Sub-diffuse optical properties have the potential to serve as cancer biomarkers. Sub-diffuse
spatial frequency domain imaging (sd-SFDI) can reveal wide-field heatmaps of these …

Significance: Sub-diffuse optical properties may serve as useful cancer biomarkers, and
wide-field heatmaps of these properties could aid physicians in identifying cancerous tissue …

Analyzing Spatial Frequency Domain Images (SFDI) of tissue in the sub-diffuse domain can
reveal optical properties (μs', γ) of the tissue related to its microstructural composition and …

Spatial frequency domain imaging (SFDI) is a powerful, label-free imaging technique
capable of the wide-field quantitative mapping of tissue optical properties and …

For the first time, spatially resolved quantitative metrics of light scattering recovered with sub‐
diffusive spatial frequency domain imaging (sd‐SFDI) are shown to be sensitive to changes …

Spatial frequency domain imaging (SFDI) is a noncontact and wide-field optical imaging
technology currently being used to study the optical properties and chromophore …

Localized measurements of scattering in biological tissue provide sensitivity to
microstructural morphology but have limited utility to wide-field applications, such as surgical …

Spatial frequency domain imaging (SFDI) is emerging as an important new method in
biomedical imaging due to its ability to provide label-free, wide-field tissue optical property …

Significance: Spatial frequency domain imaging (SFDI) is a diffuse optical measurement
technique that can quantify tissue optical absorption (μa) and reduced scattering (μ s′) on a …

Spatial frequency domain imaging (SFDI) is a wide-field diffuse optical technique used to
obtain optical properties and chromophore concentrations in highly scattering media, such …