coefficients of a real biological tissue (adult brain white matter
and liver) using a suspension of polystyrene microspheres with a fractal size distribution.
The design of a light scattering goniometer with a cylindrical cell in air is discussed, and
phase function measurements using the device are described. The scattering coefficient is
measured using transmission spectrophotometry and the absorption and reduced scattering …
We demonstrate experimentally the possibility of reproducing the phase function, absorption, and scattering coefficients of a real biological tissue (adult brain white matter and liver) using a suspension of polystyrene microspheres with a fractal size distribution. The design of a light scattering goniometer with a cylindrical cell in air is discussed, and phase function measurements using the device are described. The scattering coefficient is measured using transmission spectrophotometry and the absorption and reduced scattering coefficients are measured using a time-resolved method. A good match between real tissue and phantom parameters is demonstrated.
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