Abstract EN:

The Novel 'Dual-Step' Multispectral Imaging Technique that has been developed intends to contribute to the clinical diagnosis of superficial lesions by providing non-invasively quantitative spatial wide field maps of absorption and scattering endogenous optical properties. The approach relies on the combination of a Non-Contact Spatially-resolved Diffuse Reflectance Spectroscopy (DRSsr) technique with a Multispectral Imaging (MSI) technique. Absolute quantification is based on the scattering estimation with Non-Contact DRSsr which is subsequently used by MSI to estimate wide field absorption. The instrumental setups of each technique are built and thoroughly characterized in this work. The optimal quantification of optical properties relies on a newly established calibration algorithm 'ACA-Pro' that achieves minimal estimation errors inferior to 3.3% for scattering and 5.3% for absorption. The developed 'Dual-Step' technique has been validated not only with an extensive intralipid phantom study but also with ex-vivo biological human skin samples and in-vivo inflammation skin models on rats. The results show the potential of the 'Dual-Step' technique as a valid quantitative, wide-field, and non-invasive clinical diagnosis approach.