Mohammed Essendoubi

TL;DR: A different approach based on Raman spectroscopy has been proposed to follow‐up the permeation of actives and presents a high molecular specificity to distinguish exogenous molecules from skin constituents.

TL;DR: This study investigated microcolonies using a method based on Fourier transform-infrared microspectroscopy (FTIRM) for a rapid and early identification of the most frequent Candida species encountered in human pathology, and clearly shows the efficiency and the robustness of FTIR (micro)Spectroscopy in identifying species.

TL;DR: The FTIR spectroscopic approach is applied to different situations encountered in routine mycological diagnosis and the potentials of this phenotypic approach, used in parallel with routine identification methods, for the differentiation of 3 frequently encountered Candida species are shown.

TL;DR: This study shows the potential of FTIR approach for typing of C. glabrata with several advantages compared to other techniques, including fast, effective, and reagent free, and it is applicable to all micro-organisms and requires a small quantity of biomass.

TL;DR: In vivo Raman microspectroscopy use as a rapid and non‐invasive diagnostic technique for lipid conformation and organization, protein secondary structure and bound water content analysis in atopic skin revealed a modification of lipid organization and conformation in addition to the decrease of the lipid‐to‐protein ratio.