This study utilizes experimentally validated Monte Carlo simulations to identify a
mathematical formulation of the reflectance intensity collected by a single fiber probe …

This study presents a methodology to accurately extract the absorption coefficient from
single fiber reflectance spectra measured in turbid media without a priori knowledge of …

Multiple diameter single fiber reflectance (MDSFR) measurements of turbid media can be
used to determine the reduced scattering coefficient (μ′ s) and a parameter that …

This paper presents a relationship between the intensity collected by a single fiber
reflectance device (RSF) and the fiber diameter (dfib) and the reduced scattering coefficient …

Single fiber reflectance spectroscopy is a method to noninvasively quantitate tissue
absorption and scattering properties. This study utilizes a Monte Carlo (MC) model to …

Multidiameter single fiber reflectance (MDSFR) spectroscopy is a method that allows the
quantification of μs′ and the phase-function-dependent parameter γ of a turbid medium by …

Fiber-optic probes are widely used in optical spectroscopy of biological tissues and other
turbid media. Only limited information exists, however, on the ways in which the illumination …

Quantitative determination of fluorophore content from fluorescence measurements in turbid
media, such as tissue, is complicated by the influence of scattering properties on the …

We propose and objectively evaluate an inverse Monte Carlo model for estimation of
absorption and reduced scattering coefficients and similarity parameter γ from spatially …

Measurement of tissue optical absorption and (transport) reduced scattering coefficients
(μ_a and μ_s', respectively) is fundamental to many applications of light in medicine and …