Confocal Raman microspectroscopy(CRM)with 633-and 785-nm excitation wavelengths combined with optical clearing(OC)technique was used for ex-vivo study of porcine skin in the Raman fingerprint region.The optical cleari...Confocal Raman microspectroscopy(CRM)with 633-and 785-nm excitation wavelengths combined with optical clearing(OC)technique was used for ex-vivo study of porcine skin in the Raman fingerprint region.The optical clearing has been performed on the skin samples by applying a mixture of glycerol and distilled water and a mixture of glycerol,distilled water and chemical penetration enhancer dimethyl sulfoxide(DMSO)during 30 min and 60 min of treat-ment.It was shown that the combined use of the optical clearing technique and CRM at 633 nm allowed one to preserve the high probing depth,signal-to-noise ratio and spectral resolution simultaneously.Comparing the effect of different optical clearing agents on porcine skin showed that an optical clearing agent containing chemical penetration enhancer provides higher optical clearing efficiency.Also,an increase in treatment time allows to improve the optical clearing efficiency of both optical clearing agents.As a result of optical clearing,the detection of the amide-Ⅲ spectral region indicating well-distinguishable structural differences between the type-Ⅰ and type-Ⅳ collagens has been improved.展开更多
基金Ths work was supported by the VEKOP-2.3.2-16-2016-00011 Grantwhich is co-financed by the European Union and European Social FundValery V.Tuchin was supported by RFBR Grant 18-52-16025 and the Grant of the Government of the Russian Federation(Registration No.2020-220-08-2389).
文摘Confocal Raman microspectroscopy(CRM)with 633-and 785-nm excitation wavelengths combined with optical clearing(OC)technique was used for ex-vivo study of porcine skin in the Raman fingerprint region.The optical clearing has been performed on the skin samples by applying a mixture of glycerol and distilled water and a mixture of glycerol,distilled water and chemical penetration enhancer dimethyl sulfoxide(DMSO)during 30 min and 60 min of treat-ment.It was shown that the combined use of the optical clearing technique and CRM at 633 nm allowed one to preserve the high probing depth,signal-to-noise ratio and spectral resolution simultaneously.Comparing the effect of different optical clearing agents on porcine skin showed that an optical clearing agent containing chemical penetration enhancer provides higher optical clearing efficiency.Also,an increase in treatment time allows to improve the optical clearing efficiency of both optical clearing agents.As a result of optical clearing,the detection of the amide-Ⅲ spectral region indicating well-distinguishable structural differences between the type-Ⅰ and type-Ⅳ collagens has been improved.