Determination of in vivo optical properties is a challenging problem. Absorption and
scattering measured ex vivo are often used for in vivo applications. To investigate the validity …

The anisotropy factor g, one of the optical properties of biological tissues, has a strong
influence on the calculation of the scattering coefficient μ s in inverse Monte Carlo (iMC) …

Knowledge of tissue optical properties, in particular the absorption μa and the reduced
scattering coefficient μ s′, is required for diagnostic and therapeutic applications in which …

The optical properties of human tissues are an important parameter in medical diagnostics
and therapy. The knowledge of these parameters can encourage the development of …

Optical properties of different human tissues in vitro have been evaluated by measuring
extinction and absorption coefficients at 635-and 515-nm wavelengths and a scattering …

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 …

The optical properties of different types of tissue were measured in the wavelength range
330-1100 nm. The measurements were carried out in native as well as in coagulated …

A rigorous technique using a Monte Carlo model has been developed to determine the
optical properties of biological tissue from goniometer and integrating sphere …

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 …

Optical characteristics of freshly isolated tissues depend on their color and composition. The
surface backscattered profile, which account for the tissue compositional variation in fresh …