2‐D mapping of skin chromophores in the spectral range 500 – 700 nm

The multi‐spectral imaging technique has been used for distant mapping of in‐vivo skin chromophores by analyzing spectral data at each reflected image pixel and constructing 2‐D maps of the relative concentrations of oxy‐/deoxy‐haemoglobin and melanin. Instead of using a broad visible‐NIR spectral range, this study focuses on narrowed spectral band 500–700 nm, speeding‐up the signal processing procedure. Regression analysis confirmed that superposition of three Gaussians is optimal analytic approximation for the oxy‐haemoglobin absorption tabular spectrum in this spectral band, while superposition of two Gaussians fits well for deoxy‐haemoglobin absorption and exponential function – for melanin absorption. The proposed approach was clinically tested for three types of in‐vivo skin provocations: ultraviolet irradiance, chemical reaction with vinegar essence and finger arterial occlusion. Spectral range 500–700 nm provided better sensitivity to oxy‐haemoglobin changes and higher response stability to melanin than two reduced ranges 500–600 nm and 530–620 nm. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)