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Proceedings Paper

Determination of optical tissue properties with double integrating sphere technique and Monte Carlo simulations
Author(s): Andre Roggan; Olaf Minet; Christian Schroeder; Gerhard J. Mueller
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Paper Abstract

The optical properties of white matter human brain, canine prostate and pig liver were measured in the wavelength range 330 - 1100 nm. The measurements were carried out in native as well as in coagulated tissues. We used the double integrating sphere technique to provide reflection and transmission measurements and a special homogenizing technique to prepare the tissue. The optical properties were evaluated using an inverse Monte-Carlo simulation, considering the geometry of the experimental set-up. All tissues show characteristic absorption bands at 420 nm and 550 nm, related to the strong absorption of haemoglobin. After coagulation the scattering increases drastically while absorption remains nearly unchanged. The anisotropy factor g increases with increasing wavelength and drops down slightly after coagulation. The wavelength behavior of tissue scattering has been compared with theoretical calculations (Mie-theory), showing that ideal spheres with an diameter between 0.6 and 0.8 micrometers fit best to the experimental results.

Paper Details

Date Published: 28 June 1994
PDF: 15 pages
Proc. SPIE 2100, Cell and Biotissue Optics: Applications in Laser Diagnostics and Therapy, (28 June 1994); doi: 10.1117/12.179026
Show Author Affiliations
Andre Roggan, Laser-Medizin-Zentrum GmbH (Germany)
Olaf Minet, Laser-Medizin-Zentrum GmbH (Germany)
Christian Schroeder, Laser-Medizin-Zentrum GmbH (Germany)
Gerhard J. Mueller, Laser-Medizin-Zentrum GmbH (Germany)


Published in SPIE Proceedings Vol. 2100:
Cell and Biotissue Optics: Applications in Laser Diagnostics and Therapy
Valery V. Tuchin, Editor(s)

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