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) …

We present a simple, convenient fibre-optics probe system for the determination optical
properties of tissue-like liquid phantoms based on diffuse reflectance and transmittance …

Local and superficial optical property characterization of biological tissues can be performed
by measuring spatially-resolved diffuse reflectance at small source-detector separations …

A time-resolved reflectance and transmittance spectrophotometer was developed and used
to evaluate noninvasively and simultaneously the absorption and transport scattering …

The accurate, quantitative analysis of absorption and scattering properties in tissue is a
central problem in biochemical optics, in particular for the determination of hemoglobin and …

The results of this study clarify the influence of probe geometry on spectroscopic
measurements obtained from the surface of a turbid biological tissue. We show that the …

Near-infrared (NIR) optical properties of turbid media, eg, tissue, can be accurately
quantified noninvasively using methods based on diffuse reflectance or transmittance, such …

Medical imaging with laser radiation, especially for early detection of cancer is gaining
importance as this is based on refractive index variation which is quite sensitive parameter …

We determine the optical properties of whole blood samples in the near infrared spectral
range from double integrating sphere measurements using an inverse Monte Carlo …

Optical differentiation is a promising tool in biomedical diagnosis mainly because of its
safety. The optical parameters' values of biological tissues differ according to the …